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06-1923R-016
•••• ••• 6 Y . y y y y '06 • • • v• v+, y • • v o• v L, • L Y y • u u ., v • -- . . - V[4 rn4',,.EKW `F',#q'"yr.bk' -W7' VLf,`vOL LII �`f %1%L,UL•..FVN:: - ___ -. -__- ..___._. -.,-.. _. _._.______ - -- - _ - "`_ -- Oft+Ci:Y.7F L`t7:.E �`SliytliA ew`f+t., Sfi LA?%'C D!?C'17`C 1-__L _TT_dk_. Uvt17,�Lt- hrk.'.'v.r,i.Y...t -.. Y�at.: -'--•`•,. - "� '- ��"' - - -_- "'"VOLTAGE IRON CALCULAtNf15 _. -. .VOLTAGE DRDM Ci.LCULATONS u y � • V • • . y V V Y • 4 V Y u~ 0• RATING RANGE FOR DEVICC-S OHMS PER THOUSAND - - - ............. I I' VD = 2XLXRXI ONE! VD = 2XLXRXI OPERATING RANGE FOR DEVICES OHMS PER THOUSAND YD -2X2 XR XI iMERATING RANGE FOR DEVICES OHMS PER MTHOUSAND VD - 2XLXRXI OPERATING RANGE FOR DEVICES ICES OHMS PER THOUSAND VD =2X2 XR XI OPERATING RANGE FOR DEVICES OHMS PER THOUSAND YD =2X2 XR XI OPERATING RANGE FOR DEVICES OHMS PER 7HOUSAh10 VD =2X2 XR XI OMFRATNG RANGE FOR DEVICES OHMS PER THOISAND V • • u V y� rc 7000 ARE RfTVJEEN INDC AND 33VDC 7i AWG 7.77 7000 ARE BETWEEN INDC AND 33V DG 1iAWG 7.77 1784 ARE BETWEEN INDCAND 33VDC 1i AWG 1944 ARE BETWEEN I6VDC AND 33VDC 13 AWG 7.77 17X)° ARE ■ETWEEN INDC AND 33VDC 1i AWG 7.77 1000 ARE BETWEEN INDC AND 33VDC ti AWG 7.77 1000 ARF ■ETWEEN INDC AND 33VDC 1i AWG 77 .� 0u •• I -Y I V+-1 �, ' iGAWG _ 4. ;A 75 AWG 4.i! 1G AWG ti AWG 4.i• 1G AWG 4.Lf 1 v 1 uc Z M ✓, �i M m i6AWi 4.E9 [•AWG 4.46_ vu Y•• ••• •YV ��u ^ .z f�) VD = VOLTA ,EOR ^P 14 =`, =C 3 VD- VC4LTAK DRCiP ti ALt ', 47 VP= VCSf.TA0E P1Lr?P "Ai'Vn VL1= VC'ITa �E, LTRC+P 14 A:1' ^.s '0' VI3- St3lTAGC CF;LlP it A`F7^, 317: �, U 7 :v V'D -- vrXT -GE 1-'F, -r T41i..'U 3 0,- V"'Pi = $`i7LT3FuC FrFtih f4 i.✓JG 3.G: _ (J-f i = Of•I E-YJAY iENGTH OF CIRCU{i 32 AWG 143 .t =ONE -WAY LENGTH OF CIRCUIT 12 AVIIO 1 •./3 L = ONE -WAY LENGTH OF CIRCUIT l2 AWG L = Or If- WAY t NQTH+7F CIRCUIT 12 AWG 1 93 L = ONE -WAY LFNGT14 OF CIRCUIT 12AWG t CL L = ONE -WAY LENGTH OF CIRCUIT 12AWO 1 •J3 L = ONE -WAY LENGTT 1 OF CIRCUIT i2 AWG 1.93 rr,.� kjJ R = CONDUCTOR RESISTANCE N OHMS PER THOUSAND FEET 10 AWG 1 21 R = CONDUCTOR RESISTANCE IN OHMS PLR THOUSAND FEET 10 AWG 1.27 R = CONDUCTOR RESISTANCE IN •HMS PER THOUSAND FEET 10 AWG R = CONDUCTOR RESISTANCE IN OHMS PER THOUSAND FEET 1t AWG 1.21 R = CONDUCTOR RESISTANCE IN OHMS PER THOUSAND FEET 10 AWG 1.21 R = CONDUCTOR RESISTANCE IN OHMS PER THOUSAND FEET 14 AWG 1.21 R = CONDUCTOR RESISTANCE IN OHMS PER THOUSAND FEET 70 AWG 1.27 i LL `�7 ,...1 I = LOAD CURRENT 1= LOAD CURRENT 1= LOAD CURRENT I - LOAD CURRENT I = LOAD CURRENT ) 1 1 (n L u- 1 =LOAD CURRENT I =LOAD CURRENT `• Y u• v v y• 0. 