\ Neumeyer Jr. Charles *@fYB d MbP?"*+_%1 Geneva1 Geneva1 Geneva1 Geneva1 Geneva&FPage &P&?'?(?)?Mz,,  c ug(,,(d'}` G@V General00.00#,##0 #,##0.00#,##0_);\(#,##0\)#,##0_);[Red]\(#,##0\)#,##0.00_);\(#,##0.00\)#,##0.00_);[Red]\(#,##0.00\)"$"#,##0_);\("$"#,##0\)"$"#,##0_);[Red]\("$"#,##0\) "$"#,##0.00_);\("$"#,##0.00\)%""$"#,##0.00_);[Red]\("$"#,##0.00\)0%0.00% 0.00E+00 #\ ?/? #\ ??/?? m/d/yy  d\-mmm\-yy d\-mmm mmm\-yy h:mm\ AM/PMh:mm:ss\ AM/PMh:mm h:mm:ss m/d/yy\ h:mm0.00.000 0.00000       rest, cC C  C  C  C  C C C C C C C C C C C  C  C  C  C  C  C  C (C  C  C  C  C  C C  C  C  C  C  C  C  C  U } } m} m } I @l!;P;P@YTe m Ha@ Y  F LoNrEPS DAFGmG\YFVx] @ZINCONEL DATA SHEET... T1~ !Q@ deg F~ !Q@#!qq5@ D  deg C" =5/9*(B2-32) T2~ !@ deg F~ !@#!z@ D  deg C" =5/9*(B4-32) Inconel Resistivity @ T1~ !@@ -circ mil/ft~ !@@Conversion factor ~ Acirc mil/sq cm~ AConversion factor{Gz>@  RQ@ cm/ft#=12*2.54 Inconel Resistivity @ T1 u5 ?DDD -cm$ =B6/B7/B8 ?' ?DRQ@ -in =B9/2.54 Inconel Resistivity @ T2~  @  -circ mil/ft~  @! Coefficient of resistance, \~!?D DDDD 1/deg C =(B11-B6)/B6/(B5-B3)   $ Drawing NSTX EDC 1102/1107..   ID Mid SectionmR*@ inmR*@Wall Mid Sectionjt? injt?Length Mid Section5^I "T@ in5^I "T@ID End Section~ 3@ in~ 3@Wall End Section~ ? in~ ?Length End Flange~ @ in~ @!Length End Section (each) zGz-@= ףp=3@D in =19.24-B20%CS Resistance Calculations...Radius Mid SectionmR@D in=B15/2Thickness Mid Sectionjt?D in =B16!Cross Section Mid Section.# F@ADDD in^2!=PI()*((B24+B25)^2-B24^2)Length Mid Section5^I "T@D in =B17#Resistance Mid Section (T1)'Dl@+eD?CDD  =rest*B27/B26Radius End Sections#@D in=B18/2Thickness End Sections?D in =B19!Cross Section End Section.'</@ADDD in^2!=PI()*((B29+B30)^2-B29^2) L End SectionzGz-@D in =B21 D!|"p#M$%@&%'P(Q)E*J@A+W ,H-=.C /O0EB2k C3zA5z6<7J8j9b:Z;jF <a=Z>?@ ' Resistance per End Section (T1)' V$L ?CDD   =rest*B32/B31&!Resistance Mid + 2 Ends (T1)!?G? DD  !! =B28+2*B33 "Bakeout Temperature (T3)~ " u@ "C~ " u@&#Resistance Mid + 2 Ends (T3)+#ԗH?D!D D"D ##=B34*(1+B12*(B35-B3))$$!%Return Path Through VV...&Resistivity 304SS&h"?֩> &-m&h"?֩>$'&T;>D&dRQ@ '-in' =B39*100/2.54( VV Dome Wall(? (#=5/8)VV Cylinder Diameter~ )`@ )in~ )`@*VV Cylinder Wall*? *in *=5/8+VV Cylinder Height~ +R@ +in~ +R@,R0 Dome,#@D ,=B29-R1 Dome-P@D)-=B42/2.Resistance per dome1.Mc?D'AD*D-D,A .%.=B40/2/PI()/B43*(LN(B46-B45)) . /VV Cylinder CSA8/.Jo`@&AD)D)D* /in^2)/!=PI()*((B42/2)^2-((B42-B43)/2)^2)0VV Cylinder Resistance 0֖>D'D+D/ 00 =B40*B44/B48'2Sum Total Resistance (CS @ T1)$2О*J?D!D.D0 22=B34+2*B47+B49'3Sum Total Resistance (CS @ T3)$3W{l3K?D#D.D0 33=B36+2*B47+B49$5Power Supply Calculations...556Power in CS Casing~ 6@ 6watt~ 6@7I for P @ T1 (note)71gA@ D6D!A 7amp7=SQRT(B55/B34)8V for P @ T1 (note)8@ D7D2 8volt8=B56*B519 Total Power96UEu@ D7D8 9watt9=B56*B57:I for P @ T3 (note):ߚ.*@ D6D#A :amp:=SQRT(B55/B36);V for P @ T3(note);m=#@ D:D3 ;volt;=B59*B52< Total Power<qV/@ D:D; <watt<=B59*B60 =  =  >  >  ? = < ..."