Signal Labels and Tag Names

This table contains signals in the NSTX Model tree and their corresponding labels. The NSTX model tree contains over 15,000 rows and so this is not the complete tree but rather a subset of signals that are deemed most relevant to users. In particular, raw data signal nodes beneath rawdata branches are intentionally omitted.

Links to labels for specific trees
ACTIVESPEC
Tag Full Path to Node Label/Description
\MPTS_CAM1_FRAMES \ACTIVESPEC::TOP.ACTIVESP_RAW.MPTS.CAM1:FRAMES Label empty
no tag available \ACTIVESPEC::TOP.ACTIVESP_RAW.MPTS.CAM2:FRAMES Label empty
no tag available \ACTIVESPEC::TOP.ACTIVESP_RAW.MPTS.CAM3:FRAMES Label empty
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:ATI Apparent ion temperature
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:AVT Apparent toroidal velocity
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:AW Cx brightness
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:AWB Bkg brightness
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:DAW Cx brightness error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:DAWB Bkg brightness error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:DDEN Sampled electron density error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:DEN Sampled electron density
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:DFT Toroidal rotation frequency error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:DMDEN Mass density error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:DNC Carbon density error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:DND Deuterium density error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:DPI Ion pressure error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:DPT Dynamic toroidal pressure error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:DTI Ion temperature error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:DVT Toroidal velocity error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:DZEFF Effective charge error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:FT Toroidal rotation frequency
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:MDEN Mass density
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:NC Carbon density
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:NCS Spline carbon density
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:ND Deuterium density
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:PI Total ion pressure
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:PT Dynamic toroidal pressure
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:SVALID Spline valid fitted data
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:TDEN Sampled electron density time
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:TI Ion temperature
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:TIS Spline ion temperature
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:VALID Valid fitted data
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:VT Toroidal velocity
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:VTS Spline toroidal velocity
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:ZEFF Effective charge
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:ZEFFS Spline effective charge
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT1:ZTI Zeeman corrected ion temperature
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:ATI Apparent ion temperature
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:AVT Apparent toroidal velocity
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:AW Cx brightness
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:AWB Bkg brightness
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:DAW Cx brightness error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:DAWB Bkg brightness error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:DDEN Sampled electron density error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:DEN Sampled electron density
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:DFT Toroidal rotation frequency error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:DMDEN Mass density error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:DNC Carbon density error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:DND Deuterium density error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:DPI Ion pressure error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:DPT Dynamic toroidal pressure error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:DTI Ion temperature error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:DVT Toroidal velocity error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:DZEFF Effective charge error
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:FT Toroidal rotation frequency
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:MDEN Mass density
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:NC Carbon density
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:NCS Spline carbon density
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:ND Deuterium density
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:PI Total ion pressure
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:PT Dynamic toroidal pressure
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:SVALID Spline valid fitted data
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:TDEN Sampled electron density time
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:TI Ion temperature
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:TIS Spline ion temperature
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:VALID Valid fitted data
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:VT Toroidal velocity
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:VTS Spline toroidal velocity
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:ZEFF Effective charge
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:ZEFFS Spline effective charge
no tag available \ACTIVESPEC::TOP.CHERS.ANALYSIS.CT2:ZTI Zeeman corrected ion temperature
\VFIDA_NBI \ACTIVESPEC::TOP.FIDA.SFIDA.ANALYSIS:NBI_PROFILE Label empty
\VFIDA_PROFILE \ACTIVESPEC::TOP.FIDA.SFIDA.ANALYSIS:PROFILE Label empty
\VFIDA_PROFILE_ERR \ACTIVESPEC::TOP.FIDA.SFIDA.ANALYSIS:PROFILE_ERR Label empty
\VFIDA_SPECTRUM \ACTIVESPEC::TOP.FIDA.SFIDA.ANALYSIS:SPECTRUM Label empty
\VFIDA_SPECTRUM_ERR \ACTIVESPEC::TOP.FIDA.SFIDA.ANALYSIS:SPECTRUM_ERR Label empty
\TFIDA_NBI \ACTIVESPEC::TOP.FIDA.TFIDA.ANALYSIS:NBI_PROFILE Label empty
\TFIDA_PROFILE \ACTIVESPEC::TOP.FIDA.TFIDA.ANALYSIS:PROFILE Label empty
\TFIDA_PROFILE_ERR \ACTIVESPEC::TOP.FIDA.TFIDA.ANALYSIS:PROFILE_ERR Label empty
\TFIDA_SPECTRUM \ACTIVESPEC::TOP.FIDA.TFIDA.ANALYSIS:SPECTRUM Label empty
\TFIDA_SPECTRUM_ERR \ACTIVESPEC::TOP.FIDA.TFIDA.ANALYSIS:SPECTRUM_ERR Label empty
\NEF \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.BEST:FIT_NE Label empty
\PEF \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.BEST:FIT_PE Label empty
\TEF \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.BEST:FIT_TE Label empty
\NES \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.BEST:SPLINE_NE Label empty
\PES \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.BEST:SPLINE_PE Label empty
\TES \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.BEST:SPLINE_TE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.BEST:SVALID Label empty
\TS_LD \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.BEST:TS_LD Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.BEST:VALID Valid fitted data
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS2:FIT_NE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS2:FIT_PE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS2:FIT_TE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS2:SPLINE_NE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS2:SPLINE_PE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS2:SPLINE_TE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS2:SVALID Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS2:TS_LD Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS2:VALID Valid fitted data
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS3:FIT_NE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS3:FIT_PE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS3:FIT_TE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS3:NEBAR Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS3:REDGE_NE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS3:REDGE_PE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS3:REDGE_TE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS3:SPLINE_NE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS3:SPLINE_PE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS3:SPLINE_TE Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS3:TS_LD Label empty
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS3:VALID Valid fitted data
no tag available \ACTIVESPEC::TOP.MPTS.OUTPUT_DATA.TS3:SVALID Label empty
CAMERAS
Tag Full Path to Node Label/Description
\EG_DATA \CAMERAS::TOP.EDGE_NEUTRAL.RAWDATA:DATA Edge neutral (eg) dalsa ca-d1
\PH7_1_FAVG \CAMERAS::TOP.FC_1.RAWDATA:FRAMES_AVG Average intensity of image vs. time
\PH7_1_FMAX \CAMERAS::TOP.FC_1.RAWDATA:FRAMES_MAX Max intensity of image vs. time
\PH7_2_FAVG \CAMERAS::TOP.FC_2.RAWDATA:FRAMES_AVG Average intensity of image vs. time
\PH7_2_FMAX \CAMERAS::TOP.FC_2.RAWDATA:FRAMES_MAX Max intensity of image vs. time
\PH7_3_FAVG \CAMERAS::TOP.FC_3.RAWDATA:FRAMES_AVG Average intensity of image vs. time
\PH7_3_FMAX \CAMERAS::TOP.FC_3.RAWDATA:FRAMES_MAX Max intensity of image vs. time
\PH7_4_FAVG \CAMERAS::TOP.FC_4.RAWDATA:FRAMES_AVG Average intensity of image vs. time
\PH7_4_FMAX \CAMERAS::TOP.FC_4.RAWDATA:FRAMES_MAX Max intensity of image vs. time
\PH7_5_FAVG \CAMERAS::TOP.FC_5.RAWDATA:FRAMES_AVG Average intensity of image vs. time
\PH7_5_FMAX \CAMERAS::TOP.FC_5.RAWDATA:FRAMES_MAX Max intensity of image vs. time
\PH7_6_FAVG \CAMERAS::TOP.FC_6.RAWDATA:FRAMES_AVG Average intensity of image vs. time
\PH7_6_FMAX \CAMERAS::TOP.FC_6.RAWDATA:FRAMES_MAX Max intensity of image vs. time
\PH7_7_FAVG \CAMERAS::TOP.FC_7.RAWDATA:FRAMES_AVG Average intensity of image vs. time
\PH7_7_FMAX \CAMERAS::TOP.FC_7.RAWDATA:FRAMES_MAX Max intensity of image vs. time
\PH7_8_FAVG \CAMERAS::TOP.FC_8.RAWDATA:FRAMES_AVG Average intensity of image vs. time
\PH7_8_FMAX \CAMERAS::TOP.FC_8.RAWDATA:FRAMES_MAX Max intensity of image vs. time
CAMERAS2
Tag Full Path to Node Label/Description
no tag available \CAMERAS2::TOP.EDGE_NEUTRAL:CALIB_FRAME Frame to multiply raw data frame by
no tag available \CAMERAS2::TOP.EDGE_NEUTRAL:DARK_FRAME Background frame to subtract from raw data frame
no tag available \CAMERAS2::TOP.FASTSOFTXRAY:FRAMES Fast tangential soft x-ray camera images
\FC3D \CAMERAS2::TOP.FAST_CAMERA:FRAMES Fast camera 3-d array
\CAM1RSIGNAL \CAMERAS2::TOP.D1CCD_CAM1:CAM1SIGDATA Divertor 1d ccd camera 1
\CAM2RSIGNAL \CAMERAS2::TOP.D1CCD_CAM2:CAM2SIGDATA Divertor 1d ccd camera 2
\CAM3RSIGNAL \CAMERAS2::TOP.D1CCD_CAM3:CAM3SIGDATA Divertor 1d ccd camera 3
\CAM4RSIGNAL \CAMERAS2::TOP.D1CCD_CAM4:CAM4SIGDATA Divertor 1d ccd camera 4
\CAM5RSIGNAL \CAMERAS2::TOP.D1CCD_CAM5:CAM5SIGDATA Divertor 1d ccd camera 5
DERIVED
Tag Full Path to Node Label/Description
\FTOR \DERIVED::TOP:FTOR Toroidal flux
no tag available \DERIVED::TOP:KAPPA Kappa
no tag available \DERIVED::TOP:LINE_TEMP Line-integrated temperature
\PLOSSF \DERIVED::TOP:PLOSSF Loss power (filtered)
\TAUMHDF \DERIVED::TOP:TAUMHDF Energy confinement time (filtered)
\VSCORR \DERIVED::TOP:VSCORR Corrected surface voltage
\WMHDF \DERIVED::TOP:WMHDF Wmhd (filtered)
\TAU89P \DERIVED::TOP:SCALING:TAU89P Tau89p scaling
\TAU96P \DERIVED::TOP:SCALING:TAU96P Tau96p scaling
\TAU99Y \DERIVED::TOP:SCALING:TAU99Y Tau99y scaling
\TAU99Y1 \DERIVED::TOP:SCALING:TAU99Y1 Tau99y1 scaling
\TAU99Y2 \DERIVED::TOP:SCALING:TAU99Y2 Tau99y2 scaling
\TAUEH \DERIVED::TOP:SCALING:TAUEH Taueh scaling
\TAUNA \DERIVED::TOP:SCALING:TAUNA Tauna scaling
\TAURL \DERIVED::TOP:SCALING:TAURL Taurl scaling
\TSTART \DERIVED::TOP:SCALING:TSTART Tstart scaling
EDGE
Tag Full Path to Node Label/Description
no tag available \EDGE::TOP.BEAP:BOP_VOLTAGE Beap bop voltage
no tag available \EDGE::TOP.BEAP:E1_CURRENT Beap electrode 1 current
no tag available \EDGE::TOP.BEAP:E1_VOLTAGE Beap electrode 1 voltage
no tag available \EDGE::TOP.BEAP:E2_CURRENT Beap electrode 2 current
no tag available \EDGE::TOP.BEAP:E2_VOLTAGE Beap electrode 2 voltage
no tag available \EDGE::TOP.BEAP:E3_CURRENT Beap electrode 3 current
no tag available \EDGE::TOP.BEAP:E3_VOLTAGE Beap electrode 3 voltage
no tag available \EDGE::TOP.BEAP:E4_CURRENT Beap electrode 4 current
no tag available \EDGE::TOP.BEAP:E4_VOLTAGE Beap electrode 4 voltage
no tag available \EDGE::TOP.BEAP:P1_CURRENT Beap probe 1 current
no tag available \EDGE::TOP.BEAP:P1_VOLTAGE Beap probe 1 voltage
no tag available \EDGE::TOP.BEAP:P2_CURRENT Beap probe 2 current
no tag available \EDGE::TOP.BEAP:P2_VOLTAGE Beap probe 2 voltage
no tag available \EDGE::TOP.BEAP:P3_CURRENT Beap probe 3 current
no tag available \EDGE::TOP.BEAP:P3_VOLTAGE Beap probe 3 voltage
no tag available \EDGE::TOP.BEAP:P4_CURRENT Beap probe 4 current
no tag available \EDGE::TOP.BEAP:P4_VOLTAGE Beap probe 4 voltage
no tag available \EDGE::TOP.BEAP:P5_CURRENT Beap probe 5 current
no tag available \EDGE::TOP.BEAP:P5_VOLTAGE Beap probe 5 voltage
\FP_DPI \EDGE::TOP.FASTPROBES.CALIBRATED:DPI Label empty
\FP_DPV \EDGE::TOP.FASTPROBES.CALIBRATED:DPV Label empty
\FP_FASTPOS \EDGE::TOP.FASTPROBES.CALIBRATED:FASTPOS Label empty
\FP_ISAT1 \EDGE::TOP.FASTPROBES.CALIBRATED:ISAT1 Label empty
\FP_MACH1 \EDGE::TOP.FASTPROBES.CALIBRATED:MACH1 Label empty
\FP_MACH2 \EDGE::TOP.FASTPROBES.CALIBRATED:MACH2 Label empty
\FP_MAV \EDGE::TOP.FASTPROBES.CALIBRATED:MAV Label empty
\FP_POSITION \EDGE::TOP.FASTPROBES.CALIBRATED:POSITION Label empty
\FP_SLOWPOS \EDGE::TOP.FASTPROBES.CALIBRATED:SLOWPOS Label empty
\FP_VF_ER1 \EDGE::TOP.FASTPROBES.CALIBRATED:VF_ER1 Label empty
\FP_VF_ER2 \EDGE::TOP.FASTPROBES.CALIBRATED:VF_ER2 Label empty
\FP_VF_ET_MI \EDGE::TOP.FASTPROBES.CALIBRATED:VF_ET_MI Label empty
\FP_VF_ET_TO \EDGE::TOP.FASTPROBES.CALIBRATED:VF_ET_TO Label empty
no tag available \EDGE::TOP.LPARRAY.SOLCPARA.P01:CURRENT Solcpara p01 current
no tag available \EDGE::TOP.LPARRAY.SOLCPARA.P02:CURRENT Solcpara p02 current
no tag available \EDGE::TOP.LPARRAY.SOLCPARA.P03:CURRENT Solcpara p03 current
no tag available \EDGE::TOP.LPARRAY.SOLCPERP.P01:VOLTAGE Solcperp p01 voltage
no tag available \EDGE::TOP.LPARRAY.SOLCPERP.P02:CURRENT Solcperp p02 current
no tag available \EDGE::TOP.LPARRAY.SWEPT.P01:CURRENT Swept p01 current
no tag available \EDGE::TOP.LPARRAY.SWEPT.P02:CURRENT Swept p02 current
no tag available \EDGE::TOP.LPARRAY.SWEPT.P03:CURRENT Swept p03 current
no tag available \EDGE::TOP.LPARRAY.SWEPT.P04:CURRENT Swept p04 current
no tag available \EDGE::TOP.LPARRAY.TLP.P01.CURRENT:VALUES Tlp p01 current
no tag available \EDGE::TOP.LPARRAY.TLP.P01.V1:VALUES Tlp p01 v1
no tag available \EDGE::TOP.LPARRAY.TLP.P01.VFLOAT:VALUES Tlp p01 vfloat
no tag available \EDGE::TOP.LPARRAY.TLP.P02.CURRENT:VALUES Tlp p02 current
no tag available \EDGE::TOP.LPARRAY.TLP.P02.V1:VALUES Tlp p02 v1
no tag available \EDGE::TOP.LPARRAY.TLP.P02.VFLOAT:VALUES Tlp p02 vfloat
no tag available \EDGE::TOP.LPARRAY.TLP.P03.CURRENT:VALUES Tlp p03 current
no tag available \EDGE::TOP.LPARRAY.TLP.P03.V1:VALUES Tlp p03 v1
no tag available \EDGE::TOP.LPARRAY.TLP.P03.VFLOAT:VALUES Tlp p03 vfloat
no tag available \EDGE::TOP.LPARRAY.TLP.P04.CURRENT:VALUES Tlp p04 current
no tag available \EDGE::TOP.LPARRAY.TLP.P04.V1:VALUES Tlp p04 v1
no tag available \EDGE::TOP.LPARRAY.TLP.P04.VFLOAT:VALUES Tlp p04 vfloat
no tag available \EDGE::TOP.LPARRAY.TLP.P05.CURRENT:VALUES Tlp p05 current
no tag available \EDGE::TOP.LPARRAY.TLP.P05.V1:VALUES Tlp p05 v1
no tag available \EDGE::TOP.LPARRAY.TLP.P05.VFLOAT:VALUES Tlp p05 vfloat
no tag available \EDGE::TOP.LPARRAY.TLP.P06.CURRENT:VALUES Tlp p06 current
no tag available \EDGE::TOP.LPARRAY.TLP.P06.V1:VALUES Tlp p06 v1
no tag available \EDGE::TOP.LPARRAY.TLP.P06.VFLOAT:VALUES Tlp p06 vfloat
no tag available \EDGE::TOP.LPARRAY.TLP.P07.CURRENT:VALUES Tlp p07 current
no tag available \EDGE::TOP.LPARRAY.TLP.P07.V1:VALUES Tlp p07 v1
no tag available \EDGE::TOP.LPARRAY.TLP.P07.VFLOAT:VALUES Tlp p07 vfloat
no tag available \EDGE::TOP.LPARRAY.TLP.P08.CURRENT:VALUES Tlp p08 current
no tag available \EDGE::TOP.LPARRAY.TLP.P08.V1:VALUES Tlp p08 v1
no tag available \EDGE::TOP.LPARRAY.TLP.P08.VFLOAT:VALUES Tlp p08 vfloat
no tag available \EDGE::TOP.LPARRAY.TLP.P09.CURRENT:VALUES Tlp p09 current
no tag available \EDGE::TOP.LPARRAY.TLP.P09.V1:VALUES Tlp p09 v1
no tag available \EDGE::TOP.LPARRAY.TLP.P09.VFLOAT:VALUES Tlp p09 vfloat
no tag available \EDGE::TOP.LPARRAY.TLP.P10.CURRENT:VALUES Tlp p10 current
no tag available \EDGE::TOP.LPARRAY.TLP.P10.V1:VALUES Tlp p10 v1
no tag available \EDGE::TOP.LPARRAY.TLP.P10.VFLOAT:VALUES Tlp p10 vfloat
EFIT01
Tag Full Path to Node Label/Description
\ALPHA \EFIT01::TOP.RESULTS.AEQDSK:ALPHA Shafranov boundary line integral parameter
\AMINOR \EFIT01::TOP.RESULTS.AEQDSK:AMINOR Minor radius
\AREA \EFIT01::TOP.RESULTS.AEQDSK:AREA Cross section area
\ATIME \EFIT01::TOP.RESULTS.AEQDSK:ATIME Timebase for a0 signals
\BCENTRA \EFIT01::TOP.RESULTS.AEQDSK:BCENTR Vacuum toroidal magnetic field at rcenrm
\BETAN \EFIT01::TOP.RESULTS.AEQDSK:BETAN Normalized beta (calculated by reada.pro)
\BETAP \EFIT01::TOP.RESULTS.AEQDSK:BETAP Beta poloidal
\EFIT_GEQDSK \EFIT01::TOP.RESULTS.AEQDSK:BETAPD Diamagnetic poloidal beta
\BETAPW \EFIT01::TOP.RESULTS.AEQDSK:BETAPW Label empty
\BETAT \EFIT01::TOP.RESULTS.AEQDSK:BETAT Toroidal beta
\BETATB \EFIT01::TOP.RESULTS.AEQDSK:BETATB Label empty
\BETATD \EFIT01::TOP.RESULTS.AEQDSK:BETATD Diamagnetic toroidal beta
\BETATW \EFIT01::TOP.RESULTS.AEQDSK:BETATW Label empty
\BPOLAV \EFIT01::TOP.RESULTS.AEQDSK:BPOLAV Average poloidal field defined through ampere's law
\BT0 \EFIT01::TOP.RESULTS.AEQDSK:BT0 Toroidal field at magnetic axis
\BT0VAC \EFIT01::TOP.RESULTS.AEQDSK:BT0VAC Vacuum toroidal field at magnetic axis
\CCBRSP \EFIT01::TOP.RESULTS.AEQDSK:CCBRSP Currents in shaping coils
\CHIDFLUX \EFIT01::TOP.RESULTS.AEQDSK:CHIDFLUX Label empty
\CHIECE \EFIT01::TOP.RESULTS.AEQDSK:CHIECE Label empty
\CHIECEBZ \EFIT01::TOP.RESULTS.AEQDSK:CHIECEBZ Label empty
\CHIMSE \EFIT01::TOP.RESULTS.AEQDSK:CHIMSE Mse chi^2
\CHIPRE \EFIT01::TOP.RESULTS.AEQDSK:CHIPRE Pressure chi^2
\CHIPRW \EFIT01::TOP.RESULTS.AEQDSK:CHIPRW Label empty
\CHISQ \EFIT01::TOP.RESULTS.AEQDSK:CHISQ Magnetic chi^2
\CHISQTOT \EFIT01::TOP.RESULTS.AEQDSK:CHISQTOT Label empty
\CMPR2 \EFIT01::TOP.RESULTS.AEQDSK:CMPR2 Magnetic field at pickup coil
\CPROF \EFIT01::TOP.RESULTS.AEQDSK:CPROF Current profile parametrization parameter
\CSILOP \EFIT01::TOP.RESULTS.AEQDSK:CSILOP Magnetic flux through toroidal flux loop
\DENSITY \EFIT01::TOP.RESULTS.AEQDSK:DENSITY Density from either densv2 or densr0
\DENSR0 \EFIT01::TOP.RESULTS.AEQDSK:DENSR0 Line averaged density from co2 interfermeter chord r0
\DENSV1 \EFIT01::TOP.RESULTS.AEQDSK:DENSV1 Line averaged density from co2 interfermeter chord v1
\DENSV2 \EFIT01::TOP.RESULTS.AEQDSK:DENSV2 Line averaged density from co2 interfermeter chord v2
\DENSV3 \EFIT01::TOP.RESULTS.AEQDSK:DENSV3 Line averaged density from co2 interfermeter chord v3
\DIAMAG \EFIT01::TOP.RESULTS.AEQDSK:DIAMAG Diamagnetic loop signal
\DIAMGC \EFIT01::TOP.RESULTS.AEQDSK:DIAMGC Computed diamagnetic flux
\DITE \EFIT01::TOP.RESULTS.AEQDSK:DITE ???waiting for info from ted strait???
\DRSEP \EFIT01::TOP.RESULTS.AEQDSK:DRSEP Outboard radial distance to external second separatrix for single null configurations. positive for double nulls or single top null and negative for single bottom null.
\ECCURT \EFIT01::TOP.RESULTS.AEQDSK:ECCURT Currents in oh coils
\ERROR \EFIT01::TOP.RESULTS.AEQDSK:ERROR Convergence error
\FEXPAN \EFIT01::TOP.RESULTS.AEQDSK:FEXPAN Flux expansion at x point
\FEXPVS \EFIT01::TOP.RESULTS.AEQDSK:FEXPVS Flux expansion at outer lower vessel strike point
\GAPBOT \EFIT01::TOP.RESULTS.AEQDSK:GAPBOT Bottom gap
\GAPIN \EFIT01::TOP.RESULTS.AEQDSK:GAPIN Inboard gap
\GAPOUT \EFIT01::TOP.RESULTS.AEQDSK:GAPOUT Outboard gap
\GAPTOP \EFIT01::TOP.RESULTS.AEQDSK:GAPTOP Top gap
\IN \EFIT01::TOP.RESULTS.AEQDSK:IN Normalized current
\INDENT \EFIT01::TOP.RESULTS.AEQDSK:INDENT Indentation
\IPMEAS \EFIT01::TOP.RESULTS.AEQDSK:IPMEAS Measured plasma current
\IPMHD \EFIT01::TOP.RESULTS.AEQDSK:IPMHD Fitted plasma current
\J0N \EFIT01::TOP.RESULTS.AEQDSK:J0N Normalized current density at the magnetic axis
\J1N \EFIT01::TOP.RESULTS.AEQDSK:J1N Normalized average current density in outer 5% of poloidal flux
\J95N \EFIT01::TOP.RESULTS.AEQDSK:J95N Normalized flux surface average current density at 95% of normalized poloidal flux
\J99N \EFIT01::TOP.RESULTS.AEQDSK:J99N Normalized flux surface average current density at 99% of normalized poloidal flux
\JFLAG \EFIT01::TOP.RESULTS.AEQDSK:JFLAG Label empty
\KAPPA \EFIT01::TOP.RESULTS.AEQDSK:KAPPA Elongation at plasma boundary
\KAPPA0 \EFIT01::TOP.RESULTS.AEQDSK:KAPPA0 Elongation at magnetic axis
\LFLAG \EFIT01::TOP.RESULTS.AEQDSK:LFLAG Label empty
\LI \EFIT01::TOP.RESULTS.AEQDSK:LI Internal inductance
\MFVERS \EFIT01::TOP.RESULTS.AEQDSK:MFVERS Label empty
\NEBAR_R0 \EFIT01::TOP.RESULTS.AEQDSK:NEBAR_R0 Line averaged density from interferometer chord r0
\NEBAR_V1 \EFIT01::TOP.RESULTS.AEQDSK:NEBAR_V1 Line averaged density from interferometer chord v1
\NEBAR_V2 \EFIT01::TOP.RESULTS.AEQDSK:NEBAR_V2 Line averaged density from interferometer chord v2
\NEBAR_V3 \EFIT01::TOP.RESULTS.AEQDSK:NEBAR_V3 Line averaged density from interferometer chord v3
\NINDX \EFIT01::TOP.RESULTS.AEQDSK:NINDX Vertical stability index
\ORING \EFIT01::TOP.RESULTS.AEQDSK:ORING ???
\PATHR0 \EFIT01::TOP.RESULTS.AEQDSK:PATHR0 Path length for r0 co2 chord
\PATHV1 \EFIT01::TOP.RESULTS.AEQDSK:PATHV1 Path length for v1 co2 chord
\PATHV2 \EFIT01::TOP.RESULTS.AEQDSK:PATHV2 Path length for v2 co2 chord
\PATHV3 \EFIT01::TOP.RESULTS.AEQDSK:PATHV3 Path length for v3 co2 chord
\PBINJ \EFIT01::TOP.RESULTS.AEQDSK:PBINJ Injected beam power
\POH \EFIT01::TOP.RESULTS.AEQDSK:POH Ohmic power
\PP95 \EFIT01::TOP.RESULTS.AEQDSK:PP95 Normalized p'(y) at 95% normalized poloidal flux
\PSI0 \EFIT01::TOP.RESULTS.AEQDSK:PSI0 Psi at magnetic axis
\PSIBDY \EFIT01::TOP.RESULTS.AEQDSK:PSIBDY Psi at boundary
\PSIBDYDOT \EFIT01::TOP.RESULTS.AEQDSK:PSIBDYDOT Time derivative of poloidal flux at boundary
\PSIREF \EFIT01::TOP.RESULTS.AEQDSK:PSIREF Reference poloidal flux in vs/rad
\PSURFA \EFIT01::TOP.RESULTS.AEQDSK:PSURFA Plasma boundary surface area m^2
\Q0 \EFIT01::TOP.RESULTS.AEQDSK:Q0 Q at magnetic axis
\Q95 \EFIT01::TOP.RESULTS.AEQDSK:Q95 Q at 95% flux surface
\QL \EFIT01::TOP.RESULTS.AEQDSK:QL Q at boundary
\QMERCI \EFIT01::TOP.RESULTS.AEQDSK:QMERCI Q(0) needed for mercier stability (calc may not work)
\QMIN \EFIT01::TOP.RESULTS.AEQDSK:QMIN Minimum Q
\QSTAR \EFIT01::TOP.RESULTS.AEQDSK:QSTAR Equivalent (kink) safety factor q*
\R0 \EFIT01::TOP.RESULTS.AEQDSK:R0 Major radius of magnetic axis
\RBCENT \EFIT01::TOP.RESULTS.AEQDSK:RBCENT Major radius for vacuum field bcentr
\RCUR \EFIT01::TOP.RESULTS.AEQDSK:RCUR Major radius of current centroid
\RHOQMIN \EFIT01::TOP.RESULTS.AEQDSK:RHOQMIN Radius of qmin (rho=normalized sqrt volume)
\RMIDIN \EFIT01::TOP.RESULTS.AEQDSK:RMIDIN Major radius of inner separatrix at midplane
\RMIDOUT \EFIT01::TOP.RESULTS.AEQDSK:RMIDOUT Major radius of outer separatrix at midplane
\RQ1 \EFIT01::TOP.RESULTS.AEQDSK:RQ1 Minor radius of q=1 surface
\RQ2 \EFIT01::TOP.RESULTS.AEQDSK:RQ2 Minor radius of q=2 surface
\RQ3 \EFIT01::TOP.RESULTS.AEQDSK:RQ3 Minor radius of q=3 surface
\RSURF \EFIT01::TOP.RESULTS.AEQDSK:RSURF Major radius of geometric center
\RTTT \EFIT01::TOP.RESULTS.AEQDSK:RTTT Shafranov boundary line integral parameter
\RVSIN \EFIT01::TOP.RESULTS.AEQDSK:RVSIN Major radius of vessel inner hit spot
\RVSOUT \EFIT01::TOP.RESULTS.AEQDSK:RVSOUT Major radius of vessel outer hit spot
\RXPT1 \EFIT01::TOP.RESULTS.AEQDSK:RXPT1 Major radius of lower x point
\RXPT2 \EFIT01::TOP.RESULTS.AEQDSK:RXPT2 Major radius of upper x point
\S1 \EFIT01::TOP.RESULTS.AEQDSK:S1 Shafranov boundary line integrals
\S2 \EFIT01::TOP.RESULTS.AEQDSK:S2 Shafranov boundary line integrals
\S3 \EFIT01::TOP.RESULTS.AEQDSK:S3 Shafranov boundary line integrals
\SEPBOT \EFIT01::TOP.RESULTS.AEQDSK:SEPBOT Bottom gap of external second separatrix
\SEPEXP \EFIT01::TOP.RESULTS.AEQDSK:SEPEXP Separatrix radial expansion
\SEPIN \EFIT01::TOP.RESULTS.AEQDSK:SEPIN Inner gap of external second separatrix
\SEPLIM \EFIT01::TOP.RESULTS.AEQDSK:SEPLIM > 0 for minimum gap in divertor configurations, < 0 absolute value for minimum distance to external separatrix in limiter configurations
\SEPNOSE \EFIT01::TOP.RESULTS.AEQDSK:SEPNOSE Radial distance between x point and external field line at znose
\SEPOUT \EFIT01::TOP.RESULTS.AEQDSK:SEPOUT Outer gap of external second separatrix
\SEPTOP \EFIT01::TOP.RESULTS.AEQDSK:SEPTOP Top gap of external second separatrix
\SHEAR \EFIT01::TOP.RESULTS.AEQDSK:SHEAR Magnetic shear at 95% enclosed normalized flux
\SLANTL \EFIT01::TOP.RESULTS.AEQDSK:SLANTL Gap to lower outboard limiter
\SLANTU \EFIT01::TOP.RESULTS.AEQDSK:SLANTU Gap to upper outboard limiter
\SSI01 \EFIT01::TOP.RESULTS.AEQDSK:SSI01 Magnetic shear at 1% of normalized poloidal flux
\SSI95 \EFIT01::TOP.RESULTS.AEQDSK:SSI95 Magnetic shear at 95% of normalized poloidal flux
\TAUDIA \EFIT01::TOP.RESULTS.AEQDSK:TAUDIA Diamagnetic energy confinement time
\TAUMHD \EFIT01::TOP.RESULTS.AEQDSK:TAUMHD Energy confinement time
\TAVEM \EFIT01::TOP.RESULTS.AEQDSK:TAVEM Averaging time
\TRIBOT \EFIT01::TOP.RESULTS.AEQDSK:TRIBOT Bottom triangularity
\TRITOP \EFIT01::TOP.RESULTS.AEQDSK:TRITOP Top triangularity
\UDAY \EFIT01::TOP.RESULTS.AEQDSK:UDAY Label empty
\AEQDSK \EFIT01::TOP.RESULTS.AEQDSK:VLOOPMHD Measured loop voltage
\EFIT_G_EQDSK \EFIT01::TOP.RESULTS.AEQDSK:VOLUME Plasma volume
\VSURF \EFIT01::TOP.RESULTS.AEQDSK:VSURF Surface loop voltage
\WB \EFIT01::TOP.RESULTS.AEQDSK:WB Poloidal magnetic field stored energy
\WBDOT \EFIT01::TOP.RESULTS.AEQDSK:WBDOT Time derivative of poloidal magnetic energy
\WDIA \EFIT01::TOP.RESULTS.AEQDSK:WDIA Diamagnetic energy
\WMHD \EFIT01::TOP.RESULTS.AEQDSK:WMHD Total plasma energy
\WPDOT \EFIT01::TOP.RESULTS.AEQDSK:WPDOT Time derivative of plasma stored energy
\WPLASW \EFIT01::TOP.RESULTS.AEQDSK:WPLASW Label empty
\XNNC \EFIT01::TOP.RESULTS.AEQDSK:XNNC Vertical stability parameter, vacuum field index normalized to critical index
\YYY2 \EFIT01::TOP.RESULTS.AEQDSK:YYY2 Shafranov y2 current moment
\Z0 \EFIT01::TOP.RESULTS.AEQDSK:Z0 Z position of magnetic axis
\ZCUR \EFIT01::TOP.RESULTS.AEQDSK:ZCUR Z position of current centroid
\ZSURF \EFIT01::TOP.RESULTS.AEQDSK:ZSURF Z position of geometric center
\ZUPERTS \EFIT01::TOP.RESULTS.AEQDSK:ZUPERTS Z position of separatrix at thomson chord
\ZVSIN \EFIT01::TOP.RESULTS.AEQDSK:ZVSIN Z of vessel inner strike point
\ZVSOUT \EFIT01::TOP.RESULTS.AEQDSK:ZVSOUT Z of vessel outer strike point
\ZXPT1 \EFIT01::TOP.RESULTS.AEQDSK:ZXPT1 Z position of lower x point
\ZXPT2 \EFIT01::TOP.RESULTS.AEQDSK:ZXPT2 Z position of upper x point
\BRZ0 \EFIT01::TOP.RESULTS.DERIVED:BRZ0 Label empty
\BTZ0 \EFIT01::TOP.RESULTS.DERIVED:BTZ0 Toroidal magnetic field
\BZZ0 \EFIT01::TOP.RESULTS.DERIVED:BZZ0 Label empty
\FISR0 \EFIT01::TOP.RESULTS.DERIVED:FISR0 Label empty
\FISRM \EFIT01::TOP.RESULTS.DERIVED:FISRM Label empty
\FISRP \EFIT01::TOP.RESULTS.DERIVED:FISRP Label empty
\FISZ0 \EFIT01::TOP.RESULTS.DERIVED:FISZ0 Label empty
\FISZM \EFIT01::TOP.RESULTS.DERIVED:FISZM Label empty
\FISZP \EFIT01::TOP.RESULTS.DERIVED:FISZP Label empty
\IVESSEL \EFIT01::TOP.RESULTS.DERIVED:IVESSEL Total vessel current
\IWALL \EFIT01::TOP.RESULTS.DERIVED:IWALL Total wall current
\MACH \EFIT01::TOP.RESULTS.DERIVED:MACH Label empty
\MACHZ0 \EFIT01::TOP.RESULTS.DERIVED:MACHZ0 Label empty
\PABZBTZ0 \EFIT01::TOP.RESULTS.DERIVED:PABZBTZ0 Magnetic field pitch angle
\PDVSRZ0 \EFIT01::TOP.RESULTS.DERIVED:PDVSRZ0 Label empty
\PPEAKFAC \EFIT01::TOP.RESULTS.DERIVED:PPEAKFAC Pressure peaking factor
\PSI \EFIT01::TOP.RESULTS.DERIVED:PSI Label empty
\GAPIN \EFIT01::TOP.RESULTS.DERIVED:PSIVSRZ0 Poloidal flux vs. r at midplane
\PTOT \EFIT01::TOP.RESULTS.DERIVED:PTOT Total input power
\PTRZ \EFIT01::TOP.RESULTS.DERIVED:PTRZ Label empty
\PTVSRZ0 \EFIT01::TOP.RESULTS.DERIVED:PTVSRZ0 Label empty
\PVSRZ0 \EFIT01::TOP.RESULTS.DERIVED:PVSRZ0 Label empty
\PWVSRZ0 \EFIT01::TOP.RESULTS.DERIVED:PWVSRZ0 Label empty
\QVSRZ0 \EFIT01::TOP.RESULTS.DERIVED:QVSRZ0 Label empty
\RPEAKPT \EFIT01::TOP.RESULTS.DERIVED:RPEAKPT Label empty
\BCENTR \EFIT01::TOP.RESULTS.GEQDSK:BCENTR Vacuum toroidal magnetic field at rcentr
\BDRY \EFIT01::TOP.RESULTS.GEQDSK:BDRY R,z of boundary points
\CPASMA \EFIT01::TOP.RESULTS.GEQDSK:CPASMA Plasma current
\DMION \EFIT01::TOP.RESULTS.GEQDSK:DMION Ion mass density
\EPOTEN \EFIT01::TOP.RESULTS.GEQDSK:EPOTEN Electrostatic potential function er/rbz
\FFPRIM \EFIT01::TOP.RESULTS.GEQDSK:FFPRIM Ff`(psi) on uniform flux grid
\FPOL \EFIT01::TOP.RESULTS.GEQDSK:FPOL Poloidal current function, f = r * BT on flux grid
\FPOLVS \EFIT01::TOP.RESULTS.GEQDSK:FPOLVS Label empty
\GTIME \EFIT01::TOP.RESULTS.GEQDSK:GTIME Timebase for g0 signals
\KEECUR \EFIT01::TOP.RESULTS.GEQDSK:KEECUR Label empty
\KVTOR \EFIT01::TOP.RESULTS.GEQDSK:KVTOR Label empty
\LIM \EFIT01::TOP.RESULTS.GEQDSK:LIM X,y of limiter
\LIMITR \EFIT01::TOP.RESULTS.GEQDSK:LIMITR Number of limiter points
\MH \EFIT01::TOP.RESULTS.GEQDSK:MH Number of vertical z grid points
\MW \EFIT01::TOP.RESULTS.GEQDSK:MW Number of horizontal r grid points
\NBDRY \EFIT01::TOP.RESULTS.GEQDSK:NBDRY Number of boundary points
\NMASS \EFIT01::TOP.RESULTS.GEQDSK:NMASS Label empty
\PPRIME \EFIT01::TOP.RESULTS.GEQDSK:PPRIME P`(psi) on uniform flux grid
\PRES \EFIT01::TOP.RESULTS.GEQDSK:PRES Plasma pressure on uniform flux grid
\PRESSW \EFIT01::TOP.RESULTS.GEQDSK:PRESSW Label empty
\PSIN \EFIT01::TOP.RESULTS.GEQDSK:PSIN Normalized poloidal flux grid (0=magnetic axis, 1=boundary)
\PSIRZ \EFIT01::TOP.RESULTS.GEQDSK:PSIRZ Poloidal flux on the rectangular grid points
\PWPRIM \EFIT01::TOP.RESULTS.GEQDSK:PWPRIM Label empty
\QPSI \EFIT01::TOP.RESULTS.GEQDSK:QPSI Q values on uniform flux grid from axis to boundary
\R \EFIT01::TOP.RESULTS.GEQDSK:R Radial coordinates of grid
\QQMAGX \EFIT01::TOP.RESULTS.GEQDSK:RBDRY R of boundary points
\QSTA \EFIT01::TOP.RESULTS.GEQDSK:RGRID1 Label empty
\RHOVN \EFIT01::TOP.RESULTS.GEQDSK:RHOVN Normalized rho
\RLIM \EFIT01::TOP.RESULTS.GEQDSK:RLIM R of limiter
\RMAXIS \EFIT01::TOP.RESULTS.GEQDSK:RMAXIS R of magnetic axis in meter
\RVTOR \EFIT01::TOP.RESULTS.GEQDSK:RVTOR Label empty
\RZERO \EFIT01::TOP.RESULTS.GEQDSK:RZERO Label empty
\SSIBRY \EFIT01::TOP.RESULTS.GEQDSK:SSIBRY Poloidal flux at the plasma boundary
\SSIMAG \EFIT01::TOP.RESULTS.GEQDSK:SSIMAG Poloidal flux at magnetic axis
\XDIM \EFIT01::TOP.RESULTS.GEQDSK:XDIM Horizontal dimension of computational box
\Z \EFIT01::TOP.RESULTS.GEQDSK:Z Elevation coordinates of grid
\ZBDRY \EFIT01::TOP.RESULTS.GEQDSK:ZBDRY Z of boundary points
\ZDIM \EFIT01::TOP.RESULTS.GEQDSK:ZDIM Vertical dimension of computational box
\ZLIM \EFIT01::TOP.RESULTS.GEQDSK:ZLIM Z of limiter
\ZMAXIS \EFIT01::TOP.RESULTS.GEQDSK:ZMAXIS Z of magnetic axis
\ZMID \EFIT01::TOP.RESULTS.GEQDSK:ZMID Z of center of computational box
\BETAPD \EFIT01::TOP.RESULTS.AEQDSK:BETAPD Diamagnetic poloidal beta
\JFLAG \EFIT01::TOP.RESULTS.AEQDSK:JFLAG Label blank
\LFLAG \EFIT01::TOP.RESULTS.AEQDSK:LFLAG Label blank
\MFVERS \EFIT01::TOP.RESULTS.AEQDSK:MFVERS Label blank
no tag available \EFIT01::TOP.RESULTS.AEQDSK:ORING ???
no tag available \EFIT01::TOP.RESULTS.AEQDSK:PATHR0 Path length for r0 co2 chord
no tag available \EFIT01::TOP.RESULTS.AEQDSK:PATHV2 Path length for v2 co2 chord
no tag available \EFIT01::TOP.RESULTS.AEQDSK:RVSOUT Major radius of vessel outer hit spot
\UDAY \EFIT01::TOP.RESULTS.AEQDSK:UDAY Label blank
\VLOOPMHD \EFIT01::TOP.RESULTS.AEQDSK:VLOOPMHD Measured loop voltage
\VOLUME \EFIT01::TOP.RESULTS.AEQDSK:VOLUME Plasma volume
\PSIVSRZ0 \EFIT01::TOP.RESULTS.DERIVED:PSIVSRZ0 Poloidal flux vs. r at midplane
\RBDRY \EFIT01::TOP.RESULTS.GEQDSK:RBDRY R of boundary points
\RGRID1 \EFIT01::TOP.RESULTS.GEQDSK:RGRID1 Label empty
ENGINEERING
Tag Full Path to Node Label/Description
\FDIA \ENGINEERING::TOP.ANALYSIS:FDIA Diamagnetic flux
\IOH \ENGINEERING::TOP.ANALYSIS:IOH Oh current per turn
\IP1HGUNC \ENGINEERING::TOP.ANALYSIS:IP1HGUNC Plasma current 1, high gain (uncorrected)
\IP1LGUNC \ENGINEERING::TOP.ANALYSIS:IP1LGUNC Plasma current 1, low gain (uncorrected)
\IP2HGUNC \ENGINEERING::TOP.ANALYSIS:IP2HGUNC Plasma current 2, high gain (uncorrected)
\IP2LGUNC \ENGINEERING::TOP.ANALYSIS:IP2LGUNC Plasma current 2, low gain (uncorrected)
\IPF1AL \ENGINEERING::TOP.ANALYSIS:IPF1AL Pf1al coil current per turn
\IPF1AU \ENGINEERING::TOP.ANALYSIS:IPF1AU Pf1au coil current per turn
\IPF1BL \ENGINEERING::TOP.ANALYSIS:IPF1BL Pf1bl coil current per turn
\IPF1BU \ENGINEERING::TOP.ANALYSIS:IPF1BU Pf1bu coil current per turn
\IPF1CL \ENGINEERING::TOP.ANALYSIS:IPF1CL Pf1cl coil current per turn
\IPF1CU \ENGINEERING::TOP.ANALYSIS:IPF1CU Pf1cu coil current per turn
\IPF2L \ENGINEERING::TOP.ANALYSIS:IPF2L Pf2l coil current per turn
\IPF2U \ENGINEERING::TOP.ANALYSIS:IPF2U Pf2u coil current per turn
\IPF3L \ENGINEERING::TOP.ANALYSIS:IPF3L Pf3l coil current per turn
\IPF3U \ENGINEERING::TOP.ANALYSIS:IPF3U Pf3u coil current per turn
\IPF4 \ENGINEERING::TOP.ANALYSIS:IPF4 Pf4 coil current per turn
\IPF5 \ENGINEERING::TOP.ANALYSIS:IPF5 Pf5 coil current per turn
\IRWM1 \ENGINEERING::TOP.ANALYSIS:IRWM1 Rwm coil 1 current per turn
\IRWM2 \ENGINEERING::TOP.ANALYSIS:IRWM2 Rwm coil 2 current per turn
\IRWM3 \ENGINEERING::TOP.ANALYSIS:IRWM3 Rwm coil 3 current per turn
\IRWM4 \ENGINEERING::TOP.ANALYSIS:IRWM4 Rwm coil 4 current per turn
\IRWM5 \ENGINEERING::TOP.ANALYSIS:IRWM5 Rwm coil 5 current per turn
\IRWM6 \ENGINEERING::TOP.ANALYSIS:IRWM6 Rwm coil 6 current per turn
\ITF \ENGINEERING::TOP.ANALYSIS:ITF Tf coil current per turn
no tag available \ENGINEERING::TOP.PPCC:TIMEPSCA1 Label empty
\IROGEVVUL1HGIN \ENGINEERING::TOP.ANALYSIS.IPCALCINPUT:IROG1HGIN High gain rogowski 1 signal from ntc
\IROGEVVUL1LGIN \ENGINEERING::TOP.ANALYSIS.IPCALCINPUT:IROG1LGIN Low gain rogowski 1 signal from ntc
\IROGEVVUL2HGIN \ENGINEERING::TOP.ANALYSIS.IPCALCINPUT:IROG2HGIN High gain rogowski 2 signal from ntc
\IROGEVVUL2LGIN \ENGINEERING::TOP.ANALYSIS.IPCALCINPUT:IROG2LGIN Low gain rogowski 2 signal from ntc
\IVVINNERTOT1IN \ENGINEERING::TOP.ANALYSIS.IPCALCINPUT:IVVINTOT1IN Inner vessel current #1 signal from ntc
\IVVINNERTOT2IN \ENGINEERING::TOP.ANALYSIS.IPCALCINPUT:IVVINTOT2IN Inner vessel current #2 signal from ntc
\IVVOUTERLOWEREVENSUMIN \ENGINEERING::TOP.ANALYSIS.IPCALCINPUT:IVVOLESIN Outer vessel upper lower sum signal from ntc
\IVVOUTERLOWERODDSUMIN \ENGINEERING::TOP.ANALYSIS.IPCALCINPUT:IVVOLOSIN Outer vessel upper lower odd signal from ntc
\IVVOUTERUPPEREVENSUMIN \ENGINEERING::TOP.ANALYSIS.IPCALCINPUT:IVVOUESIN Outer vessel upper even sum signal from ntc
\IVVOUTERUPPERODDSUMIN \ENGINEERING::TOP.ANALYSIS.IPCALCINPUT:IVVOUOSIN Outer vessel upper even odd signal from ntc
\IVVINNERTOTDSP1 \ENGINEERING::TOP.ANALYSIS.IPCALCOUTPUT:IVVINTOT1 Total inner vessel current computed by dsp1
\IVVINNERTOTDSP2 \ENGINEERING::TOP.ANALYSIS.IPCALCOUTPUT:IVVINTOT2 Total inner vessel current computed by dsp2
\IVVOUTERTOTDSP1 \ENGINEERING::TOP.ANALYSIS.IPCALCOUTPUT:IVVOUTTOT1 Total outer vessel current computed by dsp1
\IVVOUTERTOTDSP2 \ENGINEERING::TOP.ANALYSIS.IPCALCOUTPUT:IVVOUTTOT2 Total outer vessel current computed by dsp2
\IVVTOTDSP1 \ENGINEERING::TOP.ANALYSIS.IPCALCOUTPUT:IVVTOT1 Total vessel current computed by dsp1
\IVVTOTDSP2 \ENGINEERING::TOP.ANALYSIS.IPCALCOUTPUT:IVVTOT2 Total vessel current computed by dsp2
\DFLUXDM \ENGINEERING::TOP.EPICS.DIAMAGNETIC:DELTA_FLUX Label empty
\ITFDM \ENGINEERING::TOP.EPICS.DIAMAGNETIC:TF_CURRENT Label empty
\VTFDM \ENGINEERING::TOP.EPICS.DIAMAGNETIC:TF_VOLTAGE Label empty
\PPCC_NCSX \ENGINEERING::TOP.PPCC.COILS:NCSX Ppcc ncsx
\PPCC_OH \ENGINEERING::TOP.PPCC.COILS:OH Ppcc oh
\PPCC_PF1AL \ENGINEERING::TOP.PPCC.COILS:PF1AL Ppcc pf1al
\PPCC_PF1AU \ENGINEERING::TOP.PPCC.COILS:PF1AU Ppcc pf1au
\PPCC_PF1B \ENGINEERING::TOP.PPCC.COILS:PF1B Ppcc pf1b
\PPCC_PF2L \ENGINEERING::TOP.PPCC.COILS:PF2L Ppcc pf2l
\PPCC_PF2U \ENGINEERING::TOP.PPCC.COILS:PF2U Ppcc pf2u
\PPCC_PF3L \ENGINEERING::TOP.PPCC.COILS:PF3L Ppcc pf3l
\PPCC_PF3U \ENGINEERING::TOP.PPCC.COILS:PF3U Ppcc pf3u
\PPCC_PF4 \ENGINEERING::TOP.PPCC.COILS:PF4 Ppcc pf4
\PPCC_PF5 \ENGINEERING::TOP.PPCC.COILS:PF5 Ppcc pf5
\PPCC_RWM \ENGINEERING::TOP.PPCC.COILS:RWM Ppcc rwm
\PPCC_TF \ENGINEERING::TOP.PPCC.COILS:TF Ppcc tf
\PPCC_FL_OH_M \ENGINEERING::TOP.PPCC.MAG:FL_OH_M Ppcc fl_oh_m
\PPCC_FL_PPP_L_2 \ENGINEERING::TOP.PPCC.MAG:FL_PPP_L_2 Ppcc fl_ppp_l_2
\PPCC_FL_PPP_U_2 \ENGINEERING::TOP.PPCC.MAG:FL_PPP_U_2 Ppcc fl_ppp_u_2
\PPCC_IP1_UNCORR \ENGINEERING::TOP.PPCC.MAG:IP1_UNCORR Ppcc ip1_uncorr
\PPCC_IP2_UNCORR \ENGINEERING::TOP.PPCC.MAG:IP2_UNCORR Ppcc ip2_uncorr
\PPCC_M_OH_L_1 \ENGINEERING::TOP.PPCC.MAG:M_OH_L_1 Ppcc m_oh_l_1
\PPCC_M_OH_U_1 \ENGINEERING::TOP.PPCC.MAG:M_OH_U_1 Ppcc m_oh_u_1
\PPCC_M_PPP_L_1 \ENGINEERING::TOP.PPCC.MAG:M_PPP_L_1 Ppcc m_ppp_l_1
\PPCC_M_PPP_U_1 \ENGINEERING::TOP.PPCC.MAG:M_PPP_U_1 Ppcc m_ppp_u_1
\PC_CHI_PERM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHIPERM Chi fault/pdp status
\PC_CHI_BR_1_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_B1_CUR1 No description
\PC_CHI_BR_1_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_B1_CUR1F Label empty
\PC_CHI_BR_2_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_B2_CUR1 No description
\PC_CHI_BR_2_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_B2_CUR1F Label empty
\PC_CHI_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_GNDC Dtacq ross chi inst. gnd. cur.