1- O rr w I ui ROWER SUPPLY #1 POWER SUPPLY #2 POWER SUPPLY #3 POWER SUPPLY #4 COWER SUPPLY #5 TOWER SUPPLY #G POWER SUPPLY #7 y y ,,vi k, : r � fi Q t� •v 090.1 • OOL V Y vl � q Q , Q ALARM STANDBY N STANDBY 1 STANDBY ALARM STANDBY ALARM ALARM STANDBY ALARM Li_ LT') CURRENT TOTAL STANDBY CURRENT TOTALALARM CURRENT TOTAL STANDBY CURRENT TOTALAURM CURRENT TOTAL STANDBY CURRENT TOTALALARM CURRENT TOTAL STANDBX CURRENT TOTALALARM CURRENT TOTAL STANDBY CURRENT TOTALALARM STANDBY TOTAL STANDBY AURM TOTALALARM STANDBY TOTAL STANDBY AURM TOTALALARM ,I w M W M CV DESCRIPTION !TY CURRENT MCR QTY CURRENT DESCRIPTION OTY CURRENT MER QTY CURRENT DESCRIPTION OTY CURRENT PER OTY CURRENT DESCRIPTION QTY CURRENTMER QTY CURRENT DESCRIPTION OTY CURRENT PER CITY CURRENT CURRENT CURRENT CURRENT CURRENT PERUri(Y PFRUNIT PER LVUT PFJRIRIT PF2. UNIT PC-R UtJA ('E,RI!rLIT vtrl ul PC'ltl,'vl MLR ttf1ILL 0F517.PIP7'Ir1 OTY CURRENTPFR !).TV CY [RRETTr CE,S.CL!.U'7(O�J QTY CL07PaITPER QTY CLLR,FMT �` [ �, F'^' fiER€M4k ;,f ►4F:'ffi -j iiEkT thkTF':ii (iiktYS'f iTEE,T(AMY:a') [AIW`j ITEM -(AM, u) tAirFF51 76.LTut (Ak1WR) {Ab(WS t4JRilItI T^LR :7 11'1"0 U13fT 1�Eii urllr "(U S l� {AMRS) (AMPS) (AMPS) (AMPS) (AMPS) (AMPS) (AMPS) (AMPS) / RLM (AMPS) (AMPS) REM (r,MMS) (AMPS) : (AMPS) (AMPS) (AMPS) (AMPS) (AMPS) (AMPS) i Ld Q ' Q 7) 9PSlUA 0.070 1 = \.171 4270 x 1 = 9270 EFS10A 0070 x 1 0.070 0.270 x 1 - 0.270 OPSTOA 0.070 x 1 0.070 0.270 x 1 0270 OPS70A 0.070 x 1 0.070 0.270 x 1 = •.270 BPS10A 0.07q x 1 = 0070 0270 x 1 - 0270 BP51N O.D70 x 7 0.070 0.270 A i = 0270 ILPSIOA 0070 x 1 = 1.171 4279 x 1 - 0.270 L -L.lI w rr --I Em- CIRCUIT #1 1 -721 7 = 1721 CIRCUIT*? 1.25! x 1 = 1.25! CIRCUIT 1.53• x 1 = 1.530 CIRCUIT #1 2.Ni x 1 - 2001 CIRCUIT *1 1.737 x 1 - 1.737 CIRCUff *1 1.715 x 1 = 1715 CIRCUIT *1 2247 x 1 - 2.247 M x x 1 = 1450 CIRCUIT 1753 x 1 = 1.753 CIRCUIT *2 1.514 x t = 1514 CLRCUIT#2 2247 x t _ - 2.247 _ CIRCUIT *2 1.514 x 1 - 1514 - - -- 1400 i I CIRCUIT*2 1 450 1-� Z. °.a':Ja -r::, 1.+1 3' x 'F Liu'G` c.7Yt(.i71t'Ai Z.cYJ' X 1 = Z.2U3- .t'.tl'lt"Utl il[f i,siZ x f '_" FsaL ., T'AF"� t}ciUU 'F' u ui;iiJ� t-fYtt;UITK3 4.462 f fair - .- .'--.--- " - -_-__ _ - _ ____ _- _ _ _ _- - - U'_ /`tRCUR#7 9737 x T 1.737 t^IRrI ITT #i 1, ;9n r 1 CIRCUfT #3 1.T+1 - x- T 1.721 CIRCUIT *3 1.514 x 7 - 7 574 CIRCUIT #1 241• x 1 = 2.470 CIRCUfT04 1.443 x 1 1.491 CIRCUITON 0.972 x 1 0772 SPARE 0.000 x 0 = LN1 CIRCUITIMI 1.412 x 9 =� 1.412 CIRCUIT 04 1.785 x 9 = 1.735 SPARE tl.WO x ,I "" TOTAL SYSTEM TOTALSYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM ) ° Q7Q 2307 647• 7.443 147° 6.278 •.770 4.525 0070 f.4;5 TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM c��` STANDBY (AMPS) AURM (AMPS) STANDBY (AMPS) AU RM (AMPS} STANDBY (AMPS) AURM (AMPS) STANNY (AMPS) AURM (AMPS) STANDBY AMPS) ALARA (AMPS) O.p70 7.291 0 070 5.529 \\ 1 ( STANDBY (AMPS) ALARM (AMPS) STANDBY (AMPS) AURM (AMPS) ; ."._..,,3 ,r RFOUIRFD OPERATION TIME FROM NFPA 72 4 4 1.5 2 2 (1) & 4.4.1.5.3.1 REQUIRED OPERATION TIME FROM NFPA 72 4.4,1,5 2 2.(1) & 4.41 5 3.1 REQUIRED OPERATION TIME FROM NFPA 72 4.4.1,5.2.2.(1) 9 4.4.1.5.3.1 REQUIRED OPERATION TIME FROM NFPA 72 4.4.1.5.22 (1) & 4 4.1.5.3.1 REQUIRED OPERATION TIME FROM NFPA 72 4.4.7.5.2.2.(1) & 4.4.1,5.3.7 REQUIRED OPERATION TIME FROM Nf PA 72 4.4 LS 2 2(1) & 44.15 -3_i REOUIRCD OMEHATION TIh1E FROM NFPA 72 4.4.1.5.2.2 (i) i 44,1 5 3 7 1 .F.., - STANDBY' 24 HOURS ALARM: 15h1111UTES X 1140- 0.25 HOURS STANDBY. 24HOURS AURM- 15MNUTESXVMO0 G.25kLOURS STANDBY- 24HOURS ALARM - ISIUII1UTESX114o= 025HOURS STANNY. u tLGURS AL ARM - tSMIFRYTE5X 1100, =025 HOURS GTANDLY- 24HOR5 ALARM 15MINUTES>X114t= 925HOUR5 STANNV:MHOURS AUMR: 15 TvtItJt)TE5 X1(\4 =025 WprJR5 -'�' STANDBY: 24 HOURS ALARM 15 MNUTES X 1160 - 0.25 HOURS / -zy 2.r TOTAL REQUIRED REQUIRED TOTAL REQUIRED REQUIRED TOTAL REQUIRED REQUIRED TOTAL REQUIRED REQUIRED TOTAL REQUIRED REQUIRED TOTAL REQUIRED REQUIRED V �-, - REQUIRED REQUIRED TOTALALARM REQUIRED REQUIRED TOTALALARM REQUIRED REQUIRED TOTALALARM REQUIRED REQUIRED TOTALALARM REQUIRED REQUIRED TOTALALARM TOTAL REQUIRED REQUIRED STANDBY STANDBY ALARM STANDBY STANDBY ALARM STANDBY STANDBY ALARM STANDBY STANDBY AURM STANDBY STANDBY AURM REQUIRED REQUIRED TOTALALARM REQUIRED REQUIRED TOTALALARM STANNY AURM TIME CURRENT STANDBY ALARM TIME CURRENT STANDBY ALARM THE CURRENT STANDBY ALARM TIME CURRENT STANDBY ALARM TIME CURRENT STANDBY STANDBY AURM STANDBY STANDBY ALARM , G'� CURRENT CAPACITY CAPACITY GURRF3JT CAPACffY CAPACITY CURRENT CAPACITY CAPACITY CURRENT