\PC_CHI_PSS_2S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_P2S_1PI Label empty
\PC_CHI_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_SVD1_1 Label empty
\PC_CHI_SDS_VD1_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_SVD1_F Label empty
\PC_CHI_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_SVD2_1 Label empty
\PC_CHI_SDS_VD2_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_SVD2_F Label empty
\PC_DCPS_TRI_WAVE \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DCPS_TRI_WAV Dcps triangle wave signal
\PC_DCPSAT_CH1_TD \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DCPT_CH1_TD Label empty
\PC_DCPSAT_CH2_TD \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DCPT_CH2_TD Label empty
\PC_DCPSAT_CH3_TD \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DCPT_CH3_TD Label empty
\PC_DCPSAT_CH4_TD \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DCPT_CH4_TD Label empty
\PC_DCPSAT_CH5_TD \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DCPT_CH5_TD Label empty
\PC_DCPSAT_CH6_TD \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DCPT_CH6_TD Label empty
\PC_DCPSAT_CH7_TD \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DCPT_CH7_TD Label empty
\PC_DCPSAT_CH8_TD \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DCPT_CH8_TD Label empty
\PC_DITFDT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DM_DITFDT D(ltf)/dt
\PC_DM_FLUX \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DM_FLUX Diamagnetic flux
\PC_DM_ITF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DM_ITF Tf current for diamagnetics
\PC_DM_VTF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DM_VTF Tf voltage for diamagnetics
\PC_DT209_SPARE49 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DT209_SPR49 Dt209 spare, ch.49
\PC_DUMMY_LOAD_CURF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DUMMYLDCURF Label empty
\PC_DUMMY_LOAD_CUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DUMMYLOADCUR Pc dummy current
\PC_ENG_SPARE \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:ENG_SPARE Engineering spare channel
\FG_ALPHA_A \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FG_PSS_A_1 Section a alpha fg command
\FG_SUPPRESS_A \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FG_PSS_A_2 Section a suppress
\FG_BYPASS_A \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FG_PSS_A_3 Section a bypass
\FG_SPARE_A \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FG_PSS_A_4 Spare, section a
\FG_ALPHA_B \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FG_PSS_B_1 Section b alpha fg command
\FG_SUPPRESS_B \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FG_PSS_B_2 Section b suppress (temp ch.8)
\FG_BYPASS_B \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FG_PSS_B_3 Section b bypass
\FG_SPARE_B \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FG_PSS_B_4 Spare, section b (temp suppress)
\TFJ_FISO_CH1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FISO10V_CH1 Fiso digitizer channel 1
\TFJ_FISO_CH2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FISO10V_CH2 Fiso digitizer channel 2
\TFJ_FISO_CH3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FISO10V_CH3 Fiso digitizer channel 3
\TFJ_FISO_CH4 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FISO10V_CH4 Fiso digitizer channel 4
\TFJ_FISO_CH5 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FISO10V_CH5 Fiso digitizer channel 5
\TFJ_FISO_CH6 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FISO10V_CH6 Fiso digitizer channel 6
\TFJ_FISO_CH7 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FISO10V_CH7 Fiso digitizer channel 7
\TFJ_FISO_CH8 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FISO10V_CH8 Fiso digitizer channel 8
\PC_FO_CHAN_11 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FO_CHAN11 Fiber optic chassis ch.11
\PC_FO_CHAN_12 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FO_CHAN12 Fiber optic chassis ch.12
\PC_FO_CHAN_13 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FO_CHAN13 Fiber optic chassis ch.13
\PC_FO_CHAN_14 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FO_CHAN14 Fiber optic chassis ch.14
\PC_FO_CHAN_15 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FO_CHAN15 Fiber optic chassis ch.15
\PC_FO_CHAN_16 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FO_CHAN16 Fiber optic chassis ch.16
\PC_FUTURE_PERM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:FUTUREPERM Future fault/pdp status
\PC_GIS_PERM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:GISPERM Outer vessel lower even sum current
\PC_SPA_H910_REF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:H910_TRI_REF Camac h910 triangle wave
\PC_HF_PSS_1A_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:HF_P1A_I Label empty
\PC_HF_PSS_1A_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:HF_P1A_V Label empty
\PC_HF_PSS_1B_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:HF_P1B_I Label empty
\PC_HF_PSS_1B_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:HF_P1B_V Label empty
\PC_HF_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:HF_SVD1_1 Dtacq ross hf sds vd1
\PC_HF_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:HF_SVD2_1 Dtacq ross hf sds vd2
\PC_HSC3_CHAN_13 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:HSC3_CHAN13 Hsc 3 ch. 13
\PC_IPCALC_SPARE_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IPCALC_SPR_1 First part of inner vessel current
\PC_IPCALC_SPARE_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IPCALC_SPR_2 Ipcalc spare signal 2
\PC_IPCALC_TELEM_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IPCALC_TLM_1 High gain plasma current 2
\PC_IPCALC_TELEM_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IPCALC_TLM_2 Ipcalc telemetry 2
\PC_IVV_IN_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IVV_IN_1 Total inner vessel current, 1st dsp
\PC_IVV_IN_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IVV_IN_2 Total inner vessel current, 2nd dsp
\PC_IVV_IT_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IVV_IT_1 First part of inner vessel current
\PC_IVV_IT_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IVV_IT_2 Second part of inner vessel current
\PC_IVV_L_E_S \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IVV_L_E_S Outer vessel lower even sum current
\PC_IVV_L_O_S \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IVV_L_O_S Outer vessel upper even sum current
\PC_IVV_OUT_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IVV_OUT_1 Total outer vessel current, 1st dsp
\PC_IVV_OUT_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IVV_OUT_2 Total outer vessel current, 2nd dsp
\PC_IVV_TOT_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IVV_TOT_1 Total vessel current, 1st dsp
\PC_IVV_TOT_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IVV_TOT_2 Total vessel current, 2nd dsp
\PC_IVV_U_E_S \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IVV_U_E_S Outer vessel upper even sum current
\PC_IVV_U_O_S \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:IVV_U_O_S Outer vessel upper odd sum current
\PC_MG_CURRENT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:MG_CURRENT Label empty
\PC_MG_CURRENTF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:MG_CURRENTF Label empty
\PC_MG_SPEED \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:MG_SPEED Label empty
\PC_MG_SPEEDF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:MG_SPEEDF Label empty
\PC_MG_VOLTAGE \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:MG_VOLTAGE Label empty
\PC_MG_VOLTAGEF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:MG_VOLTAGEF Label empty
\PC_NBP \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:NBP Nb power
\PC_NB_PERM_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:NB_PERM_1 Neutral beam permissive signal 1
\PC_NB_PERM_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:NB_PERM_2 Neutral beam permissive signal 2
\PC_OHPFCHI_HCS_FLT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OHPC_HCS_FLT Oh, pf, chi, hcs parallel lvl 1 fault
\PC_OH_BR_1_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_B1_CUR1 Oh branch 1 current 1
\PC_OH_BR_1_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_B1_CUR1F Label empty
\PC_TF_BR_2_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_B1_CUR2 Oh branch 1 current 2
\PC_OH_BR_1_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_B1_CUR2F Label empty
\PC_OH_BR_2_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_B2_CUR1 Oh branch 2 current 1
\PC_OH_BR_2_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_B2_CUR1F Label empty
\PC_OH_BR_2_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_B2_CUR2 Oh branch 2 current 2
\PC_OH_BR_2_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_B2_CUR2F Label empty
no tag available \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_BR_1_C1 Label empty
\PC_OH_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_CUR1 Dtacq oh current 1
\PC_OH_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_CUR2 Oh current 2
\PC_OH_GFC_N \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_GFC_N Label empty
\PC_OH_GFC_P \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_GFC_P Label empty
\PC_OH_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_GNDC Dtacq ross oh inst. gnd. cur.
\PC_OH_PSS_10S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P10S_1PI Label empty
\PC_OH_PSS_10S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P10S_1PV Label empty
\PC_OH_PSS_10S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P10S_2PI Label empty
\PC_OH_PSS_10S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P10S_2PV Label empty
\PC_OH_PSS_11S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P11S_1PI Label empty
\PC_OH_PSS_11S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P11S_1PV Label empty
\PC_OH_PSS_11S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P11S_2PI Label empty
\PC_OH_PSS_11S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P11S_2PV Label empty
\PC_OH_PSS_1S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P1S_1PI Oh coil : etf2-pss-5 section b current
\PC_OH_PSS_1S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P1S_1PV Oh coil : etf2-pss-5 section b voltage
\PC_OH_PSS_1S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P1S_2PI Oh coil : etf2-pss-6 section b current
\PC_OH_PSS_1S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P1S_2PV Oh coil : etf2-pss-6 section b voltage
\PC_OH_PSS_2S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P2S_1PI Oh coil : etf2-pss-5 section a current
\PC_OH_PSS_2S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P2S_1PV Oh coil : etf2-pss-5 section a voltage
\PC_OH_PSS_2S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P2S_2PI Oh coil : etf2-pss-6 section a current
\PC_OH_PSS_2S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P2S_2PV Oh coil : etf2-pss-6 section a voltage
\PC_OH_PSS_3S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P3S_1PI Oh coil : etf2-pss-3 section b current
\PC_OH_PSS_3S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P3S_1PV Oh coil : etf2-pss-3 section b voltage
\PC_OH_PSS_3S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P3S_2PI Oh coil : etf2-pss-4 section b current
\PC_OH_PSS_3S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P3S_2PV Oh coil : etf2-pss-4 section b voltage
\PC_OH_PSS_4S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P4S_1PI Oh coil : etf2-pss-3 section a current
\PC_OH_PSS_4S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P4S_1PV Oh coil : etf2-pss-3 section a voltage
\PC_OH_PSS_4S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P4S_2PI Oh coil : etf2-pss-4 section a current
\PC_OH_PSS_4S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P4S_2PV Oh coil : etf2-pss-4 section a voltage
\PC_OH_PSS_5S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P5S_1PI Oh coil : etf2-pss-1 section b current
\PC_OH_PSS_5S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P5S_1PV Oh coil : etf2-pss-1 section b voltage
\PC_OH_PSS_5S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P5S_2PI Oh coil : etf2-pss-2 section b current
\PC_OH_PSS_5S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P5S_2PV Oh coil : etf2-pss-2 section b voltage
\PC_OH_PSS_6S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P6S_1PI Oh coil : etf2-pss-1 section a current
\PC_OH_PSS_6S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P6S_1PV Oh coil : etf2-pss-1 section a voltage
\PC_OH_PSS_6S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P6S_2PI Oh coil : etf2-pss-2 section a current
\PC_OH_PSS_6S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P6S_2PV Oh coil : etf2-pss-2 section a voltage
\PC_OH_PSS_7S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P7S_1PI Oh coil : no longer active
\PC_OH_PSS_7S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P7S_1PV Oh coil : no longer active
\PC_OH_PSS_7S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P7S_2PI Oh coil : no longer active
\PC_OH_PSS_7S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P7S_2PV Oh coil : no longer active
\PC_OH_PSS_8S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P8S_1PI Oh coil : no longer active
\PC_OH_PSS_8S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P8S_1PV Oh coil : no longer active
\PC_OH_PSS_8S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P8S_2PI Oh coil : no longer active
\PC_OH_PSS_8S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P8S_2PV Oh coil : no longer active
\PC_OH_PSS_9S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P9S_1PI Label empty
\PC_OH_PSS_9S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P9S_1PV Label empty
\PC_OH_PSS_9S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P9S_2PI Label empty
\PC_OH_PSS_9S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P9S_2PV Label empty
\PC_OH_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_SVD1_1 Dtacq ross oh sds vd1
\PC_OH_SDS_VD1_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_SVD1_F Label empty
\PC_OH_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_SVD2_1 Dtacq ross oh sds vd2
\PC_OH_SDS_VD2_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_SVD2_F Label empty
\PC_OH_TF_PERM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_TFPERM Oh/tf/pf1 fault/pdp status
\PC_PCUR_1_HG \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PCUR_1_HG High gain plasma current 1
\PC_PCUR_1_LG \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PCUR_1_LG Dtacq low gain plasma current 1
\PC_PCUR_2_HG \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PCUR_2_HG High gain plasma current 2
\PC_PCUR_2_LG \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PCUR_2_LG Dtacq low gain plasma current 2
\PC_PSS_DCCTA1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTA1 Pss dcct-a section #1 via fd
\PC_PSS_DCCTA10 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTA10 Pss dcct-a section #10 via fd
\PC_PSS_DCCTA11 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTA11 Pss dcct-a section #11 via fd
\PC_PSS_DCCTA12 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTA12 Pss dcct-a section #12 via fd
\PC_PSS_DCCTA2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTA2 Pss dcct-a section #2 via fd
\PC_PSS_DCCTA3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTA3 Pss dcct-a section #3 via fd
\PC_PSS_DCCTA4 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTA4 Pss dcct-a section #4 via fd
\PC_PSS_DCCTA5 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTA5 Pss dcct-a section #5 via fd
\PC_PSS_DCCTA6 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTA6 Pss dcct-a section #6 via fd
\PC_PSS_DCCTA7 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTA7 Pss dcct-a section #7 via fd
\PC_PSS_DCCTA8 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTA8 Pss dcct-a section #8 via fd
\PC_PSS_DCCTA9 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTA9 Pss dcct-a section #9 via fd
\PC_PSS_DCCTB1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTB1 Pss dcct-b section #1 via fd
\PC_PSS_DCCTB10 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTB10 Pss dcct-b section #10 via fd
\PC_PSS_DCCTB11 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTB11 Pss dcct-b section #11 via fd
\PC_PSS_DCCTB12 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTB12 Pss dcct-b section #12 via fd
\PC_PSS_DCCTB2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTB2 Pss dcct-b section #2 via fd
\PC_PSS_DCCTB3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTB3 Pss dcct-b section #3 via fd
\PC_PSS_DCCTB4 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTB4 Pss dcct-b section #4 via fd
\PC_PSS_DCCTB5 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTB5 Pss dcct-b section #5 via fd
\PC_PSS_DCCTB6 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTB6 Pss dcct-b section #6 via fd
\PC_PSS_DCCTB7 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTB7 Pss dcct-b section #7 via fd
\PC_PSS_DCCTB8 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTB8 Pss dcct-b section #8 via fd
\PC_PSS_DCCTB9 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PC_P_DCCTB9 Pss dcct-b section #9 via fd
\PC_PF1AL_BR_1_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_B1_C1F Label empty
\PC_PF1AL_BR_1_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_B1_CR1 Branch current
\PC_PF1AL_BR_2_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_B2_C1F Label empty
\PC_PF1AL_BR_2_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_B2_CR1 Branch current
\PC_PF1AL_CUR_3_INVF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_C3INVF Label empty
\PC_PF1AL_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_CUR1 Mh1
\PC_PF1AL_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_CUR1F Label empty
\PC_PF1AL_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_CUR2 Mh1
\PC_PF1AL_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_CUR2F Label empty
\PC_PF1AL_PSS_1S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_P1SI Pf1al coil :eef4-pss-1 section b current
\PC_PF1AL_PSS_1S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_P1SV Pf1al coil :eef4-pss-1 section b voltage
\PC_PF1AL_PSS_2S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_P2SI Pf1al coil :eef4-pss-1 section a current
\PC_PF1AL_PSS_2S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_P2SV Pf1al coil :eef4-pss-1 section a voltage
\PC_PF1AL_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_SVD1_1 Dtacq ross pf1al sds vd1
\PC_PF1AL_SDS_VD1_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_SVD1_F Label empty
\PC_PF1AL_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_SVD2_1 Dtacq ross pf1al sds vd2
\PC_PF1AL_SDS_VD2_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_SVD2_F Label empty
\PC_PF1AU_BR_1_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_B1_C1F Label empty
\PC_PF1AU_BR_1_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_B1_CR1 Branch current
\PC_PF1AU_BR_2_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_B2_C1F Label empty
\PC_PF1AU_BR_2_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_B2_CR1 Branch current
\PC_PF1AU_CHI_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_CHI_C1 Dtacq pf1au chi current 1
\PC_PF1AU_CHI_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_CHI_C2 Dtacq pf1au chi current 2
\PC_PF1AU_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_CUR1 Mh1
\PC_PF1AU_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_CUR1F Label empty
\PC_PF1AU_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_CUR2 Mh1
\PC_PF1AU_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_CUR2F Label empty
\PC_PF1AU_PSS_1S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_P1SI Pf1au coil :eoh1-pss-1 section b current
\PC_PF1AU_PSS_1S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_P1SV Pf1au coil :eoh1-pss-1 section b voltage
\PC_PF1AU_PSS_2S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_P2SI Pf1au coil :eoh1-pss-1 section a current
\PC_PF1AU_PSS_2S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_P2SV Pf1au coil :eoh1-pss-1 section a voltage
\PC_PF1AU_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_SVD1_1 Dtacq ross pf1au sds vd2
\PC_PF1AU_SDS_VD1_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_SVD1_F Label empty
\PC_PF1AU_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_SVD2_1 Label empty
\PC_PF1AU_SDS_VD2_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_SVD2_F Label empty
\PC_PF1BL_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BL_CUR1 Dtacq pf1bl current 1
\PC_PF1BL_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BL_CUR2 Pf1bl current 2
\PC_PF1BL_PSS_1S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BL_P1S1PI Pf1bl coil: etf2-pss-8 section b current
\PC_PF1BL_PSS_1S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BL_P1S1PV Pf1bl coil: etf2-pss-8 section b voltage
\PC_PF1BL_PSS_1S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BL_P1S2PI Pf1bl coil: etf2-pss-7 section b current
\PC_PF1BL_PSS_1S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BL_P1S2PV Pf1bl coil: etf2-pss-7 section b voltage
\PC_PF1BL_PSS_2S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BL_P2S1PI Pf1bl coil: etf2-pss-8 section a current
\PC_PF1BL_PSS_2S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BL_P2S1PV Pf1bl coil: etf2-pss-8 section a voltage
\PC_PF1BL_PSS_2S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BL_P2S2PI Pf1bl coil: etf2-pss-7 section a current
\PC_PF1BL_PSS_2S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BL_P2S2PV Pf1bl coil: etf2-pss-7 section a voltage
\PC_PF1BL_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BL_SVD1_1 Dtacq ross pf1bl sds vd1
\PC_PF1BL_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BL_SVD2_1 Dtacq ross pf1bl sds vd2
\PC_PF1BU_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BU_CUR1 Dtacq pf1bu current 1
\PC_PF1BU_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BU_CUR2 Dtacq pf1bu current 2
\PC_PF1BU_PSS_1S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BU_P1S1PI Pf1bu coil: etf2-pss-a section b current
\PC_PF1BU_PSS_1S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BU_P1S1PV Pf1bu coil: etf2-pss-a section b voltage
\PC_PF1BU_PSS_1S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BU_P1S2PI Pf1bu coil: etf2-pss-9 section b current
\PC_PF1BU_PSS_1S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BU_P1S2PV Pf1bu coil: etf2-pss-9 section b voltage
\PC_PF1BU_PSS_2S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BU_P2S1PI Pf1bu coil: etf2-pss-a section a current
\PC_PF1BU_PSS_2S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BU_P2S1PV Pf1bu coil: etf2-pss-a section a voltage
\PC_PF1BU_PSS_2S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BU_P2S2PI Pf1bu coil: etf2-pss-9 section a current
\PC_PF1BU_PSS_2S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BU_P2S2PV Pf1bu coil: etf2-pss-9 section a voltage
\PC_PF1BU_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BU_SVD1_1 Dtacq ross pf1bu sds vd1
\PC_PF1BU_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1BU_SVD2_1 Dtacq ross pf1bu sds vd2
\PC_PF1B_PSS_1S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1B_P1S_I Label empty
\PC_PF1B_PSS_1S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1B_P1S_V Label empty
\PC_PF1B_PSS_2S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1B_P2S_I Label empty
\PC_PF1B_PSS_2S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1B_P2S_V Label empty
\PC_PF1B_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1B_SVD1_1 Label empty
\PC_PF1B_SDS_VD1_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1B_SVD1_F Label empty
\PC_PF1B_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1B_SVD2_1 Label empty
\PC_PF1B_SDS_VD2_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1B_SVD2_F Label empty
\PC_PF1CL_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CL_CUR1 Dtacq pf1cl current 1
\PC_PF1CL_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CL_CUR2 Pf1cl current 2
\PC_PF1CL_PSS_1S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CL_P1S1PI Pf1cl coil: eef3-pss-1 section b current
\PC_PF1CL_PSS_1S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CL_P1S1PV Pf1cl coil: eef3-pss-1 section b voltage
\PC_PF1CL_PSS_1S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CL_P1S2PI Pf1cl coil: eef3-pss-2 section b current
\PC_PF1CL_PSS_1S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CL_P1S2PV Pf1cl coil: eef3-pss-2 section b voltage
\PC_PF1CL_PSS_2S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CL_P2S1PI Pf1cl coil: eef3-pss-1 section a current
\PC_PF1CL_PSS_2S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CL_P2S1PV Pf1cl coil: eef3-pss-1 section a voltage
\PC_PF1CL_PSS_2S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CL_P2S2PI Pf1cl coil: eef3-pss-2 section a current
\PC_PF1CL_PSS_2S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CL_P2S2PV Pf1cl coil: eef3-pss-2 section a voltage
\PC_PF1CL_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CL_SVD1_1 Dtacq ross pf1cl sds vd1
\PC_PF1CL_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CL_SVD2_1 Dtacq ross pf1cl sds vd2
\PC_PF1CU_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CU_CUR1 Dtacq pf1cu current 1
\PC_PF1CU_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CU_CUR2 Dtacq pf1cu current 2
\PC_PF1CU_PSS_1S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CU_P1S1PI Pf1cu coil: eef4-pss-2 section b current
\PC_PF1CU_PSS_1S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CU_P1S1PV Pf1cu coil: eef4-pss-2 section b voltage
\PC_PF1CU_PSS_1S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CU_P1S2PI Pf1cu coil: eoh3-pss-2 section b current
\PC_PF1CU_PSS_1S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CU_P1S2PV Pf1cu coil: eoh3-pss-2 section b voltage
\PC_PF1CU_PSS_2S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CU_P2S1PI Pf1cu coil: eef4-pss-2 section a current
\PC_PF1CU_PSS_2S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CU_P2S1PV Pf1cu coil: eef4-pss-2 section a voltage
\PC_PF1CU_PSS_2S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CU_P2S2PI Pf1cu coil: eoh3-pss-2 section a current
\PC_PF1CU_PSS_2S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CU_P2S2PV Pf1cu coil: eoh3-pss-2 section a voltage
\PC_PF1CU_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CU_SVD1_1 Dtacq ross pf1cu sds vd1
\PC_PF1CU_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1CU_SVD2_1 Dtacq ross pf1cu sds vd2
\PC_PF1_PF2_PERM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1_PF2PERM Pf1/pf2 fault/pdp status
\PC_PF2L_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_CUR1 Mh1
\PC_PF2L_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_CUR1F Label empty
\PC_PF2L_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_CUR2 Eshunt
\PC_PF2L_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_CUR2F Label empty
\PC_PF2L_PSS_1S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_P1SI Pf1cu coil: eoh3-pss-1 section b current
\PC_PF2L_PSS_1S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_P1SV Pf1cu coil: eoh3-pss-1 section b voltage
\PC_PF2L_PSS_2S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_P2SI Pf1cu coil: eoh3-pss-1 section a current
\PC_PF2L_PSS_2S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_P2SV Pf1cu coil: eoh3-pss-1 section a voltage
\PC_PF2L_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_SVD1_1 Dtacq ross pf2l sds vd1
\PC_PF2L_SDS_VD1_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_SVD1_F Label empty
\PC_PF2L_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_SVD2_1 Dtacq ross pf2l sds vd2
\PC_PF2L_SDS_VD2_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_SVD2_F Label empty
\PC_PF2U_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_CUR1 Mh1
\PC_PF2U_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_CUR1F Label empty
\PC_PF2U_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_CUR2 Eshunt
\PC_PF2U_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_CUR2F Label empty
\PC_PF2U_PSS_1S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_P1SI Pf1cu coil: eoh5-pss-1 section b current
\PC_PF2U_PSS_1S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_P1SV Pf1cu coil: eoh5-pss-1 section b voltage
\PC_PF2U_PSS_2S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_P2SI Pf1cu coil: eoh5-pss-1 section a current
\PC_PF2U_PSS_2S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_P2SV Pf1cu coil: eoh5-pss-1 section a voltage
\PC_PF2U_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_SVD1_1 Dtacq ross pf2u sds vd1
\PC_PF2U_SDS_VD1_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_SVD1_F Label empty
\PC_PF2U_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_SVD2_1 Dtacq ross pf2u sds vd2
\PC_PF2U_SDS_VD2_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_SVD2_F Label empty
\PC_PF3L_BR_2_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_B2_CR1F Label empty
\PC_PF3L_BR_2_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_B2_CUR1 No description
\PC_PF3L_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_CUR1 Mh1
\PC_PF3L_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_CUR1F Label empty
\PC_PF3L_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_CUR2 Eshunt
\PC_PF3L_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_CUR2F Label empty
\PC_PF3L_PSS_1S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P1S_1PI Pf13l coil: eoh4-pss-1 section b current
\PC_PF3L_PSS_1S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P1S_1PV Pf13l coil: eoh4-pss-1 section b voltage
\PC_PF3L_PSS_1S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P1S_2PI Pf13l coil: eef1-pss-2 section b current
\PC_PF3L_PSS_1S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P1S_2PV Pf13l coil: eef1-pss-2 section b voltage
\PC_PF3L_PSS_2S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P2S_1PI Pf13l coil: eoh4-pss-1 section a current
\PC_PF3L_PSS_2S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P2S_1PV Pf13l coil: eoh4-pss-1 section a voltage
\PC_PF3L_PSS_2S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P2S_2PI Pf13l coil: eef1-pss-2 section a current
\PC_PF3L_PSS_2S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P2S_2PV Pf13l coil: eef1-pss-2 section a voltage
\PC_PF3L_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_SVD1_1 Dtacq ross pf3l sds vd1
\PC_PF3L_SDS_VD1_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_SVD1_F Label empty
\PC_PF3L_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_SVD2_1 Dtacq ross pf3l sds vd2
\PC_PF3L_SDS_VD2_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_SVD2_F Label empty
\PC_PF3U_BR_2_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_B2_CR1F Label empty
\PC_PF3U_BR_2_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_B2_CUR1 No description
\PC_PF3U_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_CUR1 Mh1
\PC_PF3U_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_CUR1F Label empty
\PC_PF3U_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_CUR2 Eshunt
\PC_PF3U_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_CUR2F Label empty
\PC_PF3U_PSS_1S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P1S_1PI Pf13u coil: eoh2-pss-1 section b current
\PC_PF3U_PSS_1S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P1S_1PV Pf13u coil: eoh2-pss-1 section b voltage
\PC_PF3U_PSS_1S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P1S_2PI Pf13u coil: eef1-pss-1 section b current
\PC_PF3U_PSS_1S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P1S_2PV Pf13u coil: eef1-pss-1 section b voltage
\PC_PF3U_PSS_2S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P2S_1PI Pf13u coil: eoh2-pss-1 section a current
\PC_PF3U_PSS_2S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P2S_1PV Pf13u coil: eoh2-pss-1 section a voltage
\PC_PF3U_PSS_2S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P2S_2PI Pf13u coil: eef1-pss-1 section a current
\PC_PF3U_PSS_2S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P2S_2PV Pf13u coil: eef1-pss-1 section a voltage
\PC_PF3U_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_SVD1_1 Dtacq ross pf3u sds vd1
\PC_PF3U_SDS_VD1_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_SVD1_F Label empty
\PC_TF_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_SVD2_1 Dtacq ross pf3u sds vd2
\PC_PF3U_SDS_VD2_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_SVD2_F Label empty
\PC_PF45_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_CUR1 Mh1
\PC_PF45_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_CUR1F Label empty
\PC_PF45_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_CUR2 Eshunt
\PC_PF45_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_CUR2F Label empty
\PC_PF45_PSS_1S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_P1S_I Label empty
\PC_PF45_PSS_1S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_P1S_V Label empty
\PC_PF45_PSS_2S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_P2S_I Label empty
\PC_PF45_PSS_2S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_P2S_V Label empty
\PC_PF45_PSS_3S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_P3S_I Label empty
\PC_PF45_PSS_3S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_P3S_V Label empty
\PC_PF45_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_SVD1_1 Label empty
\PC_PF45_SDS_VD1_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_SVD1_F Label empty
\PC_PF45_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_SVD2_1 Label empty
\PC_PF45_SDS_VD2_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF45_SVD2_F Label empty
\PC_PF4L_1S \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF4L_1S Label empty
\PC_PF4L_2S \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF4L_2S Label empty
\PC_PF4U_1S \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF4U_1S Label empty
\PC_PF4U_2S \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF4U_2S Label empty
\PC_PF4_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF4_CUR1 Pf4 current #1
\PC_PF4_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF4_CUR2 Pf4 current #2
\PC_PF4_PSS_1S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF4_P1SI Pf4 coil: eef2-pss-1 section b current
\PC_PF4_PSS_1S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF4_P1SV Pf4 coil: eef2-pss-1 section b voltage
\PC_PF4_PSS_2S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF4_P2SI Pf4 coil: eef2-pss-1 section a current
\PC_PF4_PSS_2S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF4_P2SV Pf4 coil: eef2-pss-1 section a voltage
\PC_PF4_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF4_SVD1_1 Dtacq ross pf4 sds vd1
\PC_PF4_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF4_SVD2_1 Dtacq ross pf4 sds vd2
\PC_PF5L_1S \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5L_1S Label empty
\PC_PF5L_2S \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5L_2S Label empty
\PC_PF5U_1S \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5U_1S Label empty
\PC_PF5U_2S \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5U_2S Label empty
\PC_PF5_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5_CUR1 Pf5 current #1
\PC_PF5_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5_CUR2 Pf5 current #2
\PC_PF5_PSS_1S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5_P1SI Pf5 coil: eoh6-pss-1 section b current
\PC_PF5_PSS_1S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5_P1SV Pf5 coil: eoh6-pss-1 section b voltage
\PC_PF5_PSS_2S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5_P2SI Pf5 coil: eoh5-pss-2 section b current
\PC_PF5_PSS_2S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5_P2SV Pf5 coil: eoh5-pss-2 section b voltage
\PC_PF5_PSS_3S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5_P3SI Pf5 coil: eoh6-pss-1 section a current
\PC_PF5_PSS_3S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5_P3SV Pf5 coil: eoh6-pss-1 section a voltage
\PC_PF5_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5_SVD1_1 Dtacq ross pf5 sds vd1
\PC_PF5_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF5_SVD2_1 Dtacq ross pf5 sds vd2
\PC_PF_GFC_N \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF_GFC_N Label empty
\PC_PF_GFC_P \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF_GFC_P Label empty
\PC_PF_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF_GNDC Dtacq ross pf inst. gnd. cur.
\PC_PF_RF_PERM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF_RFPERM Pf/rf fault/pdp status
\PC_RF_PERM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RFPERM Rf permissive
\PC_ROG_1_HG \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:ROG_1_HG High gain rogowski 1 signal
\PC_ROG_1_LG \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:ROG_1_LG Low gain rogowski 1 signal
\PC_ROG_2_HG \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:ROG_2_HG High gain rogowski 2 signal
\PC_ROG_2_LG \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:ROG_2_LG Low gain rogowski 2 signal
\PC_RWM1_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM1_I Label empty
\PC_RWM2_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM2_I Label empty
\PC_RWM3_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM3_I Label empty
\PC_RWM4_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM4_I Label empty
\PC_RWM5_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM5_I Label empty
\PC_RWM6_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM6_I Label empty
\PC_RWM_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM_SVD1_1 Dtacq ross rwm sds vd1
\PC_RWM_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM_SVD2_1 Dtacq ross rwm sds vd2
\PC_SOP_EOP_GATE \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SOP_EOP_GATE Neutral beam permissive signal 2
\PC_SP1_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SP1_GNDC Dtacq ross sp1 inst. gnd. cur.
\PC_SP2_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SP2_GNDC Dtacq ross sp2 inst. gnd. cur.
\PC_SP3_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SP3_GNDC Dtacq ross sp3 inst. gnd. cur.
\PC_SP4_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SP4_GNDC Dtacq ross sp4 inst. gnd. cur.
\PC_SPA2_ACP_FLT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_ACP_FLT Spa2 acp fault voltage
\PC_SPA2_CHAN14 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_CHAN14 Spa2 spare channel
\PC_SPA2_CHAN15 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_CHAN15 Spa2 spare channel
\PC_SPA2_CHAN16 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_CHAN16 Spa2 spare channel
\PC_SPA2_FLTSTATUS \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_FLTSTS Spa2 fault status
\PC_SPA2_IDC \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_IDC Spa2 dc-link current. total for su4-5-6.
\PC_SPA2_SU4_CHRG_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_SU4_CHI Spa2 su4 charging current
\PC_SPA2_SU4_FLT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_SU4_FLT Spa2 su4 fault
\PC_SPA2_SU4_PERM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_SU4_PRM Spa2 su4 permissive
\PC_SPA2_SU4_REF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_SU4_REF Spa2 su4 reference
\PC_SPA2_SU5_CHRG_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_SU5_CHI Spa2 su5 charging current
\PC_SPA2_SU5_FLT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_SU5_FLT Spa2 su5 fault
\PC_SPA2_SU5_PERM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_SU5_PRM Spa2 su5 permissive
\PC_SPA2_SU5_REF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_SU5_REF Spa2 su5 reference
\PC_SPA2_SU6_CHRG_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_SU6_CHI Spa2 su6 charging current
\PC_SPA2_SU6_FLT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_SU6_FLT Spa2 su6 fault
\PC_SPA2_SU6_PERM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_SU6_PRM Spa2 su6 permissive
\PC_SPA2_SU6_REF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_SU6_REF Spa2 su6 reference
\PC_SPA2_VDC \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA2_VDC Spa2 dc-link voltage
\PC_SPARE_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPARE_CUR1 Spare
\PC_SPARE_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPARE_CUR1F Label empty
\PC_SPARE_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPARE_CUR2 Spare
\PC_SPARE_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPARE_CUR2F Label empty
\PC_SPA1_ACP_FLT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_ACP_FLT Spa1 acp fault voltage
\PC_SPA_IDC \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_IDC Spa1 dc-link current. total for subunits 1-2-3.
\PC_SPA1_SU1_CHRG_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU1_CHI Spa subunit 1 charging current
\PC_SPA_SU1_FLT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU1_FLT Spa su1 fault
\PC_SPA_SU1_I1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU1_I1 Spa su1 output current 1
\PC_SPA_SU1_I2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU1_I2 Spa su1 output current 2
\PC_SPA_SU1_PRM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU1_PRM Spa su1 permissive
\PC_SPA_SU1_REF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU1_REF Spa su1 reference waveform
\PC_SPA_SU1_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU1_V Spa su1 output voltage
\PC_SPA_SU23_CHRG_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU23_CHI Spa subunits 2 and 3 charging current
\PC_SPA_SU2_CHRG_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU2_CHI Spa subunit 2 charging current
\PC_SPA_SU2_FLT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU2_FLT Spa su2 fault
\PC_SPA_SU2_I1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU2_I1 Spa su2 output current 1
\PC_SPA_SU2_I2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU2_I2 Spa su2 output current 2
\PC_SPA_SU2_PRM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU2_PRM Spa su2 permissive
\PC_SPA_SU2_REF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU2_REF Spa su2 reference waveform
\PC_SPA_SU2_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU2_V Spa su2 output voltage
\PC_SPA_SU3_CHRG_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU3_CHI Charging current spa subunit 3
\PC_SPA_SU3_FLT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU3_FLT Spa su3 fault
\PC_SPA_SU3_I1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU3_I1 Spa su3 output current 1
\PC_SPA_SU3_I2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU3_I2 Spa su3 output current 2
\PC_SPA_SU3_PRM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU3_PRM Spa su3 permissive
\PC_SPA_SU3_REF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU3_REF Spa su3 reference waveform
\PC_SPA_SU3_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU3_V Spa su3 output voltage
\PC_SPA_SU4_I1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU4_I1 Spa su4 output current 1
\PC_SPA_SU4_I2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU4_I2 Spa su4 output current 2
\PC_SPA_SU4_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU4_V Spa su4 output voltage
\PC_SPA_SU5_I1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU5_I1 Spa su5 output current 1
\PC_SPA_SU5_I2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU5_I2 Spa su5 output current 2
\PC_SPA_SU5_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU5_V Spa su5 output voltage
\PC_SPA_SU6_I1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU6_I1 Spa su6 output current 1
\PC_SPA_SU6_I2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU6_I2 Spa su6 output current 2
\PC_SPA_SU6_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_SU6_V Spa su6 output voltage
\PC_SPA1_VDC \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPA_VDC Spa1 dc-link voltage
\PC_SPARE2_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPR2_SVD1_1 Dtacq ross spare2 sds vd1
\PC_SPARE2_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPR2_SVD2_1 Dtacq ross spare2 sds vd2
\PC_SPR_GFC_N \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPR_GFC_N Label empty
\PC_SPR_GFC_P \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SPR_GFC_P Label empty
\PC_TF1_PSS_9C_IA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF1_P9C_IA Tf coil: etf1-pss-9 section a current
\PC_TF1_PSS_9C_IB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF1_P9C_IB Tf coil: etf1-pss-9 section b current
\PC_TF1_PSS_9C_VA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF1_P9C_VA Tf coil: etf1-pss-9 section a voltage
\PC_TF1_PSS_9C_VB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF1_P9C_VB Tf coil: etf1-pss-9 section b voltage
\PC_TF1_PSS_AC_IA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF1_PAC_IA Tf coil: etf1-pss-a section a current
\PC_TF1_PSS_AC_IB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF1_PAC_IB Tf coil: etf1-pss-a section b current
\PC_TF1_PSS_AC_VA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF1_PAC_VA Tf coil: etf1-pss-a section a voltage
\PC_TF1_PSS_AC_VB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF1_PAC_VB Tf coil: etf1-pss-a section b voltage
\PC_TF_BR_1_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B1_CUR1 Mh1
\PC_TF_BR_1_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B1_CUR1F Label empty
\PC_TF_BR_1_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B1_CUR2 Mh1
\PC_TF_BR_1_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B1_CUR2F Label empty
\PC_TF_BR_2_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B2_CUR1 Mh1
\PC_TF_BR_2_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B2_CUR1F Label empty
\PC_TF_BR_2_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B2_CUR2 Mh2
\PC_TF_BR_2_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B2_CUR2F Label empty
\PC_TF_BR_3_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B3_CUR1 Mh1
\PC_TF_BR_3_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B3_CUR1F Label empty
\PC_TF_BR_3_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B3_CUR2 Mh3
\PC_TF_BR_3_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B3_CUR2F Label empty
\PC_TF_BR_4_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B4_CUR1 Mh1
\PC_TF_BR_4_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B4_CUR1F Label empty
\PC_TF_BR_4_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B4_CUR2 Mh4
\PC_TF_BR_4_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_B4_CUR2F Label empty
\PC_TF_BR_12_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR12_CUR1 Tf branch lkat 1/2 cur 1
\PC_TF_BR_12_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR12_CUR2 Tf branch lkat 1/2 cur 2
\PC_TF_BR_34_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR34_CUR1 Tf branch lkat 3/4 cur 1
\PC_TF_BR_34_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR34_CUR2 Tf branch lkat 3/4 cur 2
\PC_TF_BR_56_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR56_CUR1 Tf branch lkat 5/6 cur 1
\PC_TF_BR_56_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR56_CUR2 Tf branch lkat 5/6 cur 2
\PC_TF_BR_78_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR78_CUR1 Tf branch lkat 7/8 cur 1
\PC_TF_BR_78_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR78_CUR2 Tf branch lkat 7/8 cur 2
\PC_TF_BR_1_CUR_3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR_1_C3 Tf branch 1 current
\PC_TF_BR_2_CUR_3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR_2_C3 Tf branch 2 current
\PC_TF_BR_3_CUR_3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR_3_C3 Tf branch 3 current
\PC_TF_BR_4_CUR_3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR_4_C3 Tf branch 4 current
\PC_TF_BR_5_CUR_3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR_5_C3 Tf branch 5 current
\PC_TF_BR_6_CUR_3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR_6_C3 Tf branch 6 current
\PC_TF_BR_7_CUR_3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR_7_C3 Tf branch 7 current
\PC_TF_BR_8_CUR_3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_BR_8_C3 Tf branch 8 current
\PC_TF_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_CUR1 Dtacq tf current 1
\PC_TF_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_CUR2 Tf current 2
\PC_TF_GFC_N \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_GFC_N Label empty
\PC_TF_GFC_P \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_GFC_P Label empty
\PC_TF_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_GNDC Dtacq ross tf inst. gnd. cur.
\PC_TF_HCS_FLT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_H_FLT Tf hcs parallel lvl 1 fault
\PC_TF_LKAT_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_LKAT_CUR1 Tf lkat total cur 1
\PC_TF_LKAT_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_LKAT_CUR2 Tf lkat total cur 2
\PC_TF_PSS_1S_1P_IA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_1PIA Tf coil: etf1-pss-1 section a current
\PC_TF_PSS_1S_1P_IB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_1PIB Tf coil: etf1-pss-1 section b current
\PC_TF_PSS_1S_1P_VA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_1PVA Tf coil: etf1-pss-1 section a voltage
\PC_TF_PSS_1S_1P_VB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_1PVB Tf coil: etf1-pss-1 section b voltage
\PC_TF_PSS_1S_2P_IA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_2PIA Tf coil: etf1-pss-2 section a current
\PC_TF_PSS_1S_2P_IB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_2PIB Tf coil: etf1-pss-2 section b current
\PC_TF_PSS_1S_2P_VA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_2PVA Tf coil: etf1-pss-2 section a voltage
\PC_TF_PSS_1S_2P_VB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_2PVB Tf coil: etf1-pss-2 section b voltage
\PC_TF_PSS_1S_3P_IA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_3PIA Tf coil: etf1-pss-3 section a current
\PC_TF_PSS_1S_3P_IB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_3PIB Tf coil: etf1-pss-3 section b current
\PC_TF_PSS_1S_3P_VA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_3PVA Tf coil: etf1-pss-3 section a voltage
\PC_TF_PSS_1S_3P_VB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_3PVB Tf coil: etf1-pss-3 section b voltage
\PC_TF_PSS_1S_4P_IA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_4PIA Tf coil: etf1-pss-4 section a current
\PC_TF_PSS_1S_4P_IB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_4PIB Tf coil: etf1-pss-4 section b current
\PC_TF_PSS_1S_4P_VA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_4PVA Tf coil: etf1-pss-4 section a voltage
\PC_TF_PSS_1S_4P_VB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_4PVB Tf coil: etf1-pss-4 section b voltage
\PC_TF_PSS_1S_5P_IA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_5PIA Tf coil: etf1-pss-5 section a current
\PC_TF_PSS_1S_5P_IB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_5PIB Tf coil: etf1-pss-5 section b current
\PC_TF_PSS_1S_5P_VA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_5PVA Tf coil: etf1-pss-5 section a voltage
\PC_TF_PSS_1S_5P_VB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_5PVB Tf coil: etf1-pss-5 section b voltage
\PC_TF_PSS_1S_6P_IA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_6PIA Tf coil: etf1-pss-6 section a current
\PC_TF_PSS_1S_6P_IB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_6PIB Tf coil: etf1-pss-6 section b current
\PC_TF_PSS_1S_6P_VA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_6PVA Tf coil: etf1-pss-6 section a voltage
\PC_TF_PSS_1S_6P_VB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_6PVB Tf coil: etf1-pss-6 section b voltage
\PC_TF_PSS_1S_7P_IA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_7PIA Tf coil: etf1-pss-7 section a current
\PC_TF_PSS_1S_7P_IB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_7PIB Tf coil: etf1-pss-7 section b current
\PC_TF_PSS_1S_7P_VA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_7PVA Tf coil: etf1-pss-7 section a voltage
\PC_TF_PSS_1S_7P_VB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_7PVB Tf coil: etf1-pss-7 section b voltage
\PC_TF_PSS_1S_8P_IA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_8PIA Tf coil: etf1-pss-8 section a current
\PC_TF_PSS_1S_8P_IB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_8PIB Tf coil: etf1-pss-8 section b current
\PC_TF_PSS_1S_8P_VA \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_8PVA Tf coil: etf1-pss-8 section a voltage
\PC_TF_PSS_1S_8P_VB \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_8PVB Tf coil: etf1-pss-8 section b voltage
\PC_TF_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_SVD1_1 Dtacq ross tf sds vd1
\PC_TF_SDS_VD1_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_SVD1_F Label empty
\PC_TF_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_SVD2_1 Dtacq ross tf sds vd2
\PC_TF_SDS_VD2_F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_SVD2_F Label empty
\GS_ENT_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:ENT_TD Label empty
\GS_FVSPARE1_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:FVSPARE1_TD Label empty
\GS_FVSPARE2_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:FVSPARE2_TD Label empty
\GS_IG110_TORR \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:GS_IG110_TR Label empty
\GS_IG_TORR \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:GS_IG_TORR Label empty
\GS_IG110_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:IG110_TD Label empty
\GS_IG_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:IG_TD Label empty
\MIG3_EMISSIONCURR \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:MIG3EMIS_TD Micro ion gauge - bay l midplane
\MIG3_IONCURR \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:MIG3ION_TD Micro ion gauge - bay l midplane
\MIG4_EMISSIONCURR \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:MIG4EMIS_TD Micro ion gauge - bay d top
\MIG4_IONCURR \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:MIG4ION_TD Micro ion gauge - bay d top
\MIG5_EMISSIONCURR \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:MIG5EMIS_TD Micro ion gauge - bay c midplane
\MIG5_IONCURR \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:MIG5ION_TD Micro ion gauge - bay c midplane
\GS_PE02_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PE02_TD Label empty
\GS_PE101_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PE101_TD Label empty
\GS_PE102_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PE102_TD Label empty
\GS_PE103_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PE103_TD Label empty
\GS_PE104_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PE104_TD Label empty
\GS_PE105_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PE105_TD Label empty
no tag available \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PE110_TD Label empty
\GS_PE111_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PE111_TD Label empty
\GS_PE112_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PE112_TD Label empty
\GS_PE113_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PE113_TD Label empty
\GS_PE114_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PE114_TD Label empty
\GS_PE115_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PE115_TD Label empty
\GS_PE17_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PE17_TD Label empty
\GS_PLCSCAN_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PLCSCAN_TD Label empty
\GS_PZV1_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PZV1_TD Label empty
\GS_PZV2_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PZV2_TD Label empty
\GS_PZV3_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PZV3_TD Label empty
\GS_PZV4_DAC_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PZV4_DAC_TD Label empty
\GS_PZV4_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PZV4_TD Label empty
\GS_SAV119_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:SAV119_TD Label empty
\GS_SAV120122_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:SAV120122_TD Bay f massive gas injection valve-set command
\GS_SAV120_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:SAV120_TD Label empty
\GS_SAV121_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:SAV121_TD Label empty
\GS_SAV122_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:SAV122_TD Label empty
\GS_SAV125A_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:SAV125A_TD Label empty
\GS_SAV125_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:SAV125_TD Label empty
no tag available \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:SAV129_TD Label empty
\GS_SAV130132_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:SAV130132_TD Bay j massive gas injection valve-set command
\GS_VMEDAC_TD \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:VMEDAC_TD Label empty
\TC_CB_U_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CB_U_1 Ceramic break temperature
\TC_CB_U_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CB_U_2 Ceramic break temperature
\TC_CB_U_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CB_U_3 Ceramic break temperature
\TC_CB_U_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CB_U_4 Ceramic break temperature
\TC_CSC_L_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_L_1 Center stack temperature
\TC_CSC_L_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_L_2 Center stack temperature
\TC_CSC_L_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_L_3 Center stack temperature
\TC_CSC_L_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_L_4 Center stack temperature
\TC_CSC_L_5 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_L_5 Center stack temperature
\TC_CSC_L_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_L_6 Center stack temperature
\TC_CSC_L_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_L_7 Center stack temperature
\TC_CSC_L_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_L_8 Center stack temperature
\TC_CSC_U_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_U_1 Center stack temperature
\TC_CSC_U_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_U_2 Center stack temperature
\TC_CSC_U_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_U_3 Center stack temperature
\TC_CSC_U_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_U_4 Center stack temperature
\TC_CSC_U_5 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_U_5 Center stack temperature
\TC_CSC_U_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_U_6 Center stack temperature
\TC_CSC_U_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:CSC_U_7 Center stack temperature
\TC_EVV_L_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_L_1 Vacuum vessel temperature
\TC_EVV_L_10 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_L_10 Vacuum vessel temperature
\TC_EVV_L_11 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_L_11 Vacuum vessel temperature
\TC_EVV_L_12 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_L_12 Vacuum vessel temperature
\TC_EVV_L_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_L_2 Vacuum vessel temperature
\TC_EVV_L_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_L_3 Vacuum vessel temperature
\TC_EVV_L_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_L_4 Vacuum vessel temperature
\TC_EVV_L_5 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_L_5 Vacuum vessel temperature
\TC_EVV_L_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_L_6 Vacuum vessel temperature
\TC_EVV_L_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_L_7 Vacuum vessel temperature
\TC_EVV_L_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_L_8 Vacuum vessel temperature
\TC_EVV_L_9 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_L_9 Vacuum vessel temperature
\TC_EVV_M_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_1 Vacuum vessel temperature
\TC_EVV_M_10 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_10 Vacuum vessel temperature
\TC_EVV_M_11 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_11 Vacuum vessel temperature
\TC_EVV_M_12 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_12 Vacuum vessel temperature
\TC_EVV_M_13 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_13 Vacuum vessel temperature
\TC_EVV_M_14 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_14 Vacuum vessel temperature
\TC_EVV_M_15 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_15 Vacuum vessel temperature
\TC_EVV_M_16 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_16 Vacuum vessel temperature
\TC_EVV_M_17 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_17 Vacuum vessel temperature
\TC_EVV_M_18 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_18 Vacuum vessel temperature
\TC_EVV_M_19 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_19 Vacuum vessel temperature
\TC_EVV_M_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_2 Vacuum vessel temperature
\TC_EVV_M_20 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_20 Vacuum vessel temperature
\TC_EVV_M_21 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_21 Vacuum vessel temperature
\TC_EVV_M_22 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_22 Vacuum vessel temperature
\TC_EVV_M_23 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_23 Vacuum vessel temperature
\TC_EVV_M_24 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_24 Vacuum vessel temperature
\TC_EVV_M_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_3 Vacuum vessel temperature
\TC_EVV_M_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_4 Vacuum vessel temperature
\TC_EVV_M_5 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_5 Vacuum vessel temperature
\TC_EVV_M_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_6 Vacuum vessel temperature
\TC_EVV_M_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_7 Vacuum vessel temperature
\TC_EVV_M_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_8 Vacuum vessel temperature
\TC_EVV_M_9 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_M_9 Vacuum vessel temperature
\TC_EVV_U_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_U_1 Vacuum vessel temperature
\TC_EVV_U_10 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_U_10 Vacuum vessel temperature
\TC_EVV_U_11 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_U_11 Vacuum vessel temperature
\TC_EVV_U_12 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_U_12 Vacuum vessel temperature
\TC_EVV_U_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_U_2 Vacuum vessel temperature
\TC_EVV_U_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_U_3 Vacuum vessel temperature
\TC_EVV_U_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_U_4 Vacuum vessel temperature
\TC_EVV_U_5 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_U_5 Vacuum vessel temperature
\TC_EVV_U_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_U_6 Vacuum vessel temperature
\TC_EVV_U_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_U_7 Vacuum vessel temperature
\TC_EVV_U_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_U_8 Vacuum vessel temperature
\TC_EVV_U_9 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:EVV_U_9 Vacuum vessel temperature
\TC_HHFW_L_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HHFW_L_1 Antenna temperature
\TC_HHFW_L_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HHFW_L_2 Antenna temperature
\TC_HHFW_L_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HHFW_L_3 Antenna temperature
\TC_HHFW_U_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HHFW_U_1 Antenna temperature
\TC_HHFW_U_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HHFW_U_2 Antenna temperature
\TC_HHFW_U_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HHFW_U_3 Antenna temperature
\TC_HTHS_L_14 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_L_14 Hths temperature
\TC_HTHS_L_15 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_L_15 Hths temperature
\TC_HTHS_L_16 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_L_16 Hths temperature
\TC_HTHS_L_20 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_L_20 Hths temperature
\TC_HTHS_L_21 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_L_21 Hths temperature
\TC_HTHS_L_22 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_L_22 Hths temperature
\TC_HTHS_L_25 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_L_25 Hths temperature
\TC_HTHS_L_27 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_L_27 Hths temperature
\TC_HTHS_U_10 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_U_10 Hths temperature
\TC_HTHS_U_11 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_U_11 Hths temperature
\TC_HTHS_U_12 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_U_12 Hths temperature
\TC_HTHS_U_13 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_U_13 Hths temperature
\TC_HTHS_U_17 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_U_17 Hths temperature
\TC_HTHS_U_18 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_U_18 Hths temperature
\TC_HTHS_U_19 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_U_19 Hths temperature
\TC_HTHS_U_23 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_U_23 Hths temperature
\TC_HTHS_U_24 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_U_24 Hths temperature
\TC_HTHS_U_26 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:HTHS_U_26 Hths temperature
\TC_IBDA_L_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDA_L_1 Inboard divertor temperature
\TC_IBDA_L_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDA_L_2 Inboard divertor temperature
\TC_IBDA_L_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDA_L_3 Inboard divertor temperature
\TC_IBDA_L_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDA_L_4 Inboard divertor temperature
\TC_IBDA_U_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDA_U_1 Inboard divertor temperature
\TC_IBDA_U_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDA_U_2 Inboard divertor temperature
\TC_IBDA_U_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDA_U_3 Inboard divertor temperature
\TC_IBDA_U_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDA_U_4 Inboard divertor temperature
\TC_IBDH_L_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_L_1 Inboard divertor temperature
\TC_IBDH_L_10 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_L_10 Inboard divertor temperature
\TC_IBDH_L_11 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_L_11 Inboard divertor temperature
\TC_IBDH_L_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_L_2 Inboard divertor temperature
\TC_IBDH_L_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_L_3 Inboard divertor temperature
\TC_IBDH_L_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_L_4 Inboard divertor temperature
\TC_IBDH_L_5 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_L_5 Inboard divertor temperature
\TC_IBDH_L_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_L_6 Inboard divertor temperature
\TC_IBDH_L_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_L_7 Inboard divertor temperature
\TC_IBDH_L_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_L_8 Inboard divertor temperature
\TC_IBDH_L_9 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_L_9 Inboard divertor temperature
\TC_IBDH_U_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_U_1 Inboard divertor temperature
\TC_IBDH_U_10 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_U_10 Inboard divertor temperature
\TC_IBDH_U_11 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_U_11 Inboard divertor temperature
\TC_IBDH_U_12 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_U_12 Inboard divertor temperature
\TC_IBDH_U_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_U_2 Inboard divertor temperature
\TC_IBDH_U_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_U_3 Inboard divertor temperature
\TC_IBDH_U_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_U_4 Inboard divertor temperature
\TC_IBDH_U_5 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_U_5 Inboard divertor temperature
\TC_IBDH_U_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_U_6 Inboard divertor temperature
\TC_IBDH_U_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_U_7 Inboard divertor temperature
\TC_IBDH_U_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_U_8 Inboard divertor temperature
\TC_IBDH_U_9 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDH_U_9 Inboard divertor temperature
\TC_IBDV_L_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_1 Inboard divertor temperature
\TC_IBDV_L_10 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_10 Inboard divertor temperature
\TC_IBDV_L_11 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_11 Inboard divertor temperature
\TC_IBDV_L_12 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_12 Inboard divertor temperature
\TC_IBDV_L_13 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_13 Inboard divertor temperature
\TC_IBDV_L_14 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_14 Inboard divertor temperature
\TC_IBDV_L_15 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_15 Inboard divertor temperature
\TC_IBDV_L_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_2 Inboard divertor temperature
\TC_IBDV_L_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_3 Inboard divertor temperature
\TC_IBDV_L_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_4 Inboard divertor temperature
\TC_IBDV_L_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_6 Inboard divertor temperature
\TC_IBDV_L_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_7 Inboard divertor temperature
\TC_IBDV_L_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_8 Inboard divertor temperature
\TC_IBDV_L_9 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_L_9 Inboard divertor temperature
\TC_IBDV_U_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_U_1 Inboard divertor temperature
\TC_IBDV_U_10 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_U_10 Inboard divertor temperature
\TC_IBDV_U_11 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_U_11 Inboard divertor temperature
\TC_IBDV_U_12 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_U_12 Inboard divertor temperature
\TC_IBDV_U_13 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_U_13 Inboard divertor temperature
\TC_IBDV_U_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_U_2 Inboard divertor temperature
\TC_IBDV_U_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_U_3 Inboard divertor temperature
\TC_IBDV_U_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_U_4 Inboard divertor temperature
\TC_IBDV_U_5 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_U_5 Inboard divertor temperature
\TC_IBDV_U_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_U_6 Inboard divertor temperature
\TC_IBDV_U_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_U_7 Inboard divertor temperature
\TC_IBDV_U_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_U_8 Inboard divertor temperature
\TC_IBDV_U_9 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:IBDV_U_9 Inboard divertor temperature
\TC_OBD_L_AB_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_AB_7 Outboard divertor temperature
\TC_OBD_L_BC_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_BC_7 Outboard divertor temperature
\TC_OBD_L_CD_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_CD_2 Outboard divertor temperature
\TC_OBD_L_CD_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_CD_4 Outboard divertor temperature
\TC_OBD_L_CD_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_CD_6 Outboard divertor temperature
\TC_OBD_L_CD_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_CD_7 Outboard divertor temperature
\TC_OBD_L_DE_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_DE_7 Outboard divertor temperature
\TC_OBD_L_FG_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_FG_1 Outboard divertor temperature
\TC_OBD_L_FG_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_FG_2 Outboard divertor temperature
\TC_OBD_L_FG_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_FG_3 Outboard divertor temperature
\TC_OBD_L_FG_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_FG_4 Outboard divertor temperature
\TC_OBD_L_FG_5 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_FG_5 Outboard divertor temperature
\TC_OBD_L_FG_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_FG_6 Outboard divertor temperature
\TC_OBD_L_FG_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_FG_7 Outboard divertor temperature
\TC_OBD_L_FG_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_FG_8 Outboard divertor temperature
\TC_OBD_L_FG_9 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_FG_9 Outboard divertor temperature
\TC_OBD_L_HI_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_HI_7 Outboard divertor temperature
\TC_OBD_L_IJ_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_IJ_7 Outboard divertor temperature
\TC_OBD_L_JK_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_JK_7 Outboard divertor temperature
\TC_OBD_L_KL_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_KL_2 Outboard divertor temperature
\TC_OBD_L_KL_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_KL_4 Outboard divertor temperature
\TC_OBD_L_KL_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_KL_6 Outboard divertor temperature
\TC_OBD_L_KL_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_KL_8 Outboard divertor temperature
\TC_OBD_L_KL_9 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_KL_9 Outboard divertor temperature
\TC_OBD_L_LA_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_L_LA_7 Outboard divertor temperature
\TC_OBD_U_AB_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_AB_7 Outboard divertor temperature
\TC_OBD_U_BC_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_BC_7 Outboard divertor temperature
\TC_OBD_U_CD_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_CD_1 Outboard divertor temperature
\TC_OBD_U_CD_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_CD_2 Outboard divertor temperature
\TC_OBD_U_CD_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_CD_4 Outboard divertor temperature
\TC_OBD_U_CD_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_CD_6 Outboard divertor temperature
\TC_OBD_U_CD_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_CD_7 Outboard divertor temperature
\TC_OBD_U_DE_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_DE_7 Outboard divertor temperature
\TC_OBD_U_FG_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_FG_1 Outboard divertor temperature
\TC_OBD_U_FG_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_FG_2 Outboard divertor temperature
\TC_OBD_U_FG_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_FG_3 Outboard divertor temperature
\TC_OBD_U_FG_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_FG_4 Outboard divertor temperature
\TC_OBD_U_FG_5 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_FG_5 Outboard divertor temperature
\TC_OBD_U_FG_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_FG_6 Outboard divertor temperature
\TC_OBD_U_FG_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_FG_7 Outboard divertor temperature
\TC_OBD_U_FG_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_FG_8 Outboard divertor temperature
\TC_OBD_U_FG_9 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_FG_9 Outboard divertor temperature
\TC_OBD_U_GH_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_GH_7 Outboard divertor temperature
\TC_OBD_U_JK_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_JK_7 Outboard divertor temperature
\TC_OBD_U_KL_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_KL_1 Outboard divertor temperature
\TC_OBD_U_KL_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_KL_2 Outboard divertor temperature
\TC_OBD_U_KL_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_KL_4 Outboard divertor temperature
\TC_OBD_U_KL_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_KL_6 Outboard divertor temperature
\TC_OBD_U_LA_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_LA_7 Outboard divertor temperature
\TC_OBD_U_LA_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_LA_8 Outboard divertor temperature
\TC_OBD_U_LA_9 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OBD_U_LA_9 Outboard divertor temperature
\TC_OH_L_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_L_1 Oh coil temperature
\TC_OH_L_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_L_2 Oh coil temperature
\TC_OH_L_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_L_3 Oh coil temperature
\TC_OH_L_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_L_4 Oh coil temperature
\TC_OH_L_5 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_L_5 Oh coil temperature
\TC_OH_L_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_L_6 Oh coil temperature
\TC_OH_L_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_L_7 Oh coil temperature
\TC_OH_L_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_L_8 Oh coil temperature
\TC_OH_U_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_U_1 Oh coil temperature
\TC_OH_U_10 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_U_10 Oh coil temperature
\TC_OH_U_11 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_U_11 Oh coil temperature
\TC_OH_U_12 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_U_12 Oh coil temperature
\TC_OH_U_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_U_2 Oh coil temperature
\TC_OH_U_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_U_3 Oh coil temperature
\TC_OH_U_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_U_4 Oh coil temperature
\TC_OH_U_5 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_U_5 Oh coil temperature
\TC_OH_U_6 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_U_6 Oh coil temperature
\TC_OH_U_7 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_U_7 Oh coil temperature
\TC_OH_U_8 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_U_8 Oh coil temperature
\TC_OH_U_9 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:OH_U_9 Oh coil temperature
\TC_PF1A_L_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PF1A_L_1 Pf coil temperature
\TC_PF1A_L_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PF1A_L_2 Pf coil temperature
\TC_PF1A_U_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PF1A_U_1 Pf coil temperature
\TC_PF1A_U_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PF1A_U_2 Pf coil temperature
\TC_PF1B_L_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PF1B_L_1 Pf coil temperature
\TC_PF1B_L_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PF1B_L_2 Pf coil temperature
\TC_PF1B_U_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PF1B_U_1 Pf coil temperature
\TC_PF1B_U_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PF1B_U_2 Pf coil temperature
\TC_PF1C_L_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PF1C_L_1 Pf coil temperature
\TC_PF1C_L_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PF1C_L_2 Pf coil temperature
\TC_PF1C_U_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PF1C_U_1 Pf coil temperature
\TC_PF1C_U_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PF1C_U_2 Pf coil temperature
\TC_PPPS_L_E_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPPS_L_E_1 Prot. plate support temperature
\TC_PPPS_L_E_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPPS_L_E_2 Prot. plate support temperature
\TC_PPPS_L_K_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPPS_L_K_1 Prot. plate support temperature
\TC_PPPS_L_K_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPPS_L_K_2 Prot. plate support temperature
\TC_PPPS_U_E_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPPS_U_E_1 Prot. plate support temperature
\TC_PPPS_U_E_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPPS_U_E_2 Prot. plate support temperature
\TC_PPPS_U_K_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPPS_U_K_1 Prot. plate support temperature
\TC_PPPS_U_K_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPPS_U_K_2 Prot. plate support temperature
\TC_PPP_L_CD_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_L_CD_1 Primary protective plate temperature
\TC_PPP_L_CD_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_L_CD_2 Primary protective plate temperature
\TC_PPP_L_FG_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_L_FG_1 Primary protective plate temperature
\TC_PPP_L_FG_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_L_FG_2 Primary protective plate temperature
\TC_PPP_L_IJ_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_L_IJ_1 Primary protective plate temperature
\TC_PPP_L_IJ_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_L_IJ_2 Primary protective plate temperature
\TC_PPP_L_LA_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_L_LA_1 Primary protective plate temperature
\TC_PPP_L_LA_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_L_LA_2 Primary protective plate temperature
\TC_PPP_U_CD_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_U_CD_1 Primary protective plate temperature
\TC_PPP_U_CD_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_U_CD_2 Primary protective plate temperature
\TC_PPP_U_FG_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_U_FG_1 Primary protective plate temperature
\TC_PPP_U_FG_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_U_FG_2 Primary protective plate temperature
\TC_PPP_U_IJ_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_U_IJ_1 Primary protective plate temperature
\TC_PPP_U_IJ_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_U_IJ_2 Primary protective plate temperature
\TC_PPP_U_LA_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_U_LA_1 Primary protective plate temperature
\TC_PPP_U_LA_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:PPP_U_LA_2 Primary protective plate temperature
\TC_SGI_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SGI_1 Sgi probe temperature
\TC_SGI_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SGI_2 Sgi probe temperature
\TC_SGI_3 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SGI_3 Sgi probe temperature
\TC_SGI_4 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SGI_4 Sgi probe temperature
\TC_SPPS_L_E_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPPS_L_E_1 Prot. plate support temperature
\TC_SPPS_L_E_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPPS_L_E_2 Prot. plate support temperature
\TC_SPPS_L_K_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPPS_L_K_1 Prot. plate support temperature
\TC_SPPS_L_K_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPPS_L_K_2 Prot. plate support temperature
\TC_SPPS_U_E_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPPS_U_E_1 Prot. plate support temperature
\TC_SPPS_U_E_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPPS_U_E_2 Prot. plate support temperature
\TC_SPPS_U_K_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPPS_U_K_1 Prot. plate support temperature
\TC_SPPS_U_K_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPPS_U_K_2 Prot. plate support temperature
\TC_SPP_L_CD_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_L_CD_1 Secondary protective plate temperature
\TC_SPP_L_CD_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_L_CD_2 Secondary protective plate temperature
\TC_SPP_L_FG_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_L_FG_1 Secondary protective plate temperature
\TC_SPP_L_FG_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_L_FG_2 Secondary protective plate temperature
\TC_SPP_L_IJ_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_L_IJ_1 Secondary protective plate temperature
\TC_SPP_L_IJ_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_L_IJ_2 Secondary protective plate temperature
\TC_SPP_L_LA_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_L_LA_1 Secondary protective plate temperature
\TC_SPP_L_LA_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_L_LA_2 Secondary protective plate temperature
\TC_SPP_U_CD_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_U_CD_1 Secondary protective plate temperature
\TC_SPP_U_CD_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_U_CD_2 Secondary protective plate temperature
\TC_SPP_U_FG_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_U_FG_1 Secondary protective plate temperature
\TC_SPP_U_FG_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_U_FG_2 Secondary protective plate temperature
\TC_SPP_U_IJ_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_U_IJ_1 Secondary protective plate temperature
\TC_SPP_U_IJ_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_U_IJ_2 Secondary protective plate temperature
\TC_SPP_U_LA_1 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_U_LA_1 Secondary protective plate temperature
\TC_SPP_U_LA_2 \ENGINEERING::TOP.EPICS.TC.TCSIGNALS:SPP_U_LA_2 Secondary protective plate temperature
\MGI1_PP_ICHRG_PCT \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PREPULSE:ICHRG_PCT Trace of charger current percentage - pre-pulse
\MGI1_PP_SCR_AMPS \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PREPULSE:ISCR Trace of scr current - pre-pulse
\MGI1_PP_TVPS_STATUS \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PREPULSE:TVPS_PERM Trace of tvps status - prepulse
\MGI1_PP_TEQ0_STATUS \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PREPULSE:TZERO Trace of pulse fiducial - pre-pulse
\MGI1_PP_CAP_VOLTS \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PREPULSE:VCAP Trace of capacitor voltage - pre-pulse
\MGI1_PP_VCHRG_OUT \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PREPULSE:VCHRG_OUT Trace of charger output voltage - pre-pulse
\MGI1_PP_VCHRG_PCT \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PREPULSE:VCHRG_PCT Trace of charger voltage percentage - pre-pulse
\MGI1_ICHRG_PCT \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PULSE:ICHRG_PCT Trace of charger current percentage
\MGI1_SCR_AMPS \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PULSE:ISCR Trace of scr current
\MGI1_TVPS_STATUS \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PULSE:TVPS_PERM Trace of tvps status
\MGI1_TEQ0_STATUS \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PULSE:TZERO Trace of pulse fiducial
\MGI1_CAP_VOLTS \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PULSE:VCAP Trace of capacitor voltage
\MGI1_VCHRG_OUT \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PULSE:VCHRG_OUT Trace of charger output voltage
\MGI1_VCHRG_PCT \ENGINEERING::TOP.EPICS.GAS.MGI.MGI1.MEASUREMENT.PULSE:VCHRG_PCT Trace of charger voltage percentage
\ICHI \ENGINEERING::TOP.ANALYSIS:ICHI Chi injected current
\IP1UNC \ENGINEERING::TOP.ANALYSIS:IP1UNC Plasma current 1 (uncorrected)
\IP2UNC \ENGINEERING::TOP.ANALYSIS:IP2UNC Plasma current 2 (uncorrected)
\IPF1B \ENGINEERING::TOP.ANALYSIS:IPF1B Pf1b coil current per turn
\ITFLI \ENGINEERING::TOP.ANALYSIS:ITFLI Tf lower inner bundle connector current
\ITFLO \ENGINEERING::TOP.ANALYSIS:ITFLO Tf lower outer bundle connector current
\ITFUI \ENGINEERING::TOP.ANALYSIS:ITFUI Tf upper inner bundle connector current
\ITFUO \ENGINEERING::TOP.ANALYSIS:ITFUO Tf upper outer bundle connector current
\TC_REF_TEMP \ENGINEERING::TOP.EPICS.TC:C3_GRPA_01 Test cell temperature
\TC_PF1A_L_1 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_02 Pf1a coil temperature
\TC_PF1A_L_2 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_03 Pf1a coil temperature
\TC_PF1A_U_1 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_04 Pf1a coil temperature
\TC_PF1A_U_2 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_05 Pf1a coil temperature
\TC_OH_U_9 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_06 Oh coil temperature
\TC_OH_U_10 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_07 Oh coil temperature
\TC_OH_U_11 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_08 Oh coil temperature
\TC_OH_U_12 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_09 Oh coil temperature
\TC_OH_U_1 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_10 Oh coil temperature
\TC_OH_U_2 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_11 Oh coil temperature
\TC_OH_U_3 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_12 Oh coil temperature
\TC_OH_U_4 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_13 Oh coil temperature
\TC_OH_U_5 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_14 Oh coil temperature
\TC_OH_U_6 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_15 Oh coil temperature
\TC_OH_U_7 \ENGINEERING::TOP.EPICS.TC:C3_GRPA_16 Oh coil temperature
\TC_OH_U_8 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_01 Oh coil temperature
\TC_OH_L_1 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_02 Oh coil temperature
\TC_OH_L_2 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_03 Oh coil temperature
\TC_OH_L_3 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_04 Oh coil temperature
\TC_OH_L_4 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_05 Oh coil temperature
\TC_OH_L_5 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_06 Oh coil temperature
\TC_OH_L_6 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_07 Oh coil temperature
\TC_OH_L_7 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_08 Oh coil temperature
\TC_OH_L_8 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_09 Oh coil temperature
\TC_C3_GRPB_10 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_10 Unused channel
\TC_C3_GRPB_11 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_11 Unused channel
\TC_C3_GRPB_12 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_12 Unused channel
\TC_C3_GRPB_13 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_13 Unused channel
\TC_C3_GRPB_14 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_14 Unused channel
\TC_C3_GRPB_15 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_15 Unused channel
\TC_C3_GRPB_16 \ENGINEERING::TOP.EPICS.TC:C3_GRPB_16 Unused channel
\TC_IBDV_L_1 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_01 Inboard divertor temperature
\TC_IBDV_L_2 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_02 Inboard divertor temperature
\TC_IBDH_L_1 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_03 Inboard divertor temperature
\TC_IBDH_L_2 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_04 Inboard divertor temperature
\TC_IBDV_U_1 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_05 Inboard divertor temperature
\TC_IBDV_U_2 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_06 Inboard divertor temperature
\TC_IBDH_U_1 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_07 Inboard divertor temperature
\TC_IBDH_U_2 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_08 Inboard divertor temperature
\TC_CSC_U_1 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_09 Center stack temperature
\TC_CSC_U_2 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_10 Center stack temperature
\TC_CSC_U_3 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_11 Center stack temperature
\TC_CSC_L_2 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_12 Center stack temperature
\TC_CSC_L_3 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_13 Center stack temperature
\TC_CSC_L_4 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_14 Center stack temperature
\TC_CSC_L_5 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_15 Center stack temperature
\TC_CSC_L_6 \ENGINEERING::TOP.EPICS.TC:C3_GRPC_16 Center stack temperature
\TC_CSC_U_4 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_01 Center stack temperature
\TC_CSC_U_5 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_02 Center stack temperature
\TC_CSC_U_10 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_03 Center stack temperature
\TC_CSC_L_1 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_04 Center stack temperature
\TC_CSC_L_7 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_05 Center stack temperature
\TC_CSC_L_8 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_06 Center stack temperature
\TC_CSC_U_11 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_07 Center stack temperature
\TC_CSC_U_12 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_08 Center stack temperature
\TC_CSC_U_13 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_09 Center stack temperature
\TC_CSC_U_14 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_10 Center stack temperature
\TC_CSC_U_15 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_11 Center stack temperature
\TC_CSC_U_16 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_12 Center stack temperature
\TC_CSC_U_6 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_13 Center stack temperature
\TC_CSC_U_7 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_14 Center stack temperature
\TC_CSC_U_8 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_15 Center stack temperature
\TC_CSC_U_9 \ENGINEERING::TOP.EPICS.TC:C3_GRPD_16 Center stack temperature
\TC_CB_U_SE \ENGINEERING::TOP.EPICS.TC:C3_GRPE_01 Upr ceramicbrk temp., se
\TC_CB_U_NW \ENGINEERING::TOP.EPICS.TC:C3_GRPE_02 Upr ceramicbrk temp., nw
\TC_CB_L_SE \ENGINEERING::TOP.EPICS.TC:C3_GRPE_03 Lwr ceramicbrk temp., se
\TC_CB_L_NW \ENGINEERING::TOP.EPICS.TC:C3_GRPE_04 Lwr ceramicbrk temp., nw
\TC_C3_GRPE_05 \ENGINEERING::TOP.EPICS.TC:C3_GRPE_05 Label empty
\TC_C3_GRPE_06 \ENGINEERING::TOP.EPICS.TC:C3_GRPE_06 Label empty
\TC_C3_GRPE_07 \ENGINEERING::TOP.EPICS.TC:C3_GRPE_07 Label empty
\TC_C3_GRPE_08 \ENGINEERING::TOP.EPICS.TC:C3_GRPE_08 Label empty
\TC_C3_GRPE_09 \ENGINEERING::TOP.EPICS.TC:C3_GRPE_09 Label empty
\TC_C3_GRPE_10 \ENGINEERING::TOP.EPICS.TC:C3_GRPE_10 Label empty
\TC_C3_GRPE_11 \ENGINEERING::TOP.EPICS.TC:C3_GRPE_11 Label empty
\TC_C3_GRPE_12 \ENGINEERING::TOP.EPICS.TC:C3_GRPE_12 Label empty
\TC_C3_GRPE_13 \ENGINEERING::TOP.EPICS.TC:C3_GRPE_13 Label empty
\TC_C3_GRPE_14 \ENGINEERING::TOP.EPICS.TC:C3_GRPE_14 Label empty
\TC_C3_GRPE_15 \ENGINEERING::TOP.EPICS.TC:C3_GRPE_15 Label empty
\TC_C3_GRPE_16 \ENGINEERING::TOP.EPICS.TC:C3_GRPE_16 Label empty
\TC_OBD_L_1 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_01 Outboard divertor temperature
\TC_OBD_L_2 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_02 Outboard divertor temperature
\TC_OBD_L_3 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_03 Outboard divertor temperature
\TC_OBD_L_4 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_04 Outboard divertor temperature
\TC_OBD_L_5 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_05 Outboard divertor temperature
\TC_PPP_L_1 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_06 Primary prot. plate temperature
\TC_PPP_L_2 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_07 Primary prot. plate temperature
\TC_SPP_L_1 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_08 Secondary prot. plate temperature
\TC_SPP_L_2 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_09 Secondary prot. plate temperature
\TC_OBD_U_1 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_10 Outboard divertor temperature
\TC_OBD_U_2 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_11 Outboard divertor temperature
\TC_OBD_U_3 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_12 Outboard divertor temperature
\TC_OBD_U_4 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_13 Outboard divertor temperature
\TC_OBD_U_5 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_14 Outboard divertor temperature
\TC_PPP_U_1 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_15 Primary prot. plate temperature
\TC_PPP_U_2 \ENGINEERING::TOP.EPICS.TC:C4_GRPA_16 Primary prot. plate temperature
\TC_SPP_U_1 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_01 Secondary prot. plate temperature
\TC_SPP_U_2 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_02 Secondary prot. plate temperature
\TC_OBD_L_6 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_03 Outboard divertor temperature
\TC_OBD_L_7 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_04 Outboard divertor temperature
\TC_OBD_L_8 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_05 Outboard divertor temperature
\TC_OBD_L_9 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_06 Outboard divertor temperature
\TC_OBD_L_10 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_07 Outboard divertor temperature
\TC_PPP_L_3 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_08 Primary prot. plate temperature
\TC_PPP_L_4 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_09 Primary prot. plate temperature
\TC_SPP_L_3 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_10 Secondary prot. plate temperature
\TC_SPP_L_4 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_11 Secondary prot. plate temperature
\TC_OBD_U_6 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_12 Outboard divertor temperature
\TC_OBD_U_7 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_13 Outboard divertor temperature
\TC_OBD_U_8 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_14 Outboard divertor temperature
\TC_OBD_U_9 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_15 Outboard divertor temperature
\TC_OBD_U_10 \ENGINEERING::TOP.EPICS.TC:C4_GRPB_16 Outboard divertor temperature
\TC_PPP_U_3 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_01 Primary prot. plate temperature
\TC_PPP_U_4 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_02 Primary prot. plate temperature
\TC_SPP_U_3 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_03 Secondary prot. plate temperature
\TC_SPP_U_4 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_04 Secondary prot. plate temperature
\TC_EVV_M_1 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_05 Vacuum vessel temperature
\TC_EVV_M_2 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_06 Vacuum vessel temperature
\TC_EVV_M_3 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_07 Vacuum vessel temperature
\TC_EVV_M_4 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_08 Vacuum vessel temperature
\TC_EVV_M_5 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_09 Vacuum vessel temperature
\TC_EVV_M_6 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_10 Vacuum vessel temperature
\TC_EVV_M_7 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_11 Vacuum vessel temperature
\TC_EVV_M_8 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_12 Vacuum vessel temperature
\TC_EVV_M_9 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_13 Vacuum vessel temperature
\TC_EVV_M_10 \ENGINEERING::TOP.EPICS.TC:C4_GRPC_14 Vacuum vessel temperature
\TC_HIGHK_E \ENGINEERING::TOP.EPICS.TC:C4_GRPC_15 High-k temperature,east
\TC_HIGHK_W \ENGINEERING::TOP.EPICS.TC:C4_GRPC_16 High-k temperature,west
\TC_EVV_L_1 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_01 Vacuum vessel temperature
\TC_EVV_L_2 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_02 Vacuum vessel temperature
\TC_EVV_L_3 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_03 Vacuum vessel temperature
\TC_EVV_L_4 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_04 Vacuum vessel temperature
\TC_EVV_L_5 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_05 Vacuum vessel temperature
\TC_EVV_L_6 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_06 Vacuum vessel temperature
\TC_EVV_L_7 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_07 Vacuum vessel temperature
\TC_EVV_L_8 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_08 Vacuum vessel temperature
\TC_EVV_L_9 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_09 Vacuum vessel temperature
\TC_EVV_L_10 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_10 Vacuum vessel temperature
\TC_EVV_L_11 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_11 Vacuum vessel temperature
\TC_EVV_L_12 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_12 Vacuum vessel temperature
\TC_EVV_U_1 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_13 Vacuum vessel temperature
\TC_EVV_U_2 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_14 Vacuum vessel temperature
\TC_EVV_U_3 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_15 Vacuum vessel temperature
\TC_EVV_U_4 \ENGINEERING::TOP.EPICS.TC:C4_GRPD_16 Vacuum vessel temperature
\TC_NBPP_A1 \ENGINEERING::TOP.EPICS.TC:C4_GRPE_01 Nb prot. plate temperature
\TC_NBPP_A2 \ENGINEERING::TOP.EPICS.TC:C4_GRPE_02 Nb prot. plate temperature
\TC_NBPP_A3 \ENGINEERING::TOP.EPICS.TC:C4_GRPE_03 Nb prot. plate temperature
\TC_NBPP_A4 \ENGINEERING::TOP.EPICS.TC:C4_GRPE_04 Nb prot. plate temperature
\TC_NBPP_B1 \ENGINEERING::TOP.EPICS.TC:C4_GRPE_05 Nb prot. plate temperature
\TC_NBPP_B2A \ENGINEERING::TOP.EPICS.TC:C4_GRPE_06 Nb prot. plate temperature
\TC_NBPP_B2B \ENGINEERING::TOP.EPICS.TC:C4_GRPE_07 Nb prot. plate temperature
\TC_NBPP_B3A \ENGINEERING::TOP.EPICS.TC:C4_GRPE_08 Nb prot. plate temperature
\TC_EVV_U_5 \ENGINEERING::TOP.EPICS.TC:C4_GRPE_09 Vacuum vessel temperature
\TC_EVV_U_6 \ENGINEERING::TOP.EPICS.TC:C4_GRPE_10 Vacuum vessel temperature
\TC_EVV_U_7 \ENGINEERING::TOP.EPICS.TC:C4_GRPE_11 Vacuum vessel temperature
\TC_EVV_U_8 \ENGINEERING::TOP.EPICS.TC:C4_GRPE_12 Vacuum vessel temperature
\TC_EVV_U_9 \ENGINEERING::TOP.EPICS.TC:C4_GRPE_13 Vacuum vessel temperature
\TC_EVV_U_10 \ENGINEERING::TOP.EPICS.TC:C4_GRPE_14 Vacuum vessel temperature
\TC_EVV_U_11 \ENGINEERING::TOP.EPICS.TC:C4_GRPE_15 Vacuum vessel temperature
\TC_EVV_U_12 \ENGINEERING::TOP.EPICS.TC:C4_GRPE_16 Vacuum vessel temperature
\TC_NBPP_B3B \ENGINEERING::TOP.EPICS.TC:C4_GRPF_01 Nb prot. plate temperature
\TC_NBPP_B4A \ENGINEERING::TOP.EPICS.TC:C4_GRPF_02 Nb prot. plate temperature
\TC_NBPP_B4B \ENGINEERING::TOP.EPICS.TC:C4_GRPF_03 Nb prot. plate temperature
\TC_NBPP_C1 \ENGINEERING::TOP.EPICS.TC:C4_GRPF_04 Nb prot. plate temperature
\TC_NBPP_C2A \ENGINEERING::TOP.EPICS.TC:C4_GRPF_05 Nb prot. plate temperature
\TC_NBPP_C2B \ENGINEERING::TOP.EPICS.TC:C4_GRPF_06 Nb prot. plate temperature
\TC_NBPP_A5 \ENGINEERING::TOP.EPICS.TC:C4_GRPF_07 Nb prot. plate temperature
\TC_NBPP_A6 \ENGINEERING::TOP.EPICS.TC:C4_GRPF_08 Nb prot. plate temperature
\TC_NBPP_A7 \ENGINEERING::TOP.EPICS.TC:C4_GRPF_09 Nb prot. plate temperature
\TC_NBPP_A8 \ENGINEERING::TOP.EPICS.TC:C4_GRPF_10 Nb prot. plate temperature
\TC_NBPP_B5A \ENGINEERING::TOP.EPICS.TC:C4_GRPF_11 Nb prot. plate temperature
\TC_NBPP_B5B \ENGINEERING::TOP.EPICS.TC:C4_GRPF_12 Nb prot. plate temperature
\TC_NBPP_B6A \ENGINEERING::TOP.EPICS.TC:C4_GRPF_13 Nb prot. plate temperature
\TC_NBPP_B6B \ENGINEERING::TOP.EPICS.TC:C4_GRPF_14 Nb prot. plate temperature
\TC_NBPP_B7A \ENGINEERING::TOP.EPICS.TC:C4_GRPF_15 Nb prot. plate temperature
\TC_NBPP_B7B \ENGINEERING::TOP.EPICS.TC:C4_GRPF_16 Nb prot. plate temperature
\TC_NBPP_B8 \ENGINEERING::TOP.EPICS.TC:C4_GRPG_01 Nb prot. plate temperature
\TC_NBPP_C7A \ENGINEERING::TOP.EPICS.TC:C4_GRPG_02 Nb prot. plate temperature
\TC_NBPP_C7B \ENGINEERING::TOP.EPICS.TC:C4_GRPG_03 Nb prot. plate temperature
\TC_NBPP_C8 \ENGINEERING::TOP.EPICS.TC:C4_GRPG_04 Nb prot. plate temperature
\TC_NBPP_C3A \ENGINEERING::TOP.EPICS.TC:C4_GRPG_05 Nb prot. plate temperature
\TC_NBPP_C3B \ENGINEERING::TOP.EPICS.TC:C4_GRPG_06 Nb prot. plate temperature
\TC_NBPP_C4A \ENGINEERING::TOP.EPICS.TC:C4_GRPG_07 Nb prot. plate temperature
\TC_NBPP_C4B \ENGINEERING::TOP.EPICS.TC:C4_GRPG_08 Nb prot. plate temperature
\TC_NBPP_C5A \ENGINEERING::TOP.EPICS.TC:C4_GRPG_09 Nb prot. plate temperature
\TC_NBPP_C5B \ENGINEERING::TOP.EPICS.TC:C4_GRPG_10 Nb prot. plate temperature
\TC_NBPP_C6A \ENGINEERING::TOP.EPICS.TC:C4_GRPG_11 Nb prot. plate temperature
\TC_NBPP_C6B \ENGINEERING::TOP.EPICS.TC:C4_GRPG_12 Nb prot. plate temperature
\TC_NBPP_D3A \ENGINEERING::TOP.EPICS.TC:C4_GRPG_13 Nb prot. plate temperature
\TC_NBPP_D3B \ENGINEERING::TOP.EPICS.TC:C4_GRPG_14 Nb prot. plate temperature
\TC_NBPP_D4A \ENGINEERING::TOP.EPICS.TC:C4_GRPG_15 Nb prot. plate temperature
\TC_NBPP_D4B \ENGINEERING::TOP.EPICS.TC:C4_GRPG_16 Nb prot. plate temperature
\TC_NBPP_D5A \ENGINEERING::TOP.EPICS.TC:C4_GRPH_01 Nb prot. plate temperature
\TC_NBPP_D5B \ENGINEERING::TOP.EPICS.TC:C4_GRPH_02 Nb prot. plate temperature
\TC_NBPP_D6A \ENGINEERING::TOP.EPICS.TC:C4_GRPH_03 Nb prot. plate temperature
\TC_NBPP_D6B \ENGINEERING::TOP.EPICS.TC:C4_GRPH_04 Nb prot. plate temperature
\TC_NBPP_D1 \ENGINEERING::TOP.EPICS.TC:C4_GRPH_05 Nb prot. plate temperature
\TC_NBPP_D2A \ENGINEERING::TOP.EPICS.TC:C4_GRPH_06 Nb prot. plate temperature
\TC_NBPP_D2B \ENGINEERING::TOP.EPICS.TC:C4_GRPH_07 Nb prot. plate temperature
\TC_NBPP_E1 \ENGINEERING::TOP.EPICS.TC:C4_GRPH_08 Nb prot. plate temperature
\TC_NBPP_E2A \ENGINEERING::TOP.EPICS.TC:C4_GRPH_09 Nb prot. plate temperature
\TC_NBPP_E2B \ENGINEERING::TOP.EPICS.TC:C4_GRPH_10 Nb prot. plate temperature
\TC_NBPP_E3A \ENGINEERING::TOP.EPICS.TC:C4_GRPH_11 Nb prot. plate temperature
\TC_NBPP_E3B \ENGINEERING::TOP.EPICS.TC:C4_GRPH_12 Nb prot. plate temperature
\TC_NBPP_E4A \ENGINEERING::TOP.EPICS.TC:C4_GRPH_13 Nb prot. plate temperature
\TC_NBPP_E4B \ENGINEERING::TOP.EPICS.TC:C4_GRPH_14 Nb prot. plate temperature
\TC_NBPP_F1 \ENGINEERING::TOP.EPICS.TC:C4_GRPH_15 Nb prot. plate temperature
\TC_NBPP_F2 \ENGINEERING::TOP.EPICS.TC:C4_GRPH_16 Nb prot. plate temperature
\TC_NBPP_F3 \ENGINEERING::TOP.EPICS.TC:C4_GRPI_01 Nb prot. plate temperature
\TC_NBPP_F4 \ENGINEERING::TOP.EPICS.TC:C4_GRPI_02 Nb prot. plate temperature
\TC_NBPP_D7A \ENGINEERING::TOP.EPICS.TC:C4_GRPI_03 Nb prot. plate temperature
\TC_NBPP_D7B \ENGINEERING::TOP.EPICS.TC:C4_GRPI_04 Nb prot. plate temperature
\TC_NBPP_D8 \ENGINEERING::TOP.EPICS.TC:C4_GRPI_05 Nb prot. plate temperature
\TC_NBPP_E5A \ENGINEERING::TOP.EPICS.TC:C4_GRPI_06 Nb prot. plate temperature
\TC_NBPP_E5B \ENGINEERING::TOP.EPICS.TC:C4_GRPI_07 Nb prot. plate temperature
\TC_NBPP_E6A \ENGINEERING::TOP.EPICS.TC:C4_GRPI_08 Nb prot. plate temperature
\TC_NBPP_E6B \ENGINEERING::TOP.EPICS.TC:C4_GRPI_09 Nb prot. plate temperature
\TC_NBPP_E7A \ENGINEERING::TOP.EPICS.TC:C4_GRPI_10 Nb prot. plate temperature
\TC_NBPP_E7B \ENGINEERING::TOP.EPICS.TC:C4_GRPI_11 Nb prot. plate temperature
\TC_NBPP_E8 \ENGINEERING::TOP.EPICS.TC:C4_GRPI_12 Nb prot. plate temperature
\TC_NBPP_F5 \ENGINEERING::TOP.EPICS.TC:C4_GRPI_13 Nb prot. plate temperature
\TC_NBPP_F6 \ENGINEERING::TOP.EPICS.TC:C4_GRPI_14 Nb prot. plate temperature
\TC_NBPP_F7 \ENGINEERING::TOP.EPICS.TC:C4_GRPI_15 Nb prot. plate temperature
\TC_NBPP_F8 \ENGINEERING::TOP.EPICS.TC:C4_GRPI_16 Nb prot. plate temperature
\TC_NBDD_T1 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_01 Nb drift duct temperature
\TC_NBDD_T2 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_02 Nb drift duct temperature
\TC_NBDD_T3 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_03 Nb drift duct temperature
\TC_NBDD_T4 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_04 Nb drift duct temperature
\TC_NBDD_B1 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_05 Nb drift duct temperature
\TC_NBDD_B2 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_06 Nb drift duct temperature
\TC_NBDD_B3 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_07 Nb drift duct temperature
\TC_NBDD_B4 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_08 Nb drift duct temperature
\TC_C4_GRPJ_09 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_09 Unused channel
\TC_C4_GRPJ_10 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_10 Unused channel
\TC_C4_GRPJ_11 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_11 Unused channel
\TC_C4_GRPJ_12 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_12 Unused channel
\TC_C4_GRPJ_13 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_13 Unused channel
\TC_C4_GRPJ_14 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_14 Unused channel
\TC_C4_GRPJ_15 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_15 Unused channel
\TC_C4_GRPJ_16 \ENGINEERING::TOP.EPICS.TC:C4_GRPJ_16 Unused channel
\TC_SGI_1 \ENGINEERING::TOP.EPICS.TC:C4_GRPK_01 Sgi thermocouple
\TC_SGI_2 \ENGINEERING::TOP.EPICS.TC:C4_GRPK_02 Sgi thermocouple
\TC_KSPARE03 \ENGINEERING::TOP.EPICS.TC:C4_GRPK_03 Unused channel
\TC_KSPARE04 \ENGINEERING::TOP.EPICS.TC:C4_GRPK_04 Unused channel
\TC_C4_GRPK_05 \ENGINEERING::TOP.EPICS.TC:C4_GRPK_05 Sflip upper tc
\TC_C4_GRPK_06 \ENGINEERING::TOP.EPICS.TC:C4_GRPK_06 Sflip lower tc
\TC_C4_GRPK_07 \ENGINEERING::TOP.EPICS.TC:C4_GRPK_07 Nb prot. baffle #1,front
\TC_NBPB_1F \ENGINEERING::TOP.EPICS.TC:C4_GRPK_08 Nb prot. baffle #2, front
\TC_NBPB_2F \ENGINEERING::TOP.EPICS.TC:C4_GRPK_09 Nb prot. baffle #2, back
\TC_NBPB_2B \ENGINEERING::TOP.EPICS.TC:C4_GRPK_10 Nb prot. baffle #3, front
\TC_NBPB_3F \ENGINEERING::TOP.EPICS.TC:C4_GRPK_11 Nb prot. baffle #3, back
\TC_NBPB_3B \ENGINEERING::TOP.EPICS.TC:C4_GRPK_12 Unused channel
\TC_KSPARE13 \ENGINEERING::TOP.EPICS.TC:C4_GRPK_13 Unused channel
\TC_KSPARE14 \ENGINEERING::TOP.EPICS.TC:C4_GRPK_14 Unused channel
\TC_KSPARE15 \ENGINEERING::TOP.EPICS.TC:C4_GRPK_15 Unused channel
\TC_KSPARE16 \ENGINEERING::TOP.EPICS.TC:C4_GRPK_16 Unused channel
\PPCC_TF_BR1_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB000 Ppcc 000:tf_br_1_cur_1
\PPCC_TF_BR2_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB001 Ppcc 001:tf_br_2_cur_1
\PPCC_TF_BR3_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB002 Ppcc 002:tf_br_3_cur_1
\PPCC_TF_BR4_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB003 Ppcc 003:tf_br_4_cur_1
\PPCC_OH_BR1_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB004 Ppcc 004:oh_br1_cur_1(+)
\PPCC_OH_BR2_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB005 Ppcc 005:oh_br2_cur_1(-)
\PPCC_PF1AL_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB006 Ppcc 006:pf1al_cur_1
\PPCC_PF1AU_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB007 Ppcc 007:pf1au_cur_1
\PPCC_PF1B_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB008 Ppcc 008:pf1b_cur_1
\PPCC_PF2L_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB009 Ppcc 009:pf2l_cur_2
\PPCC_PF2U_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB010 Ppcc 010:pf2u_cur_2
\PPCC_PF3L_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB011 Ppcc 011:pf3l_cur_2
\PPCC_PF3U_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB012 Ppcc 012:pf3u_cur_2
\PPCC_PF5_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB013 Ppcc 013:pf5_cur_2
\PPCC_CHI_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB014 Ppcc 014:chi_cur_1
\PPCC_PF4_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB015 Ppcc 015:pf4_cur_2
\PPCC_TF_BR1_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB016 Ppcc 016:tf_br_1_cur_2
\PPCC_TF_BR2_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB017 Ppcc 017:tf_br_2_cur_2
\PPCC_TF_BR3_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB018 Ppcc 018:tf_br_3_cur_2
\PPCC_TF_BR4_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB019 Ppcc 019:tf_br_4_cur_2
\PPCC_OH_BR1_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB020 Ppcc 020:oh_fwd_cur_2
\PPCC_OH_BR2_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB021 Ppcc 021:oh_cur_cur_2
\PPCC_PF1AL_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB022 Ppcc 022:pf1al_cur_2
\PPCC_PF1AU_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB023 Ppcc 023:pf1au_cur_2
\PPCC_PF1B_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB024 Ppcc 024:pf1b_cur_2
\PPCC_PF2L_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB025 Ppcc 025:pf2l_cur_1
\PPCC_PF2U_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB026 Ppcc 026:pf2u_cur_1
\PPCC_PF3L_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB027 Ppcc 027:pf3l_cur_1
\PPCC_PF3U_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB028 Ppcc 028:pf3u_cur_1
\PPCC_PF5_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB029 Ppcc 029:pf5_cur1
\PPCC_CHI_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB030 Ppcc 030:chi_cur_2
\PPCC_PF4_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB031 Ppcc 031:pf4_cur1
\PPCC_PF3L_BR2_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB032 Ppcc 032:pf3l_br2_cur_1(-)
\PPCC_PF3U_BR2_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB033 Ppcc 033:pf3u_br2_cur_1(-)
\PPCC_CHI_BR1_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB034 Ppcc 034:chi_br_1_cur_1
\PPCC_CHI_BR2_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB035 Ppcc 035:chi_br_2_cur_1
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB036 Ppcc 036:f_flsppu3
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB037 Ppcc 037:f_flsppl3
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB038 Ppcc 038:b_l1dmsppgu3
\PPCC_PLASMA_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB039 Ppcc 039:ip_1
\PPCC_DUMMY_CUR \ENGINEERING::TOP.PPCC.DAS:CALIB040 Ppcc 040:dummy_cur
\PPCC_PLASMA_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB041 Ppcc 041:ip_2
\PPCC_NB_POWER \ENGINEERING::TOP.PPCC.DAS:CALIB042 Ppcc 042:nb power
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB043 Ppcc 043:b_l1dmsppgl3
\PPCC_PF1AU_BR2_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB044 Ppcc 044:pf1au_br2 cur1(-)
\PPCC_PF1AL_BR2_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB045 Ppcc 044:pf1al_br2 cur1(-)
\PPCC_PF1AU_BR1_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB046 Ppcc 044:pf1au_br1 cur1(+)
\PPCC_PF1AL_CUR3_INV \ENGINEERING::TOP.PPCC.DAS:CALIB047 Ppcc 047:pf1al_cur_3_inv
\PPCC_TF_FLT \ENGINEERING::TOP.PPCC.DAS:CALIB048 Ppcc 048:tf_flt
\PPCC_OH_FLT \ENGINEERING::TOP.PPCC.DAS:CALIB049 Ppcc 049:oh_flt
\PPCC_PF_CHI_FLT \ENGINEERING::TOP.PPCC.DAS:CALIB050 Ppcc 050:pf/chi_flt
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB051 Ppcc 051:fl_pp_u_4-fl_oh_m
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB052 Ppcc 052:fl_pp_l_4-fl_oh_m
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB053 Ppcc 053:fl_oh_m
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB054 Ppcc 054:l1dm_pppg_u
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB055 Ppcc 055:l1dm_pppg_l
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB056 Ppcc 056:1dm_csc_u_1
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB057 Ppcc 057:1dm_csc_l_1
\PPCC_CHI_VOLTAGE \ENGINEERING::TOP.PPCC.DAS:CALIB058 Ppcc 058:chi_voltage
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB059 Ppcc 059:spare
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB060 Ppcc 060:spare
\PPCC_FAST_SLOW_CLOCK \ENGINEERING::TOP.PPCC.DAS:CALIB061 Ppcc 061:fast/slow clock
\PPCC_SOP_EOP_WINDOW \ENGINEERING::TOP.PPCC.DAS:CALIB062 Ppcc 062:sop-eop window
\PPCC_CHAN_63_REF \ENGINEERING::TOP.PPCC.DAS:CALIB063 Ppcc 063:ref (-9.9v)
\PPCC_SPA_SU1_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB064 Ppcc 064:spa_su1_cur1
\PPCC_SPA_SU1_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB065 Ppcc 065:spa_su1_cur2
\PPCC_SPA_SU2_CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB066 Ppcc 066:spa_su2_cur1
\PPCC_SPA_SU2_CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB067 Ppcc 067:spa_su2_cur2
\PPCC_SPA_SU3CUR1 \ENGINEERING::TOP.PPCC.DAS:CALIB068 Ppcc 068:spa_su3_cur1
\PPCC_SPA_SU3CUR2 \ENGINEERING::TOP.PPCC.DAS:CALIB069 Ppcc 069:spa_su3_cur2
\PPCC_SPA_CHARGING_CUR \ENGINEERING::TOP.PPCC.DAS:CALIB070 Ppcc 070:spa_chrg_cur
\PPCC_SPA_SU1_V \ENGINEERING::TOP.PPCC.DAS:CALIB071 Ppcc 071:spa_su1_v
\PPCC_SPA_SU2_V \ENGINEERING::TOP.PPCC.DAS:CALIB072 Ppcc 072:spa_su2_v
\PPCC_SPA_SU3_V \ENGINEERING::TOP.PPCC.DAS:CALIB073 Ppcc 073:spa_su3_v
\PPCC_SPA_CHARGING_V \ENGINEERING::TOP.PPCC.DAS:CALIB074 Ppcc 074:spa_chrg_v
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB075 Ppcc 075:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB076 Ppcc 076:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB077 Ppcc 077:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB078 Ppcc 078:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB079 Ppcc 079:xx
\PPCC_SPA_SU1_PERMISSIVE \ENGINEERING::TOP.PPCC.DAS:CALIB080 Ppcc 080:spa_su1_permissive
\PPCC_SPA_SU2_PERMISSIVE \ENGINEERING::TOP.PPCC.DAS:CALIB081 Ppcc 081:spa_su2_permissive
\PPCC_SPA_SU3_PERMISSIVE \ENGINEERING::TOP.PPCC.DAS:CALIB082 Ppcc 082:spa_su3_permissive
\PPCC_SPA_SU2_VDC \ENGINEERING::TOP.PPCC.DAS:CALIB083 Ppcc 083:spa_su2_vdc
\PPCC_SPA_SU3_VDC \ENGINEERING::TOP.PPCC.DAS:CALIB084 Ppcc 084:spa_su3_vdc
\PPCC_SPA_SU23_IDC \ENGINEERING::TOP.PPCC.DAS:CALIB085 Ppcc 085:spa_su23_idc
\PPCC_SPA_SU3_IDC \ENGINEERING::TOP.PPCC.DAS:CALIB086 Ppcc 086:spa_su3_idc
\PPCC_SPA_SUI1_INPUT \ENGINEERING::TOP.PPCC.DAS:CALIB087 Ppcc 086:spa_su1_input
\PPCC_SPA_SU2_INPUT \ENGINEERING::TOP.PPCC.DAS:CALIB088 Ppcc 087:spa_su2_input
\PPCC_SPA_SUI_3_INPUT \ENGINEERING::TOP.PPCC.DAS:CALIB089 Ppcc 088:spa_su3_input
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB090 Ppcc 090:xx
\PPCC_SPA_SU1_FAULT \ENGINEERING::TOP.PPCC.DAS:CALIB091 Ppcc 091:spa_su1_fault
\PPCC_SPA_SU2_FAULT \ENGINEERING::TOP.PPCC.DAS:CALIB092 Ppcc 091:spa_su1_fault
\PPCC_SPA_SU3_FAULT \ENGINEERING::TOP.PPCC.DAS:CALIB093 Ppcc 091:spa_su1_fault
\PPCC_SPA_ACP_FAULT \ENGINEERING::TOP.PPCC.DAS:CALIB094 Ppcc 094:spa/acp fault
\PPCC_CHAN_95_REF \ENGINEERING::TOP.PPCC.DAS:CALIB095 Ppcc 095:ref (-2.5v )
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB096 Ppcc 096:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB097 Ppcc 097:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB098 Ppcc 098:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB099 Ppcc 099:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB100 Ppcc 100:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB101 Ppcc 101:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB102 Ppcc 102:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB103 Ppcc 103:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB104 Ppcc 104:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB105 Ppcc 105:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB106 Ppcc 106:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB107 Ppcc 107:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB108 Ppcc 108:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB109 Ppcc 109:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB110 Ppcc 110:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB111 Ppcc 111:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB112 Ppcc 112:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB113 Ppcc 113:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB114 Ppcc 114:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB115 Ppcc 115:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB116 Ppcc 116:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB117 Ppcc 117:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB118 Ppcc 118:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB119 Ppcc 119:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB120 Ppcc 120:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB121 Ppcc 121:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB122 Ppcc 122:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB123 Ppcc 123:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB124 Ppcc 124:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB125 Ppcc 125:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB126 Ppcc 126:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB127 Ppcc 127:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB128 Ppcc 128:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB129 Ppcc 129:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB130 Ppcc 130:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB131 Ppcc 131:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB132 Ppcc 132:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB133 Ppcc 133:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB134 Ppcc 134:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB135 Ppcc 135:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB136 Ppcc 136:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB137 Ppcc 137:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB138 Ppcc 138:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB139 Ppcc 139:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB140 Ppcc 140:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB141 Ppcc 141:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB142 Ppcc 142:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB143 Ppcc 143:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB144 Ppcc 144:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB145 Ppcc 145:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB146 Ppcc 146:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB147 Ppcc 147:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB148 Ppcc 148:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB149 Ppcc 149:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB150 Ppcc 150:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB151 Ppcc 151:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB152 Ppcc 152:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB153 Ppcc 153:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB154 Ppcc 154:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB155 Ppcc 155:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB156 Ppcc 156:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB157 Ppcc 157:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB158 Ppcc 158:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB159 Ppcc 159:class4 ref (-7.5v)
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB160 Ppcc 160:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB161 Ppcc 161:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB162 Ppcc 162:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB163 Ppcc 163:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB164 Ppcc 164:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB165 Ppcc 165:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB166 Ppcc 166:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB167 Ppcc 167:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB168 Ppcc 168:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB169 Ppcc 169:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB170 Ppcc 170:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB171 Ppcc 171:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB172 Ppcc 172:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB173 Ppcc 173:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB174 Ppcc 174:classrwm ref (-2.5v)
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB175 Ppcc 175:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB176 Ppcc 176:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB177 Ppcc 177:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB178 Ppcc 178:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB179 Ppcc 179:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB180 Ppcc 180:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB181 Ppcc 181:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB182 Ppcc 182:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB183 Ppcc 183:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB184 Ppcc 184:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB185 Ppcc 185:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB186 Ppcc 186:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB187 Ppcc 187:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB188 Ppcc 188:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB189 Ppcc 189:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB190 Ppcc 190:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB191 Ppcc:191:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB192 Ppcc 192:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB193 Ppcc 193:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB194 Ppcc 194:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB195 Ppcc 195:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB196 Ppcc 196:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB197 Ppcc 197:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB198 Ppcc 198:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB199 Ppcc 199:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB200 Ppcc 200:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB201 Ppcc 201:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB202 Ppcc 202:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB203 Ppcc 203:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB204 Ppcc 204:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB205 Ppcc 205:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB206 Ppcc 206:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB207 Ppcc 207:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB208 Ppcc 208:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB209 Ppcc 209:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB210 Ppcc 210:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB211 Ppcc 211:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB212 Ppcc 212:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB213 Ppcc 213:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB214 Ppcc 214:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB215 Ppcc 215:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB216 Ppcc 216:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB217 Ppcc 217:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB218 Ppcc 218:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB219 Ppcc 219:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB220 Ppcc 220:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB221 Ppcc 221:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB222 Ppcc 222:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB223 Ppcc 223:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB224 Ppcc 224:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB225 Ppcc 225:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB226 Ppcc 226:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB227 Ppcc 227:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB228 Ppcc 228:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB229 Ppcc 229:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB230 Ppcc 230:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB231 Ppcc 231:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB232 Ppcc 232:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB233 Ppcc 233:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB234 Ppcc 234:xx
no tag available \ENGINEERING::TOP.PPCC.DAS:CALIB235 Ppcc 235:xx
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no tag available \ENGINEERING::TOP.PPCC.DAS:RAW128 Ppcc 128:xx (raw)
no tag available \ENGINEERING::TOP.PPCC.DAS:RAW129 Ppcc 129:xx (raw)
no tag available \ENGINEERING::TOP.PPCC.DAS:RAW130 Ppcc 130:xx (raw)
no tag available \ENGINEERING::TOP.PPCC.DAS:RAW131 Ppcc 131:xx (raw)
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no tag available \ENGINEERING::TOP.PPCC.DAS:RAW133 Ppcc 133:xx (raw)
no tag available \ENGINEERING::TOP.PPCC.DAS:RAW134 Ppcc 134:xx (raw)
no tag available \ENGINEERING::TOP.PPCC.DAS:RAW135 Ppcc 135:xx (raw)
no tag available \ENGINEERING::TOP.PPCC.DAS:RAW136 Ppcc 136:xx (raw)
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no tag available \ENGINEERING::TOP.PPCC.DAS:RAW338 Ppcc 338:xx (raw)
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no tag available \ENGINEERING::TOP.PPCC.DAS:RAW344 Ppcc 344:xx (raw)
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no tag available \ENGINEERING::TOP.PPCC.DAS:RAW346 Ppcc 346:xx (raw)
no tag available \ENGINEERING::TOP.PPCC.DAS:RAW347 Ppcc 347:xx (raw)
no tag available \ENGINEERING::TOP.PPCC.DAS:RAW348 Ppcc 348:xx (raw)
no tag available \ENGINEERING::TOP.PPCC.DAS:RAW349 Ppcc 349:xx (raw)
no tag available \ENGINEERING::TOP.PPCC.DAS:RAW350 Ppcc 350:xx (raw)
no tag available \ENGINEERING::TOP.PPCC.DAS:RAW351 Ppcc 351 classrf ref (+7.5v) (raw)
no tag available \ENGINEERING::TOP.PPCC.DAS:RAW352 Ppcc 352:xx (raw)
\PC_BL1DMSPPGL3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:BL1DMSPPGL3 ??