CAPACITY CAPACITY CURRENT CAPACITY CAPACITY STANDBY ALARM THE CURRENT STANDBY ALARM TIME CURRENT / TIME tHOk1RS7 a 1 (HOURS? (AMPS) } ., TMAE (HOURS) IHOURS> lAA4PS) TIME (HOURS) .. (HOURS) LAMPS) ,-• , THE (HIX1R5) ,.a (HOURS) (AMnS) ^ 744E (HOURS) _ (HOURS) (AMPS) TIr9E. /H.g1.1R.S` MOI!R57 U.f3F.'S1� T. 49771 Ri RTN,- [ ♦f.tf = ^' I F. A.4 �. trt 44V) ;hF4P tI'*i} ? "'3, 1r6d(A)ilC .,+�(1F'A iF7 ,✓`t 7F., ,"IF`1417T CURRENT CAMACTfY CAPACITY CURRENT (APAOIri CAPACITY r Y 4- ,1lTFvH,Rif S,�aAf ,6.f .. _M.tr MIC7 .j�G,ir -F�'f jlhl'i('EC, (tk{;:1t'LfE?j ,�;titir' [VR, IRf 14'.1.1 j'AF1Ptif -�) IAfILF' -{qT:l ) (AMPSI (AR4P�-IKI -. ,%K `i al (AMR-FIR) 24 X 4.471 = 1.644 025 X 7.341 - 1 840 24 x10010. = 1.640 0.25 X 7.043 - 1,76i 24 X °,070 = 1 Gan 025 X 6 271 - 1.570 24 X 0 070 = 1 690 0 25 X 4.525 - 1.131 24 X 1.171 = 1.680 4.25 X G 415 = 7621 24 X 0 070 - ?.Rip 025 X 7 298 1.225 24 X 1.077 - 1.GE9 4.25 X 5.529 - 1.392 J REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUh7 REQUIRED REQUIRED REQUIRED REQUIRED REQUIRED REQUIRED REQUIRED M1.11NIrAUht MINIMUM STANDBY ALARM BERATING AMMMOUR AMPMOUR STANDBY ALARM DERATNG Ah7PMQUR MIPMWR STANDBY AIARM DERATNG AM14hM01IR AMM44OIIR $TA NORY Al ARM pFRATNU AMPMpUrt AMNHnUR STANDBY ALARM pFRA7Nr AFAPM(x)B AI•AwHOIIR REQUIRED MFOUIRE! _ PS:SPst'bGUR ;%LT- ;FIf:UP �ry AFAPMC.`UR AMPJIF0UR A"d41`iOUlY ST °FJI?C.Y AI.AI'1F�7 {?FR ?TIPIr np1P.T Iry)R FPM1r'R1r?I.IP. sir•fJU AlAl,i,l i RAT`HG Ah4,*•k:4ik AhOPAIII- i A CAPACITY CAFAGTY FACTOR 1 2 BATTERY BATTERY rryIr CAPACITY CAPACITY FACTOR 1.2 BATTERY BATTERY CAPACITY CAPACITY FACTOR 1 2 MATT MY RATfERY 7� dAPAprTY CAPACITY FACTOR 12 BATTERY RATTFRY c. r CAPACITY CAPACITY FACTOR 1 2 BATTERY BATTERY AMFIHOUk AMPIHL ) psi BATTERY PS2 BATTERY r S3 BATTERY DS4 SATfERY PS5 BATTERY -PS6 CAPACITY CAPACITY BARRY FACTOR t 2 BATTERY ZATTERY PS7 CAPACITY CAPACITY FACTOR 1.2 BATTERY BATTERY (AMP -HR) (AMP -HR) REQUIRED REWIRED (AMP-HR) (AMP +9R) REQUIRED REQUIRED (AMP-HR) (AMP-HR) REQUIRED REQUIRED (AMP -HR) (AMP -HR) REQUIRED REQUIRED (AMP -HR) (AMP -HR) REQUIRED REQUIRED (AMP -HR) (AMP -HR) REQUIRED REQUIRED BATTERY I + (AMP -HR) (AMP-HR) REQUIRED REQUIRED y 1.630 + 1.940 - 3.524 X 1.2 = 4.224 7 1.610 + 1.761 = 3.441 X 1.2 = 4.129 7 1.800 + 1.570 - 3.250 X 1.2 3.880 7 1 NO 1.131 - 2.911 X 1.2 = 3.374 7 1.800 1.021 - 3.391 X 1.2 = 3.962 7 t.GiO 1.925 = 3.545 X 1.2 4.205 12 1 804 1.352 3 pit X 1.2 = 3A75 7 1 - + _ + W K ' TOTALS FOR !`InCL1R =t TOTaI •'FOFx r1PC1117 441 7`'17024 f ^P''1Rtt ITT Mi TOTALS FOP eiPi_'•1)ITM T+'?T. ^.R$FOR CJM^_IS[T??t T ^SA -LS FQR rTMM - ^IUfT t?? TnTa L_., FOR SIRCI,)(('te4 T?T".ICF"?F CfPr'!IIT jr, . TnTn L�•-nn rL{arrJ[T !6.l T ^T!`.LC, FnR 1001[17,-10, c7Tai -rtf -OR 1__011 ^LIFT UI T.- ✓7170 F- e.:1R,:,t rfT - - -- t/vY1� r,A -- T- OVALS --- i=rRClil i Y7 711711 LS FGii CIRClf171T3 µ.[ ' QTY NOTIFICATION TYPE AMPS TOTAL OTY hIOTIFiCATiOFI TYPO AMP'S TOTAL QTY NOTIFICATION TYPE AMPS TOTAL OTY NOTIFICATION TYNE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL ITT NOTIFICATION TYNE AMPS TOTAL QTY NOTIFICATION TYNE AFAPS TOTAL !tt NOTIFICATION TYNE AMPS P?TAL -QTY IJQTIFIG'.TION TYPE AM1APS TOTAL QTY NQTIFICAT70N TYPE AMPS TOTAL OTY NOTIFICATION TYPE AMPS TOTAL QTY iJOTIFlCATIOt'J TYNE AMPS TYiT:AL r- - - - I � a 4 G4RF -SLAM 6239 01St 5 G4RF -S7VM 0239 1.105 1 G4RFS7VM 9.239 4.239 2 G4RF -SLAM 2.239 6473 i G1RF -VM 0.255 1.534 3 GOT SLAM 4239 0717 2 G4RFSNM 023.9 0474 0 - •Dm 0.900 3 G4RF -SLAM 4.239 4.777 3 G4RF -5'IVM 423E 0.717 OTY NOTIFICATIONWPE AMPS TOTAL QTY NOTIFICATIONTVME AMPS TOTAL ¢" �i.� 7 G1RF -VIM 0256 1795 4 G4RFSNM 1239 9.956 3 G4RFSNM 0.238 0.717 1 G4RF -S7VM 0.239 8.239 E "� •.. O d 3 GIRF -VM 0 -255 9.745 1 G1RF -VM 0255 0255 4 G1RF -VM 0256 1020 7 GIRFVM °255 1795 • 0 -000 OWO 5 G1RF -VIM 0255 1.275 4 G1RF -VM °255 1-530 p MM I. 4 G1RF -VM 0256 1.020 3 G1RFVM 0.255 6.765 p - 0°00 0 -ODQ 3 G1RF -VM 9256 9765 F. '• ti,, i f G1RF -VM 9.256 1538 5 G1RF -VM 02115 1275 2' 0 - 0.000 DIGGS f - vul 4.404 0 - O.OW U.000 0 - O.Ow 0.000 0 - 4 D°9 • M• 9 - f.•M 1.Me 0 - 0.°°° 0.000 9 - 0.444 •.449 0 - 0 00° ° 0°0 0 - 9.449 4.009 - p Opp p O(X) p - 0 0017 0 0°9 _ _ N y O - OOOO 0 -WO a - 6.9°0 0800 0 - O.00p .WA A 0.000 0.400 0 - U. U - .fN)i7 G 1 - D• - 00 -0-0-9- 0 - 000❑ Omn 0 - 0000 OOno _ nJXXI - Dfl/ll'1 17 n1>,1 - i C, . - _ ... _._;...__ -_ ___._�.. -____ _. -_ . ....._. - �-_ _ -_ _ - _ _ _ _ _ - _ _ _ __ _ _ ._ _- _ _ 0 Dom 0 D 409 9 MO 0 9 DO[J a i R J Ij .;r D •. WV n (AAA U - .LY1U V r�: Ulll� l- 1.ZM1U p V lx]U V W V U U.l7J L LV7 U - lb ouc) li Ulla U - p.UUU U. WU 17 - ❑-•Ull U Wf) U - n 077779 -UIJ� f t 804 4 •[74 9 a Da❑ 0 ❑(1❑ y T ► f - O.uOO 0,WU 0 - RW! 8.000 i . �"'* �� t,'% 0 6.800 0060 0 - O.tlW O.WO • - 0.080 4.194 • O.NO #.N6. t - 0 -DOD OOD0 0 0000 aWp • 0000 OOW ° - 0.000 0.000 • - 1 -000 0.000 D - O(lW 0.000 ! - 9.644 6. 