\PC_BL1DMSPPGU3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:BL1DMSPPGU3 ??
\PC_CHI_GFC_N \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_GFC_N Label empty
\PC_CHI_GFC_P \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_GFC_P Label empty
\PC_CHI_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_GNDC Label empty
\PC_CHI_PSS_1S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_P1S_1PI Label empty
\PC_CHI_PSS_1S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_P1S_1PV Label empty
\PC_CHI_PSS_1S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_P1S_2PI Label empty
\PC_CHI_PSS_1S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_P1S_2PV Label empty
\PC_CHI_PSS_2S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_P2S_1PV Label empty
\PC_CHI_PSS_2S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_P2S_2PI Label empty
\PC_CHI_PSS_2S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_P2S_2PV Label empty
no tag available \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_SVD1_1 Label empty
no tag available \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_SVD2_1 Label empty
\PC_CHI_TOT_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_TOT_CUR1 Mh1
\PC_CHI_TOT_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_TOT_CUR2 No description
\PC_CHI_TOT_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_T_CUR1F Label empty
\PC_CHI_TOT_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:CHI_T_CUR2F Label empty
\PC_DITFDT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DM_DITFDT Diamag loop tf curr deriv
\PC_DM_FLUX \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DM_FLUX Diamag loop flux
\PC_DM_ITF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DM_ITF Diamag loop tf current
\PC_DM_VTF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:DM_VTF Diamag loop tf voltage
\PC_F_FLSPPL3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:F_FLSPPL3 ??
\PC_F_FLSPPU3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:F_FLSPPU3 ??
\PC_NB_PERM \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:NBPERM Nb fault/pdp status
\PC_OH_BR_1_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_B1_CUR1 Mh1
\PC_OH_BR_1_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_B1_CUR2 Mh1
\PC_OH_BR_2_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_B2_CUR1 Mh1
\PC_OH_BR_2_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_B2_CUR2 Mh2
\PC_OH_HCS_FLT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_H_FLT Label empty
\PC_OH_PSS_2S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P2S_1PI Label empty
\PC_OH_PSS_2S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P2S_1PV Label empty
\PC_OH_PSS_2S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P2S_2PI Label empty
\PC_OH_PSS_2S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P2S_2PV Label empty
\PC_OH_PSS_3S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P3S_1PI Label empty
\PC_OH_PSS_3S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P3S_1PV Label empty
\PC_OH_PSS_3S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P3S_2PI Label empty
\PC_OH_PSS_3S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P3S_2PV Label empty
\PC_OH_PSS_4S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P4S_1PI Label empty
\PC_OH_PSS_4S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P4S_1PV Label empty
\PC_OH_PSS_4S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P4S_2PI Label empty
\PC_OH_PSS_4S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P4S_2PV Label empty
\PC_OH_PSS_5S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P5S_1PI Label empty
\PC_OH_PSS_5S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P5S_1PV Label empty
\PC_OH_PSS_5S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P5S_2PI Label empty
\PC_OH_PSS_5S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P5S_2PV Label empty
\PC_OH_PSS_6S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P6S_1PI Label empty
\PC_OH_PSS_6S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P6S_1PV Label empty
\PC_OH_PSS_6S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P6S_2PI Label empty
\PC_OH_PSS_6S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P6S_2PV Label empty
\PC_OH_PSS_7S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P7S_1PI Label empty
\PC_OH_PSS_7S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P7S_1PV Label empty
\PC_OH_PSS_7S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P7S_2PI Label empty
\PC_OH_PSS_7S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P7S_2PV Label empty
\PC_OH_PSS_8S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P8S_1PI Label empty
\PC_OH_PSS_8S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P8S_1PV Label empty
\PC_OH_PSS_8S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P8S_2PI Label empty
\PC_OH_PSS_8S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_P8S_2PV Label empty
\PC_OH_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_SVD1_1 Label empty
\PC_OH_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_SVD2_1 Label empty
\PC_OH_TOT_CUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_TOT_CUR Oh sum
\PC_OH_TOT_CURF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:OH_TOT_CURF Label empty
no tag available \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_CUR1 Mh1
\PC_PF1AL_PSS_1S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_P1S_I Label empty
\PC_PF1AL_PSS_1S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_P1S_V Label empty
\PC_PF1AL_PSS_2S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_P2S_I Label empty
\PC_PF1AL_PSS_2S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_P2S_V Label empty
\PC_PF1AL_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_SVD1_1 Label empty
\PC_PF1AL_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AL_SVD2_1 Label empty
no tag available \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_CUR1 Mh1
\PC_PF1AU_PSS_1S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_P1S_I Label empty
\PC_PF1AU_PSS_1S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_P1S_V Label empty
\PC_PF1AU_PSS_2S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_P2S_I Label empty
\PC_PF1AU_PSS_2S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_P2S_V Label empty
\PC_PF1AU_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1AU_SVD1_1 Label empty
no tag available \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1B_CUR1 Mh1
\PC_PF1B_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1B_CUR1F Label empty
\PC_PF1B_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1B_CUR2 Mh1
\PC_PF1B_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF1B_CUR2F Label empty
\PC_PF2345_GFC_N \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2345_GFC_N Label empty
\PC_PF2345_GFC_P \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2345_GFC_P Label empty
no tag available \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_CUR2 Eshunt
\PC_PF2L_PSS_1S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_P1S_I Label empty
\PC_PF2L_PSS_1S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_P1S_V Label empty
\PC_PF2L_PSS_2S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_P2S_I Label empty
\PC_PF2L_PSS_2S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_P2S_V Label empty
\PC_PF2L_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_SVD1_1 Label empty
\PC_PF2L_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2L_SVD2_1 Label empty
\PC_PF2U_PSS_1S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_P1S_I Label empty
\PC_PF2U_PSS_1S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_P1S_V Label empty
\PC_PF2U_PSS_2S_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_P2S_I Label empty
\PC_PF2U_PSS_2S_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_P2S_V Label empty
\PC_PF2U_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_SVD1_1 Label empty
\PC_PF2U_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF2U_SVD2_1 Label empty
\PC_PF3L_PSS_1S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P1S_1PI Label empty
\PC_PF3L_PSS_1S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P1S_1PV Label empty
\PC_PF3L_PSS_1S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P1S_2PI Label empty
\PC_PF3L_PSS_1S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P1S_2PV Label empty
\PC_PF3L_PSS_2S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P2S_1PI Label empty
\PC_PF3L_PSS_2S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P2S_1PV Label empty
\PC_PF3L_PSS_2S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P2S_2PI Label empty
\PC_PF3L_PSS_2S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_P2S_2PV Label empty
\PC_PF3L_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_SVD1_1 Label empty
\PC_PF3L_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3L_SVD2_1 Label empty
\PC_PF3U_PSS_1S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P1S_1PI Label empty
\PC_PF3U_PSS_1S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P1S_1PV Label empty
\PC_PF3U_PSS_1S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P1S_2PI Label empty
\PC_PF3U_PSS_1S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P1S_2PV Label empty
\PC_PF3U_PSS_2S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P2S_1PI Label empty
\PC_PF3U_PSS_2S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P2S_1PV Label empty
\PC_PF3U_PSS_2S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P2S_2PI Label empty
\PC_PF3U_PSS_2S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_P2S_2PV Label empty
\PC_PF3U_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_SVD1_1 Label empty
\PC_PF3U_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF3U_SVD2_1 Label empty
\PC_PFCHI_HCS_FLT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PFCHI_H_FLT Label empty
\PC_PF_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PF_GNDC Label empty
\PC_PLASMA_CUR_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PLASMA_CUR1 Plasma current (pc)
\PC_PLASMA_CUR_1F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PLASMA_CUR1F Label empty
\PC_PLASMA_CUR_2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PLASMA_CUR2 Plasma current (pc) 2
\PC_PLASMA_CUR_2F \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:PLASMA_CUR2F Label empty
\RWM1_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM1_I Label empty
\RWM2_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM2_I Label empty
\RWM3_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM3_I Label empty
\RWM4_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM4_I Label empty
\RWM5_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM5_I Label empty
\RWM6_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:RWM6_I Label empty
\PC_SP1_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SP1_GNDC Label empty
\PC_SP2_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SP2_GNDC Label empty
\PC_SP3_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SP3_GNDC Label empty
\PC_SP4_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:SP4_GNDC Label empty
\TFJ_01_01_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_01_01_V Label empty
\TFJ_01_02_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_01_02_V Label empty
\TFJ_02_02_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_02_02_V Label empty
\TFJ_02_03_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_02_03_V Label empty
\TFJ_03_03_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_03_03_V Label empty
\TFJ_03_04_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_03_04_V Label empty
\TFJ_04_04_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_04_04_V Label empty
\TFJ_04_05_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_04_05_V Label empty
\TFJ_05_05_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_05_05_V Label empty
\TFJ_05_06_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_05_06_V Label empty
\TFJ_06_06_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_06_06_V Label empty
\TFJ_06_07_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_06_07_V Label empty
\TFJ_07_07_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_07_07_V Label empty
\TFJ_07_08_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_07_08_V Label empty
\TFJ_08_08_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_08_08_V Label empty
\TFJ_08_09_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_08_09_V Label empty
\TFJ_09_09_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_09_09_V Label empty
\TFJ_09_10_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_09_10_V Label empty
\TFJ_10_10_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_10_10_V Label empty
\TFJ_10_11_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_10_11_V Label empty
\TFJ_11_11_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_11_11_V Label empty
\TFJ_11_12_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_11_12_V Label empty
\TFJ_12_12_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_12_12_V Label empty
\TFJ_12_13_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_12_13_V Label empty
\TFJ_13_13_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_13_13_V Label empty
\TFJ_13_14_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_13_14_V Label empty
\TFJ_14_14_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_14_14_V Label empty
\TFJ_14_15_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_14_15_V Label empty
\TFJ_15_15_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_15_15_V Label empty
\TFJ_15_16_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_15_16_V Label empty
\TFJ_16_16_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_16_16_V Label empty
\TFJ_16_17_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_16_17_V Label empty
\TFJ_17_17_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_17_17_V Label empty
\TFJ_17_18_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_17_18_V Label empty
\TFJ_18_18_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_18_18_V Label empty
\TFJ_18_19_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_18_19_V Label empty
\TFJ_19_19_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_19_19_V Label empty
\TFJ_19_20_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_19_20_V Label empty
\TFJ_20_20_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_20_20_V Label empty
\TFJ_20_21_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_20_21_V Label empty
\TFJ_21_21_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_21_21_V Label empty
\TFJ_21_22_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_21_22_V Label empty
\TFJ_22_22_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_22_22_V Label empty
\TFJ_22_23_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_22_23_V Label empty
\TFJ_23_23_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_23_23_V Label empty
\TFJ_23_24_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_23_24_V Label empty
\TFJ_24_24_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_24_24_V Label empty
\TFJ_24_25_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_24_25_V Label empty
\TFJ_25_25_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_25_25_V Label empty
\TFJ_25_26_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_25_26_V Label empty
\TFJ_26_26_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_26_26_V Label empty
\TFJ_26_27_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_26_27_V Label empty
\TFJ_27_27_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_27_27_V Label empty
\TFJ_27_28_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_27_28_V Label empty
\TFJ_28_28_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_28_28_V Label empty
\TFJ_28_29_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_28_29_V Label empty
\TFJ_29_29_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_29_29_V Label empty
\TFJ_29_30_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_29_30_V Label empty
\TFJ_30_30_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_30_30_V Label empty
\TFJ_30_31_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_30_31_V Label empty
\TFJ_31_31_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_31_31_V Label empty
\TFJ_31_32_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_31_32_V Label empty
\TFJ_3232SP09 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP09 Label empty
\TFJ_3232SP10 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP10 Label empty
\TFJ_3232SP11 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP11 Label empty
\TFJ_3232SP12 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP12 Label empty
\TFJ_3232SP13 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP13 Label empty
\TFJ_3232SP14 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP14 Label empty
\TFJ_3232SP15 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP15 Label empty
\TFJ_3232SP16 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP16 Label empty
\TFJ_3232SP17 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP17 Label empty
\TFJ_3232SP18 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP18 Label empty
\TFJ_3232SP19 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP19 Label empty
\TFJ_3232SP20 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP20 Label empty
\TFJ_3232SP21 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP21 Label empty
\TFJ_3232SP22 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP22 Label empty
\TFJ_3232SP23 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP23 Label empty
\TFJ_3232SP24 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_3232SP24 Label empty
\TFJ_32_32_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_32_32_V Label empty
\TFJ_32_33_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_32_33_V Label empty
\TFJ_33_33_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_33_33_V Label empty
\TFJ_33_34_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_33_34_V Label empty
\TFJ_34_34_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_34_34_V Label empty
\TFJ_34_35_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_34_35_V Label empty
\TFJ_35_35_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_35_35_V Label empty
\TFJ_35_36_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_35_36_V Label empty
\TFJ_36_01_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_36_01_V Label empty
\TFJ_36_36_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_36_36_V Label empty
\TFJ_COIL_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_COIL_I Label empty
\TFJ_FISO_CH1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_FISO_CH1 Label empty
\TFJ_FISO_CH2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_FISO_CH2 Label empty
\TFJ_FISO_CH3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_FISO_CH3 Label empty
\TFJ_FISO_CH4 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_FISO_CH4 Label empty
\TFJ_FISO_CH5 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_FISO_CH5 Label empty
\TFJ_FISO_CH6 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_FISO_CH6 Label empty
\TFJ_FISO_CH7 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_FISO_CH7 Label empty
\TFJ_FISO_CH8 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_FISO_CH8 Label empty
\TFJ_GAINBIT0 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_GAINBIT0 Label empty
\TFJ_GAINBIT1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_GAINBIT1 Label empty
\TFJ_GAINBIT2 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_GAINBIT2 Label empty
\TFJ_GAINBIT3 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_GAINBIT3 Label empty
\TFJ_SPARE01 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE01 Label empty
\TFJ_SPARE02 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE02 Label empty
\TFJ_SPARE03 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE03 Label empty
\TFJ_SPARE04 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE04 Label empty
\TFJ_SPARE05 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE05 Label empty
\TFJ_SPARE06 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE06 Label empty
\TFJ_SPARE09 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE09 Label empty
\TFJ_SPARE10 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE10 Label empty
\TFJ_SPARE11 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE11 Label empty
\TFJ_SPARE12 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE12 Label empty
\TFJ_SPARE13 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE13 Label empty
\TFJ_SPARE14 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE14 Label empty
\TFJ_SPARE15 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE15 Label empty
\TFJ_SPARE16 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE16 Label empty
\TFJ_SPARE17 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE17 Label empty
\TFJ_SPARE18 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE18 Label empty
\TFJ_SPARE19 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TFJ_SPARE19 Label empty
\PC_TF_GNDCUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_GNDC Label empty
\PC_TF_HCS_FLT \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_H_FLT Label empty
\PC_TF_PSS_1S_1P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_1PI Label empty
\PC_TF_PSS_1S_1P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_1PV Label empty
\PC_TF_PSS_1S_2P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_2PI Label empty
\PC_TF_PSS_1S_2P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_2PV Label empty
\PC_TF_PSS_1S_3P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_3PI Label empty
\PC_TF_PSS_1S_3P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_3PV Label empty
\PC_TF_PSS_1S_4P_I \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_4PI Label empty
\PC_TF_PSS_1S_4P_V \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_P1S_4PV Label empty
\PC_TF_PF1_GFC_N \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_PF1_GFC_N Label empty
\PC_TF_PF1_GFC_P \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_PF1_GFC_P Label empty
\PC_TF_SDS_VD1_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_SVD1_1 Label empty
\PC_TF_SDS_VD2_1 \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_SVD2_1 Label empty
\PC_TF_TOT_CUR \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_TOT_CUR Tf sum
\PC_TF_TOT_CURF \ENGINEERING::TOP.EPICS.FCPC.DIGITIZERS:TF_TOT_CURF Label empty
no tag available \ENGINEERING::TOP.EPICS.GAS.DIGITIZERS:PZV4_DAC_TD Label empty
IMBALANCE
Tag Full Path to Node Label/Description
no tag available \IMBALANCE::TOP:PF4_SENSOR Current imbalance analog input ch5
no tag available \IMBALANCE::TOP:PF5_SENSOR Current imbalance analog input ch4
no tag available \IMBALANCE::TOP:TF_SENSOR1 Current imbalance analog input ch0
no tag available \IMBALANCE::TOP:TF_SENSOR2 Current imbalance analog input ch1
no tag available \IMBALANCE::TOP:TF_SENSOR3 Current imbalance analog input ch2
no tag available \IMBALANCE::TOP:TF_SENSOR4 Current imbalance analog input ch3
MACHINE_INST
Tag Full Path to Node Label/Description
\OH1 \MACHINE_INST::TOP.OPSENS:SIGNAL_AI01 Oh compression ring 1
\OH2 \MACHINE_INST::TOP.OPSENS:SIGNAL_AI02 Oh compression ring 2
\PF4U-D \MACHINE_INST::TOP.OPSENS:SIGNAL_AI03 Pf4 slides upper d
\PF4U-F \MACHINE_INST::TOP.OPSENS:SIGNAL_AI04 Pf4 slides upper f
\PF4U-J \MACHINE_INST::TOP.OPSENS:SIGNAL_AI05 Pf4 slides upper j
\PF4U-L \MACHINE_INST::TOP.OPSENS:SIGNAL_AI06 Pf4 slides upper l
\PF5U-D \MACHINE_INST::TOP.OPSENS:SIGNAL_AI07 Pf5 slides upper d
\PF5U-F \MACHINE_INST::TOP.OPSENS:SIGNAL_AI08 Pf5 slides upper f
\PF5U-J \MACHINE_INST::TOP.OPSENS:SIGNAL_AI09 Pf5 slides upper j
\PF5U-L \MACHINE_INST::TOP.OPSENS:SIGNAL_AI10 Pf5 slides upper l
\PF4L-D \MACHINE_INST::TOP.OPSENS:SIGNAL_AI11 Pf4 slides lower d
\PF4L-F \MACHINE_INST::TOP.OPSENS:SIGNAL_AI12 Pf4 slides lower f
\PF4L-J \MACHINE_INST::TOP.OPSENS:SIGNAL_AI13 Pf4 slides lower j
\PF4L-L \MACHINE_INST::TOP.OPSENS:SIGNAL_AI14 Pf4 slides lower l
\PF5L-D \MACHINE_INST::TOP.OPSENS:SIGNAL_AI15 Pf5 slides lower d
\PF5L-F \MACHINE_INST::TOP.OPSENS:SIGNAL_AI16 Pf5 slides lower f
\PF5L-J \MACHINE_INST::TOP.OPSENS:SIGNAL_AI17 Pf5 slides lower j
\PF5L-L \MACHINE_INST::TOP.OPSENS:SIGNAL_AI18 Pf5 slides lower l
\CSD1 \MACHINE_INST::TOP.OPSENS:SIGNAL_AI19 Halo side load 1
\CSD2 \MACHINE_INST::TOP.OPSENS:SIGNAL_AI20 Halo side load 2
\CSD3 \MACHINE_INST::TOP.OPSENS:SIGNAL_AI21 Halo side load 3
MICROWAVE
Tag Full Path to Node Label/Description
\NE_C3_INTEG \MICROWAVE::TOP.EBW:TRAD Ebw raw video signal
\DEN_FIRETIP \MICROWAVE::TOP.FIRETIP.ANALYSIS:DENSITY Ne - firetip ch2 ave
\DEN_FIRETIP64 \MICROWAVE::TOP.FIRETIP.ANALYSIS:DENSITY64 Ne - firetip ch2 ave 64fc
\DEN_FIRETIPC1 \MICROWAVE::TOP.FIRETIP.ANALYSIS:DENSITYC1 Ne - firetip ch1 ave
\DEN_FIRETIPC3 \MICROWAVE::TOP.FIRETIP.ANALYSIS:DENSITYC3 Label empty
\DEN_FIRETIPC7 \MICROWAVE::TOP.FIRETIP.ANALYSIS:DENSITYC7 Label empty
\PCSDENSITY \MICROWAVE::TOP.FIRETIP.ANALYSIS:DENSITYNPCS Number density of plasma
\DEN_FAST_FIRETIPC1 \MICROWAVE::TOP.FIRETIP.ANALYSIS:FASTDENSITY1 Firetip fast dtaq ch1
\DEN_FAST_FIRETIPC2 \MICROWAVE::TOP.FIRETIP.ANALYSIS:FASTDENSITY2 Firetip fast dtaq ch2
\DEN_FAST_FIRETIPC3 \MICROWAVE::TOP.FIRETIP.ANALYSIS:FASTDENSITY3 Firetip fast dtaq ch3
\DEN_FAST_FIRETIPC4 \MICROWAVE::TOP.FIRETIP.ANALYSIS:FASTDENSITY4 Firetip fast dtaq ch4
\DEN_FAST_FIRETIPC5 \MICROWAVE::TOP.FIRETIP.ANALYSIS:FASTDENSITY5 Firetip fast dtaq ch5
\DEN_FAST_FIRETIPC7 \MICROWAVE::TOP.FIRETIP.ANALYSIS:FASTDENSITY7 Firetip fast dtaq ch7
\NE_C1_INTEG \MICROWAVE::TOP.FIRETIP.ANALYSIS:NE_C1_INTEG Ne - firetip ch1 integ
\DEN_FIRETIPC4 \MICROWAVE::TOP.FIRETIP.ANALYSIS:NE_C2_INTEG Ne - firetip ch2 integ
\NE_C3_INTEG \MICROWAVE::TOP.FIRETIP.ANALYSIS:NE_C3_INTEG Label empty
\NE_C7_INTEG \MICROWAVE::TOP.FIRETIP.ANALYSIS:NE_C7_INTEG Label empty
no tag available \MICROWAVE::TOP.EBW:TRAD Ebw raw video signal
no tag available \MICROWAVE::TOP.FIRETIP.ANALYSIS:DENSITY Ne - firetip ch2 ave
no tag available \MICROWAVE::TOP.FIRETIP.ANALYSIS:DENSITY64 Ne - firetip ch2 ave 64fc
no tag available \MICROWAVE::TOP.FIRETIP.ANALYSIS:DENSITYC1 Ne - firetip ch1 ave
no tag available \MICROWAVE::TOP.FIRETIP.ANALYSIS:DENSITYC3 Label empty
no tag available \MICROWAVE::TOP.FIRETIP.ANALYSIS:DENSITYC7 Label empty
no tag available \MICROWAVE::TOP.FIRETIP.ANALYSIS:NE_C1_INTEG Ne - firetip ch1 integ
\NE_C2_INTEG \MICROWAVE::TOP.FIRETIP.ANALYSIS:NE_C2_INTEG Ne - firetip ch2 integ
MSE
Tag Full Path to Node Label/Description
\MSE_CIF_Q0 \MSE::TOP.MSE_CIF.ANALYSIS:MSE_Q0 Mse q0
\MSE_CIF_R0 \MSE::TOP.MSE_CIF.ANALYSIS:MSE_R0 Mse r0
\MSE_CIF_PA \MSE::TOP.MSE_CIF.ANALYSIS:PA Mse pitch angles
no tag available \MSE::TOP.MSE_CIF.ANALYSIS:MSE_R0 Mse r0
no tag available \MSE::TOP.MSE_CIF.ANALYSIS:PA Mse pitch angles
NBI
Tag Full Path to Node Label/Description
\NB_1AF_IACCHVE \NBI::TOP.NB_1A:F_IACCHVE Nb 1a accel current.
\NB_1AF_VACCHVE \NBI::TOP.NB_1A:F_VACCHVE Nb 1a accel voltage.
\NB_1AF_I_MRACCEL \NBI::TOP.NB_1A:I_MRACCEL Nb 1a mod reg current.
\NB_1AS_I_ACCHVE \NBI::TOP.NB_1A:S_I_ACCHVE Nb 1a accel current - slow.
\NB_1AS_V_ACCHVE \NBI::TOP.NB_1A:S_V_ACCHVE Nb 1a accel voltage - slow.
\NB_1AF_V_MRACCEL \NBI::TOP.NB_1A:V_MRACCEL Nb 1a mod reg voltage.
\NB_1BF_IACCHVE \NBI::TOP.NB_1B:F_IACCHVE Nb 1b accel current.
\NB_1BF_VACCHVE \NBI::TOP.NB_1B:F_VACCHVE Nb 1b accel voltage.
\NB_1BF_I_MRACCEL \NBI::TOP.NB_1B:I_MRACCEL Nb 1b mod reg current.
\NB_1BS_I_ACCHVE \NBI::TOP.NB_1B:S_I_ACCHVE Nb 1b accel current - slow.
\NB_1BS_V_ACCHVE \NBI::TOP.NB_1B:S_V_ACCHVE Nb 1b accel voltage - slow.
\NB_1BF_V_MRACCEL \NBI::TOP.NB_1B:V_MRACCEL Nb 1b mod reg voltage.
\NB_1CF_IACCHVE \NBI::TOP.NB_1C:F_IACCHVE Nb 1c accel current.
\NB_1CF_VACCHVE \NBI::TOP.NB_1C:F_VACCHVE Nb 1c accel voltage.
\NB_1CF_I_MRACCEL \NBI::TOP.NB_1C:I_MRACCEL Nb 1c mod reg current.
\NB_1CS_I_ACCHVE \NBI::TOP.NB_1C:S_I_ACCHVE Nb 1c accel current - slow.
\NB_1CS_V_ACCHVE \NBI::TOP.NB_1C:S_V_ACCHVE Nb 1c accel voltage - slow.
\NB_1CF_V_MRACCEL \NBI::TOP.NB_1C:V_MRACCEL Nb 1c mod reg voltage.
\NB_2AF_IACCHVE \NBI::TOP.NB_2A:F_IACCHVE Nb 2a accel current.
\NB_2AF_VACCHVE \NBI::TOP.NB_2A:F_VACCHVE Nb 2a accel voltage.
\NB_2AF_I_MRACCEL \NBI::TOP.NB_2A:I_MRACCEL Nb 2a mod reg current.
\NB_2AS_I_ACCHVE \NBI::TOP.NB_2A:S_I_ACCHVE Nb 2a accel current - slow.
\NB_2AS_V_ACCHVE \NBI::TOP.NB_2A:S_V_ACCHVE Nb 2a accel voltage - slow.
\NB_2AF_V_MRACCEL \NBI::TOP.NB_2A:V_MRACCEL Nb 2a mod reg voltage.
\NB_2BF_IACCHVE \NBI::TOP.NB_2B:F_IACCHVE Nb 2b accel current.
\NB_2BF_VACCHVE \NBI::TOP.NB_2B:F_VACCHVE Nb 2b accel voltage.
\NB_2BF_I_MRACCEL \NBI::TOP.NB_2B:I_MRACCEL Nb 2b mod reg current.
\NB_2BS_I_ACCHVE \NBI::TOP.NB_2B:S_I_ACCHVE Nb 2b accel current - slow.
\NB_2BS_V_ACCHVE \NBI::TOP.NB_2B:S_V_ACCHVE Nb 2b accel voltage - slow.
\NB_2BF_V_MRACCEL \NBI::TOP.NB_2B:V_MRACCEL Nb 2b mod reg voltage.
\NB_2CF_IACCHVE \NBI::TOP.NB_2C:F_IACCHVE Nb 2c accel current.
\NB_2CF_VACCHVE \NBI::TOP.NB_2C:F_VACCHVE Nb 2c accel voltage.
\NB_2CF_I_MRACCEL \NBI::TOP.NB_2C:I_MRACCEL Nb 2c mod reg current.
\NB_2CS_I_ACCHVE \NBI::TOP.NB_2C:S_I_ACCHVE Nb 2c accel current - slow.
\NB_2CS_V_ACCHVE \NBI::TOP.NB_2C:S_V_ACCHVE Nb 1c accel voltage - slow.
\NB_2CF_V_MRACCEL \NBI::TOP.NB_2C:V_MRACCEL Nb 2c mod reg voltage.
OPERATIONS
Tag Full Path to Node Label/Description
\CHI_IOUT_ALT \OPERATIONS::TOP.CHI.CAPBANK_CHI:IOUT_ALT Chi capbank output current (jelfom)
\CHI_I_OUT \OPERATIONS::TOP.CHI.CAPBANK_CHI:I_DISCHARGE Chi capbank discharge current
\CHI_CAPBANK2_VOLTAGE \OPERATIONS::TOP.CHI.CAPBANK_CHI:VBANK2 Chi capbank 2 voltage
\CHI_CAPBANK3_VOLTAGE \OPERATIONS::TOP.CHI.CAPBANK_CHI:VBANK3 Chi capbank 3 voltage
\CHI_VOUT_ALT \OPERATIONS::TOP.CHI.CAPBANK_CHI:VOUT_ALT Chi capbank output voltage (jelfom)
\CHI_V_OUT \OPERATIONS::TOP.CHI.CAPBANK_CHI:V_CAPACITOR Chi capbank voltage
\HS_BOTTOM_IVV \OPERATIONS::TOP.CHI.VV_MONITOR:BOTTOM_IVV Bottom inner vv data
\HS_BOTTOM_OVV \OPERATIONS::TOP.CHI.VV_MONITOR:BOTTOM_OVV Bottom outer vv data
\HS_TOP_IVV \OPERATIONS::TOP.CHI.VV_MONITOR:TOP_IVV Top inner vv data
\HS_TOP_OVV \OPERATIONS::TOP.CHI.VV_MONITOR:TOP_OVV Top outer vv data
\CHI_FAST_PRESSURE \OPERATIONS::TOP.CHI.MONITOR.PRESSURE:PCHIFASTPRES Fast neutral pressure signal (only an empty formula for now)
\CHI_PE106 \OPERATIONS::TOP.CHI.MONITOR.PRESSURE:PCHIPE106 Chi puff pressure
\CHI_PZV4 \OPERATIONS::TOP.CHI.MONITOR.VOLTAGE:VCHIPZV4 Chi piezo voltage
\CHI_SPARE \OPERATIONS::TOP.CHI.MONITOR.VOLTAGE:VCHISPARE Spare chi signal
\CHI_VOLTAGE \OPERATIONS::TOP.CHI.MONITOR.VOLTAGE:VCHIVOLTAGE Chi voltage
\V_CLASS3RACKS \OPERATIONS::TOP.CHI.MONITOR.VOLTAGE:VCLASS3RACKS Potential between class 2/3 diagnostic racks and ntc ground
\V_CLASS4RACKS \OPERATIONS::TOP.CHI.MONITOR.VOLTAGE:VCLASS4RACKS Potential between class 4 diagnostic racks and ntc ground
\I_HCCHIINAMP \OPERATIONS::TOP.HALOCUR.ROGOWSKI.CURRENT:IHCCHIINAMP Sum of rogoski signals on the inner chi bus
\I_HCCHIOUTAMP \OPERATIONS::TOP.HALOCUR.ROGOWSKI.CURRENT:IHCCHIOUTAMP Sum of rogoski signals on the outer chi bus
\I_ROGCHICIN \OPERATIONS::TOP.HALOCUR.ROGOWSKI.CURRENT:IROGCHICIN Rogowski on inner vessel chi bus bar at bay c
\I_ROGCHICOUT \OPERATIONS::TOP.HALOCUR.ROGOWSKI.CURRENT:IROGCHICOUT Rogowski on outer vessel chi bus bar at bay c
\I_ROGCHIEIN \OPERATIONS::TOP.HALOCUR.ROGOWSKI.CURRENT:IROGCHIEIN Rogowski on inner vessel chi bus bar at bay e
\I_ROGCHIEOUT \OPERATIONS::TOP.HALOCUR.ROGOWSKI.CURRENT:IROGCHIEOUT Rogowski on outer vessel chi bus bar at bay e
\I_ROGCHIJIN \OPERATIONS::TOP.HALOCUR.ROGOWSKI.CURRENT:IROGCHIJIN Rogowski on inner vessel chi bus bar at bay j
\I_ROGCHIJOUT \OPERATIONS::TOP.HALOCUR.ROGOWSKI.CURRENT:IROGCHIJOUT Rogowski on outer vessel chi bus bar at bay j
\B_1DMCSCROT1 \OPERATIONS::TOP.HALOCUR.TOR_MIR.B:B1DMCSCROT1 Rotated mirnov on the cs measuring the toroidal field
\B_1DMCSCROT2 \OPERATIONS::TOP.HALOCUR.TOR_MIR.B:B1DMCSCROT2 Rotated mirnov on the cs measuring the toroidal field
\B_1DMCSCROT3 \OPERATIONS::TOP.HALOCUR.TOR_MIR.B:B1DMCSCROT3 Rotated mirnov on the cs measuring the toroidal field
\B_1DMCSCROT4 \OPERATIONS::TOP.HALOCUR.TOR_MIR.B:B1DMCSCROT4 Rotated mirnov on the cs measuring the toroidal field
\B_1DMCSCROT5 \OPERATIONS::TOP.HALOCUR.TOR_MIR.B:B1DMCSCROT5 Rotated mirnov on the cs measuring the toroidal field
\B_HCDOBDORLAB \OPERATIONS::TOP.HALOCUR.TOR_MIR.B:BHCDOBDORLAB Bt sensor in lower outboard divertor outside the outermost bbq rail between bays a and b
\B_HCDOBDORLCD \OPERATIONS::TOP.HALOCUR.TOR_MIR.B:BHCDOBDORLCD Bt sensor in lower outboard divertor outside the outermost bbq rail between bays c and d
\I_HCCSCROTAMP \OPERATIONS::TOP.HALOCUR.TOR_MIR.CURRENT:IHCCSCROTAMP Halo current on cs inferred from tilted mirnov coils via tdi function
\F_DIAMAG1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FDIAMAG1 Diamagnetic flux measured by irogevvul1 return loop - difference of total and vacuum computed in analog electronics
\F_DIAMAG2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FDIAMAG2 Diamagnetic flux measured by irogevvul2 return loop - difference of total and vacuum computed in analog electronics
\F_FLCSCL4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLCSCL4 Flux loop on cs casing near lower organ pipes
\F_FLCSCU4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLCSCU4 Flux loop on cs casing near upper organ pipes
\F_FLEVVL2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLEVVL2 Flux loop on lower external vacuum vessel surface
\F_FLEVVL3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLEVVL3 Flux loop on lower external vacuum vessel surface
\F_FLEVVL4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLEVVL4 Flux loop on lower external vacuum vessel surface
\F_FLEVVL5 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLEVVL5 Flux loop on lower external vacuum vessel surface
\F_FLEVVL6 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLEVVL6 Flux loop on lower external vacuum vessel surface
\F_FLEVVL7 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLEVVL7 Flux loop on lower external vacuum vessel surface
\F_FLEVVU2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLEVVU2 Flux loop on upper external vacuum vessel surface
\F_FLEVVU3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLEVVU3 Flux loop on upper external vacuum vessel surface
\F_FLEVVU4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLEVVU4 Flux loop on upper external vacuum vessel surface
\F_FLEVVU5 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLEVVU5 Flux loop on upper external vacuum vessel surface
\F_FLEVVU6 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLEVVU6 Flux loop on upper external vacuum vessel surface
\F_FLEVVU7 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLEVVU7 Flux loop on upper external vacuum vessel surface
\F_FLIVVL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLIVVL1 Flux loop on lower inner vacuum vessel wall
\F_FLIVVL2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLIVVL2 Flux loop on lower inner vacuum vessel wall
\F_FLIVVU1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLIVVU1 Flux loop on upper inner vacuum vessel wall
\F_FLIVVU2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLIVVU2 Flux loop on upper inner vacuum vessel wall
\F_FLMDLL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLMDLL1 Flux loop on pf-1al winding mandrel top
\F_FLMDLL2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLMDLL2 Flux loop on pf-1bl winding madrel top
\F_FLMDLU1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLMDLU1 Flux loop on pf-1au winding mandrel top
\F_FLMDLU2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLMDLU2 Flux loop on pf-1bu winding madrel top
\F_FLOBDL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOBDL1 Flux loop on lower outboard divertor plate
\F_FLOBDL2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOBDL2 Flux loop on lower outboard divertor plate
\F_FLOBDL3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOBDL3 Flux loop on lower outboard divertor plate
\F_FLOBDU1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOBDU1 Flux loop on upper outboard divertor plate
\F_FLOBDU2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOBDU2 Flux loop on upper outboard divertor plate
\F_FLOBDU3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOBDU3 Flux loop on upper outboard divertor plate
\F_FLOHL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOHL1 Flux loop on oh coil
\F_FLOHL2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOHL2 Flux loop on lower oh coil
\F_FLOHL3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOHL3 Flux loop on oh coil
\F_FLOHL4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOHL4 Flux loop on lower oh coil
\F_FLOHM \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOHM Flux loop on oh coil mid-plane
\F_FLOHU1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOHU1 Flux loop on oh coil
\F_FLOHU2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOHU2 Flux loop on upper oh coil
\F_FLOHU3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOHU3 Flux loop on oh coil
\F_FLOHU4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLOHU4 Flux loop on upper oh coil
\F_FLPF1AL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPF1AL1 Flux loop on lower pf1al coil
\F_FLPF1AL2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPF1AL2 Flux loop on lower pf1a coil
\F_FLPF1AL3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPF1AL3 Flux loop on lower pf1al coil
\F_FLPF1AL4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPF1AL4 Flux loop on lower pf1a coil
\F_FLPF1AU1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPF1AU1 Flux loop on upper pf1au coil
\F_FLPF1AU2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPF1AU2 Flux loop on upper pf1a coil
\F_FLPF1AU3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPF1AU3 Flux loop on upper pf1au coil
\F_FLPF1AU4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPF1AU4 Flux loop on upper pf1a coil
\F_FLPF1BL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPF1BL1 Flux loop on pf-1bl coil
\F_FLPF1BL2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPF1BL2 Flux loop on pf-1bl coil
\F_FLPF1BU1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPF1BU1 Flux loop on pf-1bu coil
\F_FLPF1BU2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPF1BU2 Flux loop on pf-1bu coil
\F_FLPPPL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPPPL1 Flux loop on lower primary passive plate
\F_FLPPPL2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPPPL2 Flux loop on lower primary passive plate
\F_FLPPPL3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPPPL3 Flux loop on lower primary passive plate
\F_FLPPPL4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPPPL4 Flux loop on lower primary passive plate
\F_FLPPPU1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPPPU1 Flux loop on upper primary passive plate
\F_FLPPPU2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPPPU2 Flux loop on upper primary passive plate
\F_FLPPPU3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPPPU3 Flux loop on upper primary passive plate
\F_FLPPPU4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPPPU4 Flux loop on upper primary passive plate
\F_FLSPPL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLSPPL1 Flux loop on lower secondary passive plate
\F_FLSPPL2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLSPPL2 Flux loop on lower secondary passive plate
\F_FLSPPL3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLSPPL3 Flux loop on lower secondary passive plate
\F_FLSPPL4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLSPPL4 Flux loop on lower secondary passive plate
\F_FLSPPU1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLSPPU1 Flux loop on upper secondary passive plate
\F_FLSPPU2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLSPPU2 Flux loop on upper secondary passive plate
\F_FLSPPU3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLSPPU3 Flux loop on upper secondary passive plate
\F_FLSPPU4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLSPPU4 Flux loop on upper secondary passive plate
\F_TORTOT1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FTORTOT1 Total toroidal flux measured by irogevvul1 return loop
\F_TORTOT2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FTORTOT2 Total toroidal flux measured by irogevvul2 return loop
\V_FLCSCL4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLCSCL4 Voltage loop on cs casing
\V_FLCSCU4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLCSCU4 Voltage loop on cs casing
\V_FLOBDL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLOBDL1 Voltage loop on lower outboard divertor
\V_FLOBDU2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLOBDU2 Voltage loop on upper outboard divertor
\V_FLOHL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLOHL1 Voltage loop on oh coil
\V_FLOHL3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLOHL3 Voltage loop on oh coil
\V_FLOHL4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLOHL4 Voltage loop on oh coil
\V_FLOHM \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLOHM Flux loop voltage on oh coil mid-plane
\V_FLOHU1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLOHU1 Voltage loop on oh coil
\V_FLOHU3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLOHU3 Voltage loop on oh coil
\V_FLOHU4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLOHU4 Voltage loop on oh coil
\V_FLPF1AL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPF1AL1 Flux loop voltage on oh coil below mid-plane
\V_FLPF1AL3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPF1AL3 Flux loop voltage on lower pf1a coil
\V_FLPF1AL4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPF1AL4 Voltage loop on upper pf1al4 coil
\V_FLPF1AU1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPF1AU1 Flux loop voltage on oh coil above mid-plane
\V_FLPF1AU3 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPF1AU3 Flux loop voltage on upper pf1a coil
\V_FLPF1AU4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPF1AU4 Voltage loop on upper pf1au4 coil
\V_FLPF1BL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPF1BL1 Voltage loop on lower pf1b coil
\V_FLPF1BL2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPF1BL2 Voltage loop on lower pf1b coil
\V_FLPF1BU1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPF1BU1 Voltage loop on upper pf1b coil
\V_FLPF1BU2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPF1BU2 Voltage loop on upper pf1b coil
\V_FLPPPL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPPPL1 Flux loop on lower primary passive plate
\V_FLPPPL4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPPPL4 Flux loop on lower primary passive plate
\V_FLPPPU1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPPPU1 Flux loop on upper primary passive plate
\V_FLPPPU4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPPPU4 Flux loop on upper primary passive plate
\V_FLPPPUL2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPPPUL2 Buffer-amplified difference voltage = v_flpppu2 - v_flpppl2
\V_FLSPPL1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLSPPL1 Flux loop on lower secondary passive plate
\V_FLSPPL4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLSPPL4 Flux loop on lower secondary passive plate
\V_FLSPPU1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLSPPU1 Flux loop on upper secondary passive plate
\V_FLSPPU4 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLSPPU4 Flux loop on upper secondary passive plate
\B_1DMCSC2L1 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSC2L1 1d mirnov on the cs casing narrow section
\B_1DMCSC2L2 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSC2L2 1d mirnov on the cs casing narrow section
\B_1DMCSC2L4 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSC2L4 1d mirnov on the cs casing narrow section
\B_1DMCSC2L6 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSC2L6 1d mirnov on the cs casing narrow section
\B_1DMCSC2U2 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSC2U2 1d mirnov on the cs casing narrow section
\B_1DMCSC2U4 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSC2U4 1d mirnov on the cs casing narrow section
\B_1DMCSC2U6 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSC2U6 1d mirnov on the cs casing narrow section
\B_1DMCSCL1 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSCL1 1-d mirnov on lower center-stack casing
\B_1DMCSCL2 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSCL2 1-d mirnov on lower center-stack casing
\B_1DMCSCL3 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSCL3 1-d mirnov on lower center-stack casing
\B_1DMCSCL4 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSCL4 1-d mirnov on lower center-stack casing
\B_1DMCSCL5 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSCL5 1-d mirnov on lower center-stack casing
\B_1DMCSCL6 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSCL6 1-d mirnov on lower center-stack casing
\B_1DMCSCU2 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSCU2 1-d mirnov on upper center-stack casing
\B_1DMCSCU3 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSCU3 1-d mirnov on upper center-stack casing
\B_1DMCSCU4 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSCU4 1-d mirnov on upper center-stack casing
\B_1DMCSCU5 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSCU5 1-d mirnov on upper center-stack casing
\B_1DMCSCU6 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSCU6 1-d mirnov on upper center-stack casing
\B_2DMCSC2L2N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMCSC2L2N 2d mirnov on center stack casing, normal sensor
\B_2DMCSC2L2T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMCSC2L2T 2d mirnov on center stack casing, tangent sensor
\B_2DMCSC2U2N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMCSC2U2N 2d mirnov on center stack casing, normal sensor
\B_2DMCSC2U2T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMCSC2U2T 2d mirnov on center stack casing, tangent sensor
\B_2DMCSCL1N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMCSCL1N 2d mirnov on center stack casing, normal sensor
\B_2DMCSCL1T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMCSCL1T 2d mirnov on center stack casing, tangent sensor
\B_2DMCSCL2N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMCSCL2N 2-d mirnov on lower center-stack casing - normal field
\B_2DMCSCL2T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMCSCL2T 2-d mirnov on lower center-stack casing - tangential field
\B_2DMCSCU1N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMCSCU1N 2-d mirnov on upper center-stack casing - normal field
\B_2DMCSCU1T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMCSCU1T 2-d mirnov on upper center-stack casing - tangential field
\B_2DMCSCU2N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMCSCU2N 2d mirnov on center stack casing, normal sensor
\B_2DMCSCU2T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMCSCU2T 2d mirnov on center stack casing, tangent sensor
\B_2DMIBDH2L6N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDH2L6N 2d mirnov on inboard horizontal target, normal sensor
\B_2DMIBDH2L6T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDH2L6T 2d mirnov on inboard horizontal target, tangent sensor
\B_2DMIBDH2U6N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDH2U6N 2d mirnov on inboard horizontal target, normal sensor
\B_2DMIBDH2U6T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDH2U6T 2d mirnov on inboard horizontal target, tangent sensor
\B_2DMIBDHL5N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDHL5N 2-d mirnov on lower inboard divertor plate - normal field
\B_2DMIBDHL5T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDHL5T 2-d mirnov on lower inboard divertor plate - tangential field
\B_2DMIBDHL6N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDHL6N 2-d mirnov on lower inboard divertor plate - normal field
\B_2DMIBDHL6T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDHL6T 2-d mirnov on lower inboard divertor plate - tangential field
\B_2DMIBDHU5N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDHU5N 2-d mirnov on upper inboard divertor plate - normal field
\B_2DMIBDHU5T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDHU5T 2-d mirnov on upper inboard divertor plate - tangential field
\B_2DMIBDHU6N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDHU6N 2-d mirnov on upper inboard divertor plate - normal field
\B_2DMIBDHU6T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDHU6T 2-d mirnov on upper inboard divertor plate - tangential field
\B_2DMIBDV2L2N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDV2L2N 2d mirnov on inboard vertical target, normal sensor
\B_2DMIBDV2L2T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDV2L2T 2d mirnov on inboard vertical target, tangent sensor
\B_2DMIBDV2U2N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDV2U2N 2d mirnov on inboard vertical target, normal sensor
\B_2DMIBDV2U2T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDV2U2T 2d mirnov on inboard vertical target, tangent sensor
\B_2DMIBDVL1N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDVL1N 1-d mirnov on lower inboard divertor vertical
\B_2DMIBDVL1T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDVL1T 2d mirnov on inboard vertical target, tangent sensor
\B_2DMIBDVL2N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDVL2N 2d mirnov on inboard vertical target, normal sensor
\B_2DMIBDVL2T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDVL2T 2d mirnov on inboard vertical target, tangent sensor
\B_2DMIBDVL3N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDVL3N 1-d mirnov on lower inboard divertor vertical
\B_2DMIBDVL3T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDVL3T 2d mirnov on inboard vertical target, tangent sensor
\B_2DMIBDVU1N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDVU1N 1-d mirnov on upper inboard divertor vertical
\B_2DMIBDVU1T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDVU1T 2d mirnov on inboard vertical target, tangent sensor
\B_2DMIBDVU2N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDVU2N 2d mirnov on inboard vertical target, normal sensor
\B_2DMIBDVU2T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDVU2T 2d mirnov on inboard vertical target, tangent sensor
\B_2DMIBDVU3N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDVU3N 1-d mirnov on upper inboard divertor vertical
\B_2DMIBDVU3T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMIBDVU3T 2d mirnov on inboard vertical target, tangent sensor
\B_2DMOBDL1N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDL1N 2-d mirnov on lower outboard divertor - normal field
\B_2DMOBDL1T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDL1T 2-d mirnov on lower outboard divertor - tangential field
\B_2DMOBDL2N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDL2N 2-d mirnov on lower outboard divertor - normal field
\B_2DMOBDL2T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDL2T 2-d mirnov on lower outboard divertor - tangential field
\B_2DMOBDL3N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDL3N 2-d mirnov on lower outboard divertor - normal field
\B_2DMOBDL3T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDL3T 2-d mirnov on lower outboard divertor - tangential field
\B_2DMOBDL4N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDL4N 2-d mirnov on lower outboard divertor - normal field
\B_2DMOBDL4T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDL4T 2-d mirnov on lower outboard divertor - tangential field
\B_2DMOBDL5N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDL5N 2-d mirnov on lower outboard divertor - normal field
\B_2DMOBDL5T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDL5T 2-d mirnov on lower outboard divertor - tangential field
\B_2DMOBDU1N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDU1N 2-d mirnov on upper outboard divertor - normal field
\B_2DMOBDU1T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDU1T 2-d mirnov on upper outboard divertor - tangential field
\B_2DMOBDU2N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDU2N 2-d mirnov on upper outboard divertor - normal field
\B_2DMOBDU2T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDU2T 2-d mirnov on upper outboard divertor - tangential field
\B_2DMOBDU3N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDU3N 2-d mirnov on upper outboard divertor - normal field
\B_2DMOBDU3T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDU3T 2-d mirnov on upper outboard divertor - tangential field
\B_2DMOBDU4N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDU4N 2-d mirnov on upper outboard divertor - normal field
\B_2DMOBDU4T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDU4T 2-d mirnov on upper outboard divertor - tangential field
\B_2DMOBDU5N \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDU5N 2-d mirnov on upper outboard divertor - normal field
\B_2DMOBDU5T \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B2DMOBDU5T 2-d mirnov on upper outboard divertor - tangential field
\B_L1DMPPPGL1 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGL1 1-d mirnov in lower primary passive plate gap
\B_L1DMPPPGL1_AXEQ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGL1A Axisymmetric equivalent 1-d mirnov in lower primary passive plate gap
\B_L1DMPPPGL2 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGL2 1-d mirnov in lower primary passive plate gap
\B_L1DMPPPGL2_AXEQ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGL2A Axisymmetric equivalent 1-d mirnov in lower primary passive plate gap
\B_L1DMPPPGL3 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGL3 1-d mirnov in lower primary passive plate gap
\B_L1DMPPPGL3_AXEQ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGL3A Axisymmetric equivalent 1-d mirnov in lower primary passive plate gap
\B_L1DMPPPGL4 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGL4 1-d mirnov centered toroidally behind lower primary passive plate
\B_L1DMPPPGL5 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGL5 1-d mirnov centered toroidally behind lower primary passive plate
\B_L1DMPPPGL6 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGL6 1-d mirnov centered toroidally behind lower primary passive plate
\B_L1DMPPPGL7 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGL7 1-d mirnov centered toroidally behind lower primary passive plate
\B_L1DMPPPGL8 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGL8 1-d mirnov centered toroidally behind lower primary passive plate
\B_L1DMPPPGU1 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGU1 1-d mirnov in upper primary passive plate gap
\B_L1DMPPPGU1_AXEQ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGU1A Axisymmetric equivalent 1-d mirnov in upper primary passive plate gap
\B_L1DMPPPGU2 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGU2 1-d mirnov in upper primary passive plate gap
\B_L1DMPPPGU2_AXEQ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGU2A Axisymmetric equivalent 1-d mirnov in upper primary passive plate gap
\B_L1DMPPPGU3 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGU3 1-d mirnov in upper primary passive plate gap
\B_L1DMPPPGU3_AXEQ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGU3A Axisymmetric equivalent 1-d mirnov in upper primary passive plate gap
\B_L1DMPPPGU4 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGU4 1-d mirnov centered toroidally behind upper primary passive plate
\B_L1DMPPPGU5 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGU5 1-d mirnov centered toroidally behind upper primary passive plate
\B_L1DMPPPGU6 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGU6 1-d mirnov centered toroidally behind upper primary passive plate
\B_L1DMPPPGU7 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGU7 1-d mirnov centered toroidally behind upper primary passive plate
\B_L1DMPPPGU8 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGU8 1-d mirnov centered toroidally behind upper primary passive plate
\B_L1DMSPPGL1 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGL1 1-d mirnov in lower secondary passive plate gap
\B_L1DMSPPGL1_AXEQ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGL1A Axisymmetric equivalent 1-d mirnov in lower secondary passive plate gap
\B_L1DMSPPGL2 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGL2 1-d mirnov in lower secondary passive plate gap
\B_L1DMSPPGL2_AXEQ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGL2A Axisymmetric equivalent 1-d mirnov in lower secondary passive plate gap
\B_L1DMSPPGL3 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGL3 1-d mirnov in lower secondary passive plate gap
\B_L1DMSPPGL3_AXEQ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGL3A Axisymmetric equivalent 1-d mirnov in lower secondary passive plate gap
\B_L1DMSPPGL4 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGL4 1-d mirnov centered toroidally behind lower secondary passive plate
\B_L1DMSPPGL5 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGL5 1-d mirnov centered toroidally behind lower secondary passive plate
\B_L1DMSPPGL6 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGL6 1-d mirnov centered toroidally behind lower secondary passive plate
\B_L1DMSPPGL7 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGL7 1-d mirnov centered toroidally behind lower primary passive plate
\B_L1DMSPPGU1 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGU1 1-d mirnov in upper secondary passive plate gap
\B_L1DMSPPGU1_AXEQ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGU1A Axisymmetric equivalent 1-d mirnov in upper secondary passive plate gap
\B_L1DMSPPGU2 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGU2 1-d mirnov in upper secondary passive plate gap
\B_L1DMSPPGU2_AXEQ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGU2A Axisymmetric equivalent 1-d mirnov in upper secondary passive plate gap
\B_L1DMSPPGU3 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGU3 1-d mirnov in upper secondary passive plate gap
\B_L1DMSPPGU3_AXEQ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGU3A Axisymmetric equivalent 1-d mirnov in upper secondary passive plate gap
\B_L1DMSPPGU4 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGU4 1-d mirnov centered toroidally behind upper secondary passive plate
\B_L1DMSPPGU5 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGU5 1-d mirnov centered toroidally behind upper secondary passive plate
\B_L1DMSPPGU6 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGU6 1-d mirnov centered toroidally behind upper secondary passive plate
\B_L1DMSPPGU7 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGU7 1-d mirnov centered toroidally behind upper primary passive plate
\MHD_EVENN_LOWF \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BMHDEVENNLF Low-frequency MHD signal from integrated even-n dbdt from hign-n array sensors
\MHD_EVENN_MIDF \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BMHDEVENNMF Mid-frequency MHD signal from integrated even-n dbdt from hign-n array sensors
\MHD_ODDN_LOWF \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BMHDODDNLF Low-frequency MHD signal from integrated odd-n dbdt from hign-n array sensors
\MHD_ODDN_MIDF \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BMHDODDNMF Mid-frequency MHD signal from integrated odd-n dbdt from hign-n array sensors
\UNITYGAIN \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BUNITYGAIN Use to provide a unity calibration for the realtime data.
\BDOT_2DMOBDL2T_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMOBDL2T Raw outboard poloidal array tangential signal from small 2-d mirnov in lower obd
\BDOT_2DMOBDL4T_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMOBDL4T Raw outboard poloidal array tangential signal from small 2-d mirnov in lower obd
\BDOT_2DMOBDU2T_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMOBDU2T Raw outboard poloidal array tangential signal from small 2-d mirnov in upper obd
\BDOT_2DMOBDU4T_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMOBDU4T Raw outboard poloidal array tangential signal from small 2-d mirnov in upper obd
\BDOT_L1DMIVVHF1_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF1 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF10_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF10 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF11_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF11 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF12_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF12 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF2_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF2 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF3_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF3 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF4_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF4 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF5_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF5 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF6_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF6 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF7_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF7 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF8_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF8 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF9_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF9 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHN1_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN1 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN10_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN10 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN11_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN11 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN12_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN12 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN13_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN13 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN14_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN14 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN15_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN15 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN16_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN16 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN2_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN2 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN3_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN3 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN4_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN4 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN5_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN5 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN6_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN6 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN7_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN7 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN8_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN8 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN9_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN9 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMPPPGHL1_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHL1 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
\BDOT_L1DMPPPGHL2_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHL2 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
\BDOT_L1DMPPPGHL3_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHL3 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
\BDOT_L1DMPPPGHU1_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHU1 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
\BDOT_L1DMPPPGHU2_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHU2 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
\BDOT_L1DMPPPGHU3_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHU3 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
\BDOT_L1DMSPPGHL1_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHL1 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
\BDOT_L1DMSPPGHL2_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHL2 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
\BDOT_L1DMSPPGHL3_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHL3 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
\BDOT_L1DMSPPGHU1_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHU1 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
\BDOT_L1DMSPPGHU2_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHU2 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
\BDOT_L1DMSPPGHU3_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHU3 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
\BDOT_RFPROBE_BR_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDRFPROBEBR Rf b-dot probe voltage from br sensor
\BDOT_RFPROBE_BT_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDRFPROBEBT Rf b-dot probe voltage from BT sensor
\BDOT_RFPROBE_BZ_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDRFPROBEBZ Rf b-dot probe voltage from bz sensor
\SPECTRUM_ANALYZER_VOUT \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDSAFASTSPEC Rf spectrum analyzer fast analog output (raw voltage - uncalibrated)
\TARRAY_MODE_AMPLITUDE \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDTAMODEAMP Toroidal array MHD mode amplitude from high-n array
\TARRAY_MODE_FITERROR \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDTAMODEFER Toroidal array MHD mode amplitude fitting error from high-n array
\TARRAY_MODE_NUMBER \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDTAMODENUM Toroidal array MHD mode number from high-n array
\TARRAY_MODE_PHASE \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDTAMODEPHS Toroidal array MHD mode phase from high-n array
\I_RACK418GND \OPERATIONS::TOP.MAGNETICS.MONITOR.CURRENT:IRACK418GND Pearson pulse transformer measuring diagnostic ground current
\I_RACK429GND \OPERATIONS::TOP.MAGNETICS.MONITOR.CURRENT:IRACK429GND Pearson pulse transformer measuring diagnostic ground current
\I_RACK430GND \OPERATIONS::TOP.MAGNETICS.MONITOR.CURRENT:IRACK430GND Pearson pulse transformer measuring diagnostic ground current
\I_RACK431GND \OPERATIONS::TOP.MAGNETICS.MONITOR.CURRENT:IRACK431GND Pearson pulse transformer measuring diagnostic ground current
\I_RACK432GND \OPERATIONS::TOP.MAGNETICS.MONITOR.CURRENT:IRACK432GND Pearson pulse transformer measuring diagnostic ground current
\I_RACK433GND \OPERATIONS::TOP.MAGNETICS.MONITOR.CURRENT:IRACK433GND Pearson pulse transformer measuring diagnostic ground current
\I_RACK434GND \OPERATIONS::TOP.MAGNETICS.MONITOR.CURRENT:IRACK434GND Pearson pulse transformer measuring diagnostic ground current
\I_RACK435GND \OPERATIONS::TOP.MAGNETICS.MONITOR.CURRENT:IRACK435GND Pearson pulse transformer measuring diagnostic ground current
\V_CLASS3DACV1 \OPERATIONS::TOP.MAGNETICS.MONITOR.VOLTAGE:VCLASS3DACV1 Dac voltage 1 after fo transmitting to the cat. 3 racks
\V_CLASS4DACV1 \OPERATIONS::TOP.MAGNETICS.MONITOR.VOLTAGE:VCLASS4DACV1 Class 4 iotech dac output voltage channel 1
\V_CLASS4DACV2 \OPERATIONS::TOP.MAGNETICS.MONITOR.VOLTAGE:VCLASS4DACV2 Class 4 iotech dac output voltage channel 2
\I_ROGCOILTOT1 \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGCOILTOT1 Rogowski loop measuring total current to coils - integrator gain value #1
\I_ROGCOILTOT2 \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGCOILTOT2 Rogowski loop measuring total current to coils - integrator gain value #2
\I_ROGCSCL1 \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGCSCL1 Sum of segmented rogowski loop signals a, b, and c enclosing lower center-stack casing
\I_ROGCSCL1A \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGCSCL1A Segmented rogowski loop enclosing lower center-stack casing
\I_ROGCSCL1C \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGCSCL1C Segmented rogowski loop enclosing lower center-stack casing
\I_ROGCSCL2 \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGCSCL2 Rogowski loop enclosing lower center-stack casing
\I_ROGCSCU1 \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGCSCU1 Rogowski loop enclosing upper center-stack casing
\I_ROGCSCU2 \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGCSCU2 Rogowski loop enclosing upper center-stack casing
\I_ROGEVVUL1HG \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGEVVUL1HG Rogowski enclosing vv, plates, cs casing, pf1bu/l, pf1cu/l, and plasma
\I_ROGEVVUL1LG \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGEVVUL1LG Rogowski enclosing vv, plates, cs casing, pf1bu/l, pf1cu/l, and plasma
\I_ROGEVVUL2HG \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGEVVUL2HG Rogowski enclosing vv, plates, cs casing, pf1bu/l, pf1cu/l, and plasma
\I_ROGEVVUL2LG \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGEVVUL2LG Rogowski enclosing vv, plates, cs casing, pf1bu/l, pf1cu/l, and plasma
\I_ROGTFOL \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGTFOL Rogowski measuring the tf outer leg current
\I_TFPICKUP \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:ITFPICKUP Total tf current through center stack (for tf pickup subtraction)
\B_BPRWMPPPLD1 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPLD1 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 1
\B_BPRWMPPPLD2 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPLD2 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 2
\B_BPRWMPPPLD3 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPLD3 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 3
\B_BPRWMPPPLD4 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPLD4 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 4
\B_BPRWMPPPLD5 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPLD5 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 5
\B_BPRWMPPPLD6 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPLD6 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 6
\B_BPRWMPPPLS1 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPLS1 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower sum 1
\B_BPRWMPPPLS2 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPLS2 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower sum 2
\B_BPRWMPPPLS3 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPLS3 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower sum 3
\B_BPRWMPPPLS4 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPLS4 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower sum 4
\B_BPRWMPPPLS5 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPLS5 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower sum 5
\B_BPRWMPPPLS6 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPLS6 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower sum 6
\B_BPRWMPPPUD1 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPUD1 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 1
\B_BPRWMPPPUD2 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPUD2 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 2
\B_BPRWMPPPUD3 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPUD3 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 3
\B_BPRWMPPPUD4 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPUD4 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 4
\B_BPRWMPPPUD5 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPUD5 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 5
\B_BPRWMPPPUD6 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPUD6 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 6
\B_BPRWMPPPUS1 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPUS1 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper sum 1
\B_BPRWMPPPUS2 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPUS2 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper sum 2
\B_BPRWMPPPUS3 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPUS3 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper sum 3
\B_BPRWMPPPUS4 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPUS4 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper sum 4
\B_BPRWMPPPUS5 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPUS5 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper sum 5
\B_BPRWMPPPUS6 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMPPPUS6 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper sum 6
\B_BPRWMPPPLS1_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMRTPLS1 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower sum 1 (pcs/mis)
\B_BPRWMPPPLS2_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMRTPLS2 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower sum 2 (pcs/mis)
\B_BPRWMPPPLS3_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMRTPLS3 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower sum 3 (pcs/mis)
\B_BPRWMPPPLS4_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMRTPLS4 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower sum 4 (pcs/mis)
\B_BPRWMPPPLS5_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMRTPLS5 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower sum 5 (pcs/mis)
\B_BPRWMPPPLS6_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMRTPLS6 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower sum 6 (pcs/mis)
\B_BPRWMPPPUS1_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMRTPUS1 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper sum 1 (pcs/mis)
\B_BPRWMPPPUS2_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMRTPUS2 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper sum 2 (pcs/mis)
\B_BPRWMPPPUS3_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMRTPUS3 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper sum 3 (pcs/mis)
\B_BPRWMPPPUS4_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMRTPUS4 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper sum 4 (pcs/mis)
\B_BPRWMPPPUS5_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMRTPUS5 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper sum 5 (pcs/mis)
\B_BPRWMPPPUS6_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBPRWMRTPUS6 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper sum 6 (pcs/mis)
\B_BRRWMPPPLD1 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPLD1 Radial field measured by resistive wall mode sensor on primary passive plate - lower difference 1
\B_BRRWMPPPLD2 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPLD2 Radial field measured by resistive wall mode sensor on primary passive plate - lower difference 2
\B_BRRWMPPPLD3 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPLD3 Radial field measured by resistive wall mode sensor on primary passive plate - lower difference 3
\B_BRRWMPPPLD4 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPLD4 Radial field measured by resistive wall mode sensor on primary passive plate - lower difference 4
\B_BRRWMPPPLD5 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPLD5 Radial field measured by resistive wall mode sensor on primary passive plate - lower difference 5
\B_BRRWMPPPLD6 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPLD6 Radial field measured by resistive wall mode sensor on primary passive plate - lower difference 6
\B_BRRWMPPPLS1 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPLS1 Radial field measured by resistive wall mode sensor on primary passive plate - lower sum 1
\B_BRRWMPPPLS2 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPLS2 Radial field measured by resistive wall mode sensor on primary passive plate - lower sum 2
\B_BRRWMPPPLS3 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPLS3 Radial field measured by resistive wall mode sensor on primary passive plate - lower sum 3
\B_BRRWMPPPLS4 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPLS4 Radial field measured by resistive wall mode sensor on primary passive plate - lower sum 4
\B_BRRWMPPPLS5 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPLS5 Radial field measured by resistive wall mode sensor on primary passive plate - lower sum 5
\B_BRRWMPPPLS6 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPLS6 Radial field measured by resistive wall mode sensor on primary passive plate - lower sum 6
\B_BRRWMPPPUD1 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPUD1 Radial field measured by resistive wall mode sensor on primary passive plate - upper difference 1
\B_BRRWMPPPUD2 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPUD2 Radial field measured by resistive wall mode sensor on primary passive plate - upper difference 2
\B_BRRWMPPPUD3 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPUD3 Radial field measured by resistive wall mode sensor on primary passive plate - upper difference 3
\B_BRRWMPPPUD4 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPUD4 Radial field measured by resistive wall mode sensor on primary passive plate - upper difference 4
\B_BRRWMPPPUD5 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPUD5 Radial field measured by resistive wall mode sensor on primary passive plate - upper difference 5
\B_BRRWMPPPUD6 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPUD6 Radial field measured by resistive wall mode sensor on primary passive plate - upper difference 6
\B_BRRWMPPPUS1 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPUS1 Radial field measured by resistive wall mode sensor on primary passive plate - upper sum 1
\B_BRRWMPPPUS2 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPUS2 Radial field measured by resistive wall mode sensor on primary passive plate - upper sum 2
\B_BRRWMPPPUS3 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPUS3 Radial field measured by resistive wall mode sensor on primary passive plate - upper sum 3
\B_BRRWMPPPUS4 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPUS4 Radial field measured by resistive wall mode sensor on primary passive plate - upper sum 4
\B_BRRWMPPPUS5 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPUS5 Radial field measured by resistive wall mode sensor on primary passive plate - upper sum 5
\B_BRRWMPPPUS6 \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMPPPUS6 Radial field measured by resistive wall mode sensor on primary passive plate - upper sum 6
\B_BRRWMPPPLD1_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPLD1 Radial field measured by resistive wall mode sensor on primary passive plate - lower difference 1 (pcs/mis)
\B_BRRWMPPPLD2_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPLD2 Radial field measured by resistive wall mode sensor on primary passive plate - lower difference 2 (pcs/mis)
\B_BRRWMPPPLD3_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPLD3 Radial field measured by resistive wall mode sensor on primary passive plate - lower difference 3 (pcs/mis)
\B_BRRWMPPPLD4_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPLD4 Radial field measured by resistive wall mode sensor on primary passive plate - lower difference 4 (pcs/mis)
\B_BRRWMPPPLD5_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPLD5 Radial field measured by resistive wall mode sensor on primary passive plate - lower difference 5 (pcs/mis)
\B_BRRWMPPPLD6_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPLD6 Radial field measured by resistive wall mode sensor on primary passive plate - lower difference 6 (pcs/mis)
\B_BRRWMPPPLS1_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPLS1 Radial field measured by resistive wall mode sensor on primary passive plate - lower sum 1 (pcs/mis)
\B_BRRWMPPPLS2_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPLS2 Radial field measured by resistive wall mode sensor on primary passive plate - lower sum 2 (pcs/mis)
\B_BRRWMPPPLS3_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPLS3 Radial field measured by resistive wall mode sensor on primary passive plate - lower sum 3 (pcs/mis)
\B_BRRWMPPPLS4_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPLS4 Radial field measured by resistive wall mode sensor on primary passive plate - lower sum 4 (pcs/mis)
\B_BRRWMPPPLS5_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPLS5 Radial field measured by resistive wall mode sensor on primary passive plate - lower sum 5 (pcs/mis)
\B_BRRWMPPPLS6_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPLS6 Radial field measured by resistive wall mode sensor on primary passive plate - lower sum 6 (pcs/mis)
\B_BRRWMPPPUD1_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPUD1 Radial field measured by resistive wall mode sensor on primary passive plate - upper difference 1 (pcs/mis)
\B_BRRWMPPPUD2_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPUD2 Radial field measured by resistive wall mode sensor on primary passive plate - upper difference 2 (pcs/mis)
\B_BRRWMPPPUD3_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPUD3 Radial field measured by resistive wall mode sensor on primary passive plate - upper difference 3 (pcs/mis)
\B_BRRWMPPPUD4_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPUD4 Radial field measured by resistive wall mode sensor on primary passive plate - upper difference 4 (pcs/mis)
\B_BRRWMPPPUD5_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPUD5 Radial field measured by resistive wall mode sensor on primary passive plate - upper difference 5 (pcs/mis)
\B_BRRWMPPPUD6_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPUD6 Radial field measured by resistive wall mode sensor on primary passive plate - upper difference 6 (pcs/mis)
\B_BRRWMPPPUS1_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPUS1 Radial field measured by resistive wall mode sensor on primary passive plate - upper sum 1 (pcs/mis)
\B_BRRWMPPPUS2_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPUS2 Radial field measured by resistive wall mode sensor on primary passive plate - upper sum 2 (pcs/mis)
\B_BRRWMPPPUS3_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPUS3 Radial field measured by resistive wall mode sensor on primary passive plate - upper sum 3 (pcs/mis)
\B_BRRWMPPPUS4_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPUS4 Radial field measured by resistive wall mode sensor on primary passive plate - upper sum 4 (pcs/mis)
\B_BRRWMPPPUS5_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPUS5 Radial field measured by resistive wall mode sensor on primary passive plate - upper sum 5 (pcs/mis)
\B_BRRWMPPPUS6_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BBRRWMRTPUS6 Radial field measured by resistive wall mode sensor on primary passive plate - upper sum 6 (pcs/mis)
\B_BPRWMPPPLD1_LPF \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWPPPLD1 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 1 - low pass filtered
\B_BPRWMPPPLD2_LPF \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWPPPLD2 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 2 - low pass filtered
\B_BPRWMPPPLD3_LPF \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWPPPLD3 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 3 - low pass filtered
\B_BPRWMPPPLD4_LPF \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWPPPLD4 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 4 - low pass filtered
\B_BPRWMPPPLD5_LPF \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWPPPLD5 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 5 - low pass filtered
\B_BPRWMPPPLD6_LPF \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWPPPLD6 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 6 - low pass filtered
\B_BPRWMPPPUD1_LPF \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWPPPUD1 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 1 - low pass filtered
\B_BPRWMPPPUD2_LPF \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWPPPUD2 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 2 - low pass filtered
\B_BPRWMPPPUD3_LPF \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWPPPUD3 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 3 - low pass filtered
\B_BPRWMPPPUD4_LPF \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWPPPUD4 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 4 - low pass filtered
\B_BPRWMPPPUD5_LPF \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWPPPUD5 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 5 - low pass filtered
\B_BPRWMPPPUD6_LPF \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWPPPUD6 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 6 - low pass filtered
\B_BPRWMPPPLD1_LPF_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWRTPLD1 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 1 - low pass filtered (pcs/mis)
\B_BPRWMPPPLD2_LPF_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWRTPLD2 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 2 - low pass filtered (pcs/mis)
\B_BPRWMPPPLD3_LPF_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWRTPLD3 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 3 - low pass filtered (pcs/mis)
\B_BPRWMPPPLD4_LPF_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWRTPLD4 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 4 - low pass filtered (pcs/mis)
\B_BPRWMPPPLD5_LPF_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWRTPLD5 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 5 - low pass filtered (pcs/mis)
\B_BPRWMPPPLD6_LPF_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWRTPLD6 Poloidal field measured by resistive wall mode sensor on primary passive plate - lower difference 6 - low pass filtered (pcs/mis)
\B_BPRWMPPPUD1_LPF_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWRTPUD1 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 1 - low pass filtered (pcs/mis)
\B_BPRWMPPPUD2_LPF_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWRTPUD2 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 2 - low pass filtered (pcs/mis)
\B_BPRWMPPPUD3_LPF_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWRTPUD3 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 3 - low pass filtered (pcs/mis)
\B_BPRWMPPPUD4_LPF_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWRTPUD4 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 4 - low pass filtered (pcs/mis)
\B_BPRWMPPPUD5_LPF_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWRTPUD5 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 5 - low pass filtered (pcs/mis)
\B_BPRWMPPPUD6_LPF_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFBPRWRTPUD6 Poloidal field measured by resistive wall mode sensor on primary passive plate - upper difference 6 - low pass filtered (pcs/mis)
\RWMEF_MODE_N1_AMP_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN1AMPP Low-pass filtered rwm sensor amplitude of n=1 bp using mode detection
\RWMEF_MODE_N1_AMP_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN1AMPPL Low-pass filtered rwm sensor amplitude of n=1 bp lower using mode detection
\RWMEF_MODE_N1_AMP_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN1AMPPU Low-pass filtered rwm sensor amplitude of n=1 bp upper using mode detection
\RWMEF_MODE_N1_ANG_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN1ANGP Low-pass filtered rwm sensor angular position of maximum n=1 bp using mode detection
\RWMEF_MODE_N1_ANG_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN1ANGPL Low-pass filtered rwm sensor angular position of maximum n=1 bp lower using mode detection
\RWMEF_MODE_N1_ANG_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN1ANGPU Low-pass filtered rwm sensor angular position of maximum n=1 bp upper using mode detection
\RWMEF_MODE_N2_AMP_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN2AMPP Low-pass filtered rwm sensor amplitude of n=2 bp using mode detection
\RWMEF_MODE_N2_AMP_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN2AMPPL Low-pass filtered rwm sensor amplitude of n=2 bp lower using mode detection
\RWMEF_MODE_N2_AMP_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN2AMPPU Low-pass filtered rwm sensor amplitude of n=2 bp upper using mode detection
\RWMEF_MODE_N2_ANG_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN2ANGP Low-pass filtered rwm sensor angular position of maximum n=2 bp using mode detection
\RWMEF_MODE_N2_ANG_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN2ANGPL Low-pass filtered rwm sensor angular position of maximum n=2 bp lower using mode detection
\RWMEF_MODE_N2_ANG_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN2ANGPU Low-pass filtered rwm sensor angular position of maximum n=2 bp upper using mode detection
\RWMEF_MODE_N3_AMP_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN3AMPP Low-pass filtered rwm sensor amplitude of n=3 bp using mode detection
\RWMEF_MODE_N3_AMP_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN3AMPPL Low-pass filtered rwm sensor amplitude of n=3 bp lower using mode detection
\RWMEF_MODE_N3_AMP_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN3AMPPU Low-pass filtered rwm sensor amplitude of n=3 bp upper using mode detection
\RWMEF_MODE_N3_ANG_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN3ANGP Low-pass filtered rwm sensor angular position of maximum n=3 bp using mode detection
\RWMEF_MODE_N3_ANG_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN3ANGPL Low-pass filtered rwm sensor angular position of maximum n=3 bp lower using mode detection
\RWMEF_MODE_N3_ANG_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMN3ANGPU Low-pass filtered rwm sensor angular position of maximum n=3 bp upper using mode detection
\RWMEF_MODE_NUSE_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMNUSEP Low-pass filtered rwm toroidal mode number usage for bp using mode detection
\RWMEF_MODE_NUSE_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMNUSEPL Low-pass filtered rwm toroidal mode number usage for bp lower using mode detection
\RWMEF_MODE_NUSE_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMNUSEPU Low-pass filtered rwm toroidal mode number usage for bp upper using mode detection
\RWMEF_MODE_SUSE_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMSUSEP Low-pass filtered rwm sensor usage for bp using mode detection
\RWMEF_MODE_SUSE_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMSUSEPL Low-pass filtered rwm sensor usage for bp lower using mode detection
\RWMEF_MODE_SUSE_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWMSUSEPU Low-pass filtered rwm sensor usage for bp upper using mode detection
\RWMEF_PLAS_N1_AMP_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN1AMPP Low-pass filtered rwm sensor amplitude of plasma n=1 bp
\RWMEF_PLAS_N1_AMP_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN1AMPPL Low-pass filtered rwm sensor amplitude of plasma n=1 bp lower
\RWMEF_PLAS_N1_AMP_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN1AMPPU Low-pass filtered rwm sensor amplitude of plasma n=1 bp upper
\RWMEF_PLAS_N1_ANG_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN1ANGP Low-pass filtered rwm sensor angular position of maximum plasma n=1 bp
\RWMEF_PLAS_N1_ANG_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN1ANGPL Low-pass filtered rwm sensor angular position of maximum plasma n=1 bp lower
\RWMEF_PLAS_N1_ANG_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN1ANGPU Low-pass filtered rwm sensor angular position of maximum plasma n=1 bp upper
\RWMEF_PLAS_N2_AMP_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN2AMPP Low-pass filtered rwm sensor amplitude of plasma n=2 bp
\RWMEF_PLAS_N2_AMP_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN2AMPPL Low-pass filtered rwm sensor amplitude of plasma n=2 bp lower
\RWMEF_PLAS_N2_AMP_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN2AMPPU Low-pass filtered rwm sensor amplitude of plasma n=2 bp upper
\RWMEF_PLAS_N2_ANG_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN2ANGP Low-pass filtered rwm sensor angular position of maximum plasma n=2 bp
\RWMEF_PLAS_N2_ANG_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN2ANGPL Low-pass filtered rwm sensor angular position of maximum plasma n=2 bp lower
\RWMEF_PLAS_N2_ANG_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN2ANGPU Low-pass filtered rwm sensor angular position of maximum plasma n=2 bp upper
\RWMEF_PLAS_N3_AMP_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN3AMPP Low-pass filtered rwm sensor amplitude of plasma n=3 bp
\RWMEF_PLAS_N3_AMP_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN3AMPPL Low-pass filtered rwm sensor amplitude of plasma n=3 bp lower
\RWMEF_PLAS_N3_AMP_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN3AMPPU Low-pass filtered rwm sensor amplitude of plasma n=3 bp upper
\RWMEF_PLAS_N3_ANG_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN3ANGP Low-pass filtered rwm sensor angular position of maximum plasma n=3 bp
\RWMEF_PLAS_N3_ANG_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN3ANGPL Low-pass filtered rwm sensor angular position of maximum plasma n=3 bp lower
\RWMEF_PLAS_N3_ANG_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPN3ANGPU Low-pass filtered rwm sensor angular position of maximum plasma n=3 bp upper
\RWMEF_PLAS_NUSE_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPNUSEP Low-pass filtered rwm toroidal mode number usage for plasma bp
\RWMEF_PLAS_NUSE_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPNUSEPL Low-pass filtered rwm toroidal mode number usage for plasma bp lower
\RWMEF_PLAS_NUSE_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPNUSEPU Low-pass filtered rwm toroidal mode number usage for plasma bp upper
\RWMEF_PLAS_SUSE_FBP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPSUSEP Low-pass filtered rwm sensor usage for plasma bp
\RWMEF_PLAS_SUSE_FBP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPSUSEPL Low-pass filtered rwm sensor usage for plasma bp lower
\RWMEF_PLAS_SUSE_FBP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BFRWPSUSEPU Low-pass filtered rwm sensor usage for plasma bp upper
\RWMEF_MODE_N1_AMP_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN1AMPP Rwm sensor amplitude of n=1 bp using mode detection
\RWMEF_MODE_N1_AMP_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN1AMPPL Rwm sensor amplitude of n=1 bp lower using mode detection
\RWMEF_MODE_N1_AMP_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN1AMPPU Rwm sensor amplitude of n=1 bp upper using mode detection
\RWMEF_MODE_N1_AMP_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN1AMPR Rwm sensor amplitude of n=1 br using mode detection
\RWMEF_MODE_N1_AMP_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN1AMPRL Rwm sensor amplitude of n=1 br lower using mode detection
\RWMEF_MODE_N1_AMP_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN1AMPRU Rwm sensor amplitude of n=1 br upper using mode detection
\RWMEF_MODE_N1_ANG_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN1ANGP Rwm sensor angular position of maximum n=1 bp using mode detection
\RWMEF_MODE_N1_ANG_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN1ANGPL Rwm sensor angular position of maximum n=1 bp lower using mode detection
\RWMEF_MODE_N1_ANG_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN1ANGPU Rwm sensor angular position of maximum n=1 bp upper using mode detection
\RWMEF_MODE_N1_ANG_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN1ANGR Rwm sensor angular position of maximum n=1 br using mode detection
\RWMEF_MODE_N1_ANG_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN1ANGRL Rwm sensor angular position of maximum n=1 br lower using mode detection
\RWMEF_MODE_N1_ANG_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN1ANGRU Rwm sensor angular position of maximum n=1 br upper using mode detection
\RWMEF_MODE_N2_AMP_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN2AMPP Rwm sensor amplitude of n=2 bp using mode detection
\RWMEF_MODE_N2_AMP_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN2AMPPL Rwm sensor amplitude of n=2 bp lower using mode detection
\RWMEF_MODE_N2_AMP_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN2AMPPU Rwm sensor amplitude of n=2 bp upper using mode detection
\RWMEF_MODE_N2_AMP_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN2AMPR Rwm sensor amplitude of n=2 br using mode detection
\RWMEF_MODE_N2_AMP_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN2AMPRL Rwm sensor amplitude of n=2 br lower using mode detection
\RWMEF_MODE_N2_AMP_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN2AMPRU Rwm sensor amplitude of n=2 br upper using mode detection
\RWMEF_MODE_N2_ANG_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN2ANGP Rwm sensor angular position of maximum n=2 bp using mode detection
\RWMEF_MODE_N2_ANG_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN2ANGPL Rwm sensor angular position of maximum n=2 bp lower using mode detection
\RWMEF_MODE_N2_ANG_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN2ANGPU Rwm sensor angular position of maximum n=2 bp upper using mode detection
\RWMEF_MODE_N2_ANG_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN2ANGR Rwm sensor angular position of maximum n=2 br using mode detection
\RWMEF_MODE_N2_ANG_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN2ANGRL Rwm sensor angular position of maximum n=2 br lower using mode detection
\RWMEF_MODE_N2_ANG_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN2ANGRU Rwm sensor angular position of maximum n=2 br upper using mode detection
\RWMEF_MODE_N3_AMP_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN3AMPP Rwm sensor amplitude of n=3 bp using mode detection
\RWMEF_MODE_N3_AMP_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN3AMPPL Rwm sensor amplitude of n=3 bp lower using mode detection
\RWMEF_MODE_N3_AMP_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN3AMPPU Rwm sensor amplitude of n=3 bp upper using mode detection
\RWMEF_MODE_N3_AMP_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN3AMPR Rwm sensor amplitude of n=3 br using mode detection
\RWMEF_MODE_N3_AMP_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN3AMPRL Rwm sensor amplitude of n=3 br lower using mode detection
\RWMEF_MODE_N3_AMP_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN3AMPRU Rwm sensor amplitude of n=3 br upper using mode detection
\RWMEF_MODE_N3_ANG_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN3ANGP Rwm sensor angular position of maximum n=3 bp using mode detection
\RWMEF_MODE_N3_ANG_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN3ANGPL Rwm sensor angular position of maximum n=3 bp lower using mode detection
\RWMEF_MODE_N3_ANG_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN3ANGPU Rwm sensor angular position of maximum n=3 bp upper using mode detection
\RWMEF_MODE_N3_ANG_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN3ANGR Rwm sensor angular position of maximum n=3 br using mode detection
\RWMEF_MODE_N3_ANG_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN3ANGRL Rwm sensor angular position of maximum n=3 br lower using mode detection
\RWMEF_MODE_N3_ANG_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMN3ANGRU Rwm sensor angular position of maximum n=3 br upper using mode detection
\RWMEF_MODE_NUSE_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMNUSEP Rwm toroidal mode number usage for bp using mode detection
\RWMEF_MODE_NUSE_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMNUSEPL Rwm toroidal mode number usage for bp lower using mode detection
\RWMEF_MODE_NUSE_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMNUSEPU Rwm toroidal mode number usage for bp upper using mode detection
\RWMEF_MODE_NUSE_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMNUSER Rwm toroidal mode number usage for br using mode detection
\RWMEF_MODE_NUSE_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMNUSERL Rwm toroidal mode number usage for br lower using mode detection
\RWMEF_MODE_NUSE_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMNUSERU Rwm toroidal mode number usage for br upper using mode detection
\RWMEF_MODE_SUSE_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMSUSEP Rwm sensor usage for bp using mode detection
\RWMEF_MODE_SUSE_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMSUSEPL Rwm sensor usage for bp lower using mode detection
\RWMEF_MODE_SUSE_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMSUSEPU Rwm sensor usage for bp upper using mode detection
\RWMEF_MODE_SUSE_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMSUSER Rwm sensor usage for br using mode detection
\RWMEF_MODE_SUSE_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMSUSERL Rwm sensor usage for br lower using mode detection
\RWMEF_MODE_SUSE_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMMSUSERU Rwm sensor usage for br upper using mode detection
\RWMEF_MODE_N1_AMP_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMN1RTAMP Rwm sensor amplitude of n=1 using mode detection (pcs/mis)
\RWMEF_MODE_N1_ANG_PCS \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMN1RTANG Rwm sensor angular position of maximum n=1 using mode detection (pcs/mis)
\RWMEF_PLAS_N1_AMP_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN1AMPP Rwm sensor amplitude of plasma n=1 bp
\RWMEF_PLAS_N1_AMP_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN1AMPPL Rwm sensor amplitude of plasma n=1 bp lower
\RWMEF_PLAS_N1_AMP_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN1AMPPU Rwm sensor amplitude of plasma n=1 bp upper
\RWMEF_PLAS_N1_AMP_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN1AMPR Rwm sensor amplitude of plasma n=1 br
\RWMEF_PLAS_N1_AMP_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN1AMPRL Rwm sensor amplitude of plasma n=1 br lower
\RWMEF_PLAS_N1_AMP_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN1AMPRU Rwm sensor amplitude of plasma n=1 br upper
\RWMEF_PLAS_N1_ANG_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN1ANGP Rwm sensor angular position of maximum plasma n=1 bp
\RWMEF_PLAS_N1_ANG_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN1ANGPL Rwm sensor angular position of maximum plasma n=1 bp lower
\RWMEF_PLAS_N1_ANG_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN1ANGPU Rwm sensor angular position of maximum plasma n=1 bp upper
\RWMEF_PLAS_N1_ANG_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN1ANGR Rwm sensor angular position of maximum plasma n=1 br
\RWMEF_PLAS_N1_ANG_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN1ANGRL Rwm sensor angular position of maximum plasma n=1 br lower
\RWMEF_PLAS_N1_ANG_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN1ANGRU Rwm sensor angular position of maximum plasma n=1 br upper
\RWMEF_PLAS_N2_AMP_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN2AMPP Rwm sensor amplitude of plasma n=2 bp
\RWMEF_PLAS_N2_AMP_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN2AMPPL Rwm sensor amplitude of plasma n=2 bp lower
\RWMEF_PLAS_N2_AMP_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN2AMPPU Rwm sensor amplitude of plasma n=2 bp upper
\RWMEF_PLAS_N2_AMP_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN2AMPR Rwm sensor amplitude of plasma n=2 br
\RWMEF_PLAS_N2_AMP_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN2AMPRL Rwm sensor amplitude of plasma n=2 br lower
\RWMEF_PLAS_N2_AMP_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN2AMPRU Rwm sensor amplitude of plasma n=2 br upper
\RWMEF_PLAS_N2_ANG_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN2ANGP Rwm sensor angular position of maximum plasma n=2 bp
\RWMEF_PLAS_N2_ANG_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN2ANGPL Rwm sensor angular position of maximum plasma n=2 bp lower
\RWMEF_PLAS_N2_ANG_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN2ANGPU Rwm sensor angular position of maximum plasma n=2 bp upper
\RWMEF_PLAS_N2_ANG_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN2ANGR Rwm sensor angular position of maximum plasma n=2 br
\RWMEF_PLAS_N2_ANG_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN2ANGRL Rwm sensor angular position of maximum plasma n=2 br lower
\RWMEF_PLAS_N2_ANG_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN2ANGRU Rwm sensor angular position of maximum plasma n=2 br upper
\RWMEF_PLAS_N3_AMP_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN3AMPP Rwm sensor amplitude of plasma n=3 bp
\RWMEF_PLAS_N3_AMP_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN3AMPPL Rwm sensor amplitude of plasma n=3 bp lower
\RWMEF_PLAS_N3_AMP_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN3AMPPU Rwm sensor amplitude of plasma n=3 bp upper
\RWMEF_PLAS_N3_AMP_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN3AMPR Rwm sensor amplitude of plasma n=3 br
\RWMEF_PLAS_N3_AMP_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN3AMPRL Rwm sensor amplitude of plasma n=3 br lower
\RWMEF_PLAS_N3_AMP_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN3AMPRU Rwm sensor amplitude of plasma n=3 br upper
\RWMEF_PLAS_N3_ANG_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN3ANGP Rwm sensor angular position of maximum plasma n=3 bp
\RWMEF_PLAS_N3_ANG_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN3ANGPL Rwm sensor angular position of maximum plasma n=3 bp lower
\RWMEF_PLAS_N3_ANG_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN3ANGPU Rwm sensor angular position of maximum plasma n=3 bp upper
\RWMEF_PLAS_N3_ANG_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN3ANGR Rwm sensor angular position of maximum plasma n=3 br
\RWMEF_PLAS_N3_ANG_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN3ANGRL Rwm sensor angular position of maximum plasma n=3 br lower
\RWMEF_PLAS_N3_ANG_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPN3ANGRU Rwm sensor angular position of maximum plasma n=3 br upper
\RWMEF_PLAS_NUSE_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPNUSEP Rwm toroidal mode number usage for plasma bp
\RWMEF_PLAS_NUSE_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPNUSEPL Rwm toroidal mode number usage for plasma bp lower
\RWMEF_PLAS_NUSE_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPNUSEPU Rwm toroidal mode number usage for plasma bp upper
\RWMEF_PLAS_NUSE_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPNUSER Rwm toroidal mode number usage for plasma br
\RWMEF_PLAS_NUSE_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPNUSERL Rwm toroidal mode number usage for plasma br lower
\RWMEF_PLAS_NUSE_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPNUSERU Rwm toroidal mode number usage for plasma br upper
\RWMEF_PLAS_SUSE_BP \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPSUSEP Rwm sensor usage for plasma bp
\RWMEF_PLAS_SUSE_BP_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPSUSEPL Rwm sensor usage for plasma bp lower
\RWMEF_PLAS_SUSE_BP_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPSUSEPU Rwm sensor usage for plasma bp upper
\RWMEF_PLAS_SUSE_BR \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPSUSER Rwm sensor usage for plasma br
\RWMEF_PLAS_SUSE_BR_L \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPSUSERL Rwm sensor usage for plasma br lower
\RWMEF_PLAS_SUSE_BR_U \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMPSUSERU Rwm sensor usage for plasma br upper
\B_RWMTEST \OPERATIONS::TOP.MAGNETICS.RWMEFSENSOR.B:BRWMTEST Rwm test chennel
\B_INTEGTEST1 \OPERATIONS::TOP.MAGNETICS.TOR_MIR.B:BINTEGTEST1 Testing new dual integrator
\B_INTEGTEST2 \OPERATIONS::TOP.MAGNETICS.TOR_MIR.B:BINTEGTEST2 Testing new dual integrator
\B_INTEGTEST3 \OPERATIONS::TOP.MAGNETICS.TOR_MIR.B:BINTEGTEST3 Testing new dual integrator
\B_INTEGTEST4 \OPERATIONS::TOP.MAGNETICS.TOR_MIR.B:BINTEGTEST4 Testing new dual integrator
\I_FLEVVL2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVL2 Vessel segment current derived from vessel surface voltage measurement
\I_FLEVVL4 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVL4 Vessel segment current derived from vessel surface voltage measurement
\I_FLEVVL5 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVL5 Vessel segment current derived from vessel surface voltage measurement
\I_FLEVVL7 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVL7 Vessel segment current derived from vessel surface voltage measurement
\IVV_L_EVEN_SUM \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVLSUM1 Magnetics control box signal
\IVV_L_ODD_SUM \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVLSUM2 Magnetics control box signal
\I_FLEVVU2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVU2 Vessel segment current derived from vessel surface voltage measurement
\I_FLEVVU4 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVU4 Vessel segment current derived from vessel surface voltage measurement
\I_FLEVVU5 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVU5 Vessel segment current derived from vessel surface voltage measurement
\I_FLEVVU7 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVU7 Vessel segment current derived from vessel surface voltage measurement
\IVV_U_EVEN_SUM \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVUSUM1 Magnetics control box signal
\IVV_U_ODD_SUM \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVUSUM2 Magnetics control box signal
\I_FLIVVL1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLIVVL1 Vessel segment current derived from vessel surface voltage measurement
\I_FLIVVU1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLIVVU1 Vessel segment current derived from vessel surface voltage measurement
\I_FLMDLL1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLMDLL1 Structure current from flux loop measurement on divertor coil mandrel
\I_FLMDLL2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLMDLL2 Structure current from flux loop measurement on divertor coil mandrel
\I_FLMDLU1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLMDLU1 Structure current from flux loop measurement on divertor coil mandrel
\I_FLMDLU2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLMDLU2 Structure current from flux loop measurement on divertor coil mandrel
\I_FLOBDL2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLOBDL2 Vessel segment current derived from vessel surface voltage measurement
\I_FLOBDU1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLOBDU1 Vessel segment current derived from vessel surface voltage measurement
\I_FLOHL2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLOHL2 Vessel segment current derived from cs surface voltage measurement
\I_FLOHU2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLOHU2 Vessel segment current derived from cs surface voltage measurement
\I_FLPF1AL2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLPF1AL2 Vessel segment current derived from cs surface voltage measurement
\I_FLPF1AU2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLPF1AU2 Vessel segment current derived from cs surface voltage measurement
\I_FLPPPL2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLPPPL2 Vessel segment current derived from vessel surface voltage measurement
\I_FLPPPU2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLPPPU2 Vessel segment current derived from vessel surface voltage measurement
\I_FLSPPL2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLSPPL2 Vessel segment current derived from vessel surface voltage measurement
\I_FLSPPU2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLSPPU2 Vessel segment current derived from vessel surface voltage measurement
\I_IVVINTOT1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IIVVINTOT1 Filtered cs casing current from pf1a and oh loops
\I_IVVINTOT2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IIVVINTOT2 Filtered cs casing current from mdl loops
\PLASMA_CURRENT_1HG \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IPLASCUR1HG High gain plasma current derived from rogowski 1 and vessel surface and passive plate voltage measurements
\PLASMA_CURRENT_1LG \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IPLASCUR1LG Low gain plasma current derived from rogowski 1 and vessel surface and passive plate voltage measurements
\PLASMA_CURRENT_2HG \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IPLASCUR2HG High gain plasma current derived from rogowski 2 and vessel surface and passive plate voltage measurements
\PLASMA_CURRENT_2LG \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IPLASCUR2LG Low gain plasma current derived from rogowski 2 and vessel surface and passive plate voltage measurements
\VESSEL_PLATE_CURRENT \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IVVPLATECUR Total toroidal current in vessel and passive plate conducting elements enclosed by IP rogowskis