108 0 - O.OW q -DOD �°l r,y D - D.WD o.Wa o - #.N! f.lGo , *, t44 C/)q • - 8.lQO 0 OXJ 0 - O.DW 0.000 • O.ON •.00U • - 8.•80 •1 -.•tiU . _ 4.0OD 0 ODO 0 a 000 D 000 0 - A.000 0.000 0 - 9 444 4.440 . - 6480 8.N• • - 0.440 •.440 0 - 0 000 0000 . - O IN .pop �' t%] `d • - 9.099 4.000 0 - noon 0 QOD ?A 0 0 -000 • 009 1 0 900 0090 0 - ❑ -Om 0000 a - p -0_00 0 ODU 0 - 0.000 0.000 0 - 0.000 D 090 p - 9 980 1980 • 0 Om D 000 \ - 8.0N 8.140 1 • 449 O.MI 0 - 0000 0 DDf 0 - t ll9 9.900, 1 " C ♦ 4 0 - 00(14 0. W(1 1 0000 0-- F %'27 t TOTAL 14_b T P : - Sf ! O MP : 2,12.. '3 r n 7 TOTAL AMPS. 1 5 OTAL AM 3 12 TOTAL S 3 TOTAL RAPS: 1.530 i TOTAL AMPS 1.442 a TOTAL AMPS' 2.980 • TOULAMPS: Om_ 7 TOTAL AMPS- 1737 C TOTAL AMPS 14A2 T TOTAL AMRS: 1.735 7 TOTAL AMPS: 7.727 4 R7YA1 n6. -tPS' 72+7 B Tnrnl Ar7FS 1514 e � 7r� d • TOTALS FOR CIRCUIT #1 - - TOTALS FOR CIHCUII dl "f0'TALS FOR CIRCUIT •2 TOTALS FOR CIRCUIT *4 TOTALS FOR CIRCUIT Yt3 IUTALS FUIT CIftC_Ull tT4 TOTALS FOR CIRCUIT • TOTALS FC1K CIRGUIr *4 I 1Fc 'U ,rr , (�] TGTAL5 FOR CIRCUIT 12 TOTALS FOR Q L fl I4 TOTALS FOR CIRCUIT 12 TOTALS FOR CIRCUIT 114 ry • � � �' a [� OTY NOTIFICATION TYPE AMPS 'TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFCATION TYNE AMPS TOTAL !TY NOTIFICATION TYPE AMPS TOTAL !TY NOTIFICATION TYPE AMPS TOTAL TOTALS FOR CIRCUIT #2 TOTALS FOR CIRCUIT QTY NOTIFCATION TYNE AMPS TOTAL QTY NOTIFICAl10N TYPE AMPS TOTAL Ott NOTIFICATION TYNE AMPS TOTAL OTY NOTIFICATION TYPE AMPS TOTAL_' �" �� 5 G4RF -S7VM 6.239 1.195 5 G4RF -S7VM 0238 1.195 2 G4RF -S7VM 0-238 °.479 2 G4RFSNh1 0239 •.471 t G4RF -S7 VM 0.239 0.239 3 G4RFS7VM 0.739 0.717 3 G4RFSTVh4 0.239 9.717 1 0.480 #.440 1 G4RF -S7VM 9.239 9239 3 G4RF -S7VM 9239 0.717 3 G4RF -SNM 9.239 9.717 7 GIRF -VIM 0255 1.735 2 G4RFSNM •239 •473 ° - 0.Wtl oam k "" sy 4 1 G1RF-VM 0.255 9.256 5 G1 RF -VM 8.256 1.275 5 G1RF -VM 0256 1.275 4 G1 RF -VM 0.256 1.020 5 G1RF -VM 0255 1,275 1 G1 RF -VM 4256 •255 6 G1RF -VM 0256 1.530 • - 9.008 4.me 5 01RF -VM 0255 1275 3 G1RF -VM 0 -255 0765 4 G7 RF -VM 0256 1.021 • - 0.00° U.pOp _ -0 - _ -- - ____ - O.OoQ ODm_ _n - _. .