\V_FLEVVL2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVL2 Loop voltage from flux loop measurement near vacuum vessel surface
\V_FLEVVL4 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVL4 Loop voltage from flux loop measurement near vacuum vessel surface
\V_FLEVVL5 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVL5 Loop voltage from flux loop measurement near vacuum vessel surface
\V_FLEVVL7 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVL7 Loop voltage from flux loop measurement near vacuum vessel surface
\V_FLEVVU2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVU2 Loop voltage from flux loop measurement near vacuum vessel surface
\V_FLEVVU4 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVU4 Loop voltage from flux loop measurement near vacuum vessel surface
\V_FLEVVU5 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVU5 Loop voltage from flux loop measurement near vacuum vessel surface
\V_FLEVVU7 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVU7 Loop voltage from flux loop measurement near vacuum vessel surface
\V_FLEVVUL2LP \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVUL2LP V_flevvul2 passed through low pass filter (-3db at 2khz, 4-pole butterworth)
\V_FLIVVL1 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLIVVL1 Loop voltage from flux loop measurement on inner vessel wall
\V_FLIVVU1 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLIVVU1 Loop voltage from flux loop measurement on inner vessel wall
\V_FLMDLL1 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLMDLL1 Loop voltage from flux loop measurement on divertor coil mandrel
\V_FLMDLL2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLMDLL2 Loop voltage from flux loop measurement on divertor coil mandrel
\V_FLMDLU1 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLMDLU1 Loop voltage from flux loop measurement on divertor coil mandrel
\V_FLMDLU2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLMDLU2 Loop voltage from flux loop measurement on divertor coil mandrel
\V_FLOBDL2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLOBDL2 Loop voltage from flux loop measurement near lower outboard divertor
\V_FLOBDU1 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLOBDU1 Loop voltage from flux loop measurement near upper outboard divertor
\V_FLOBDUL3LP \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLOBDUL3LP V_flobdul3 passed through low pass filter (-3db at 2khz, 4-pole butterworth)
\V_FLOHL2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLOHL2 Loop voltage from flux loop measurement near cs casing surface
\V_FLOHU2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLOHU2 Loop voltage from flux loop measurement near cs casing surface
\V_FLOHUL4 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLOHUL4 V_flohul4 passed through low pass filter (-3db at 2khz, 4-pole butterworth)
\V_FLPF1AL2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLPF1AL2 Loop voltage from flux loop measurement near cs casing surface
\V_FLPF1AU2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLPF1AU2 Loop voltage from flux loop measurement near cs casing surface
\V_FLPF1AUL2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLPF1AUL2 V_flpf1aul2 passed through low pass filter (-3db at 2khz, 4-pole butterworth)
\V_FLPF1AUL4 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLPF1AUL4 V_flpf1aul4 passed through low pass filter (-3db at 2khz, 4-pole butterworth)
\V_FLPPPL2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLPPPL2 Loop voltage from flux loop measurement near lower primary passive plate
\V_FLPPPU2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLPPPU2 Loop voltage from flux loop measurement near upper primary passive plate
\V_FLPPPUL2LP \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLPPPUL2LP V_flpppul2 passed through low pass filter (-3db at 2khz, 4-pole butterworth)
\V_FLPPPUL4LP \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLPPPUL4LP V_flpppul4 passed through low pass filter (-3db at 2khz, 4-pole butterworth)
\V_FLSPPL2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLSPPL2 Loop voltage from flux loop measurement near lower secondary passive plate
\V_FLSPPU2 \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLSPPU2 Loop voltage from flux loop measurement near upper secondary passive plate
\V_FLSPPUL1LP \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLSPPUL1LP V_flsppul1 passed through low pass filter (-3db at 2khz, 4-pole butterworth)
\V_FLSPPUL4LP \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLSPPUL4LP V_flpppul4 passed through low pass filter (-3db at 2khz, 4-pole butterworth)
\CHI_HS_IVV_ROSS \OPERATIONS::TOP.CHI.VV_MONITOR:IVV_ROSS Ivv ross data
\CHI_IVGRD \OPERATIONS::TOP.CHI.VV_MONITOR:IV_GRD_VOLTS Inner vv handyscope divider
\CHI_HS_OVV_ROSS \OPERATIONS::TOP.CHI.VV_MONITOR:OVV_ROSS Ovv ross data
\CHI_OVGRD \OPERATIONS::TOP.CHI.VV_MONITOR:OV_GRD_VOLTS Outer vv handyscope divider
\I_CTCHILN \OPERATIONS::TOP.CHI.MONITOR.CURRENT:ICTCHILN Pearson pulse transformer measuring current through chi ground switch
\I_CTCHILP \OPERATIONS::TOP.CHI.MONITOR.CURRENT:ICTCHILP Pearson pulse transformer measuring current through chi ground switch
\I_TOBDLR3T1 \OPERATIONS::TOP.HALOCUR.SHUNTTILES.CURRENT:ITOBDLR3T1 Instrumented tile in the lower outboard divertor
\I_TOBDLR3T2 \OPERATIONS::TOP.HALOCUR.SHUNTTILES.CURRENT:ITOBDLR3T2 Instrumented tile in the lower outboard divertor
\I_TOBDLR3T3 \OPERATIONS::TOP.HALOCUR.SHUNTTILES.CURRENT:ITOBDLR3T3 Instrumented tile in the lower outboard divertor
\I_TOBDLR3T4 \OPERATIONS::TOP.HALOCUR.SHUNTTILES.CURRENT:ITOBDLR3T4 Instrumented tile in the lower outboard divertor
\F_DIAMAG1SWD \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FDIAMAG1SWD Diamagnetic flux measured by irogevvul1 return loop - difference of total and vacuum computed in software
\F_DIAMAG2SWD \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FDIAMAG2SWD Diamagnetic flux measured by irogevvul2 return loop - difference of total and vacuum computed in software
no tag available \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLIVVL1 Flux loop on lower inner vacuum vessel wall
\CAL_OPSIG78 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLIVVL2 Flux loop on lower inner vacuum vessel wall
\F_FLPF1BL \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPF1BL Flux loop on pf1b coil
\F_FLPFAB1U1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPFAB1U1 Flux loop in upper inner chi absorber region
\F_FLPFAB1U2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPFAB1U2 Flux loop in upper inner chi absorber region
\F_FLPFAB2U1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FFLPFAB2U1 Flux loop in upper outer chi absorber region
\F_TORVAC1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FTORVAC1 Vacuum toroidal flux measured by irogevvul1 return loop - estimated using irogcsc signal
\F_TORVAC2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.FLUX:FTORVAC2 Vacuum toroidal flux measured by irogevvul2 return loop - estimated using irogcsc signal
\LV_EVV_17_OUTER \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLOHM Flux loop voltage on oh coil mid-plane
\V_FLPFAB1U1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPFAB1U1 Flux loop in upper inner chi absorber region
\V_FLPFAB1U2 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPFAB1U2 Flux loop in upper inner chi absorber region
\V_FLPFAB2U1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPFAB2U1 Flux loop in upper outer chi absorber region
\V_FLPPPUL2LP \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLPPPUL2LP "v_flpppul2 passed through low pass filter (-3db at 2khz, 4-pole butterworth)"
no tag available \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLSPPL1 Flux loop on lower secondary passive plate
no tag available \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VFLSPPU4 Flux loop on upper secondary passive plate
\V_SPARECHAN1 \OPERATIONS::TOP.MAGNETICS.FLUX_LOOP.VOLTAGE:VSPARECHAN1 Spare magnetics voltage channel 1
\LMC_MODE_N1_AMPLITUDE \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMCMODN1AMP External locked-mode sensor amplitude of n=1 br using mode detection
\LMC_MODE_N1_ANGLE \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMCMODN1ANG External locked-mode sensor toroidal angular position of maximum n=1 br using mode detection
\LMC_PLASMA_N1_AMPLITUDE \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMCPLAN1AMP External locked-mode sensor amplitude of plasma n=1 br
\LMC_PLASMA_N1_ANGLE \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMCPLAN1ANG External locked-mode sensor toroidal angular position of maximum plasma n=1 br
\B_LMC_ALFG_RD_MODE \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_ALFGRDM External locked-mode sensor a/l-f/g radial field difference using mode detection
\B_LMC_ALFG_RD_PLASMA \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_ALFGRDP External locked-mode sensor a/l-f/g radial field difference from plasma
\B_LMC_ALFG_RD \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_ALFG_RD External locked-mode sensor a/l-f/g radial field difference
\B_LMC_AL_TFC \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_AL_TFC External locked-mode sensor a/l toroidal field compensation
\B_LMC_AL_VFC \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_AL_VFC External locked-mode sensor a/l vertical field compensation
\B_LMC_BCHI_RD_MODE \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_BCHIRDM External locked-mode sensor b/c-h/i radial field difference using mode detection
\B_LMC_BCHI_RD_PLASMA \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_BCHIRDP External locked-mode sensor b/c-h/i radial field difference from plasma
\B_LMC_BCHI_RD \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_BCHI_RD External locked-mode sensor b/c-h/i radial field difference
\B_LMC_BC_TFC \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_BC_TFC External locked-mode sensor b/c toroidal field compensation
\B_LMC_BC_VFC \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_BC_VFC External locked-mode sensor b/c vertical field compensation
\B_LMC_DE_TFC \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_DE_TFC External locked-mode sensor d/e toroidal field compensation
\B_LMC_DE_VFC \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_DE_VFC External locked-mode sensor d/e vertical field compensation
\B_LMC_FG_TFC \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_FG_TFC External locked-mode sensor f/g toroidal field compensation
\B_LMC_FG_VFC \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_FG_VFC External locked-mode sensor f/g vertical field compensation
\B_LMC_HI_TFC \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_HI_TFC External locked-mode sensor h/i toroidal field compensation
\B_LMC_HI_VFC \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_HI_VFC External locked-mode sensor h/i vertical field compensation
\B_LMC_JKDE_RD_MODE \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_JKDERDM External locked-mode sensor j/k-d/e radial field difference using mode detection
\B_LMC_JKDE_RD_PLASMA \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_JKDERDP External locked-mode sensor j/k-d/e radial field difference from plasma
\B_LMC_JKDE_RD \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_JKDE_RD External locked-mode sensor j/k-d/e radial field difference
\B_LMC_JK_TFC \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_JK_TFC External locked-mode sensor j/k toroidal field compensation
\B_LMC_JK_VFC \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.B:BLMC_JK_VFC External locked-mode sensor j/k vertical field compensation
\V_LMCH9080104 \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.VOLTAGE:VLMCH9080104 Unused channel
\V_LMCH9080213 \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.VOLTAGE:VLMCH9080213 Unused channel
\V_LMCH9080214 \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.VOLTAGE:VLMCH9080214 Unused channel
\V_LMCH9080215 \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.VOLTAGE:VLMCH9080215 Unused channel
\V_LMCH9080216 \OPERATIONS::TOP.MAGNETICS.LOCKEDMODE.VOLTAGE:VLMCH9080216 Unused channel
\B_1DMCSCU1 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMCSCU1 1-d mirnov on upper center-stack casing
\B_1DMSGI1 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMSGI1 Sgi probe shroud BT
\B_1DMSGI2 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMSGI2 Sgi probe shroud bz
\B_1DMSGI3 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMSGI3 Sgi probe edge br
\B_1DMSGI4 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMSGI4 Sgi probe edge bz
\B_1DMSGI5 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:B1DMSGI5 1-d mirnov on sgi probe
\B_HCDOBDIRLAB \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BHCDOBDIRLAB Bt sensor in lower outboard divertor inside the innermost bbq rail between bays a and b
\B_HCDOBDIRLCD \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BHCDOBDIRLCD Bt sensor in lower outboard divertor inside the innermost bbq rail between bays c and d
\B_HCDOBDIRLEF \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BHCDOBDIRLEF Bt sensor in lower outboard divertor inside the innermost bbq rail between bays e and f
\B_HCDOBDIRLGH \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BHCDOBDIRLGH Bt sensor in lower outboard divertor inside the innermost bbq rail between bays g and h
\B_HCDOBDIRLIJ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BHCDOBDIRLIJ Bt sensor in lower outboard divertor inside the innermost bbq rail between bays i and j
\B_HCDOBDIRLKL \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BHCDOBDIRLKL Bt sensor in lower outboard divertor inside the innermost bbq rail between bays k and l
\B_HCDOBDORLAB \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BHCDOBDORLAB Bt sensor in lower outboard divertor outside the outermost bbq rail between bays a and b
\B_HCDOBDORLCD \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BHCDOBDORLCD Bt sensor in lower outboard divertor outside the outermost bbq rail between bays c and d
\B_HCDOBDORLEF \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BHCDOBDORLEF Bt sensor in lower outboard divertor outside the outermost bbq rail between bays e and f
\B_HCDOBDORLGH \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BHCDOBDORLGH Bt sensor in lower outboard divertor outside the outermost bbq rail between bays g and h
\B_HCDOBDORLIJ \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BHCDOBDORLIJ Bt sensor in lower outboard divertor outside the outermost bbq rail between bays i and j
\B_HCDOBDORLKL \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BHCDOBDORLKL Bt sensor in lower outboard divertor outside the outermost bbq rail between bays k and l
\B_L1DMPPPGU6 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGU1 1-d mirnov in upper primary passive plate gap
\V_FLEVVU4 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMPPPGU3 1-d mirnov in upper primary passive plate gap
\B_L1DMPPPGL9 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGL7 1-d mirnov centered toroidally behind lower primary passive plate
\B_L1DMPPPGU9 \OPERATIONS::TOP.MAGNETICS.MIRNOV.B:BL1DMSPPGU7 1-d mirnov centered toroidally behind upper primary passive plate
\BDOT_1DMCSCL13 \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL13 1-d mirnov on lower center-stack casing
\BDOT_1DMCSCL15 \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL15 1-d mirnov on lower center-stack casing
\BDOT_1DMCSCL7 \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL7 1-d mirnov on lower center-stack casing
\BDOT_1DMCSCL9 \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL9 1-d mirnov on lower center-stack casing
\BDOT_L1DMPPPGL4 \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPPGL4 1-d mirnov behind lower primary passive plate
\BDOT_L1DMPPPGL5 \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPPGL5 1-d mirnov behind lower primary passive plate
\BDOT_L1DMSPPGL4 \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPPGL4 1-d mirnov behind lower secondary passive plate
no tag available \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPPGL5 1-d mirnov behind lower secondary passive plate
\CAL_IROGSPPSL1 \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPPGL6 1-d mirnov behind lower secondary passive plate
\BDOT_L1DMSPPGL7 \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPPGL7 1-d mirnov behind lower secondary passive plate
\BDOT_MLITHIC_BR_L_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDMLITHBRLG Raw signal from 3 axis monolithic mirnov detector on outboard wall (large br coil)
\BDOT_MLITHIC_BR_S_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDMLITHBRSM Raw signal from 3 axis monolithic mirnov detector on outboard wall (small br coil)
\BDOT_MLITHIC_BT_L_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDMLITHBTLG Raw signal from 3 axis monolithic mirnov detector on outboard wall (large BT coil)
\BDOT_MLITHIC_BT_S_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDMLITHBTSM Raw signal from 3 axis monolithic mirnov detector on outboard wall (small BT coil)
\BDOT_MLITHIC_BZ_L_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDMLITHBZLG Raw signal from 3 axis monolithic mirnov detector on outboard wall (large bz coil)
\BDOT_MLITHIC_BZ_S_RAW \OPERATIONS::TOP.MAGNETICS.MIRNOV.BDOT:BDMLITHBZSM Raw signal from 3 axis monolithic mirnov detector on outboard wall (small bz coil)
\I_CROWNAMPCT \OPERATIONS::TOP.MAGNETICS.MONITOR.CURRENT:ICROWNAMPCT Crown amplifier current measured with pearson current transformer
\I_CROWNAMPRD \OPERATIONS::TOP.MAGNETICS.MONITOR.CURRENT:ICROWNAMPRD Crown amplifier current measured with resistive divider
\I_ROGCSCL1 \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGCSCL1 "sum of segmented rogowski loop signals a, b, and c enclosing lower center-stack casing"
\I_ROGCSCL1B \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGCSCL1B Segmented rogowski loop enclosing lower center-stack casing
\I_ROGEVVUL1 \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGEVVUL1 "rogowski enclosing vv, plates, cs casing, pf1b, and plasma"
\I_ROGEVVUL1X \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGEVVUL1X "rogowski enclosing vv, plates, cs casing, pf1b, and plasma"
\I_ROGEVVUL2 \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGEVVUL2 "rogowski enclosing vv, plates, cs casing, pf1b, and plasma"
\I_ROGPPPSL2 \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGPPPSL2 Rogowski loop on lower primary passive plate support
\I_ROGSPPSL1 \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.CURRENT:IROGSPPSL1 Rogowski loop on lower secondary passive plate support
\V_ROGEVVUL1 \OPERATIONS::TOP.MAGNETICS.ROGOWSKI.VOLTAGE:VROGEVVUL1 "rogowski enclosing vv, plates, cs casing, pf1b, and plasma"
\IVV_EVV_27_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVL2 Vessel segment current derived from vessel surface voltage measurement
no tag available \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVL4 Vessel segment current derived from vessel surface voltage measurement
\IVV_EVV_30_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVL5 Vessel segment current derived from vessel surface voltage measurement
\IVV_EVV_32_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVL7 Vessel segment current derived from vessel surface voltage measurement
\IVV_EVV_7_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVU2 Vessel segment current derived from vessel surface voltage measurement
\IVV_EVV_5_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVU4 Vessel segment current derived from vessel surface voltage measurement
\IVV_EVV_4_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVU5 Vessel segment current derived from vessel surface voltage measurement
\IVV_EVV_2_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IFLEVVU7 Vessel segment current derived from vessel surface voltage measurement
\PLASMA_CURRENT_1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IPLASCUR1 Plasma current derived from rogowski 1 and vessel surface and passive plate voltage measurements
\PLASMA_CURRENT_2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IPLASCUR2 Plasma current derived from rogowski 2 and vessel surface and passive plate voltage measurements
\IP_IPF1B_1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IPLAS_PF1B_1 Magnetics control box signal
\IP_IPF1B_2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IPLAS_PF1B_2 Magnetics control box signal
\IROG_PPPS_L2_1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IROGPPPSL2_1 Magnetics control box signal
\IROG_PPPS_L2_2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IROGPPPSL2_2 Magnetics control box signal
\IROG_PPPS_U2_1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IROGPPPSU2_1 Magnetics control box signal
\IROG_PPPS_U2_2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IROGPPPSU2_2 Magnetics control box signal
\IROG_PPS_TOT \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IROGPPS Magnetics control box signal
\IROG_SPPS_L2_1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IROGSPPSL2_1 Magnetics control box signal
\IROG_SPPS_L2_2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IROGSPPSL2_2 Magnetics control box signal
\IROG_SPPS_U2_1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IROGSPPSU2_1 Magnetics control box signal
\IROG_SPPS_U2_2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IROGSPPSU2_2 Magnetics control box signal
\IROG_TOT_1_1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IROGTOT1_1 Magnetics control box signal
\IROG_TOT_1_2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IROGTOT1_2 Magnetics control box signal
\IROG_TOT_2_1 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IROGTOT2_1 Magnetics control box signal
\IROG_TOT_2_2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IROGTOT2_2 Magnetics control box signal
\IVV_INNER_TOT \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IVVCS Magnetics control box signal
\IVV_INNER_TOT_2 \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IVVCS_2 Total cs casing current
\IVV_OUTER_TOT \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IVVOUT Magnetics control box signal
\IVV_TOT \OPERATIONS::TOP.PCS.MAGCONTROL.CURRENT:IVVTOT Magnetics control box signal
\FL_PPP_L_2_REF \OPERATIONS::TOP.PCS.MAGCONTROL.FLUX:FFLPPPL2REF Magnetics control box signal
\FL_PPP_L_2_1 \OPERATIONS::TOP.PCS.MAGCONTROL.FLUX:FFLPPPL2_1 Magnetics control box signal
\FL_PPP_L_2_2 \OPERATIONS::TOP.PCS.MAGCONTROL.FLUX:FFLPPPL2_2 Magnetics control box signal
\FL_PPP_U_2_REF \OPERATIONS::TOP.PCS.MAGCONTROL.FLUX:FFLPPPU2REF Magnetics control box signal
\FL_PPP_U_2_1 \OPERATIONS::TOP.PCS.MAGCONTROL.FLUX:FFLPPPU2_1 Magnetics control box signal
\FL_PPP_U_2_2 \OPERATIONS::TOP.PCS.MAGCONTROL.FLUX:FFLPPPU2_2 Magnetics control box signal
\FL_EVV_17_INNER \OPERATIONS::TOP.PCS.MAGCONTROL.FLUX:FFLREF1 Magnetics control box signal
\FL_EVV_17_INNER_1 \OPERATIONS::TOP.PCS.MAGCONTROL.FLUX:FFLREF2 Magnetics control box signal
\FL_EVV_17_INNER_2 \OPERATIONS::TOP.PCS.MAGCONTROL.FLUX:FFLREF3 Magnetics control box signal
no tag available \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVL2 Loop voltage from flux loop measurement near vacuum vessel surface
\LV_EVV_29_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVL4 Loop voltage from flux loop measurement near vacuum vessel surface
\LV_EVV_30_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVL5 Loop voltage from flux loop measurement near vacuum vessel surface
\LV_EVV_32_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVL7 Loop voltage from flux loop measurement near vacuum vessel surface
\LV_EVV_7_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVU2 Loop voltage from flux loop measurement near vacuum vessel surface
\LV_EVV_5_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVU4 Loop voltage from flux loop measurement near vacuum vessel surface
\LV_EVV_4_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVU5 Loop voltage from flux loop measurement near vacuum vessel surface
\LV_EVV_2_OUTER \OPERATIONS::TOP.PCS.MAGCONTROL.VOLTAGE:VFLEVVU7 Loop voltage from flux loop measurement near vacuum vessel surface
\I_HHFWLP1 \OPERATIONS::TOP.PROBES.MONITOR.CURRENT:IHHFWLP1 Bay d hhfw langmuir probe 1 current
\I_HHFWLP2 \OPERATIONS::TOP.PROBES.MONITOR.CURRENT:IHHFWLP2 Bay d hhfw langmuir probe 2 current
\I_HHFWLP3 \OPERATIONS::TOP.PROBES.MONITOR.CURRENT:IHHFWLP3 Bay d hhfw langmuir probe 3 current
\I_LPOBDL2 \OPERATIONS::TOP.PROBES.MONITOR.CURRENT:ILPOBDL2 Lower outboard divertor langmuir probe current
\I_LPOBDL3 \OPERATIONS::TOP.PROBES.MONITOR.CURRENT:ILPOBDL3 Lower outboard divertor langmuir probe current
\I_LPOBDL4 \OPERATIONS::TOP.PROBES.MONITOR.CURRENT:ILPOBDL4 Lower outboard divertor langmuir probe current
\I_LPOBDL5 \OPERATIONS::TOP.PROBES.MONITOR.CURRENT:ILPOBDL5 Lower outboard divertor langmuir probe current
\I_LPOBDU2 \OPERATIONS::TOP.PROBES.MONITOR.CURRENT:ILPOBDU2 Upper outboard divertor langmuir probe current
\I_LPOBDU3 \OPERATIONS::TOP.PROBES.MONITOR.CURRENT:ILPOBDU3 Upper outboard divertor langmuir probe current
\I_LPOBDU4 \OPERATIONS::TOP.PROBES.MONITOR.CURRENT:ILPOBDU4 Upper outboard divertor langmuir probe current
\I_LPOBDU5 \OPERATIONS::TOP.PROBES.MONITOR.CURRENT:ILPOBDU5 Upper outboard divertor langmuir probe current
\I_LPSGI \OPERATIONS::TOP.PROBES.MONITOR.CURRENT:ILPSGI Supersonic gas injector langmuir probe current
\V_H908_06_03 \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VH908_06_03 Unused channel
\V_H908_06_04 \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VH908_06_04 Unused channel
\V_HHFWLP1 \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VHHFWLP1 Bay d hhfw langmuir probe 1 voltage
\V_HHFWLP2 \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VHHFWLP2 Bay d hhfw langmuir probe 2 voltage
\V_HHFWLP3 \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VHHFWLP3 Bay d hhfw langmuir probe 3 voltage
\V_LPOBDL2 \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VLPOBDL2 Lower outboard divertor langmuir probe voltage
\V_LPOBDL3 \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VLPOBDL3 Lower outboard divertor langmuir probe voltage
\V_LPOBDL4 \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VLPOBDL4 Lower outboard divertor langmuir probe voltage
\V_LPOBDL5 \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VLPOBDL5 Lower outboard divertor langmuir probe voltage
\V_LPOBDU2 \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VLPOBDU2 Upper outboard divertor langmuir probe voltage
\V_LPOBDU3 \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VLPOBDU3 Upper outboard divertor langmuir probe voltage
\V_LPOBDU4 \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VLPOBDU4 Upper outboard divertor langmuir probe voltage
\V_LPOBDU5 \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VLPOBDU5 Upper outboard divertor langmuir probe voltage
\V_LPSGI \OPERATIONS::TOP.PROBES.MONITOR.VOLTAGE:VLPSGI Supersonic gas injector langmuir probe voltage
OPS_PC
Tag Full Path to Node Label/Description
\FG_ALPHA_A \OPS_PC::TOP.NEUTRONS:FG_PSS_A_1 Msv
\FG_SUPPRESS_A \OPS_PC::TOP.NEUTRONS:FG_PSS_A_2 Pr
\FG_BYPASS_A \OPS_PC::TOP.NEUTRONS:FG_PSS_A_3 Wr
\FG_SPARE_A \OPS_PC::TOP.NEUTRONS:FG_PSS_A_4 Sr
\FG_ALPHA_B \OPS_PC::TOP.NEUTRONS:FG_PSS_B_1 Alpha cmd to firing generator, section b
\FG_SUPPRESS_B \OPS_PC::TOP.NEUTRONS:FG_PSS_B_2 Suppress bits to firing generator, section b
\FG_BYPASS_B \OPS_PC::TOP.NEUTRONS:FG_PSS_B_3 Bypass bits to firing generator, section b
\FG_SPARE_B \OPS_PC::TOP.NEUTRONS:FG_PSS_B_4 Spare, section b
\INLET_PRESSURE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI0 Inlet pressure sensor
\INLET_FLOW_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI1 Inlet flow meter 2
\INLET_FLOW_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI10 Inlet flow meter 1
\OUTLET_FLOW_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI11 Outlet flow meter 1
\INFRARED_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI12 Infrared temp sensor 1
\INFRARED_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI13 Infrared temp sensor 2
\RTU_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI14 Rtu timing signal 1
\RTU_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI15 Rtu timing signal 2
\INFRARED_3 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI16 Infrared temp sensor 3
\INFRARED_4 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI17 Infrared temp sensor 4
\PS5VDC_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI18 5vdc 1
\PS24VDC_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI19 24vdc 1
\OUTLET_FLOW_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI2 Outlet flow meter 2
\COIL_I_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI20 Coil current 1
\COIL_I_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI21 Coil current 2
\SPARE_COILI_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI22 Spare_coili_1
\SPARE_COILI_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI23 Spare_coili_2
\A_SPARE_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI24 A_spare_1
\A_SPARE_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI25 A_spare_2
\A_SPARE_3 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI26 A_spare_3
\A_SPARE_4 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI27 A_spare_4
\A_SPARE_5 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI28 A_spare_5
\A_SPARE_6 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI29 A_spare_6
\INLET_TEMP_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI3 Inlet thermocouple 1
\RTU_3 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI30 Rtu timing signal 3
\PUMP_CART \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI31 Pump_cart flow status
\OPSENS_MOD1_A_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI32 Opsens coresens module 1 - analog 1
\SLOT_1_LO_BARE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI33 Slot_1_lo_bare
\SLOT_1_MID_BARE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI34 Slot_1_mid_bare
\SLOT_1_HI_BARE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI35 Slot_1_hi_bare
\SLOT_4_HI_TEMP \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI36 Slot_4_hi_temp
\SLOT_4_MID_TEMP \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI37 Slot_4_mid_temp
\SLOT_4_LO_TEMP \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI38 Slot_4_lo_temp
\SLOT_4_HI_BARE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI39 Slot_4_hi_bare
\INLET_TEMP_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI4 Inlet thermocouple 2
\SLOT_4_MID_BARE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI40 Slot_4_mid_bare
\OPSENS_MOD5_A_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI41 Opsens coresens module 5 - analog 2
\SLOT_4_LO_BARE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI42 Slot_4_lo_bare
\SLOT_6_HI_BARE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI43 Slot_6_hi_bare
\SLOT_6_MID_KAPTON \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI44 Slot_6_mid_kapton
\SLOT_6_LO_KAPTON \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI45 Slot_6_lo_kapton
\FIBERRX_SPARE_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI46 Rtu_fbg_trigger
\FIBERRX_SPARE_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI47 Fiberrx spare 2
\SLOT_3_HI_BARE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI48 Slot_3_hi_bare
\SLOT_3_MID_BARE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI49 Slot_3_mid_bare
\OUTLET_TEMP_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI5 Outlet thermocouple 1
\SLOT_3_LO_BARE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI50 Slot_3_lo_bare
\SLOT_4_MID_KAPTON \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI51 Slot_4_mid_kapton
\SLOT_3_HI_TEMP \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI52 Slot_3_hi_temp
\SLOT_3_MID_TEMP \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI53 Slot_3_mid_temp
\SLOT_3_LO_TEMP \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI54 Slot_3_lo_temp
\SLOT_6_HI_TEMP \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI55 Slot_6_hi_temp
\SLOT_6_MID_TEMP \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI56 Slot_6_mid_temp
\SLOT_6_LO_TEMP \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI57 Slot_6_lo_temp
\SLOT_6_MID_BARE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI58 Slot_6_mid_bare
\SLOT_6_LO_BARE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI59 Slot_6_lo_bare
\OUTLET_TEMP_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI6 Outlet thermocouple 2
\PS5VDC_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI60 5vdc 2
\PS24VDC_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI61 24vdc 2
\FIBERRX_SPARE_3 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI62 Fiberrx spare 3
\FIBERRX_SPARE_4 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI63 Fiberrx spare 4
\SPARE_TEMP_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI7 Spare_temp_1
\SPARE_TEMP_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI8 Spare_temp_2
\OUTLET_PRESSURE \OPS_PC::TOP.PFCOILTEST:SIGNAL_AI9 Outlet pressure sensor
\PS24V_DC_OK_1N \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO0 24v dc ok 1n
\PS5V_DC_OK_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO1 5v dc ok 1
\DIGITAL_SPARE_9 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO10 Digital spare 9
\DIGITAL_SPARE_10 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO11 Digital spare 10
\DIGITAL_SPARE_11 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO12 Digital spare 11
\DIGITAL_SPARE_12 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO13 Digital spare 12
\DIGITAL_SPARE_13 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO14 Digital spare 13
\DIGITAL_SPARE_14 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO15 Digital spare 14
\DIGITAL_SPARE_15 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO16 Digital spare 15
\DIGITAL_SPARE_16 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO17 Digital spare 16
\DIGITAL_SPARE_17 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO18 Digital spare 17
\DIGITAL_SPARE_18 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO19 Digital spare 18
\DIGITAL_SPARE_1 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO2 Digital spare 1
\DIGITAL_SPARE_19 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO20 Digital spare 19
\DIGITAL_SPARE_20 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO21 Digital spare 20
\DIGITAL_SPARE_21 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO22 Digital spare 21
\DIGITAL_SPARE_22 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO23 Digital spare 22
\DIGITAL_SPARE_23 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO24 Digital spare 23
\DIGITAL_SPARE_24 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO25 Digital spare 24
\DIGITAL_SPARE_25 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO26 Digital spare 25
\DIGITAL_SPARE_26 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO27 Digital spare 26
\DIGITAL_SPARE_27 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO28 Digital spare 27
\DIGITAL_SPARE_28 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO29 Digital spare 28
\DIGITAL_SPARE_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO3 Digital spare 2
\DIGITAL_SPARE_29 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO30 Digital spare 29
\DIGITAL_SPARE_30 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO31 Digital spare 30
\DIGITAL_SPARE_31 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO32 Digital spare 31
\DIGITAL_SPARE_32 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO33 Digital spare 32
\DIGITAL_SPARE_33 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO34 Digital spare 33
\DIGITAL_SPARE_34 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO35 Digital spare 34
\DIGITAL_SPARE_35 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO36 Digital spare 35
\DIGITAL_SPARE_36 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO37 Digital spare 36
\DIGITAL_SPARE_37 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO38 Digital spare 37
\DIGITAL_SPARE_38 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO39 Digital spare 38
\DIGITAL_SPARE_3 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO4 Digital spare 3
\BDOT_L1DMPPPGL4 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO40 Hcs wdt
\HCS_PERMISSIVE \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO41 Hcs permissive
\BDOT_L1DMIVVHN1_RAW \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO42 Fiber tx spare 1
\BDOT_L1DMIVVHN16_RAW \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO43 Fiber tx spare 2
\BDOT_L1DMIVVHN6_RAW \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO44 Digital spare 39
\DIGITAL_SPARE_40 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO45 Digital spare 40
\DIGITAL_SPARE_41 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO46 Digital spare 41
\DIGITAL_SPARE_42 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO47 Digital spare 42
\PS24V_DC_OK_2N \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO48 24v dc ok 2n
\PS5V_DC_OK_2 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO49 5v dc ok 2
\DIGITAL_SPARE_4 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO5 Digital spare 4
\DIGITAL_SPARE_43 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO50 Digital spare 43
\DIGITAL_SPARE_44 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO51 Digital spare 44
\DIGITAL_SPARE_45 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO52 Digital spare 45
\DIGITAL_SPARE_46 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO53 Digital spare 46
\BDOT_L1DMSPPGU4 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO54 Digital spare 47
\BDOT_HN10_LOW \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO55 Digital spare 48
\DIGITAL_SPARE_49 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO56 Digital spare 49
\BDOT_HN14_LOW \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO57 Digital spare 50
\DIGITAL_SPARE_51 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO58 Digital spare 51
\DIGITAL_SPARE_52 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO59 Digital spare 52
\DIGITAL_SPARE_5 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO6 Digital spare 5
\DIGITAL_SPARE_53 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO60 Digital spare 53
\DIGITAL_SPARE_54 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO61 Digital spare 54
\DIGITAL_SPARE_55 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO62 Digital spare 55
\DIGITAL_SPARE_56 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO63 Digital spare 56
\DIGITAL_SPARE_57 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO64 Digital spare 57
\DIGITAL_SPARE_58 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO65 Digital spare 58
\DIGITAL_SPARE_59 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO66 Digital spare 59
\DIGITAL_SPARE_60 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO67 Digital spare 60
\DIGITAL_SPARE_61 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO68 Digital spare 61
\DIGITAL_SPARE_62 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO69 Digital spare 62
\DIGITAL_SPARE_6 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO7 Digital spare 6
\DIGITAL_SPARE_63 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO70 Digital spare 63
\DIGITAL_SPARE_64 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO71 Digital spare 64
\DIGITAL_SPARE_65 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO72 Digital spare 65
\DIGITAL_SPARE_66 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO73 Digital spare 66
\DIGITAL_SPARE_67 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO74 Digital spare 67
\DIGITAL_SPARE_68 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO75 Digital spare 68
\DIGITAL_SPARE_69 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO76 Digital spare 69
\DIGITAL_SPARE_70 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO77 Digital spare 70
\DIGITAL_SPARE_71 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO78 Digital spare 71
\DIGITAL_SPARE_72 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO79 Digital spare 72
\DIGITAL_SPARE_7 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO8 Digital spare 7
\DIGITAL_SPARE_73 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO80 Digital spare 73
\DIGITAL_SPARE_74 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO81 Digital spare 74
\DIGITAL_SPARE_75 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO82 Digital spare 75
\DIGITAL_SPARE_76 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO83 Digital spare 76
\DIGITAL_SPARE_77 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO84 Digital spare 77
\DIGITAL_SPARE_78 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO85 Digital spare 78
\DIGITAL_SPARE_79 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO86 Digital spare 79
\DIGITAL_SPARE_80 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO87 Digital spare 80
\FIBER_TX_SPARE_3 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO88 Fiber tx spare 3
\FIBER_TX_SPARE_4 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO89 Fiber tx spare 4
\DIGITAL_SPARE_8 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO9 Digital spare 8
\FIBER_TX_SPARE_5 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO90 Fiber tx spare 5
\FIBER_TX_SPARE_6 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO91 Fiber tx spare 6
\DIGITAL_SPARE_81 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO92 Digital spare 81
\DIGITAL_SPARE_82 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO93 Digital spare 82
\DIGITAL_SPARE_83 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO94 Digital spare 83
\DIGITAL_SPARE_84 \OPS_PC::TOP.PFCOILTEST:SIGNAL_DIO95 Digital spare 84
\BDOT_1DMCSCL1_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL1 Monolithic mirnov BT large na
\BDOT_1DMCSCL2_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL2 Raw inboard poloidal array signal from small 1-d mirnov on lower center-stack casing
\BDOT_1DMCSCL3_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL3 Raw inboard poloidal array signal from small 1-d mirnov on lower center-stack casing
\BDOT_1DMCSCL4_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL4 Raw inboard poloidal array signal from small 1-d mirnov on lower center-stack casing
\BDOT_1DMCSCL5_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL5 Raw inboard poloidal array signal from small 1-d mirnov on lower center-stack casing
\BDOT_1DMCSCL6_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL6 Raw inboard poloidal array signal from small 1-d mirnov on lower center-stack casing
\BDOT_1DMCSCU1_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCU1 Raw inboard poloidal array signal from small 1-d mirnov on upper center-stack casing
\BDOT_1DMCSCU2_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCU2 Raw inboard poloidal array signal from small 1-d mirnov on upper center-stack casing
\BDOT_1DMCSCU3_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCU3 Raw inboard poloidal array signal from small 1-d mirnov on upper center-stack casing
\BDOT_1DMCSCU4_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCU4 Raw inboard poloidal array signal from small 1-d mirnov on upper center-stack casing
\BDOT_1DMCSCU5_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCU5 Raw inboard poloidal array signal from small 1-d mirnov on upper center-stack casing
\BDOT_1DMCSCU6_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCU6 Raw inboard poloidal array signal from small 1-d mirnov on upper center-stack casing
\BDOT_2DMCSCL2T_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMCSCL2T Raw inboard poloidal array tangential signal from small 2-d mirnov on lower center-stack casing
\BDOT_2DMCSCU1T_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMCSCU1T Raw inboard poloidal array tangential signal from small 2-d mirnov on upper center-stack casing
\BDOT_2DMIBDHL5T_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMIBDHL5T Raw inboard poloidal array tangential signal from small 2-d mirnov on lower inboard divertor plate
\BDOT_2DMIBDHL6T_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMIBDHL6T Raw inboard poloidal array tangential signal from small 2-d mirnov on lower inboard divertor plate
\BDOT_2DMIBDHU5T_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMIBDHU5T Raw inboard poloidal array tangential signal from small 2-d mirnov on upper inboard divertor plate
\BDOT_2DMIBDHU6T_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMIBDHU6T Raw inboard poloidal array tangential signal from small 2-d mirnov on upper inboard divertor plate
\BDOT_2DMOBDL2T_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMOBDL2T Raw outboard poloidal array tangential signal from small 2-d mirnov in lower obd
\BDOT_2DMOBDL4T_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMOBDL4T Raw outboard poloidal array tangential signal from small 2-d mirnov in lower obd
\BDOT_2DMOBDU2T_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMOBDU2T Raw outboard poloidal array tangential signal from small 2-d mirnov in upper obd
\BDOT_2DMOBDU4T_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMOBDU4T Raw outboard poloidal array tangential signal from small 2-d mirnov in upper obd
\BDOT_L1DMIVVHF1_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF1 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF12_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF10 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF2_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF11 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF3_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF12 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF2_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF2 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF3_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF3 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF4_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF4 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF5_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF5 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF6_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF6 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF7_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF7 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF8_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF8 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF9 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF4_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN1 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN10_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN10 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN11 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN12 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN13_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN13 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN14 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN15_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN15 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN16_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN16 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN2_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN2 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN3 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN4_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN4 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHF5_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN5 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN6_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN6 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN7_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN7 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN8 Label empty
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN9 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMPPPGHL1_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHL1 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
\BDOT_L1DMPPPGHL2_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHL2 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHL3 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
\BDOT_L1DMPPPGHU1_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHU1 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
\BDOT_L1DMPPPGHU2_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHU2 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
\BDOT_L1DMPPPGHU3_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHU3 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
\BDOT_L1DMSPPGHL1_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHL1 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
\BDOT_L1DMSPPGHL2_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHL2 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
\BDOT_L1DMSPPGHL3_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHL3 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
\BDOT_L1DMSPPGHU1_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHU1 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHU2 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
\BDOT_L1DMSPPGHU3_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHU3 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
\BDOT_HN10_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN10_LOW Lower resolution bdot_l1dmivvhn10_raw
\BDOT_HN11_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN11_LOW Lower resolution bdot_l1dmivvhn11_raw
\BDOT_L1DMIVVHF7_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN12_LOW Lower resolution bdot_l1dmivvhn12_raw
\BDOT_HN13_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN13_LOW Lower resolution bdot_l1dmivvhn13_raw
\BDOT_HN14_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN14_LOW Lower resolution bdot_l1dmivvhn14_raw
\BDOT_HN15_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN15_LOW Lower resolution bdot_l1dmivvhn15_raw
\BDOT_HN16_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN16_LOW Lower resolution bdot_l1dmivvhn16_raw
\BDOT_HN1_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN1_LOW Lower resolution bdot_l1dmivvhn1_raw
\BDOT_HN2_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN2_LOW Lower resolution bdot_l1dmivvhn2_raw
\BDOT_HN3_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN3_LOW Lower resolution bdot_l1dmivvhn3_raw
\BDOT_HN4_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN4_LOW Lower resolution bdot_l1dmivvhn4_raw
\BDOT_HN5_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN5_LOW Lower resolution bdot_l1dmivvhn5_raw
\BDOT_HN6_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN6_LOW Lower resolution bdot_l1dmivvhn6_raw
\BDOT_HN7_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN7_LOW Lower resolution bdot_l1dmivvhn7_raw
\BDOT_HN8_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN8_LOW Label empty
\BDOT_HN9_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN9_LOW Lower resolution bdot_l1dmivvhn9_raw
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:MLMBRLARGENA Label empty
\BDOT_PC3B1CH01_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC3_B1_CH01 Mirnov pc3 board 1 channel 01
\BDOT_PC3B1CH02_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC3_B1_CH02 Mirnov pc3 board 1 channel 02
\BDOT_PC3B1CH03_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC3_B1_CH03 Mirnov pc3 board 1 channel 03
\BDOT_PC3B1CH04_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC3_B1_CH04 Mirnov pc3 board 1 channel 04
\BDOT_PC3B2CH01_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC3_B2_CH01 Mirnov pc3 board 2 channel 01
\BDOT_PC3B2CH02_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC3_B2_CH02 Mirnov pc3 board 2 channel 02
\BDOT_PC3B2CH03_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC3_B2_CH03 Mirnov pc3 board 2 channel 03
\BDOT_PC3B2CH04_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC3_B2_CH04 Mirnov pc3 board 2 channel 04
\BDOT_PC3B3CH01_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC3_B3_CH01 Mirnov pc3 board 3 channel 01
\BDOT_PC3B3CH02_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC3_B3_CH02 Mirnov pc3 board 3 channel 02
\BDOT_PC3B3CH03_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC3_B3_CH03 Mirnov pc3 board 3 channel 03
\BDOT_PC3B3CH04_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC3_B3_CH04 Mirnov pc3 board 3 channel 04
\BDOT_PC5B1CH01_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_B1_CH01 Mirnov pc5 board 1 channel 01
\BDOT_PC5B1CH02_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_B1_CH02 Mirnov pc5 board 1 channel 02
\BDOT_PC5B1CH03_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_B1_CH03 Mirnov pc5 board 1 channel 03
\BDOT_PC5B1CH04_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_B1_CH04 Mirnov pc5 board 1 channel 04
\BDOT_PC5B2CH01_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_B2_CH01 Mirnov pc5 board 2 channel 01
\BDOT_PC5B2CH02_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_B2_CH02 Mirnov pc5 board 2 channel 02
\BDOT_PC5B2CH03_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_B2_CH03 Mirnov pc5 board 2 channel 03
\BDOT_PC5B2CH04_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_B2_CH04 Mirnov pc5 board 2 channel 04
\BDOT_PC5B3CH01_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_B3_CH01 Mirnov pc5 board 3 channel 01
\BDOT_PC5B3CH02_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_B3_CH02 Mirnov pc5 board 3 channel 02
\BDOT_PC5B3CH03_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_B3_CH03 Mirnov pc5 board 3 channel 03
\BDOT_PC5B3CH04_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_B3_CH04 Mirnov pc5 board 3 channel 04
\PC5_CHANNEL1 \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_CHANNEL1 Pc5 channel1
\PC5_CHANNEL2 \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_CHANNEL2 Pc5 channel2
\PC5_CHANNEL3 \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_CHANNEL3 Pc5 channel3
\PC5_CHANNEL4 \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PC5_CHANNEL4 Pc5 channel4
\PC_STOBDLR3T1 \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PCSTOBDLR3T1 Pc stobdlr3t1
\PC_STOBDLR3T2 \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PCSTOBDLR3T2 Pc stobdlr3t2
\PC_STOBDLR3T3 \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PCSTOBDLR3T3 Pc stobdlr3t3
\PC_STOBDLR3T4 \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:PCSTOBDLR3T4 Pc stobdlr3t4
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL1 Monolithic mirnov BT large na
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL2 Raw inboard poloidal array signal from small 1-d mirnov on lower center-stack casing
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL3 Raw inboard poloidal array signal from small 1-d mirnov on lower center-stack casing
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCL6 Raw inboard poloidal array signal from small 1-d mirnov on lower center-stack casing
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCU4 Raw inboard poloidal array signal from small 1-d mirnov on upper center-stack casing
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD1DMCSCU5 Raw inboard poloidal array signal from small 1-d mirnov on upper center-stack casing
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMCSCL2T Raw inboard poloidal array tangential signal from small 2-d mirnov on lower center-stack casing
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMCSCU1T Raw inboard poloidal array tangential signal from small 2-d mirnov on upper center-stack casing
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMIBDHL5T Raw inboard poloidal array tangential signal from small 2-d mirnov on lower inboard divertor plate
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMIBDHU5T Raw inboard poloidal array tangential signal from small 2-d mirnov on upper inboard divertor plate
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BD2DMIBDHU6T Raw inboard poloidal array tangential signal from small 2-d mirnov on upper inboard divertor plate
\BDOT_L1DMIVVHF10_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF10 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF11_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF11 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF12_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF12 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHF9_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHF9 Raw outboard high-frequency array signal from tftr-style 1-d mirnov
\BDOT_L1DMIVVHN1_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN1 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN13 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
\BDOT_L1DMIVVHN14_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN14 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN15 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN2 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN4 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN5 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMHN6 Raw outboard high-n array signal from medium 1-d mirnov on vessel wall
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHL1 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHL2 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
\BDOT_L1DMPPPGHL3_RAW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHL3 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMPPGHU3 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHL1 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHL2 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHL3 Raw outboard poloidal array signal from medium 1-d mirnov in lower bay h plate gap
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHU1 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDL1DMSPGHU3 Raw outboard poloidal array signal from medium 1-d mirnov in upper bay h plate gap
\BDOT_HN12_LOW \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN12_LOW Lower resolution bdot_l1dmivvhn12_raw
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN13_LOW Lower resolution bdot_l1dmivvhn13_raw
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN14_LOW Lower resolution bdot_l1dmivvhn14_raw
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN16_LOW Lower resolution bdot_l1dmivvhn16_raw
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN1_LOW Lower resolution bdot_l1dmivvhn1_raw
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN2_LOW Lower resolution bdot_l1dmivvhn2_raw
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN3_LOW Lower resolution bdot_l1dmivvhn3_raw
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN5_LOW Lower resolution bdot_l1dmivvhn5_raw
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN6_LOW Lower resolution bdot_l1dmivvhn6_raw
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN7_LOW Lower resolution bdot_l1dmivvhn7_raw
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN8_LOW Label empty
no tag available \OPS_PC::TOP.MAGNETICS.MIRNOV.BDOT:BDOTHN9_LOW Lower resolution bdot_l1dmivvhn9_raw
PARTICLES
Tag Full Path to Node Label/Description
\NEUT_FLUCT_FST_1DE_ZNS \PARTICLES::TOP.NEUTRONS:FST_1DE_ZNS Fast neut fl-zns-raw
\NEUT_FLUCT_FST_2FG \PARTICLES::TOP.NEUTRONS:FST_2FG Fast neut fl-f/g-raw
\NEUT_FLUCT_FST_3DE \PARTICLES::TOP.NEUTRONS:FST_3DE Fast neut fl-d/e-raw
\NEUT_FLUCT_FST_4AB \PARTICLES::TOP.NEUTRONS:FST_4AB Fast neut fl-a/b-raw
\NEUT_RATE_1 \PARTICLES::TOP.NEUTRONS:RAW_CD_LIN Neut rate-curr nt-raw
\NEUT_RATE_2 \PARTICLES::TOP.NEUTRONS:RAW_CD_LOG Neut rate-camp l-raw
\NEUT_RATE_3 \PARTICLES::TOP.NEUTRONS:RAW_E_LIN Neut rate-spare_3
\NEUT_RATE_4 \PARTICLES::TOP.NEUTRONS:RAW_E_LOG Neut rate-spare_4
\IFLIP_CO161 \PARTICLES::TOP.IFLIP.CAL_DATA:ICO161 Label empty
\IFLIP_CO163 \PARTICLES::TOP.IFLIP.CAL_DATA:ICO163 Label empty
\IFLIP_CTR161_LL \PARTICLES::TOP.IFLIP.CAL_DATA:ICTR161LL Label empty
\IFLIP_CTR161_LR \PARTICLES::TOP.IFLIP.CAL_DATA:ICTR161LR Label empty
\IFLIP_CTR161_UL \PARTICLES::TOP.IFLIP.CAL_DATA:ICTR161UL Label empty
\IFLIP_CTR161_UR \PARTICLES::TOP.IFLIP.CAL_DATA:ICTR161UR Label empty
\IFLIP_REP_I \PARTICLES::TOP.IFLIP.CAL_DATA:IFLIPREPI Label empty
\IFLIP_REP_V \PARTICLES::TOP.IFLIP.CAL_DATA:IFLIPREPV Label empty
no tag available \PARTICLES::TOP.NPA:NPA_B_FIELD:GAUSSFIELD Npa b_field adc
no tag available \PARTICLES::TOP.NPA:NPA_B_FIELD:GAUSSTIME Npa b_field trdig r
no tag available \PARTICLES::TOP.NPA:NPA_E_FIELD:DATA Npa e_field adc
no tag available \PARTICLES::TOP.NPA:NPA_E_FIELD:TIME Npa e_field trdig r
no tag available \PARTICLES::TOP.NPA:POSITION:XPOS Npa horizontal pos
no tag available \PARTICLES::TOP.NPA:POSITION:YPOS Npa vertical pos
no tag available \PARTICLES::TOP.NPA:PRESSURE:DATA Npa cell pres adc
no tag available \PARTICLES::TOP.NPA:PRESSURE:TIME Npa cell pres trdig r
\NPA_D_SP \PARTICLES::TOP.NPA.ANALYSIS:D_THERMAL_SP Thermal spectra for deuterium
\NPA_D_TI \PARTICLES::TOP.NPA.ANALYSIS:D_TI Npa ion temperature
\NPA_FI \PARTICLES::TOP.NPA.ANALYSIS:ENERGETIC_SP Energetic spectra
\NPA_H_SP \PARTICLES::TOP.NPA.ANALYSIS:H_THERMAL_SP Thermal spectra for hydrogen
\NPA_H_TI \PARTICLES::TOP.NPA.ANALYSIS:H_TI Label empty
\ALPHA \PARTICLES::TOP.SFLIP.RESULTS:ALPHA Label empty
\THETA \PARTICLES::TOP.SFLIP.RESULTS:THETA Label empty
no tag available \PARTICLES::TOP.NEUTRONS:FST_4AB Fast neut fl-a/b-raw
\NEUTRATEBEST \PARTICLES::TOP.NEUTRONS:NEUTRATEBEST Best neutron calc
\NEUTRON_RATE_RDD0D \PARTICLES::TOP.NEUTRONS:NEUTRATEMODL Modeled neutron rate
\NEUTRATEQUIK \PARTICLES::TOP.NEUTRONS:NEUTRATEQUIK Quick neutron calc
\NEUT_RATE_BAY_CD_BEST \PARTICLES::TOP.NEUTRONS:RATE_CD_BEST Label empty
\NEUT_RATE_BAY_CD_QUIK \PARTICLES::TOP.NEUTRONS:RATE_CD_QUIK Quick neutron calc bay c/d
\NEUT_RATE_BAY_E_BEST \PARTICLES::TOP.NEUTRONS:RATE_E_BEST Label empty
\NEUT_RATE_BAY_E_QUIK \PARTICLES::TOP.NEUTRONS:RATE_E_QUIK Quick neutron calc bay e
no tag available \PARTICLES::TOP.NEUTRONS:RAW_E_LOG Neut rate-spare_4
\TOTAL_NEUTRONS_ZNS \PARTICLES::TOP.NEUTRONS:SLW_1DE_ZNS Slow neut fl-zns-raw
\NEUT_FLUCT_SLW_2FG \PARTICLES::TOP.NEUTRONS:SLW_2FG Slow neut fl-f/g-raw
\NEUT_FLUCT_SLW_3DE \PARTICLES::TOP.NEUTRONS:SLW_3DE Slow neut fl-d/e-raw
\NEUT_FLUCT_SLW_4AB \PARTICLES::TOP.NEUTRONS:SLW_4AB Slow neut fl-a/b-raw
no tag available \PARTICLES::TOP.IFLIP.CAL_DATA:ICO161 Label empty
no tag available \PARTICLES::TOP.IFLIP.CAL_DATA:ICTR161LL Label empty
PASSIVESPEC
Tag Full Path to Node Label/Description
\C3_MP \PASSIVESPEC::TOP:C3 Midplane c iii light intensity
\EIES_FLEX1 \PASSIVESPEC::TOP.EIES:FLEX1 Adjustable view and wavelength channel
\EIES_FLEX2 \PASSIVESPEC::TOP.EIES:FLEX2 Adjustable view and wavelength channel
\EIES_FLEX3 \PASSIVESPEC::TOP.EIES:FLEX3 Adjustable view and wavelength channel
\EIES_FLEX4 \PASSIVESPEC::TOP.EIES:FLEX4 Adjustable view and wavelength channel
\ML_READOUT_TIME \PASSIVESPEC::TOP.LADA:CHANNEL_01 Lada dt196 channel 01
\ML_CCD_BIN \PASSIVESPEC::TOP.LADA:CHANNEL_02 Lada dt196 channel 02
\ML_CCD_ROI \PASSIVESPEC::TOP.LADA:CHANNEL_03 Lada dt196 channel 03
\FASTIR_1 \PASSIVESPEC::TOP.LADA:CHANNEL_04 Lada dt196 channel 04
\LADA_CH05 \PASSIVESPEC::TOP.LADA:CHANNEL_05 Lada dt196 channel 05
\LADA_CH06 \PASSIVESPEC::TOP.LADA:CHANNEL_06 Lada dt196 channel 06
\LADA_CH07 \PASSIVESPEC::TOP.LADA:CHANNEL_07 Lada dt196 channel 07
\LADA_CH08 \PASSIVESPEC::TOP.LADA:CHANNEL_08 Lada dt196 channel 08
\LADA_CH09 \PASSIVESPEC::TOP.LADA:CHANNEL_09 Lada dt196 channel 09
\LADA_CH10 \PASSIVESPEC::TOP.LADA:CHANNEL_10 Lada dt196 channel 10
\LADA_CH11 \PASSIVESPEC::TOP.LADA:CHANNEL_11 Lada dt196 channel 11
\LADA_CH12 \PASSIVESPEC::TOP.LADA:CHANNEL_12 Lada dt196 channel 12
\LADA_CH13 \PASSIVESPEC::TOP.LADA:CHANNEL_13 Lada dt196 channel 13
\LADA_CH14 \PASSIVESPEC::TOP.LADA:CHANNEL_14 Lada dt196 channel 14
\LADA_CH15 \PASSIVESPEC::TOP.LADA:CHANNEL_15 Lada dt196 channel 15
\LADA_CH16 \PASSIVESPEC::TOP.LADA:CHANNEL_16 Lada dt196 channel 16
\LADA_CH17 \PASSIVESPEC::TOP.LADA:CHANNEL_17 Lada dt196 channel 17
\LADA_CH18 \PASSIVESPEC::TOP.LADA:CHANNEL_18 Lada dt196 channel 18
\LADA_CH19 \PASSIVESPEC::TOP.LADA:CHANNEL_19 Lada dt196 channel 19
\LADA_CH20 \PASSIVESPEC::TOP.LADA:CHANNEL_20 Lada dt196 channel 20
no tag available \PASSIVESPEC::TOP.LOWEUS:SPEC Loweus spectra data
no tag available \PASSIVESPEC::TOP.MONALISA:SPEC Monalisa spectra data
\A1_2D \PASSIVESPEC::TOP.USXR:A1_2D Label empty
\A2_2D \PASSIVESPEC::TOP.USXR:A2_2D Label empty
\A3_2D \PASSIVESPEC::TOP.USXR:A3_2D Label empty
\A4_2D \PASSIVESPEC::TOP.USXR:A4_2D Label empty
\A5_2D \PASSIVESPEC::TOP.USXR:A5_2D Label empty
no tag available \PASSIVESPEC::TOP.VIPS:H2D_RATIO H to d ratio from vips visible spectrometer
\ZEFFECTIVE \PASSIVESPEC::TOP.VISIBLEBREM:Z_EFFECTIVE Average z_eff based on vb and MPTS measurements
no tag available \PASSIVESPEC::TOP.XEUS:SPEC Xeus spectra data
no tag available \PASSIVESPEC::TOP.XRAY_ES:DATASET1 Xray es data set 1
\BOLOM_CARBON \PASSIVESPEC::TOP.BOLOM_ARRAY.ANALYSIS:CARBON Estimated % carbon at the plasma's edge (where 10
\BOLOM_METALS \PASSIVESPEC::TOP.BOLOM_ARRAY.ANALYSIS:METALSCONC Estimated metals concentration at r0
\BOLOM_PEAKPWRDEN \PASSIVESPEC::TOP.BOLOM_ARRAY.ANALYSIS:PEAKPWRDEN Radiated power density at r0
\BOLOM_PWRDENSITY \PASSIVESPEC::TOP.BOLOM_ARRAY.ANALYSIS:PWRDENSITY Radiated power density profile on midplane
\BOLOM_TOTPWR \PASSIVESPEC::TOP.BOLOM_ARRAY.ANALYSIS:TOTPWR Volume integrated radiated power density
\BOLOM_ZEFFC \PASSIVESPEC::TOP.BOLOM_ARRAY.ANALYSIS:ZEFFC Estimated zeff contribution from carbon at edge (where 10
\BOLOM_ZEFFM \PASSIVESPEC::TOP.BOLOM_ARRAY.ANALYSIS:ZEFFM Estimated contribution from metals to zeff(0)
\DIVBOLOM_IRRAD \PASSIVESPEC::TOP.DIV_BOLOM.ANALYSIS:IRRADIANCE Divertor irradiance @ z = 3, 16, 29, 42 cm
\EIES_FAST1 \PASSIVESPEC::TOP.EIES.FAST:CH1 Fast eies b ii
\EIES_FAST2 \PASSIVESPEC::TOP.EIES.FAST:CH2 Fast eies b iii
\EIES_FAST3 \PASSIVESPEC::TOP.EIES.FAST:CH3 Fast eies c ii
\EIES_FAST4 \PASSIVESPEC::TOP.EIES.FAST:CH4 Fast eies c iii
\EIES_FAST5 \PASSIVESPEC::TOP.EIES.FAST:CH5 Fast eies c iv
\USXR_HUP_13 \PASSIVESPEC::TOP.EIES.LDVD:B2 Lower divertor b ii light intensity
\C2_LD \PASSIVESPEC::TOP.EIES.LDVD:C2 Lower divertor c ii light intensity
\DA_LD \PASSIVESPEC::TOP.EIES.LDVD:DA Lower divertor d-alpha light intensity
\DG_LD \PASSIVESPEC::TOP.EIES.LDVD:DG Lower divertor d-gamma light intensity
\HE2_LD \PASSIVESPEC::TOP.EIES.LDVD:HE2 Lower divertor he ii light intensity
\LI1_LD \PASSIVESPEC::TOP.EIES.LDVD:LI1 Lower divertor LI i light intensity
\O2_LD \PASSIVESPEC::TOP.EIES.LDVD:O2 Lower divertor o ii light intensity
\B2_MP \PASSIVESPEC::TOP.EIES.MPRB:B2 Midplane b ii light intensity
\C2_MP \PASSIVESPEC::TOP.EIES.MPRB:C2 Midplane c ii light intensity
\DA_MP \PASSIVESPEC::TOP.EIES.MPRB:DA Midplane d-alpha light intensity
\LI1_MP \PASSIVESPEC::TOP.EIES.MPRB:LI1 Midplane LI i light intensity
\LI2_MP \PASSIVESPEC::TOP.EIES.MPRB:LI2 Midplane LI ii light intensity
\O2_MP \PASSIVESPEC::TOP.EIES.MPRB:O2 Midplane o ii light intensity
\DA_MPTG \PASSIVESPEC::TOP.EIES.MPTG:DA Midplane tagential d-alpha light intensity
\USXR_VTOP_03 \PASSIVESPEC::TOP.EIES.MPTG:HE2 Midplane tagential he ii light intensity
\B2_UD \PASSIVESPEC::TOP.EIES.UDVE:B2 Upper divertor b ii light intensity
\C2_UD \PASSIVESPEC::TOP.EIES.UDVE:C2 Upper divertor c ii light intensity
\DA_UD \PASSIVESPEC::TOP.EIES.UDVE:DA Upper divertor d-alpha light intensity
\LI1_UD \PASSIVESPEC::TOP.EIES.UDVE:LI1 Upper divertor LI i light intensity
\O2_UD \PASSIVESPEC::TOP.EIES.UDVE:O2 Upper divertor o ii light intensity
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_NEW_TOP:DG_EIES_1 New lower div bay c fan, fiber h, 5-way split, orange ii
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_NEW_TOP:HEII_EIES Bay c lower div, fiber f, orange ii, he ii filter
\BAYC_OPIPE_DALPHA \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_OPIPE:DALPHA_EIES Bay c lower divertor organ pipe, los 0.1 m from cs/shoulder
\BAYC_OPIPE_DGAMMA \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_OPIPE:DGAMMA_EIES Bay c lower divertor organ pipe, los 0.1 m from cs/shoulder
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_TOP:BII_FSCOPE Lower divertor b-ii 3451 filterscope intensity
\BAYC_BII_FSCOPEV \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_TOP:BII_FSCOPEV Lower divertor b-ii 3451 filterscope photomultiplier tube voltage
\BAYC_CIII_FSCOPE \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_TOP:CIII_FSCOPE Lower divertor c-iii 4650 filterscope intensity
\BAYC_CIII_FSCOPEV \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_TOP:CIII_FSCOPEV Lower divertor c-iii 4650 filterscope fast digitizer
\BAYC_CII_HAIFA \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_TOP:CII_HAIFA Lower divertor c-ii 6580 haifa intensity
\BAYC_DALF_FSCOPE \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_TOP:DALF_FSCOPE Lower divertor filterscope channel voltage with d-alpha filter
\BAYC_DALF_FSCOPEV \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_TOP:DALF_FSCOPEV Lower divertor filterscope channel with 1-1.5nm dalpha filter
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_TOP:DALF_HAIFA Lower divertor d-alpha 6561 haifa intensity
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_TOP:LII_FSCOPE Lower divertor filterscope with li-1 filter
\BAYC_LII_FSCOPEV \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_TOP:LII_FSCOPEV Lower divertor filterscope voltage for li-i channel
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_TOP:OII_FSCOPE Lower divertor o-ii 4416 filterscope intensity
\BAYC_OII_FSCOPEV \PASSIVESPEC::TOP.FILTERED_VIS.BAYC_TOP:OII_FSCOPEV Lower divertor o-ii 4416 filterscope photomultiplier tube voltage
\BAYC_BII_FSCOPE \PASSIVESPEC::TOP.FILTERED_VIS.BAYD_TOP:BII_EIES Lower divertor integrated b ii (345.1/1.5 nm) intensity (from eies pmt)
\BAYC_DALF_HAIFA \PASSIVESPEC::TOP.FILTERED_VIS.BAYD_TOP:DALPHA_HAIFA Lower div. d-alpha
\BAYC_LII_FSCOPE \PASSIVESPEC::TOP.FILTERED_VIS.BAYD_TOP:LI_I_EIES Lower divertor lii 670.8/1.5 nm integrated intensity (from eies pmt)
\BAYC_OII_FSCOPE \PASSIVESPEC::TOP.FILTERED_VIS.BAYD_TOP:OII_EIES Lower divertor o ii (441.6/1.5 nm) integrated intensity (from eies pmt)
\BAYE_BII_FSCOPE \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:BII_EIES Upper divertor integrated b ii (345.1/1.5 nm) intensity (from eies pmt)
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:BII_FSCOPE Upper divertor b-ii 3451 filterscope intensity
\BAYE_BII_FSCOPEV \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:BII_FSCOPEV Upper divertor b-ii 3451 filterscope photomultiplier tube voltage
\BAYE_CIII_FSCOPE \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:CIII_EIES Upper divertor integrated c iii (464.8/0.6 nm) intensity (from eies pmt)
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:CIII_FSCOPE Upper divertor c-iii 4650 filterscope intensity
\BAYE_CIII_FSCOPEV \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:CIII_FSCOPEV Upper divertor c-iii 4650 filterscope photomultiplier tube voltage
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:DALF_FSCOPE Upper divertor d-alpha 6561 filterscope intensity
\BAYE_DALF_FSCOPEV \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:DALF_FSCOPEV Upper divertor d-alpha 6561 filterscope photomultiplier tube voltage
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:DALF_HAIFA Upper divertor d-alpha 6561 haifa intensity
\BAYE_DALF_FSCOPE \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:DALPHA_EIES Upper div. d-alpha
\BAYE_LI_I_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:LI_I_EIES Upper divertor integrated LI i (670.8/1.5 nm) intensity (from eies pmt)
\BAYE_OII_FSCOPE \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:OII_EIES Upper divertor integrated o ii (441.6/1.5 nm) intensity (from eies pmt)
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:OII_FSCOPE Upper divertor o-ii 4416 filterscope intensity
\BAYE_OII_FSCOPEV \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:OII_FSCOPEV Upper divertor o-ii 4416 filterscope photomultiplier tube voltage
\BAYG_DALPHA_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYG_MIDPL:DALPHA_EIES Bay g midplane tang. view into pump duct (from eies pmt)
\BAYG_HEII_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYG_MIDPL:HEII_EIES Bay g midplane tang. view into pumping duct (from eies pmt)
\VIS_BREM \PASSIVESPEC::TOP.FILTERED_VIS.BAYG_MIDPL:VIS_BREM Midplane tangential visible brehmsstrahlung region 5230 haifa intensity
\BAYI_BII_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYI_MIDPL:BII_EIES Bay i cs collimated view, new bii 499.8 nm / 1.0 nm filter
\BAYI_CIII_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYI_MIDPL:CIII_EIES Bay i collimated view of cs, 465.0/1.0 nm old c iii filter
\BAYI_CII_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYI_MIDPL:CII_EIES Bay i collimated view of cs, 658.5/1.0 nm old cii filter
\BAYI_DALPHA_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYI_MIDPL:DALPHA_EIES Bay i collimated view of cs, old 656.1/1.0 nm filter
\BAYI_HEI_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYI_MIDPL:HEI_EIES Bay i collimated midplane view of cs, new (2008) he i filter
\BAYI_LI_I_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYI_MIDPL:LI_I_EIES Bay i collimated view of cs, new 670.3/1.5 nm filter
\BAYI_OPIPE_DALPHA \PASSIVESPEC::TOP.FILTERED_VIS.BAYI_OPIPE:DALPHA_EIES Bay i lower divertor organ pipe, los 0.1 m from cs/shoulder
\BAYI_OPIPE_DGAMMA \PASSIVESPEC::TOP.FILTERED_VIS.BAYI_OPIPE:DGAMMA_EIES Bay i lower divertor organ pipe, los 0.1 m from cs/shoulder
\BAYK_CIII_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYK_MIDPL:CIII_EIES Bay k radial uncollimated view of cs for pellet, old 464.8/2.0 nm ciii filter and aperture
\BAYK_CII_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYK_MIDPL:CII_EIES Bay k radial uncollimated view of cs for pellet, old 658.5/1.0 nm c ii filter and aperture
\BAYK_DALPHA_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYK_MIDPL:DALPHA_EIES Bay k radial uncollimated view of cs for pellet, new 656.1/1.0 nm d-alpha filter
\BAYK_DBETA_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYK_MIDPL:DBETA_EIES Bay k radial uncollimated view of cs for pellet, old 486.1/1.0 ornl d-beta filter and aperture
\BAYK_LI_II_ISA \PASSIVESPEC::TOP.FILTERED_VIS.BAYK_MIDPL:LI_II_ISA Bay k radial uncollimated view of cs for pellet, isa monochromator, 548.5 nm, LI ii
\BAYK_LI_I_EIES_1 \PASSIVESPEC::TOP.FILTERED_VIS.BAYK_MIDPL:LI_I_EIES_1 Bay k radial uncollimated view of cs for pellet, new 670.3/1.0 nm LI i filter and aperture
\BAYK_LI_I_EIES_2 \PASSIVESPEC::TOP.FILTERED_VIS.BAYK_MIDPL:LI_I_EIES_2 Bay k radial uncollimated view of cs for pellet, new 610.4/1.0 nm LI i filter and aperture
\BAYL_EIES_157CM \PASSIVESPEC::TOP.FILTERED_VIS.BAYL_CHERS:FIBER_A Bay l CHERS optics, 157 cm, new d-beta filter
\BAYL_EIES_154CM \PASSIVESPEC::TOP.FILTERED_VIS.BAYL_CHERS:FIBER_B Bay l CHERS optics, 154 cm, new d-beta filter
\BAYL_EIES_151CM \PASSIVESPEC::TOP.FILTERED_VIS.BAYL_CHERS:FIBER_C Bay l CHERS optics, 151 cm, new d-beta filter
\BAYL_EIES_148CM \PASSIVESPEC::TOP.FILTERED_VIS.BAYL_CHERS:FIBER_D Bay l CHERS optics, 148 cm, new d-beta filter
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYL_CHERS:FIBER_E Label empty
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYL_CHERS:FIBER_F Label empty
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYL_CHERS:FIBER_G 05/16/05 - vb into former bay g dalpga 908 channel
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYL_CHERS:FIBER_H 05/16/05 - serves isa monochromator via v4 fiber, cwl=465 nm
\FAST_IR2_IMAGE \PASSIVESPEC::TOP.IR.FASTIR_2:FASTIR_IMG Fast ir 2 image
\WIDE_IR_IMAGE \PASSIVESPEC::TOP.IR.WIDEIR:WIDEIR_IMG Wide ir image
\ML_EXPOSURETIME \PASSIVESPEC::TOP.LADA.THERMOCOUPLE:SIGNAL Lada thermocouple data
\USXR_VTOP_00 \PASSIVESPEC::TOP.USXR.A1:CHORD00_CAL Vertical top chord 00 (outboard) filter: xxxx
\USXR_VTOP_01 \PASSIVESPEC::TOP.USXR.A1:CHORD01_CAL Vertical top chord 01 filter: xxxx
\USXR_VTOP_02 \PASSIVESPEC::TOP.USXR.A1:CHORD02_CAL Vertical top chord 02 filter: xxxx
\USXR_VTOP_03 \PASSIVESPEC::TOP.USXR.A1:CHORD03_CAL Vertical top chord 03 filter: xxxx
\USXR_VTOP_04 \PASSIVESPEC::TOP.USXR.A1:CHORD04_CAL Vertical top chord 04 filter: xxxx
\USXR_VTOP_05 \PASSIVESPEC::TOP.USXR.A1:CHORD05_CAL Vertical top chord 05 filter: xxxx
\USXR_VTOP_06 \PASSIVESPEC::TOP.USXR.A1:CHORD06_CAL Vertical top chord 06 filter: xxxx
\USXR_VTOP_07 \PASSIVESPEC::TOP.USXR.A1:CHORD07_CAL Vertical top chord 07 filter: xxxx
\USXR_VTOP_08 \PASSIVESPEC::TOP.USXR.A1:CHORD08_CAL Vertical top chord 08 filter: xxxx
\USXR_VTOP_09 \PASSIVESPEC::TOP.USXR.A1:CHORD09_CAL Vertical top chord 09 filter: xxxx
\USXR_VTOP_10 \PASSIVESPEC::TOP.USXR.A1:CHORD10_CAL Vertical top chord 10 filter: xxxx
\USXR_VTOP_11 \PASSIVESPEC::TOP.USXR.A1:CHORD11_CAL Vertical top chord 11 filter: xxxx
\USXR_VTOP_12 \PASSIVESPEC::TOP.USXR.A1:CHORD12_CAL Vertical top chord 12 filter: xxxx
\USXR_VTOP_13 \PASSIVESPEC::TOP.USXR.A1:CHORD13_CAL Vertical top chord 13 filter: xxxx
\USXR_VTOP_14 \PASSIVESPEC::TOP.USXR.A1:CHORD14_CAL Vertical top chord 14 filter: xxxx
\USXR_VTOP_15 \PASSIVESPEC::TOP.USXR.A1:CHORD15_CAL Vertical top chord 15 filter: xxxx
\USXR_HUP_00 \PASSIVESPEC::TOP.USXR.A2:CHORD00_CAL Horizontal up chord 00 filter: xxxx
\USXR_HUP_01 \PASSIVESPEC::TOP.USXR.A2:CHORD01_CAL Horizontal up chord 01 filter: xxxx
\USXR_HUP_02 \PASSIVESPEC::TOP.USXR.A2:CHORD02_CAL Horizontal up chord 02 filter: xxxx
\USXR_HUP_03 \PASSIVESPEC::TOP.USXR.A2:CHORD03_CAL Horizontal up chord 03 filter: xxxx
\USXR_HUP_04 \PASSIVESPEC::TOP.USXR.A2:CHORD04_CAL Horizontal up chord 04 filter: xxxx
\USXR_HUP_05 \PASSIVESPEC::TOP.USXR.A2:CHORD05_CAL Horizontal up chord 05 filter: xxxx
\USXR_HUP_06 \PASSIVESPEC::TOP.USXR.A2:CHORD06_CAL Horizontal up chord 06 filter: xxxx
\USXR_HUP_07 \PASSIVESPEC::TOP.USXR.A2:CHORD07_CAL Horizontal up chord 07 filter: xxxx
\USXR_HUP_08 \PASSIVESPEC::TOP.USXR.A2:CHORD08_CAL Horizontal up chord 08 filter: xxxx
\USXR_HUP_09 \PASSIVESPEC::TOP.USXR.A2:CHORD09_CAL Horizontal up chord 09 filter: xxxx
\USXR_HUP_10 \PASSIVESPEC::TOP.USXR.A2:CHORD10_CAL Horizontal up chord 10 filter: xxxx
\USXR_HUP_11 \PASSIVESPEC::TOP.USXR.A2:CHORD11_CAL Horizontal up chord 11 filter: xxxx
\USXR_HUP_12 \PASSIVESPEC::TOP.USXR.A2:CHORD12_CAL Horizontal up chord 12 filter: xxxx
\USXR_HUP_13 \PASSIVESPEC::TOP.USXR.A2:CHORD13_CAL Horizontal up chord 13 filter: xxxx
\USXR_HUP_14 \PASSIVESPEC::TOP.USXR.A2:CHORD14_CAL Horizontal up chord 14 filter: xxxx
\USXR_HUP_15 \PASSIVESPEC::TOP.USXR.A2:CHORD15_CAL Horizontal up chord 15 (midplane) filter: xxxx
\USXR_HDOWN_00 \PASSIVESPEC::TOP.USXR.A3:CHORD00_CAL Horizontal down chord 00 (midplane) filter: xxxx
\USXR_HDOWN_01 \PASSIVESPEC::TOP.USXR.A3:CHORD01_CAL Horizontal down chord 01 filter: xxxx
\USXR_HDOWN_02 \PASSIVESPEC::TOP.USXR.A3:CHORD02_CAL Horizontal down chord 02 filter: xxxx
\USXR_HDOWN_03 \PASSIVESPEC::TOP.USXR.A3:CHORD03_CAL Horizontal down chord 03 filter: xxxx
\USXR_HDOWN_04 \PASSIVESPEC::TOP.USXR.A3:CHORD04_CAL Horizontal down chord 04 filter: xxxx
\USXR_HDOWN_05 \PASSIVESPEC::TOP.USXR.A3:CHORD05_CAL Horizontal down chord 05 filter: xxxx
\USXR_HDOWN_06 \PASSIVESPEC::TOP.USXR.A3:CHORD06_CAL Horizontal down chord 06 filter: xxxx
\BAYL_EIES_154CM \PASSIVESPEC::TOP.USXR.A3:CHORD07_CAL Horizontal down chord 07 filter: xxxx
\USXR_HDOWN_08 \PASSIVESPEC::TOP.USXR.A3:CHORD08_CAL Horizontal down chord 08 filter: xxxx
\USXR_HDOWN_09 \PASSIVESPEC::TOP.USXR.A3:CHORD09_CAL Horizontal down chord 09 filter: xxxx
\USXR_HDOWN_10 \PASSIVESPEC::TOP.USXR.A3:CHORD10_CAL Horizontal down chord 10 filter: xxxx
\USXR_HDOWN_11 \PASSIVESPEC::TOP.USXR.A3:CHORD11_CAL Horizontal down chord 11 filter: xxxx
\SGMTD_HEAD1 \PASSIVESPEC::TOP.USXR.A3:CHORD12_CAL Horizontal down chord 12 filter: xxxx
\USXR_HDOWN_13 \PASSIVESPEC::TOP.USXR.A3:CHORD13_CAL Horizontal down chord 13 filter: xxxx
\USXR_HDOWN_14 \PASSIVESPEC::TOP.USXR.A3:CHORD14_CAL Horizontal down chord 14 filter: xxxx
\USXR_HDOWN_15 \PASSIVESPEC::TOP.USXR.A3:CHORD15_CAL Horizontal down chord 15 filter: xxxx
\USXR_JHUP_00 \PASSIVESPEC::TOP.USXR.A4:CHORD00_CAL Horizontal up chord 00 filter: xxxx
\USXR_JHUP_01 \PASSIVESPEC::TOP.USXR.A4:CHORD01_CAL Horizontal up chord 01 filter: xxxx
\USXR_JHUP_02 \PASSIVESPEC::TOP.USXR.A4:CHORD02_CAL Horizontal up chord 02 filter: xxxx
\USXR_JHUP_03 \PASSIVESPEC::TOP.USXR.A4:CHORD03_CAL Horizontal up chord 03 filter: xxxx
\USXR_JHUP_04 \PASSIVESPEC::TOP.USXR.A4:CHORD04_CAL Horizontal up chord 04 filter: xxxx
\USXR_JHUP_05 \PASSIVESPEC::TOP.USXR.A4:CHORD05_CAL Horizontal up chord 05 filter: xxxx
\USXR_JHUP_06 \PASSIVESPEC::TOP.USXR.A4:CHORD06_CAL Horizontal up chord 06 filter: xxxx
\USXR_JHUP_07 \PASSIVESPEC::TOP.USXR.A4:CHORD07_CAL Horizontal up chord 07 filter: xxxx
\USXR_JHUP_08 \PASSIVESPEC::TOP.USXR.A4:CHORD08_CAL Horizontal up chord 08 filter: xxxx
\USXR_JHUP_09 \PASSIVESPEC::TOP.USXR.A4:CHORD09_CAL Horizontal up chord 09 filter: xxxx
\USXR_JHUP_10 \PASSIVESPEC::TOP.USXR.A4:CHORD10_CAL Horizontal up chord 10 filter: xxxx
\USXR_JHUP_11 \PASSIVESPEC::TOP.USXR.A4:CHORD11_CAL Horizontal up chord 11 filter: xxxx
\USXR_JHUP_12 \PASSIVESPEC::TOP.USXR.A4:CHORD12_CAL Horizontal up chord 12 filter: xxxx
\USXR_JHUP_13 \PASSIVESPEC::TOP.USXR.A4:CHORD13_CAL Horizontal up chord 13 filter: xxxx
\USXR_JHUP_14 \PASSIVESPEC::TOP.USXR.A4:CHORD14_CAL Horizontal up chord 14 filter: xxxx
\USXR_JHUP_15 \PASSIVESPEC::TOP.USXR.A4:CHORD15_CAL Horizontal up chord 15 (midplane) filter: xxxx
\USXR_GBOT_00 \PASSIVESPEC::TOP.USXR.A5:CHORD00_CAL "vertical " // \usxr_a5:location // " chord 00 (" // \usxr_rd.a5:chord00_raw:position // ") filter: " // \usxr_a5:filter
\USXR_GBOT_01 \PASSIVESPEC::TOP.USXR.A5:CHORD01_CAL "vertical " // \usxr_a5:location // " chord 01 filter: " // \usxr_a5:filter
\USXR_GBOT_02 \PASSIVESPEC::TOP.USXR.A5:CHORD02_CAL "vertical " // \usxr_a5:location // " chord 02 filter: " // \usxr_a5:filter
\USXR_GBOT_03 \PASSIVESPEC::TOP.USXR.A5:CHORD03_CAL "vertical " // \usxr_a5:location // " chord 03 filter: " // \usxr_a5:filter
\USXR_GBOT_04 \PASSIVESPEC::TOP.USXR.A5:CHORD04_CAL "vertical " // \usxr_a5:location // " chord 04 filter: " // \usxr_a5:filter
\USXR_GBOT_05 \PASSIVESPEC::TOP.USXR.A5:CHORD05_CAL "vertical " // \usxr_a5:location // " chord 05 filter: " // \usxr_a5:filter
\USXR_GBOT_06 \PASSIVESPEC::TOP.USXR.A5:CHORD06_CAL "vertical " // \usxr_a5:location // " chord 06 filter: " // \usxr_a5:filter
\USXR_GBOT_07 \PASSIVESPEC::TOP.USXR.A5:CHORD07_CAL "vertical " // \usxr_a5:location // " chord 07 filter: " // \usxr_a5:filter
\USXR_GBOT_08 \PASSIVESPEC::TOP.USXR.A5:CHORD08_CAL "vertical " // \usxr_a5:location // " chord 08 filter: " // \usxr_a5:filter
\USXR_GBOT_09 \PASSIVESPEC::TOP.USXR.A5:CHORD09_CAL "vertical " // \usxr_a5:location // " chord 09 filter: " // \usxr_a5:filter
\USXR_GBOT_10 \PASSIVESPEC::TOP.USXR.A5:CHORD10_CAL "vertical " // \usxr_a5:location // " chord 10 filter: " // \usxr_a5:filter
\USXR_GBOT_11 \PASSIVESPEC::TOP.USXR.A5:CHORD11_CAL "vertical " // \usxr_a5:location // " chord 11 filter: " // \usxr_a5:filter
\USXR_GBOT_12 \PASSIVESPEC::TOP.USXR.A5:CHORD12_CAL "vertical " // \usxr_a5:location // " chord 12 filter: " // \usxr_a5:filter
\USXR_GBOT_13 \PASSIVESPEC::TOP.USXR.A5:CHORD13_CAL "vertical " // \usxr_a5:location // " chord 13 filter: " // \usxr_a5:filter
\USXR_GBOT_14 \PASSIVESPEC::TOP.USXR.A5:CHORD14_CAL "vertical " // \usxr_a5:location // " chord 14 filter: " // \usxr_a5:filter
\USXR_GBOT_15 \PASSIVESPEC::TOP.USXR.A5:CHORD15_CAL "vertical " // \usxr_a5:location // " chord 15 filter: " // \usxr_a5:filter
no tag available \PASSIVESPEC::TOP.DIVERTORSPEC:DIVSPECDATA Ocean optics spectrometer data
\SPRED_BIN1 \PASSIVESPEC::TOP.SPRED:SPECTRUMBIN1 Spred spectrum, bin 1, frame 6
\SPRED_BIN2 \PASSIVESPEC::TOP.SPRED:SPECTRUMBIN2 Spred spectrum, bin 2, frame 6
no tag available \PASSIVESPEC::TOP.USXR:A3_2D Label empty
\VIPS2_BIN1 \PASSIVESPEC::TOP.VIPS2:SPECTRUMBIN1 Vips2 spectrum bin 1, frame 6
\VIPS2_BIN2 \PASSIVESPEC::TOP.VIPS2:SPECTRUMBIN2 Vips2 spectrum bin 2, frame 6
\BAYC_DALF_HAIFA \PASSIVESPEC::TOP.FILTERED_VIS.BAYD_TOP:DALPHA_HAIFA Lower divertor integrated d-alpha intensity (from photodiode)
\BAYE_DALF_FSCOPE \PASSIVESPEC::TOP.FILTERED_VIS.BAYE_BOTTOM:DALPHA_EIES Upper divertor d-alpha integrated intensity (eies pmt)
no tag available \PASSIVESPEC::TOP.FILTERED_VIS.BAYG_MIDPL:VIS_BREM Midplane tangential visible brehmsstrahlung region 5230 haifa intensity
\BAYI_HEI_EIES \PASSIVESPEC::TOP.FILTERED_VIS.BAYI_MIDPL:HEI_EIES Label empty
no tag available \PASSIVESPEC::TOP.USXR.A1:CHORD01_CAL Vertical top chord 01 filter: xxxx
no tag available \PASSIVESPEC::TOP.USXR.A1:CHORD05_CAL Vertical top chord 05 filter: xxxx
no tag available \PASSIVESPEC::TOP.USXR.A1:CHORD09_CAL Vertical top chord 09 filter: xxxx
no tag available \PASSIVESPEC::TOP.USXR.A1:CHORD13_CAL Vertical top chord 13 filter: xxxx
no tag available \PASSIVESPEC::TOP.USXR.A2:CHORD00_CAL Horizontal up chord 00 filter: xxxx
no tag available \PASSIVESPEC::TOP.USXR.A2:CHORD04_CAL Horizontal up chord 04 filter: xxxx
no tag available \PASSIVESPEC::TOP.USXR.A2:CHORD08_CAL Horizontal up chord 08 filter: xxxx
no tag available \PASSIVESPEC::TOP.USXR.A2:CHORD12_CAL Horizontal up chord 12 filter: xxxx
\USXR_HDOWN_07 \PASSIVESPEC::TOP.USXR.A3:CHORD07_CAL Horizontal down chord 07 filter: xxxx
\USXR_HDOWN_12 \PASSIVESPEC::TOP.USXR.A3:CHORD12_CAL Horizontal down chord 12 filter: xxxx
no tag available \PASSIVESPEC::TOP.USXR.A5:CHORD07_CAL "vertical " // \usxr_a5:location // " chord 07 filter: " // \usxr_a5:filter
no tag available \PASSIVESPEC::TOP.USXR.A5:CHORD11_CAL "vertical " // \usxr_a5:location // " chord 11 filter: " // \usxr_a5:filter
no tag available \PASSIVESPEC::TOP.USXR.A5:CHORD15_CAL "vertical " // \usxr_a5:location // " chord 15 filter: " // \usxr_a5:filter
\IMG0_PILN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:PILN Location of peak heat flux - inboard side
\IMG0_PIPN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:PIPN Peak heat flux - inboard side
\IMG0_PITN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:PITN Peak power - inboard side
\IMG0_PIWN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:PIWN Heat flux profile width fwhm - inboard side
\IMG0_POLN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:POLN Location of peak heat flux - outboard side
\IMG0_POPN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:POPN Peak heat flux - outboard side
\IMG0_POTN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:POTN Peak power - outboard side
\IMG0_POWN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:POWN Heat flux profile width fwhm - outboard side
\IMG0_TILN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:TILN Location of peak temperature - inboard side
\IMG0_TIPN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:TIPN Peak temperature - inboard side
\IMG0_TIWN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:TIWN Temperature profile width fwhm - inboard side
\IMG0_TOLN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:TOLN Location of peak temperature - outboard side
\IMG0_TOPN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:TOPN Peak temperature - outboard side
\IMG0_TOWN \PASSIVESPEC::TOP.IR.IMG0.ANALYSIS.TIME_PLOTS:TOWN Temperature profile width fwhm - outboard side
\IMG1_PLLN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:PLLN Location of peak heat flux - lower side
\IMG1_PLPN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:PLPN Peak heat flux - lower side
\IMG1_PLTN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:PLTN Peak power - lower side
\IMG1_PLWN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:PLWN Heat flux profile width fwhm - lower side
\IMG1_PULN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:PULN Location of peak heat flux - upper side
\IMG1_PUPN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:PUPN Peak heat flux - upper side
\IMG1_PUTN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:PUTN Peak power - upper side
\IMG1_PUWN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:PUWN Heat flux profile width fwhm - upper side
\IMG1_TLLN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:TLLN Location of peak temperature - lower side
\IMG1_TLPN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:TLPN Peak temperature - lower side
\IMG1_TLWN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:TLWN Temperature profile width fwhm - lower side
\IMG1_TULN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:TULN Location of peak temperature - upper side
\IMG1_TUPN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:TUPN Peak temperature - upper side
\IMG1_TUWN \PASSIVESPEC::TOP.IR.IMG1.ANALYSIS.TIME_PLOTS:TUWN Temperature profile width fwhm - upper side
\IMG2_PILN \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:PILN Location of peak heat flux - inboard side
\IMG2_PIPN \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:PIPN Peak heat flux - inboard side
\IMG2_PITN \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:PITN Peak power - inboard side
\IMG2_PIWN \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:PIWN Heat flux profile width fwhm - inboard side
\IMG2_POLN \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:POLN Location of peak heat flux - outboard side
\IMG2_POPN \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:POPN Peak heat flux - outboard side
\IMG2_POTN \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:POTN Peak power - outboard side
\USXR_VTOP_01 \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:POWN Heat flux profile width fwhm - outboard side
\IMG2_TILN \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:TILN Location of peak temperature - inboard side
\IMG2_TIPN \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:TIPN Peak temperature - inboard side
\IMG2_TIWN \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:TIWN Temperature profile width fwhm - inboard side
\IMG2_TOLN \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:TOLN Location of peak temperature - outboard side
\IMG2_TOPN \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:TOPN Peak temperature - outboard side
\IMG2_TOWN \PASSIVESPEC::TOP.IR.IMG2.ANALYSIS.TIME_PLOTS:TOWN Temperature profile width fwhm - outboard side
PSPEC_PC
Tag Full Path to Node Label/Description
\LOWEUSDATA \PSPEC_PC::TOP.LOWEUS:IMAGE Loweus raw pixels
\LOWEUS_SPECTRA \PSPEC_PC::TOP.LOWEUS:SPECTRA Loweus spectra in roi, hard xrays filtered
\XEUSDATA \PSPEC_PC::TOP.XEUS:IMAGE Xeus raw pixels
\XEUS_SPECTRA \PSPEC_PC::TOP.XEUS:SPECTRA Xeus spectra in roi, hard xrays filtered
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE01:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE01:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE01:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE02:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE02:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE02:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE03:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE03:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE03:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE04:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE04:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE04:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE05:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE05:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE05:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE06:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE06:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE06:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE07:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE07:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE07:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE08:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE08:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE08:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE09:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE09:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE09:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE10:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE10:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE10:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE11:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE11:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE11:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE12:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE12:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE12:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE13:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE13:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE13:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE14:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE14:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE14:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE15:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE15:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE15:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE16:CAL_SIG Calibration signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE16:CTRL_SIG Description of tc signal
no tag available \PSPEC_PC::TOP.FILTERED_VIS.BAYC_TOP.ORNL_FSCOPE.TUBE16:SIGNAL \pmt_01:sig_desc
no tag available \PSPEC_PC::TOP.LOWEUS:IMAGE Loweus raw pixels
no tag available \PSPEC_PC::TOP.LOWEUS:SPECTRA Loweus spectra in roi, hard xrays filtered
SFLIP
Tag Full Path to Node Label/Description
\AVEINT \SFLIP::TOP.SFLIP:AVEINTENSITY Average intensity over whole image vs. time
no tag available \SFLIP::TOP.SFLIP:DARK_FRAME Label empty
\FRAMES \SFLIP::TOP.SFLIP:FRAMES For background subtraction
\SAT_PIXEL_FRAC \SFLIP::TOP.SFLIP:SATPIXELFRAC Saturated pixel fraction
\BIG_FRAMES \SFLIP::TOP.TESTTREE:FRAMES Label empty
no tag available \SFLIP::TOP.SFLIP:AVEINTENSITY Average intensity over whole image vs. time
no tag available \SFLIP::TOP.SFLIP:FRAMES For background subtraction
no tag available \SFLIP::TOP.TESTTREE:FRAMES Label empty
RF
Tag Full Path to Node Label/Description
\ECHPOWER \RF::TOP.ECH:ECHPOWER Ech power
\KLYSTRONBEAMCURRENT1 \RF::TOP.ECH:KLYSBEAMCUR1 Klystron 1 beam current
\KLYSTRONBEAMCURRENT2 \RF::TOP.ECH:KLYSBEAMCUR2 Klystron 2 beam current
\KLYSBEAMVOLT \RF::TOP.ECH:KLYSBEAMVOLT Klystron beam voltage
\KLYSBODYCUR1 \RF::TOP.ECH:KLYSBODYCUR1 Klystron 1 body current
\KLYSTRONBODYCURRENT2 \RF::TOP.ECH:KLYSBODYCUR2 Klystron 2 body current
\KLYSFWD1 \RF::TOP.ECH:KLYSFWD1 Klystron 1 forward power
\KLYSTRONFWD2 \RF::TOP.ECH:KLYSFWD2 Klystron 2 forward power
\KLYSREF1 \RF::TOP.ECH:KLYSREF1 Klystron 1 refl. power
\KLYSREF2 \RF::TOP.ECH:KLYSREF2 Klystron 2 refl. power
\IANTMAG01 \RF::TOP.HHFW.ANTENNASIGS:IANTMAG01 Iantenna 01
\IANTMAG02 \RF::TOP.HHFW.ANTENNASIGS:IANTMAG02 Iantenna 02
\IANTMAG03 \RF::TOP.HHFW.ANTENNASIGS:IANTMAG03 Iantenna 03
\IANTMAG04 \RF::TOP.HHFW.ANTENNASIGS:IANTMAG04 Iantenna 04
\IANTMAG05 \RF::TOP.HHFW.ANTENNASIGS:IANTMAG05 Iantenna 05
\IANTMAG06 \RF::TOP.HHFW.ANTENNASIGS:IANTMAG06 Iantenna 06
\IANTMAG07 \RF::TOP.HHFW.ANTENNASIGS:IANTMAG07 Iantenna 07
\IANTMAG08 \RF::TOP.HHFW.ANTENNASIGS:IANTMAG08 Iantenna 08
\IANTMAG09 \RF::TOP.HHFW.ANTENNASIGS:IANTMAG09 Iantenna 09
\IANTMAG10 \RF::TOP.HHFW.ANTENNASIGS:IANTMAG10 Iantenna 10
\IANTMAG11 \RF::TOP.HHFW.ANTENNASIGS:IANTMAG11 Iantenna 11
\IANTMAG12 \RF::TOP.HHFW.ANTENNASIGS:IANTMAG12 Iantenna 12
\VANTMAG01 \RF::TOP.HHFW.ANTENNASIGS:VANTMAG01 Vantenna 01
\VANTMAG02 \RF::TOP.HHFW.ANTENNASIGS:VANTMAG02 Vantenna 02
\VANTMAG03 \RF::TOP.HHFW.ANTENNASIGS:VANTMAG03 Vantenna 03
\VANTMAG04 \RF::TOP.HHFW.ANTENNASIGS:VANTMAG04 Vantenna 04
\VANTMAG05 \RF::TOP.HHFW.ANTENNASIGS:VANTMAG05 Vantenna 05
\VANTMAG06 \RF::TOP.HHFW.ANTENNASIGS:VANTMAG06 Vantenna 06
\VANTMAG07 \RF::TOP.HHFW.ANTENNASIGS:VANTMAG07 Vantenna 07
\VANTMAG08 \RF::TOP.HHFW.ANTENNASIGS:VANTMAG08 Vantenna 08
\VANTMAG09 \RF::TOP.HHFW.ANTENNASIGS:VANTMAG09 Vantenna 09
\VANTMAG10 \RF::TOP.HHFW.ANTENNASIGS:VANTMAG10 Vantenna 10
\VANTMAG11 \RF::TOP.HHFW.ANTENNASIGS:VANTMAG11 Vantenna 11
\VANTMAG12 \RF::TOP.HHFW.ANTENNASIGS:VANTMAG12 Vantenna 12
\VANTPH0102 \RF::TOP.HHFW.ANTENNASIGS:VANTPH0102 Phase bet. antenna 01 and 02
\VANTPH0203 \RF::TOP.HHFW.ANTENNASIGS:VANTPH0203 Phase bet. antenna 02 and 03
\VANTPH0304 \RF::TOP.HHFW.ANTENNASIGS:VANTPH0304 Phase bet. antenna 03 and 04
\VANTPH0405 \RF::TOP.HHFW.ANTENNASIGS:VANTPH0405 Phase bet. antenna 04 and 05
\VANTPH0506 \RF::TOP.HHFW.ANTENNASIGS:VANTPH0506 Phase bet. antenna 05 and 06
\VANTPH0607 \RF::TOP.HHFW.ANTENNASIGS:VANTPH0607 Phase bet. antenna 01 and 07
\VANTPH0708 \RF::TOP.HHFW.ANTENNASIGS:VANTPH0708 Phase bet. antenna 01 and 08
\VANTPH0809 \RF::TOP.HHFW.ANTENNASIGS:VANTPH0809 Phase bet. antenna 01 and 09
\VANTPH0910 \RF::TOP.HHFW.ANTENNASIGS:VANTPH0910 Phase bet. antenna 01 and 10
\VANTPH1011 \RF::TOP.HHFW.ANTENNASIGS:VANTPH1011 Phase bet. antenna 01 and 11
\VANTPH1112 \RF::TOP.HHFW.ANTENNASIGS:VANTPH1112 Phase bet. antenna 01 and 12
\VIANTPH01 \RF::TOP.HHFW.ANTENNASIGS:VIANTPH01 Vi phase antenna 01
\VIANTPH02 \RF::TOP.HHFW.ANTENNASIGS:VIANTPH02 Vi phase antenna 02
\VIANTPH03 \RF::TOP.HHFW.ANTENNASIGS:VIANTPH03 Vi phase antenna 03
\VIANTPH04 \RF::TOP.HHFW.ANTENNASIGS:VIANTPH04 Vi phase antenna 04
\VIANTPH05 \RF::TOP.HHFW.ANTENNASIGS:VIANTPH05 Vi phase antenna 05
\VIANTPH06 \RF::TOP.HHFW.ANTENNASIGS:VIANTPH06 Vi phase antenna 06
\VIANTPH07 \RF::TOP.HHFW.ANTENNASIGS:VIANTPH07 Vi phase antenna 07
\VIANTPH08 \RF::TOP.HHFW.ANTENNASIGS:VIANTPH08 Vi phase antenna 08
\VIANTPH09 \RF::TOP.HHFW.ANTENNASIGS:VIANTPH09 Vi phase antenna 09
\VIANTPH10 \RF::TOP.HHFW.ANTENNASIGS:VIANTPH10 Vi phase antenna 10
\VIANTPH11 \RF::TOP.HHFW.ANTENNASIGS:VIANTPH11 Vi phase antenna 11
\VIANTPH12 \RF::TOP.HHFW.ANTENNASIGS:VIANTPH12 Vi phase antenna 12
\CHI_LOWER \RF::TOP.HHFW.CHI_PROBE:V_LOWER Chi gap upper v cal mod 2-27-07 nlg
\CHI_UPPER \RF::TOP.HHFW.CHI_PROBE:V_UPPER Chi gap lower v cal mod 2-27-07 nlg
\VTMAG1 \RF::TOP.HHFW.CROSSSIGS:VTMAG1 Vcube 1
\VTMAG2 \RF::TOP.HHFW.CROSSSIGS:VTMAG2 Vcube 2
\VTMAG3 \RF::TOP.HHFW.CROSSSIGS:VTMAG3 Vcube 3
\VTMAG4 \RF::TOP.HHFW.CROSSSIGS:VTMAG4 Vcube 4
\VTMAG5 \RF::TOP.HHFW.CROSSSIGS:VTMAG5 Vcube 5
\VTMAG6 \RF::TOP.HHFW.CROSSSIGS:VTMAG6 Vcube 6
\VTPH1 \RF::TOP.HHFW.CROSSSIGS:VTPH1 Vcube phase 1
\VTPH2 \RF::TOP.HHFW.CROSSSIGS:VTPH2 Vcube phase 2
\VTPH3 \RF::TOP.HHFW.CROSSSIGS:VTPH3 Vcube phase 3
\VTPH4 \RF::TOP.HHFW.CROSSSIGS:VTPH4 Vcube phase 4
\VTPH5 \RF::TOP.HHFW.CROSSSIGS:VTPH5 Vcube phase 5
\VTPH6 \RF::TOP.HHFW.CROSSSIGS:VTPH6 Vcube phase 6
\RF1HPAIG1 \RF::TOP.HHFW.CSITESIGS:RF1HPAIG1 1 hpa grid current (ig1)
\RF1HPAIG2 \RF::TOP.HHFW.CSITESIGS:RF1HPAIG2 1 hpa screen current (ig2)
\RF2NARC \RF::TOP.HHFW.CSITESIGS:RF1HPAIP 1 hpa plate current (ip)
\RF1HPAPDISS \RF::TOP.HHFW.CSITESIGS:RF1HPAPDISS 1 hpa plate dissipation
\RF1IPAIG1 \RF::TOP.HHFW.CSITESIGS:RF1IPAIG1 1 ipa grid current (ig1)
\RF1IPAIG2 \RF::TOP.HHFW.CSITESIGS:RF1IPAIG2 1 ipa screen current (ig2)
\RF1IPAIP \RF::TOP.HHFW.CSITESIGS:RF1IPAIP 1 ipa plate current (ip)
\RF1LPAIP \RF::TOP.HHFW.CSITESIGS:RF1LPAIP 1 lpa plate current (ip)
\RF1NARC \RF::TOP.HHFW.CSITESIGS:RF1NARC 1 arc or narc from fbc
\RF1SPARE \RF::TOP.HHFW.CSITESIGS:RF1SPARE 1 spare
\RF2HPAIG1 \RF::TOP.HHFW.CSITESIGS:RF2HPAIG1 2 hpa grid current (ig1)
\RF2HPAIG2 \RF::TOP.HHFW.CSITESIGS:RF2HPAIG2 2 hpa screen current (ig2)
\RF2HPAIP \RF::TOP.HHFW.CSITESIGS:RF2HPAIP 2 hpa plate current (ip)
\RF2HPAPDISS \RF::TOP.HHFW.CSITESIGS:RF2HPAPDISS 2 hpa plate dissipation
\RF2IPAIG1 \RF::TOP.HHFW.CSITESIGS:RF2IPAIG1 2 ipa grid current (ig1)
\RF2IPAIG2 \RF::TOP.HHFW.CSITESIGS:RF2IPAIG2 2 ipa screen current (ig2)
\RF2IPAIP \RF::TOP.HHFW.CSITESIGS:RF2IPAIP 2 ipa plate current (ip)
\RF2LPAIP \RF::TOP.HHFW.CSITESIGS:RF2LPAIP 2 lpa plate current (ip)
\RF2NARC \RF::TOP.HHFW.CSITESIGS:RF2NARC 2 arc or narc from fbc
\RF2SPARE \RF::TOP.HHFW.CSITESIGS:RF2SPARE 2 spare
\RF3DRVRIG1 \RF::TOP.HHFW.CSITESIGS:RF3DRVRIG1 3 drvr grid current (ig1)
\RF3DRVRIG2 \RF::TOP.HHFW.CSITESIGS:RF3DRVRIG2 3 drvr screen current (ig2)
\RF3DRVRIP \RF::TOP.HHFW.CSITESIGS:RF3DRVRIP 3 drvr plate current (ip)
\RF3FPAIG1 \RF::TOP.HHFW.CSITESIGS:RF3FPAIG1 3 fpa grid current (ig1)
\RF3FPAIG2 \RF::TOP.HHFW.CSITESIGS:RF3FPAIG2 3 fpa screen current (ig2)
\RF3FPAIP \RF::TOP.HHFW.CSITESIGS:RF3FPAIP 3 fpa plate current (ip)
\RF3FPAPDISS \RF::TOP.HHFW.CSITESIGS:RF3FPAPDISS 3 fpa plate dissipation
\RF3IPAIP \RF::TOP.HHFW.CSITESIGS:RF3IPAIP 3 ipa plate current (ip)
\RF3NARC \RF::TOP.HHFW.CSITESIGS:RF3NARC 3 arc or narc from fbc
\RF3SBANDDET \RF::TOP.HHFW.CSITESIGS:RF3SBANDDET 3 l/s-band detector
\RF4DRVRIG1 \RF::TOP.HHFW.CSITESIGS:RF4DRVRIG1 4 drvr grid current (ig1)
\RF4DRVRIG2 \RF::TOP.HHFW.CSITESIGS:RF4DRVRIG2 4 drvr screen current (ig2)
\RF4DRVRIP \RF::TOP.HHFW.CSITESIGS:RF4DRVRIP 4 drvr plate current (ip)
\RF4FPAIG1 \RF::TOP.HHFW.CSITESIGS:RF4FPAIG1 4 fpa grid current (ig1)
\RF4FPAIG2 \RF::TOP.HHFW.CSITESIGS:RF4FPAIG2 4 fpa screen current (ig2)
\RF4FPAIP \RF::TOP.HHFW.CSITESIGS:RF4FPAIP 4 fpa plate current (ip)
\RF4FPAPDISS \RF::TOP.HHFW.CSITESIGS:RF4FPAPDISS 4 fpa plate dissipation
\RF4IPAIP \RF::TOP.HHFW.CSITESIGS:RF4IPAIP 4 ipa plate current (ip)
\RF4NARC \RF::TOP.HHFW.CSITESIGS:RF4NARC 4 arc or narc from fbc
\RF4SBANDDET \RF::TOP.HHFW.CSITESIGS:RF4SBANDDET 4 l/s-band detector
\RF5DRVRIG1 \RF::TOP.HHFW.CSITESIGS:RF5DRVRIG1 5 drvr grid current (ig1)
\RF5DRVRIG2 \RF::TOP.HHFW.CSITESIGS:RF5DRVRIG2 5 drvr screen current (ig2)
\RF5DRVRIP \RF::TOP.HHFW.CSITESIGS:RF5DRVRIP 5 drvr plate current (ip)
\RF5FPAIG1 \RF::TOP.HHFW.CSITESIGS:RF5FPAIG1 5 fpa grid current (ig1)
\RF5FPAIG2 \RF::TOP.HHFW.CSITESIGS:RF5FPAIG2 5 fpa screen current (ig2)
\RF5FPAIP \RF::TOP.HHFW.CSITESIGS:RF5FPAIP 5 fpa plate current (ip)
\RF5FPAPDISS \RF::TOP.HHFW.CSITESIGS:RF5FPAPDISS 5 fpa plate dissipation
\RF5IPAIP \RF::TOP.HHFW.CSITESIGS:RF5IPAIP 5 ipa plate current (ip)
\RF5NARC \RF::TOP.HHFW.CSITESIGS:RF5NARC 5 arc or narc from fbc
\RF5SBANDDET \RF::TOP.HHFW.CSITESIGS:RF5SBANDDET 5 l/s-band detector
\RF6DRVRIG1 \RF::TOP.HHFW.CSITESIGS:RF6DRVRIG1 6 drvr grid current (ig1)
\RF6DRVRIG2 \RF::TOP.HHFW.CSITESIGS:RF6DRVRIG2 6 drvr screen current (ig2)
\RF6DRVRIP \RF::TOP.HHFW.CSITESIGS:RF6DRVRIP 6 drvr plate current (ip)
\RF6FPAIG1 \RF::TOP.HHFW.CSITESIGS:RF6FPAIG1 6 fpa grid current (ig1)
\RF6FPAIG2 \RF::TOP.HHFW.CSITESIGS:RF6FPAIG2 6 fpa screen current (ig2)
\RF6FPAIP \RF::TOP.HHFW.CSITESIGS:RF6FPAIP 6 fpa plate current (ip)
\RF6FPAPDISS \RF::TOP.HHFW.CSITESIGS:RF6FPAPDISS 6 fpa plate dissipation
\RF6IPAIP \RF::TOP.HHFW.CSITESIGS:RF6IPAIP 6 ipa plate current (ip)
\RF6NARC \RF::TOP.HHFW.CSITESIGS:RF6NARC 6 arc or narc from fbc
\RF6SBANDDET \RF::TOP.HHFW.CSITESIGS:RF6SBANDDET 6 l/s-band detector
\LOOP_FG_MID \RF::TOP.HHFW.LOOP_PROBE:FG_MID Rf loop probe 3
\LOOP_J_MID \RF::TOP.HHFW.LOOP_PROBE:J_MID Rf loop probe 2
\LOOP_J_TOP \RF::TOP.HHFW.LOOP_PROBE:J_TOP Rf loop probe 1
\HHFW_POWER \RF::TOP.HHFW.POWERSIGS:HHFW_POWER Hhfw power
\PFWDMAG1 \RF::TOP.HHFW.POWERSIGS:PFWDMAG1 Pfwd 1
\PFWDMAG2 \RF::TOP.HHFW.POWERSIGS:PFWDMAG2 Pfwd 2
\PFWDMAG3 \RF::TOP.HHFW.POWERSIGS:PFWDMAG3 Pfwd 3
\PFWDMAG4 \RF::TOP.HHFW.POWERSIGS:PFWDMAG4 Pfwd 4
\PFWDMAG5 \RF::TOP.HHFW.POWERSIGS:PFWDMAG5 Pfwd 5
\PFWDMAG6 \RF::TOP.HHFW.POWERSIGS:PFWDMAG6 Pfwd 6
\PFWDREFPH1 \RF::TOP.HHFW.POWERSIGS:PFWDREFPH1 Pwr phase 1
\PFWDREFPH2 \RF::TOP.HHFW.POWERSIGS:PFWDREFPH2 Pwr phase 2
\PFWDREFPH3 \RF::TOP.HHFW.POWERSIGS:PFWDREFPH3 Pwr phase 3
\PFWDREFPH4 \RF::TOP.HHFW.POWERSIGS:PFWDREFPH4 Pwr phase 4
\PFWDREFPH5 \RF::TOP.HHFW.POWERSIGS:PFWDREFPH5 Pwr phase 5
\PFWDREFPH6 \RF::TOP.HHFW.POWERSIGS:PFWDREFPH6 Pwr phase 6
\PNET1 \RF::TOP.HHFW.POWERSIGS:PNET1 Net power line 1
\PNET2 \RF::TOP.HHFW.POWERSIGS:PNET2 Net power line 2
\PNET3 \RF::TOP.HHFW.POWERSIGS:PNET3 Net power line 3
\PNET4 \RF::TOP.HHFW.POWERSIGS:PNET4 Net power line 4
\PNET5 \RF::TOP.HHFW.POWERSIGS:PNET5 Net power line 5
\PNET6 \RF::TOP.HHFW.POWERSIGS:PNET6 Net power line 6
\PREFMAG1 \RF::TOP.HHFW.POWERSIGS:PREFMAG1 Prefl 1
\PREFMAG2 \RF::TOP.HHFW.POWERSIGS:PREFMAG2 Prefl 2
\PREFMAG3 \RF::TOP.HHFW.POWERSIGS:PREFMAG3 Prefl 3
\PREFMAG4 \RF::TOP.HHFW.POWERSIGS:PREFMAG4 Prefl 4
\PREFMAG5 \RF::TOP.HHFW.POWERSIGS:PREFMAG5 Prefl 5
\PREFMAG6 \RF::TOP.HHFW.POWERSIGS:PREFMAG6 Prefl 6
\RHOMAG1 \RF::TOP.HHFW.RHO:RHOMAG1 Refl. coeff. line 1
\RHOMAG2 \RF::TOP.HHFW.RHO:RHOMAG2 Refl. coeff. line 2
\RHOMAG3 \RF::TOP.HHFW.RHO:RHOMAG3 Refl. coeff. line 3
\RHOMAG4 \RF::TOP.HHFW.RHO:RHOMAG4 Refl. coeff. line 4
\RHOMAG5 \RF::TOP.HHFW.RHO:RHOMAG5 Refl. coeff. line 5
\RHOMAG6 \RF::TOP.HHFW.RHO:RHOMAG6 Refl. coeff. line 6
\VTAP1 \RF::TOP.HHFW.TAPPEDLINES:VTAP1 V tap 1
\VTAP2 \RF::TOP.HHFW.TAPPEDLINES:VTAP2 V tap 2
\VTAP3 \RF::TOP.HHFW.TAPPEDLINES:VTAP3 V tap 3
\VTAP4 \RF::TOP.HHFW.TAPPEDLINES:VTAP4 V tap 4
\VTAP5 \RF::TOP.HHFW.TAPPEDLINES:VTAP5 V tap 5
\VTAP6 \RF::TOP.HHFW.TAPPEDLINES:VTAP6 V tap 6
\REFL_DENSITY \RF::TOP.ORNLREFL.ANALYZED:REFL_DENSITY Label empty
\REFL_PHASE \RF::TOP.ORNLREFL.ANALYZED:REFL_PHASE Label empty
\REFLCOSPHI \RF::TOP.ORNLREFL.REFLSIGS:REFLCOSPHI Refl. freq.