- _ ___ _nom -0 Ono n _ nnnn nnnn 0 - p(Yn own n - 0.000 0('110 t 4,,on nnnn n - nryl nnnn f - 00(7,1 40!00 4 - 0.000 0.000 0 - RDW D.L=U n 4OCx) nrxn 4 0nm 4rrx) -- �) R 4 OIKFVM 0256 1020 0 0000 0.000 ' 1 D - -- _ - RAW 0 No 0 - *too 0.000 D - QIX30 0.009 0 - 0.000 0,001 0 - I SOO I to• • - 9 o n 4.800 ! - 0 -Om 0 01!0 0 - 0.007 0.000 0 - Dom 000° ❑ - 0 -DOG 0mo a - 0 044 2.000 • - 9 iN 0.000 - - _-_ _ _ -6.... A u ux/ a lxw D _ D. -WU- -OUiiu i '• ' ) 0 - 0.000 GOOD 0 - 0.000 0.000 • - 0.080 6.804 6 - 4.080 9.804 9 - •.844 f W6 • a OOD 0 000 a - 6.260 0 Om 0 - 0.000 0.000 f - 0.900 GOOD 0 - 0 000 0.000 0 - 0.000 0.000 0 - 6 fM 4,•80 I - 0060 0 Ono 0 - 0 000 DOD° ,Irr,'sj 0 �� • $.MO 9.140 a - 9480 4.440 1 - O.UM 602 1 u.NU U.No a 0. \D• •.808 a - Dom 0 °00 0 - 0 OW 0.000 0 - 4.000 t we I - \.900 n one 9 - 0 000 0.000 p - 0.000 0.000 0 - 6 fN 0.080 I - 0 000 0 000 0 - 0 000 son it 0 0 - !ON 0.x11 4 - O.WD O.D00;.� •\ • - 4.800 6.000 t - 0 000 9.090 0 - 11000 O �000 0 - O 000 b ODD 0 - 0.000 0.000 0 0.(1[70 0 000 0 - 9444 9.980 • - 0 000 0 -000 0 - f.BN 8.808 1 ?.Off #.600 t - I.IN 6.440 6 - 0000 0 Qm _ _ al ° - 11000 0008 ! - !OW 6000 0 - °000 0 a - 0000 0ODD 0 - ODm 0000 0 - 4.0°0 O.NI 0 - 0407 6.909 1 - 02.9❑ 0WU 0 - 0000 OGC10 0 - 0.900 0000 t QDOD 0.000 U - 0U9U ua[xl 000 0000 a ' �1n� -_ -_ ,,. .., .- - --. ____ .. -. ____.,- ._- . °_- -- - -_- ... _ -_ _. .,._.- - , - - -- - - - _- - -_ -- - - _- - ___ --' - - - Onrq r. ODr1 n 900° 4980, t 6 TOTAL AMFS: T.4�•>u f0 TOTAL AMW -; 2,470 7 TOTALAMPS: 1 f TOTALAMP -: '1.498 f TOTAL AMPS: 1.514 4 TOTAL AMP-' DA72{ D TCiTALAMPS:) 2.747 D TOTALAMPS: 8.8OU i TOTAL AMFS: 75,,, G 'TOTAL AMW$: 1.4'2 "-y." -- -- --� ��Tp'TALAMPS: 7.73! - -7P -� �7�TALAMi'S: 1.715 LAMPS: 14!1 i TOTAL Ah1M5: 0.180 ) �� I,r1 �� D h - -_ 6 IOTA i.., lR! (l3 4-I VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS `I �"" �, a ui V WIRE RUN VOLTAGE WIRE RUN VOLTAGE WIRE RUN VOLTAGE WIRE RUN VOLTAGE WIRE RUN VOLTAGE WIRE RUN VOLTAGE - " CC Iv. N OHMS PER TOTAL MOWER VOLTAGE OHF.15 MER TOTAL MQwER VOLTAGE OHMS PER TOTAL POWER VOLTAGE OHMS PER TOTAL MOWER VOLTAGE OHMS PER TOTAL POWER VOLTAGE OHMS MER TOTAL POWER r, VOLTAGE WIRE RUtJ VOLTAGE 1 -,� (}' IL CIRCl 117 ONE WA.Y VOLTAGE READNG . ACCEPTABLE PIPODrr OHF �'AY VOLT, ACrFPTARLF_ CIRCUIT nr1 F_ WAY VOLTA raF RFA DIrlr3 ACCF PTABLE CIRCUIT ONE WAY VOIXAGE READIrK3 AmEPTAlLE C.IRCUM ONE WAY VOLTAGE READINI'3 _ ACCEPTABLE 0 O _ WAY VOLTAGE READIN = ACCEI'TAP.LE OHMS PER TOTAL MOWER VOLTAGE YJIRE 37.0:. ti4Rt'UIT ; URVI; CHzc'7C AT 'sd:t?E 54'E CM,::UtT sL'PMt'i CRpF .'