\REFLSINPHI \RF::TOP.ORNLREFL.REFLSIGS:REFLSINPHI Refl. signal
no tag available \RF::TOP.ECH:KLYSFWD1 Klystron 1 forward power
no tag available \RF::TOP.HHFW.ANTENNASIGS:IANTMAG05 Iantenna 05
no tag available \RF::TOP.HHFW.CROSSSIGS:VTPH6 Vcube phase 6
\FDBKCNTRL_2_DV \RF::TOP.HHFW.CSITESIGS:RF1HPAIP 1 hpa plate current (ip)
no tag available \RF::TOP.HHFW.CSITESIGS:RF3FPAIP 3 fpa plate current (ip)
no tag available \RF::TOP.HHFW.CSITESIGS:RF3IPAIP 3 ipa plate current (ip)
no tag available \RF::TOP.HHFW.CSITESIGS:RF3NARC 3 arc or narc from fbc
no tag available \RF::TOP.HHFW.CSITESIGS:RF6DRVRIP 6 drvr plate current (ip)
no tag available \RF::TOP.HHFW.CSITESIGS:RF6FPAPDISS 6 fpa plate dissipation
no tag available \RF::TOP.HHFW.CSITESIGS:RF6SBANDDET 6 l/s-band detector
no tag available \RF::TOP.HHFW.LOOP_PROBE:J_TOP Rf loop probe 1
no tag available \RF::TOP.HHFW.POWERSIGS:HHFW_POWER Hhfw power
no tag available \RF::TOP.HHFW.POWERSIGS:PFWDMAG2 Pfwd 2
no tag available \RF::TOP.HHFW.POWERSIGS:PFWDMAG3 Pfwd 3
no tag available \RF::TOP.HHFW.POWERSIGS:PFWDMAG4 Pfwd 4
no tag available \RF::TOP.HHFW.POWERSIGS:PFWDMAG6 Pfwd 6
no tag available \RF::TOP.HHFW.POWERSIGS:PFWDREFPH1 Pwr phase 1
no tag available \RF::TOP.HHFW.POWERSIGS:PFWDREFPH2 Pwr phase 2
no tag available \RF::TOP.HHFW.POWERSIGS:PFWDREFPH4 Pwr phase 4
no tag available \RF::TOP.HHFW.POWERSIGS:PFWDREFPH5 Pwr phase 5
no tag available \RF::TOP.HHFW.POWERSIGS:PNET6 Net power line 6
no tag available \RF::TOP.HHFW.POWERSIGS:PREFMAG1 Prefl 1
no tag available \RF::TOP.HHFW.POWERSIGS:PREFMAG2 Prefl 2
no tag available \RF::TOP.HHFW.POWERSIGS:PREFMAG3 Prefl 3
no tag available \RF::TOP.HHFW.POWERSIGS:PREFMAG4 Prefl 4
no tag available \RF::TOP.HHFW.POWERSIGS:PREFMAG5 Prefl 5
no tag available \RF::TOP.HHFW.RHO:RHOMAG1 Refl. coeff. line 1
no tag available \RF::TOP.HHFW.RHO:RHOMAG3 Refl. coeff. line 3
USXR
Tag Full Path to Node Label/Description
\USXR_HDOWN_00 \USXR::TOP.HDOWN:CHORD_00 Mult-energy sxr xxxx channel 00
\USXR_HDOWN_01 \USXR::TOP.HDOWN:CHORD_01 Mult-energy sxr xxxx channel 01
\USXR_HDOWN_02 \USXR::TOP.HDOWN:CHORD_02 Mult-energy sxr xxxx channel 02
\USXR_HDOWN_03 \USXR::TOP.HDOWN:CHORD_03 Mult-energy sxr xxxx channel 03
\USXR_HDOWN_04 \USXR::TOP.HDOWN:CHORD_04 Mult-energy sxr xxxx channel 04
\USXR_HDOWN_05 \USXR::TOP.HDOWN:CHORD_05 Mult-energy sxr xxxx channel 05
\USXR_HDOWN_06 \USXR::TOP.HDOWN:CHORD_06 Mult-energy sxr xxxx channel 06
\USXR_HDOWN_07 \USXR::TOP.HDOWN:CHORD_07 Mult-energy sxr xxxx channel 07
\USXR_HDOWN_08 \USXR::TOP.HDOWN:CHORD_08 Mult-energy sxr xxxx channel 08
\USXR_HDOWN_09 \USXR::TOP.HDOWN:CHORD_09 Mult-energy sxr xxxx channel 09
\USXR_HDOWN_10 \USXR::TOP.HDOWN:CHORD_10 Mult-energy sxr xxxx channel 10
\USXR_HDOWN_11 \USXR::TOP.HDOWN:CHORD_11 Mult-energy sxr xxxx channel 11
\USXR_HDOWN_12 \USXR::TOP.HDOWN:CHORD_12 Mult-energy sxr xxxx channel 12
\USXR_HDOWN_13 \USXR::TOP.HDOWN:CHORD_13 Mult-energy sxr xxxx channel 13
\USXR_HDOWN_14 \USXR::TOP.HDOWN:CHORD_14 Mult-energy sxr xxxx channel 14
\USXR_HDOWN_15 \USXR::TOP.HDOWN:CHORD_15 Mult-energy sxr xxxx channel 15
\USXR_HUP_00 \USXR::TOP.HUP:CHORD_00 Mult-energy sxr xxxx channel 00
\USXR_HUP_01 \USXR::TOP.HUP:CHORD_01 Mult-energy sxr xxxx channel 01
\USXR_HUP_02 \USXR::TOP.HUP:CHORD_02 Mult-energy sxr xxxx channel 02
\USXR_HUP_03 \USXR::TOP.HUP:CHORD_03 Mult-energy sxr xxxx channel 03
\USXR_HUP_04 \USXR::TOP.HUP:CHORD_04 Mult-energy sxr xxxx channel 04
\USXR_HUP_05 \USXR::TOP.HUP:CHORD_05 Mult-energy sxr xxxx channel 05
\USXR_HUP_06 \USXR::TOP.HUP:CHORD_06 Mult-energy sxr xxxx channel 06
\USXR_HUP_07 \USXR::TOP.HUP:CHORD_07 Mult-energy sxr xxxx channel 07
\USXR_HUP_08 \USXR::TOP.HUP:CHORD_08 Mult-energy sxr xxxx channel 08
\USXR_HUP_09 \USXR::TOP.HUP:CHORD_09 Mult-energy sxr xxxx channel 09
\USXR_HUP_10 \USXR::TOP.HUP:CHORD_10 Mult-energy sxr xxxx channel 10
\USXR_HUP_11 \USXR::TOP.HUP:CHORD_11 Mult-energy sxr xxxx channel 11
\USXR_HUP_12 \USXR::TOP.HUP:CHORD_12 Mult-energy sxr xxxx channel 12
\USXR_HUP_13 \USXR::TOP.HUP:CHORD_13 Mult-energy sxr xxxx channel 13
\USXR_HUP_14 \USXR::TOP.HUP:CHORD_14 Mult-energy sxr xxxx channel 14
\USXR_HUP_15 \USXR::TOP.HUP:CHORD_15 Mult-energy sxr xxxx channel 15
\MESXR_CORE00_00 \USXR::TOP.MESXR_CORE00:CHORD_00 Mult-energy sxr yyyy channel 00
\MESXR_CORE00_01 \USXR::TOP.MESXR_CORE00:CHORD_01 Mult-energy sxr yyyy channel 01
\MESXR_CORE00_02 \USXR::TOP.MESXR_CORE00:CHORD_02 Mult-energy sxr yyyy channel 02
\MESXR_CORE00_03 \USXR::TOP.MESXR_CORE00:CHORD_03 Mult-energy sxr yyyy channel 03
\MESXR_CORE00_16 \USXR::TOP.MESXR_CORE00:CHORD_04 Mult-energy sxr yyyy channel 04
\MESXR_CORE00_05 \USXR::TOP.MESXR_CORE00:CHORD_05 Mult-energy sxr yyyy channel 05
\MESXR_CORE00_06 \USXR::TOP.MESXR_CORE00:CHORD_06 Mult-energy sxr yyyy channel 06
\MESXR_CORE00_07 \USXR::TOP.MESXR_CORE00:CHORD_07 Mult-energy sxr yyyy channel 07
\MESXR_CORE00_08 \USXR::TOP.MESXR_CORE00:CHORD_08 Mult-energy sxr yyyy channel 08
\MESXR_CORE00_09 \USXR::TOP.MESXR_CORE00:CHORD_09 Mult-energy sxr yyyy channel 09
\MESXR_CORE00_10 \USXR::TOP.MESXR_CORE00:CHORD_10 Mult-energy sxr yyyy channel 10
\MESXR_CORE00_11 \USXR::TOP.MESXR_CORE00:CHORD_11 Mult-energy sxr yyyy channel 11
\MESXR_CORE00_12 \USXR::TOP.MESXR_CORE00:CHORD_12 Mult-energy sxr yyyy channel 12
\MESXR_CORE00_13 \USXR::TOP.MESXR_CORE00:CHORD_13 Mult-energy sxr yyyy channel 13
\MESXR_CORE00_14 \USXR::TOP.MESXR_CORE00:CHORD_14 Mult-energy sxr yyyy channel 14
\MESXR_CORE00_01 \USXR::TOP.MESXR_CORE00:CHORD_15 Mult-energy sxr yyyy channel 15
\MESXR_CORE00_16 \USXR::TOP.MESXR_CORE00:CHORD_16 Mult-energy sxr yyyy channel 16
\MESXR_CORE00_17 \USXR::TOP.MESXR_CORE00:CHORD_17 Mult-energy sxr yyyy channel 17
\MESXR_CORE00_18 \USXR::TOP.MESXR_CORE00:CHORD_18 Mult-energy sxr yyyy channel 18
\MESXR_CORE00_19 \USXR::TOP.MESXR_CORE00:CHORD_19 Mult-energy sxr yyyy channel 19
\MESXR_CORE01_00 \USXR::TOP.MESXR_CORE01:CHORD_00 Mult-energy sxr yyyy channel 00
\MESXR_CORE01_01 \USXR::TOP.MESXR_CORE01:CHORD_01 Mult-energy sxr yyyy channel 01
\MESXR_CORE01_02 \USXR::TOP.MESXR_CORE01:CHORD_02 Mult-energy sxr yyyy channel 02
\MESXR_CORE01_03 \USXR::TOP.MESXR_CORE01:CHORD_03 Mult-energy sxr yyyy channel 03
\MESXR_CORE01_04 \USXR::TOP.MESXR_CORE01:CHORD_04 Mult-energy sxr yyyy channel 04
\MESXR_CORE01_05 \USXR::TOP.MESXR_CORE01:CHORD_05 Mult-energy sxr yyyy channel 05
\MESXR_CORE01_06 \USXR::TOP.MESXR_CORE01:CHORD_06 Mult-energy sxr yyyy channel 06
\MESXR_CORE01_07 \USXR::TOP.MESXR_CORE01:CHORD_07 Mult-energy sxr yyyy channel 07
\MESXR_CORE01_08 \USXR::TOP.MESXR_CORE01:CHORD_08 Mult-energy sxr yyyy channel 08
\MESXR_CORE01_09 \USXR::TOP.MESXR_CORE01:CHORD_09 Mult-energy sxr yyyy channel 09
\MESXR_CORE01_10 \USXR::TOP.MESXR_CORE01:CHORD_10 Mult-energy sxr yyyy channel 10
\MESXR_CORE01_11 \USXR::TOP.MESXR_CORE01:CHORD_11 Mult-energy sxr yyyy channel 11
\MESXR_CORE01_12 \USXR::TOP.MESXR_CORE01:CHORD_12 Mult-energy sxr yyyy channel 12
\MESXR_CORE01_13 \USXR::TOP.MESXR_CORE01:CHORD_13 Mult-energy sxr yyyy channel 13
\MESXR_CORE01_14 \USXR::TOP.MESXR_CORE01:CHORD_14 Mult-energy sxr yyyy channel 14
\MESXR_CORE01_15 \USXR::TOP.MESXR_CORE01:CHORD_15 Mult-energy sxr yyyy channel 15
\MESXR_CORE01_16 \USXR::TOP.MESXR_CORE01:CHORD_16 Mult-energy sxr yyyy channel 16
\MESXR_CORE01_17 \USXR::TOP.MESXR_CORE01:CHORD_17 Mult-energy sxr yyyy channel 17
\MESXR_CORE01_18 \USXR::TOP.MESXR_CORE01:CHORD_18 Mult-energy sxr yyyy channel 18
\MESXR_CORE02_00 \USXR::TOP.MESXR_CORE02:CHORD_00 Mult-energy sxr yyyy channel 00
\MESXR_CORE02_01 \USXR::TOP.MESXR_CORE02:CHORD_01 Mult-energy sxr yyyy channel 01
\MESXR_CORE02_02 \USXR::TOP.MESXR_CORE02:CHORD_02 Mult-energy sxr yyyy channel 02
\MESXR_CORE02_03 \USXR::TOP.MESXR_CORE02:CHORD_03 Mult-energy sxr yyyy channel 03
\MESXR_CORE02_04 \USXR::TOP.MESXR_CORE02:CHORD_04 Mult-energy sxr yyyy channel 04
\MESXR_CORE02_05 \USXR::TOP.MESXR_CORE02:CHORD_05 Mult-energy sxr yyyy channel 05
\MESXR_CORE02_06 \USXR::TOP.MESXR_CORE02:CHORD_06 Mult-energy sxr yyyy channel 06
\MESXR_CORE02_07 \USXR::TOP.MESXR_CORE02:CHORD_07 Mult-energy sxr yyyy channel 07
\MESXR_CORE02_08 \USXR::TOP.MESXR_CORE02:CHORD_08 Mult-energy sxr yyyy channel 08
\MESXR_CORE02_09 \USXR::TOP.MESXR_CORE02:CHORD_09 Mult-energy sxr yyyy channel 09
\MESXR_CORE02_10 \USXR::TOP.MESXR_CORE02:CHORD_10 Mult-energy sxr yyyy channel 10
\MESXR_CORE02_11 \USXR::TOP.MESXR_CORE02:CHORD_11 Mult-energy sxr yyyy channel 11
\MESXR_CORE02_12 \USXR::TOP.MESXR_CORE02:CHORD_12 Mult-energy sxr yyyy channel 12
\MESXR_CORE02_13 \USXR::TOP.MESXR_CORE02:CHORD_13 Mult-energy sxr yyyy channel 13
\MESXR_CORE02_14 \USXR::TOP.MESXR_CORE02:CHORD_14 Mult-energy sxr yyyy channel 14
\MESXR_CORE02_15 \USXR::TOP.MESXR_CORE02:CHORD_15 Mult-energy sxr yyyy channel 15
\MESXR_CORE02_16 \USXR::TOP.MESXR_CORE02:CHORD_16 Mult-energy sxr yyyy channel 16
\MESXR_CORE02_17 \USXR::TOP.MESXR_CORE02:CHORD_17 Mult-energy sxr yyyy channel 17
\MESXR_CORE02_18 \USXR::TOP.MESXR_CORE02:CHORD_18 Mult-energy sxr yyyy channel 18
\MESXR_CORE03_00 \USXR::TOP.MESXR_CORE03:CHORD_00 Mult-energy sxr yyyy channel 00
\MESXR_CORE03_01 \USXR::TOP.MESXR_CORE03:CHORD_01 Mult-energy sxr yyyy channel 01
\MESXR_CORE03_02 \USXR::TOP.MESXR_CORE03:CHORD_02 Mult-energy sxr yyyy channel 02
\MESXR_CORE03_03 \USXR::TOP.MESXR_CORE03:CHORD_03 Mult-energy sxr yyyy channel 03
\MESXR_CORE03_04 \USXR::TOP.MESXR_CORE03:CHORD_04 Mult-energy sxr yyyy channel 04
\MESXR_CORE03_05 \USXR::TOP.MESXR_CORE03:CHORD_05 Mult-energy sxr yyyy channel 05
\MESXR_CORE03_06 \USXR::TOP.MESXR_CORE03:CHORD_06 Mult-energy sxr yyyy channel 06
\MESXR_CORE03_07 \USXR::TOP.MESXR_CORE03:CHORD_07 Mult-energy sxr yyyy channel 07
\MESXR_CORE03_08 \USXR::TOP.MESXR_CORE03:CHORD_08 Mult-energy sxr yyyy channel 08
\MESXR_CORE03_09 \USXR::TOP.MESXR_CORE03:CHORD_09 Mult-energy sxr yyyy channel 09
\MESXR_CORE03_10 \USXR::TOP.MESXR_CORE03:CHORD_10 Mult-energy sxr yyyy channel 10
\MESXR_CORE03_11 \USXR::TOP.MESXR_CORE03:CHORD_11 Mult-energy sxr yyyy channel 11
\MESXR_CORE03_12 \USXR::TOP.MESXR_CORE03:CHORD_12 Mult-energy sxr yyyy channel 12
\MESXR_CORE03_13 \USXR::TOP.MESXR_CORE03:CHORD_13 Mult-energy sxr yyyy channel 13
\MESXR_CORE03_14 \USXR::TOP.MESXR_CORE03:CHORD_14 Mult-energy sxr yyyy channel 14
\MESXR_CORE03_15 \USXR::TOP.MESXR_CORE03:CHORD_15 Mult-energy sxr yyyy channel 15
\MESXR_CORE03_16 \USXR::TOP.MESXR_CORE03:CHORD_16 Mult-energy sxr yyyy channel 16
\MESXR_CORE03_17 \USXR::TOP.MESXR_CORE03:CHORD_17 Mult-energy sxr yyyy channel 17
\MESXR_CORE03_18 \USXR::TOP.MESXR_CORE03:CHORD_18 Mult-energy sxr yyyy channel 18
\MESXR_CORE04_00 \USXR::TOP.MESXR_CORE04:CHORD_00 Mult-energy sxr yyyy channel 00
\MESXR_CORE04_01 \USXR::TOP.MESXR_CORE04:CHORD_01 Mult-energy sxr yyyy channel 01
\MESXR_CORE04_02 \USXR::TOP.MESXR_CORE04:CHORD_02 Mult-energy sxr yyyy channel 02
\MESXR_CORE04_03 \USXR::TOP.MESXR_CORE04:CHORD_03 Mult-energy sxr yyyy channel 03
\MESXR_CORE00_06 \USXR::TOP.MESXR_CORE04:CHORD_04 Mult-energy sxr yyyy channel 04
\MESXR_CORE04_05 \USXR::TOP.MESXR_CORE04:CHORD_05 Mult-energy sxr yyyy channel 05
\MESXR_CORE04_06 \USXR::TOP.MESXR_CORE04:CHORD_06 Mult-energy sxr yyyy channel 06
\MESXR_CORE04_07 \USXR::TOP.MESXR_CORE04:CHORD_07 Mult-energy sxr yyyy channel 07
\MESXR_CORE04_08 \USXR::TOP.MESXR_CORE04:CHORD_08 Mult-energy sxr yyyy channel 08
\MESXR_CORE04_09 \USXR::TOP.MESXR_CORE04:CHORD_09 Mult-energy sxr yyyy channel 09
\MESXR_CORE04_10 \USXR::TOP.MESXR_CORE04:CHORD_10 Mult-energy sxr yyyy channel 10
\MESXR_CORE04_11 \USXR::TOP.MESXR_CORE04:CHORD_11 Mult-energy sxr yyyy channel 11
\MESXR_CORE04_12 \USXR::TOP.MESXR_CORE04:CHORD_12 Mult-energy sxr yyyy channel 12
\MESXR_CORE04_13 \USXR::TOP.MESXR_CORE04:CHORD_13 Mult-energy sxr yyyy channel 13
\MESXR_CORE04_14 \USXR::TOP.MESXR_CORE04:CHORD_14 Mult-energy sxr yyyy channel 14
\MESXR_CORE04_15 \USXR::TOP.MESXR_CORE04:CHORD_15 Mult-energy sxr yyyy channel 15
\MESXR_CORE04_16 \USXR::TOP.MESXR_CORE04:CHORD_16 Mult-energy sxr yyyy channel 16
\MESXR_CORE04_17 \USXR::TOP.MESXR_CORE04:CHORD_17 Mult-energy sxr yyyy channel 17
\MESXR_CORE04_18 \USXR::TOP.MESXR_CORE04:CHORD_18 Mult-energy sxr yyyy channel 18
\MESXR_EDGE00_00 \USXR::TOP.MESXR_EDGE00:CHORD_00 Mult-energy sxr yyyy channel 00
\US_DT196_03 \USXR::TOP.MESXR_EDGE00:CHORD_01 Mult-energy sxr yyyy channel 01
\MESXR_EDGE00_02 \USXR::TOP.MESXR_EDGE00:CHORD_02 Mult-energy sxr yyyy channel 02
\MESXR_EDGE00_03 \USXR::TOP.MESXR_EDGE00:CHORD_03 Mult-energy sxr yyyy channel 03
\MESXR_EDGE00_04 \USXR::TOP.MESXR_EDGE00:CHORD_04 Mult-energy sxr yyyy channel 04
\MESXR_EDGE00_05 \USXR::TOP.MESXR_EDGE00:CHORD_05 Mult-energy sxr yyyy channel 05
\MESXR_EDGE00_06 \USXR::TOP.MESXR_EDGE00:CHORD_06 Mult-energy sxr yyyy channel 06
\MESXR_EDGE00_07 \USXR::TOP.MESXR_EDGE00:CHORD_07 Mult-energy sxr yyyy channel 07
\MESXR_EDGE00_08 \USXR::TOP.MESXR_EDGE00:CHORD_08 Mult-energy sxr yyyy channel 08
\MESXR_EDGE00_09 \USXR::TOP.MESXR_EDGE00:CHORD_09 Mult-energy sxr yyyy channel 09
\MESXR_EDGE00_10 \USXR::TOP.MESXR_EDGE00:CHORD_10 Mult-energy sxr yyyy channel 10
\MESXR_EDGE00_11 \USXR::TOP.MESXR_EDGE00:CHORD_11 Mult-energy sxr yyyy channel 11
\MESXR_EDGE00_12 \USXR::TOP.MESXR_EDGE00:CHORD_12 Mult-energy sxr yyyy channel 12
\MESXR_EDGE00_13 \USXR::TOP.MESXR_EDGE00:CHORD_13 Mult-energy sxr yyyy channel 13
\MESXR_EDGE00_14 \USXR::TOP.MESXR_EDGE00:CHORD_14 Mult-energy sxr yyyy channel 14
\MESXR_EDGE00_15 \USXR::TOP.MESXR_EDGE00:CHORD_15 Mult-energy sxr yyyy channel 15
\MESXR_EDGE00_16 \USXR::TOP.MESXR_EDGE00:CHORD_16 Mult-energy sxr yyyy channel 16
\MESXR_EDGE00_17 \USXR::TOP.MESXR_EDGE00:CHORD_17 Mult-energy sxr yyyy channel 17
\MESXR_EDGE00_18 \USXR::TOP.MESXR_EDGE00:CHORD_18 Mult-energy sxr yyyy channel 18
\MESXR_EDGE00_19 \USXR::TOP.MESXR_EDGE00:CHORD_19 Mult-energy sxr yyyy channel 19
\MESXR_EDGE01_00 \USXR::TOP.MESXR_EDGE01:CHORD_00 Mult-energy sxr yyyy channel 00
\MESXR_EDGE01_01 \USXR::TOP.MESXR_EDGE01:CHORD_01 Mult-energy sxr yyyy channel 01
\MESXR_EDGE01_02 \USXR::TOP.MESXR_EDGE01:CHORD_02 Mult-energy sxr yyyy channel 02
\MESXR_EDGE01_03 \USXR::TOP.MESXR_EDGE01:CHORD_03 Mult-energy sxr yyyy channel 03
\MESXR_EDGE01_04 \USXR::TOP.MESXR_EDGE01:CHORD_04 Mult-energy sxr yyyy channel 04
\MESXR_EDGE01_05 \USXR::TOP.MESXR_EDGE01:CHORD_05 Mult-energy sxr yyyy channel 05
\MESXR_EDGE01_06 \USXR::TOP.MESXR_EDGE01:CHORD_06 Mult-energy sxr yyyy channel 06
\MESXR_EDGE01_07 \USXR::TOP.MESXR_EDGE01:CHORD_07 Mult-energy sxr yyyy channel 07
\MESXR_EDGE01_08 \USXR::TOP.MESXR_EDGE01:CHORD_08 Mult-energy sxr yyyy channel 08
\MESXR_EDGE01_09 \USXR::TOP.MESXR_EDGE01:CHORD_09 Mult-energy sxr yyyy channel 09
\MESXR_EDGE01_10 \USXR::TOP.MESXR_EDGE01:CHORD_10 Mult-energy sxr yyyy channel 10
\MESXR_EDGE01_11 \USXR::TOP.MESXR_EDGE01:CHORD_11 Mult-energy sxr yyyy channel 11
\MESXR_EDGE01_12 \USXR::TOP.MESXR_EDGE01:CHORD_12 Mult-energy sxr yyyy channel 12
\MESXR_EDGE01_13 \USXR::TOP.MESXR_EDGE01:CHORD_13 Mult-energy sxr yyyy channel 13
\MESXR_EDGE01_14 \USXR::TOP.MESXR_EDGE01:CHORD_14 Mult-energy sxr yyyy channel 14
\MESXR_EDGE01_15 \USXR::TOP.MESXR_EDGE01:CHORD_15 Mult-energy sxr yyyy channel 15
\MESXR_EDGE01_16 \USXR::TOP.MESXR_EDGE01:CHORD_16 Mult-energy sxr yyyy channel 16
\MESXR_EDGE01_17 \USXR::TOP.MESXR_EDGE01:CHORD_17 Mult-energy sxr yyyy channel 17
\MESXR_EDGE01_18 \USXR::TOP.MESXR_EDGE01:CHORD_18 Mult-energy sxr yyyy channel 18
\MESXR_EDGE02_00 \USXR::TOP.MESXR_EDGE02:CHORD_00 Mult-energy sxr yyyy channel 00
\MESXR_EDGE02_01 \USXR::TOP.MESXR_EDGE02:CHORD_01 Mult-energy sxr yyyy channel 01
\MESXR_EDGE02_02 \USXR::TOP.MESXR_EDGE02:CHORD_02 Mult-energy sxr yyyy channel 02
\MESXR_EDGE02_03 \USXR::TOP.MESXR_EDGE02:CHORD_03 Mult-energy sxr yyyy channel 03
\MESXR_EDGE02_04 \USXR::TOP.MESXR_EDGE02:CHORD_04 Mult-energy sxr yyyy channel 04
\MESXR_EDGE02_05 \USXR::TOP.MESXR_EDGE02:CHORD_05 Mult-energy sxr yyyy channel 05
\MESXR_EDGE02_06 \USXR::TOP.MESXR_EDGE02:CHORD_06 Mult-energy sxr yyyy channel 06
\MESXR_EDGE02_07 \USXR::TOP.MESXR_EDGE02:CHORD_07 Mult-energy sxr yyyy channel 07
\MESXR_EDGE02_08 \USXR::TOP.MESXR_EDGE02:CHORD_08 Mult-energy sxr yyyy channel 08
\MESXR_EDGE02_09 \USXR::TOP.MESXR_EDGE02:CHORD_09 Mult-energy sxr yyyy channel 09
\MESXR_EDGE02_10 \USXR::TOP.MESXR_EDGE02:CHORD_10 Mult-energy sxr yyyy channel 10
\MESXR_EDGE02_11 \USXR::TOP.MESXR_EDGE02:CHORD_11 Mult-energy sxr yyyy channel 11
\MESXR_EDGE02_12 \USXR::TOP.MESXR_EDGE02:CHORD_12 Mult-energy sxr yyyy channel 12
\MESXR_EDGE02_13 \USXR::TOP.MESXR_EDGE02:CHORD_13 Mult-energy sxr yyyy channel 13
\MESXR_EDGE02_14 \USXR::TOP.MESXR_EDGE02:CHORD_14 Mult-energy sxr yyyy channel 14
\MESXR_EDGE02_15 \USXR::TOP.MESXR_EDGE02:CHORD_15 Mult-energy sxr yyyy channel 15
\MESXR_EDGE02_16 \USXR::TOP.MESXR_EDGE02:CHORD_16 Mult-energy sxr yyyy channel 16
\MESXR_EDGE02_17 \USXR::TOP.MESXR_EDGE02:CHORD_17 Mult-energy sxr yyyy channel 17
\MESXR_EDGE02_18 \USXR::TOP.MESXR_EDGE02:CHORD_18 Mult-energy sxr yyyy channel 18
\MESXR_EDGE03_00 \USXR::TOP.MESXR_EDGE03:CHORD_00 Mult-energy sxr yyyy channel 00
\MESXR_EDGE03_01 \USXR::TOP.MESXR_EDGE03:CHORD_01 Mult-energy sxr yyyy channel 01
\MESXR_EDGE03_02 \USXR::TOP.MESXR_EDGE03:CHORD_02 Mult-energy sxr yyyy channel 02
\MESXR_EDGE03_03 \USXR::TOP.MESXR_EDGE03:CHORD_03 Mult-energy sxr yyyy channel 03
\MESXR_EDGE03_04 \USXR::TOP.MESXR_EDGE03:CHORD_04 Mult-energy sxr yyyy channel 04
\MESXR_EDGE03_05 \USXR::TOP.MESXR_EDGE03:CHORD_05 Mult-energy sxr yyyy channel 05
\MESXR_EDGE03_06 \USXR::TOP.MESXR_EDGE03:CHORD_06 Mult-energy sxr yyyy channel 06
\MESXR_EDGE03_07 \USXR::TOP.MESXR_EDGE03:CHORD_07 Mult-energy sxr yyyy channel 07
\MESXR_EDGE03_08 \USXR::TOP.MESXR_EDGE03:CHORD_08 Mult-energy sxr yyyy channel 08
\MESXR_EDGE03_09 \USXR::TOP.MESXR_EDGE03:CHORD_09 Mult-energy sxr yyyy channel 09
\MESXR_EDGE03_10 \USXR::TOP.MESXR_EDGE03:CHORD_10 Mult-energy sxr yyyy channel 10
\MESXR_EDGE03_11 \USXR::TOP.MESXR_EDGE03:CHORD_11 Mult-energy sxr yyyy channel 11
\MESXR_EDGE03_12 \USXR::TOP.MESXR_EDGE03:CHORD_12 Mult-energy sxr yyyy channel 12
\MESXR_EDGE03_13 \USXR::TOP.MESXR_EDGE03:CHORD_13 Mult-energy sxr yyyy channel 13
\MESXR_EDGE03_14 \USXR::TOP.MESXR_EDGE03:CHORD_14 Mult-energy sxr yyyy channel 14
\MESXR_EDGE03_15 \USXR::TOP.MESXR_EDGE03:CHORD_15 Mult-energy sxr yyyy channel 15
\MESXR_EDGE03_16 \USXR::TOP.MESXR_EDGE03:CHORD_16 Mult-energy sxr yyyy channel 16
\MESXR_EDGE03_17 \USXR::TOP.MESXR_EDGE03:CHORD_17 Mult-energy sxr yyyy channel 17
\MESXR_CORE01_03 \USXR::TOP.MESXR_EDGE03:CHORD_18 Mult-energy sxr yyyy channel 18
\MESXR_EDGE04_00 \USXR::TOP.MESXR_EDGE04:CHORD_00 Mult-energy sxr yyyy channel 00
\MESXR_EDGE04_01 \USXR::TOP.MESXR_EDGE04:CHORD_01 Mult-energy sxr yyyy channel 01
\MESXR_EDGE04_02 \USXR::TOP.MESXR_EDGE04:CHORD_02 Mult-energy sxr yyyy channel 02
\MESXR_EDGE04_03 \USXR::TOP.MESXR_EDGE04:CHORD_03 Mult-energy sxr yyyy channel 03
\MESXR_EDGE04_04 \USXR::TOP.MESXR_EDGE04:CHORD_04 Mult-energy sxr yyyy channel 04
\MESXR_EDGE04_05 \USXR::TOP.MESXR_EDGE04:CHORD_05 Mult-energy sxr yyyy channel 05
\MESXR_EDGE04_06 \USXR::TOP.MESXR_EDGE04:CHORD_06 Mult-energy sxr yyyy channel 06
\MESXR_CORE00_07 \USXR::TOP.MESXR_EDGE04:CHORD_07 Mult-energy sxr yyyy channel 07
\MESXR_EDGE04_08 \USXR::TOP.MESXR_EDGE04:CHORD_08 Mult-energy sxr yyyy channel 08
\MESXR_EDGE04_09 \USXR::TOP.MESXR_EDGE04:CHORD_09 Mult-energy sxr yyyy channel 09
\MESXR_EDGE04_10 \USXR::TOP.MESXR_EDGE04:CHORD_10 Mult-energy sxr yyyy channel 10
\MESXR_EDGE04_11 \USXR::TOP.MESXR_EDGE04:CHORD_11 Mult-energy sxr yyyy channel 11
\MESXR_EDGE04_12 \USXR::TOP.MESXR_EDGE04:CHORD_12 Mult-energy sxr yyyy channel 12
\MESXR_EDGE04_13 \USXR::TOP.MESXR_EDGE04:CHORD_13 Mult-energy sxr yyyy channel 13
\MESXR_CORE00_12 \USXR::TOP.MESXR_EDGE04:CHORD_14 Mult-energy sxr yyyy channel 14
\MESXR_EDGE04_15 \USXR::TOP.MESXR_EDGE04:CHORD_15 Mult-energy sxr yyyy channel 15
\MESXR_EDGE04_16 \USXR::TOP.MESXR_EDGE04:CHORD_16 Mult-energy sxr yyyy channel 16
\MESXR_EDGE04_17 \USXR::TOP.MESXR_EDGE04:CHORD_17 Mult-energy sxr yyyy channel 17
\MESXR_EDGE04_18 \USXR::TOP.MESXR_EDGE04:CHORD_18 Mult-energy sxr yyyy channel 18
\TOSXR_LOW_00 \USXR::TOP.A6:CHORD00_CAL Low tangential optical soft xray chord 00
\TOSXR_LOW_01 \USXR::TOP.A6:CHORD01_CAL Low tangential optical soft xray chord 01
\TOSXR_LOW_02 \USXR::TOP.A6:CHORD02_CAL Low tangential optical soft xray chord 02
\TOSXR_LOW_03 \USXR::TOP.A6:CHORD03_CAL Low tangential optical soft xray chord 03
\TOSXR_LOW_04 \USXR::TOP.A6:CHORD04_CAL Low tangential optical soft xray chord 04
\TOSXR_LOW_05 \USXR::TOP.A6:CHORD05_CAL Low tangential optical soft xray chord 05
\TOSXR_LOW_06 \USXR::TOP.A6:CHORD06_CAL Low tangential optical soft xray chord 06
\TOSXR_LOW_07 \USXR::TOP.A6:CHORD07_CAL Low tangential optical soft xray chord 07
\TOSXR_LOW_08 \USXR::TOP.A6:CHORD08_CAL Low tangential optical soft xray chord 08
\TOSXR_LOW_09 \USXR::TOP.A6:CHORD09_CAL Low tangential optical soft xray chord 09
\TOSXR_LOW_10 \USXR::TOP.A6:CHORD10_CAL Low tangential optical soft xray chord 10
\TOSXR_LOW_11 \USXR::TOP.A6:CHORD11_CAL Low tangential optical soft xray chord 11
\TOSXR_LOW_12 \USXR::TOP.A6:CHORD12_CAL Low tangential optical soft xray chord 12
\TOSXR_LOW_13 \USXR::TOP.A6:CHORD13_CAL Low tangential optical soft xray chord 13
\TOSXR_LOW_14 \USXR::TOP.A6:CHORD14_CAL Low tangential optical soft xray chord 14
\TOSXR_LOW_15 \USXR::TOP.A6:CHORD15_CAL Low tangential optical soft xray chord 15
\TOSXR_MED_00 \USXR::TOP.A7:CHORD00_CAL Med tangential optical soft xray chord 00
\TOSXR_MED_01 \USXR::TOP.A7:CHORD01_CAL Med tangential optical soft xray chord 01
\TOSXR_MED_02 \USXR::TOP.A7:CHORD02_CAL Med tangential optical soft xray chord 02
\TOSXR_MED_03 \USXR::TOP.A7:CHORD03_CAL Med tangential optical soft xray chord 03
\TOSXR_MED_04 \USXR::TOP.A7:CHORD04_CAL Med tangential optical soft xray chord 04
\TOSXR_MED_05 \USXR::TOP.A7:CHORD05_CAL Med tangential optical soft xray chord 05
\TOSXR_MED_06 \USXR::TOP.A7:CHORD06_CAL Med tangential optical soft xray chord 06
\TOSXR_MED_07 \USXR::TOP.A7:CHORD07_CAL Med tangential optical soft xray chord 07
\TOSXR_MED_08 \USXR::TOP.A7:CHORD08_CAL Med tangential optical soft xray chord 08
\TOSXR_MED_09 \USXR::TOP.A7:CHORD09_CAL Med tangential optical soft xray chord 09
\TOSXR_MED_10 \USXR::TOP.A7:CHORD10_CAL Med tangential optical soft xray chord 10
\TOSXR_MED_11 \USXR::TOP.A7:CHORD11_CAL Med tangential optical soft xray chord 11
\TOSXR_MED_12 \USXR::TOP.A7:CHORD12_CAL Med tangential optical soft xray chord 12
\TOSXR_MED_13 \USXR::TOP.A7:CHORD13_CAL Med tangential optical soft xray chord 13
\TOSXR_MED_14 \USXR::TOP.A7:CHORD14_CAL Med tangential optical soft xray chord 14
\TOSXR_MED_15 \USXR::TOP.A7:CHORD15_CAL Med tangential optical soft xray chord 15
\TOSXR_HIGH_00 \USXR::TOP.A8:CHORD00_CAL High tangential optical soft xray chord 00
\TOSXR_HIGH_01 \USXR::TOP.A8:CHORD01_CAL High tangential optical soft xray chord 01
\TOSXR_HIGH_02 \USXR::TOP.A8:CHORD02_CAL High tangential optical soft xray chord 02
\TOSXR_HIGH_03 \USXR::TOP.A8:CHORD03_CAL High tangential optical soft xray chord 03
\TOSXR_HIGH_04 \USXR::TOP.A8:CHORD04_CAL High tangential optical soft xray chord 04
\TOSXR_HIGH_05 \USXR::TOP.A8:CHORD05_CAL High tangential optical soft xray chord 05
\TOSXR_HIGH_06 \USXR::TOP.A8:CHORD06_CAL High tangential optical soft xray chord 06
\TOSXR_HIGH_07 \USXR::TOP.A8:CHORD07_CAL High tangential optical soft xray chord 07
\TOSXR_HIGH_08 \USXR::TOP.A8:CHORD08_CAL High tangential optical soft xray chord 08
\TOSXR_HIGH_09 \USXR::TOP.A8:CHORD09_CAL High tangential optical soft xray chord 09
\TOSXR_HIGH_10 \USXR::TOP.A8:CHORD10_CAL High tangential optical soft xray chord 10
\TOSXR_HIGH_11 \USXR::TOP.A8:CHORD11_CAL High tangential optical soft xray chord 11
\TOSXR_HIGH_12 \USXR::TOP.A8:CHORD12_CAL High tangential optical soft xray chord 12
\TOSXR_HIGH_13 \USXR::TOP.A8:CHORD13_CAL High tangential optical soft xray chord 13
\TOSXR_HIGH_14 \USXR::TOP.A8:CHORD14_CAL High tangential optical soft xray chord 14
\TOSXR_HIGH_15 \USXR::TOP.A8:CHORD15_CAL High tangential optical soft xray chord 15
no tag available \USXR::TOP.GBOT:CHORD_00 Gbot chord 00
no tag available \USXR::TOP.GBOT:CHORD_01 Gbot chord 01
no tag available \USXR::TOP.GBOT:CHORD_02 Gbot chord 02
\USXR_GBOT_03 \USXR::TOP.GBOT:CHORD_03 Gbot chord 03
no tag available \USXR::TOP.GBOT:CHORD_04 Gbot chord 04
no tag available \USXR::TOP.GBOT:CHORD_05 Gbot chord 05
\USXR_GBOT_06 \USXR::TOP.GBOT:CHORD_06 Gbot chord 06
\USXR_GBOT_07 \USXR::TOP.GBOT:CHORD_07 Gbot chord 07
no tag available \USXR::TOP.GBOT:CHORD_08 Gbot chord 08
no tag available \USXR::TOP.GBOT:CHORD_09 Gbot chord 09
no tag available \USXR::TOP.GBOT:CHORD_10 Gbot chord 10
\USXR_GBOT_11 \USXR::TOP.GBOT:CHORD_11 Gbot chord 11
no tag available \USXR::TOP.GBOT:CHORD_12 Gbot chord 12
\USXR_GBOT_13 \USXR::TOP.GBOT:CHORD_13 Gbot chord 13
\USXR_GBOT_14 \USXR::TOP.GBOT:CHORD_14 Gbot chord 14
\USXR_GBOT_15 \USXR::TOP.GBOT:CHORD_15 Gbot chord 15
\USXR_GTOP_00 \USXR::TOP.GTOP:CHORD_00 Gtop chord 00
no tag available \USXR::TOP.GTOP:CHORD_01 Gtop chord 01
no tag available \USXR::TOP.GTOP:CHORD_02 Gtop chord 02
\USXR_GTOP_03 \USXR::TOP.GTOP:CHORD_03 Gtop chord 03
\USXR_GTOP_04 \USXR::TOP.GTOP:CHORD_04 Gtop chord 04
no tag available \USXR::TOP.GTOP:CHORD_05 Gtop chord 05
no tag available \USXR::TOP.GTOP:CHORD_06 Gtop chord 06
no tag available \USXR::TOP.GTOP:CHORD_07 Gtop chord 07
\USXR_GTOP_08 \USXR::TOP.GTOP:CHORD_08 Gtop chord 08
\USXR_GTOP_09 \USXR::TOP.GTOP:CHORD_09 Gtop chord 09
\USXR_GTOP_10 \USXR::TOP.GTOP:CHORD_10 Gtop chord 10
no tag available \USXR::TOP.GTOP:CHORD_11 Gtop chord 11
no tag available \USXR::TOP.GTOP:CHORD_12 Gtop chord 12
no tag available \USXR::TOP.GTOP:CHORD_13 Gtop chord 13
no tag available \USXR::TOP.GTOP:CHORD_14 Gtop chord 14
no tag available \USXR::TOP.GTOP:CHORD_15 Gtop chord 15
\USXR_HDOWN_00 \USXR::TOP.HDOWN:CHORD_00 Horizontal down chord 00 (midplane)
no tag available \USXR::TOP.HDOWN:CHORD_01 Horizontal down chord 01
no tag available \USXR::TOP.HDOWN:CHORD_02 Horizontal down chord 02
no tag available \USXR::TOP.HDOWN:CHORD_03 Horizontal down chord 03
no tag available \USXR::TOP.HDOWN:CHORD_04 Horizontal down chord 04
\USXR_HDOWN_05 \USXR::TOP.HDOWN:CHORD_05 Horizontal down chord 05
\USXR_HDOWN_06 \USXR::TOP.HDOWN:CHORD_06 Horizontal down chord 06
no tag available \USXR::TOP.HDOWN:CHORD_07 Horizontal down chord 07
no tag available \USXR::TOP.HDOWN:CHORD_08 Horizontal down chord 08
\USXR_HDOWN_09 \USXR::TOP.HDOWN:CHORD_09 Horizontal down chord 09
\USXR_HDOWN_10 \USXR::TOP.HDOWN:CHORD_10 Horizontal down chord 10
\USXR_HDOWN_11 \USXR::TOP.HDOWN:CHORD_11 Horizontal down chord 11
\USXR_HDOWN_12 \USXR::TOP.HDOWN:CHORD_12 Horizontal down chord 12
\USXR_HDOWN_13 \USXR::TOP.HDOWN:CHORD_13 Horizontal down chord 13
\USXR_HDOWN_14 \USXR::TOP.HDOWN:CHORD_14 Horizontal down chord 14
\USXR_HUP_00 \USXR::TOP.HUP:CHORD_00 Horizontal up chord 00
no tag available \USXR::TOP.HUP:CHORD_01 Horizontal up chord 01
no tag available \USXR::TOP.HUP:CHORD_02 Horizontal up chord 02
\USXR_HUP_03 \USXR::TOP.HUP:CHORD_03 Horizontal up chord 03
\USXR_HUP_04 \USXR::TOP.HUP:CHORD_04 Horizontal up chord 04
no tag available \USXR::TOP.HUP:CHORD_05 Horizontal up chord 05
no tag available \USXR::TOP.HUP:CHORD_06 Horizontal up chord 06
\USXR_HUP_07 \USXR::TOP.HUP:CHORD_07 Horizontal up chord 07
no tag available \USXR::TOP.HUP:CHORD_08 Horizontal up chord 08
no tag available \USXR::TOP.HUP:CHORD_09 Horizontal up chord 09
no tag available \USXR::TOP.HUP:CHORD_10 Horizontal up chord 10
no tag available \USXR::TOP.HUP:CHORD_11 Horizontal up chord 11
no tag available \USXR::TOP.HUP:CHORD_12 Horizontal up chord 12
no tag available \USXR::TOP.HUP:CHORD_13 Horizontal up chord 13
no tag available \USXR::TOP.HUP:CHORD_14 Horizontal up chord 14 (midplane)
\USXR_VTOP_00 \USXR::TOP.VTOP:CHORD_00 Vertical top chord 00 (outboard)
\USXR_VTOP_01 \USXR::TOP.VTOP:CHORD_01 Vertical top chord 01
\USXR_VTOP_02 \USXR::TOP.VTOP:CHORD_02 Vertical top chord 02
\USXR_VTOP_03 \USXR::TOP.VTOP:CHORD_03 Vertical top chord 03
\USXR_VTOP_04 \USXR::TOP.VTOP:CHORD_04 Vertical top chord 04
\USXR_VTOP_05 \USXR::TOP.VTOP:CHORD_05 Vertical top chord 05
\USXR_VTOP_06 \USXR::TOP.VTOP:CHORD_06 Vertical top chord 06
\USXR_VTOP_07 \USXR::TOP.VTOP:CHORD_07 Vertical top chord 07
\USXR_VTOP_08 \USXR::TOP.VTOP:CHORD_08 Vertical top chord 08
\USXR_VTOP_09 \USXR::TOP.VTOP:CHORD_09 Vertical top chord 09
\USXR_VTOP_10 \USXR::TOP.VTOP:CHORD_10 Vertical top chord 10
\USXR_VTOP_11 \USXR::TOP.VTOP:CHORD_11 Vertical top chord 11
\USXR_VTOP_12 \USXR::TOP.VTOP:CHORD_12 Vertical top chord 12
\USXR_VTOP_13 \USXR::TOP.VTOP:CHORD_13 Vertical top chord 13
\USXR_VTOP_14 \USXR::TOP.VTOP:CHORD_14 Vertical top chord 14
\USXR_VTOP_15 \USXR::TOP.VTOP:CHORD_15 Vertical top chord 15
WF
Tag Full Path to Node Label/Description
\CII \WF::TOP:CII C-ii emission
\CIII \WF::TOP:CIII C-iii emission
\CSXR \WF::TOP:CSXR Central soft x-ray
\DALPHA \WF::TOP:DALPHA H-alpha bay c
\HALPHA \WF::TOP:HALPHA H_alpha emission bay g
\ICHI \WF::TOP:ICHI Chi coil current
\IOH \WF::TOP:IOH Oh coil current
\IP \WF::TOP:IP Plasma current
\IPF1AL \WF::TOP:IPF1AL Pf1al coil current
\IPF1AU \WF::TOP:IPF1AU Pf1au coil current
\IPF1B \WF::TOP:IPF1B Pf1b coil current
\IPF2L \WF::TOP:IPF2L Pf2l coil current
\IPF2U \WF::TOP:IPF2U Pf2u coil current
\IPF3L \WF::TOP:IPF3L Pf3l coil current
\IPF3U \WF::TOP:IPF3U Pf3u coil current
\IPF4 \WF::TOP:IPF4 Pf4 coil current
\IPF5 \WF::TOP:IPF5 Pf5 coil current
\ITF \WF::TOP:ITF Tf coil current
\MIRNOV_RMS \WF::TOP:MIRNOV_RMS Mirnov rms
\NEL \WF::TOP:NEL Line-integrated density
\PNB \WF::TOP:PNB Neutral beam power
\PRAD \WF::TOP:PRAD Radiated power
\PRF \WF::TOP:PRF Rf power
\PTOT \WF::TOP:PTOT Total input power
\VCHI \WF::TOP:VCHI Chi voltage
\VLOOP \WF::TOP:VLOOP Loop voltage
no tag available \WF::TOP:CIII C-iii emission
no tag available \WF::TOP:HALPHA H_alpha emission bay g
no tag available \WF::TOP:IPF1AL Pf1al coil current
no tag available \WF::TOP:IPF2U Pf2u coil current
no tag available \WF::TOP:IPF5 Pf5 coil current
no tag available \WF::TOP:NEL Line-integrated density
no tag available \WF::TOP:PRF Rf power
no tag available \WF::TOP:VCHI Chi voltage