.T ' JIKC 31 Ct::c'l1tY "s "UFFL'i DRu AT vs1{RE SLT fk -UIT _'WFL} L': Vc A7' - GIRCU N Fc'DAT i r;•+Ar tiOLTAG-E Fi- ALxNis ^CeEFTABLE . NUMBER (FAY) DRDM ATJ_AST .VOLTAGESROM NLM ISER (FEET) DROP AT LAST VOLTAGE drtoP NUMBER (FEET) DROP AT LAST VOLTAGE DRQP NUMaER (fEET) IRON 5. ATUST VOLTAGE DROP LAUNDER (FEET} VYIRE StZ£ ti1h..UfT DRIP M-F ATUST L4"P AT VOLTAGE DROP NUMBER (FEET} '✓NIKE Sf� t,IFU31T DROP oUF=(�LT ATUST G y VOLTAGE DROP t'�� - WIRE SIZE CIRCUIT St)rl. J]ROM AT j l -j 13RAW VOLTAGE FNIJ DRAW VOLTAGE END [MAW VOLTAGE END DRAW VOLAGE END pItAW VOLAGE END DRAW VOLTAGE END NUMBER (FEET) DROP ATUST VOLTAGE DROP J (W C,5_) DEVICE (W.C.5.) DEVICE (W.C.S.) DEVICE (W.C. S.} DEVICE (W.C.S.) DEVICE (W.C.SJ DEVICE DRAW VOLTAGE END 'OHMS AWG OHMS AWG OHMS AWG OHMS AWG OHMS AWG OHMS AWG (W OS) DEVICE 7 i"`1 in W 1 0717 2174 1!6! 3X YES CIRCUIT k6. I OHMS AWG CIRCUIT 171 107 1.93 12 1.72 C CUIT 100 1.93 12 1.259 U. 20.4 1991 2!G YES CIRCUIT *1 M 793 12 1539 6.401 214 19 99 27h YES CIRCUIT*1 74 1.93 12 2.018 0574 204 19 i3 3% YES CIRCUIT *1 145 193 12 1737 0972 204 14_43 5% YES CIRCUIT 75 1.93 12 1.745 0577 20.4 19.81 3% YES rya, � CIRCUIT*2 153 183 12 1.450 Ot50 204 19-54 4% YES CIRCUIT #2 136 1.93 12 1.753 4724 294 1l 44 5% YES CIRCUIT*2 93 1!9 12 1.514 9573 20,4 19.43 3% YES CIRCUIT *2 136 1,93 12 2247 i- 130 204 1122 6X YES CIRCUIT JGL 143 1.93 12 7.514 Oi3G 20.4 19.51 4% YES CIRCUIT *2 1AG 1.90 12 1.737 097! 20.4 77.42 SR YES CIRCUIT #I 124 1.93 12 2.247 1476 29.4 19.32 5% YES J y+� ' rIR 1 !IT L'^. M1 ^'. I Z 1 1 .l >n n 77 r._ Cn .t 7'1 >>'. A VF5 I:U ^1 ITT L' 46..•. 7 C-. 1^ " %', 1 n',1 ^R 4 6.r• -.' "„ •i F', r!Pr'J "T K- v: 1 Al t� t n4� n 4"� l ?11-4 l'.1 �' T'�- VF. �:P.4RF n 1 i ?. 1? n nM{ rI ryfvl �rl A =� 4n 4. P . T 11�:FR l'JPr71lT #FT ].Z 7'?- 1 Art n V. 1r} 4 T!'i.rl - "1'A, YF5 i` t !YS 4'6. 2 FT 'r 'r ^, lid - _ _ _ _ �"- 4 CIRCUIT #7 115_ 1.93_ 12 1.451 6.954 20.4 17.46 5'!. VES y Y-1 'f _iP_. ?K+ 1. t.. 1.721 4_.i -1 1_.__ Y1-`_= -_ ... -_ --_- -- _ _-_ , CIRCUIT #4 C5 1.'93 12 2.077 •119 20.4 7959 4 YCS CIRCUIT *4 736 1.93 12 1.405 \.759 29.4 19.67 4% YES CIRCUIT *4 123' 113 12 6972 •421 2014 19,04 2X YFS SPARE 0 1.93 12 9.900 a.IN 724 --M !;5 NOT USED CIRCUIT*4 114 tA3 12 1412 1 ;x1 274 10.7 3X YES CIRCUIT•4 197 1-9-.-M-2 . 1.7C5 1.357 24.4 iflD4 7% YES CIKCUII +G3 „• ii 19'3 '12 1514 11.475 -111.4 19 v� 2YA YES' Lj (W.C.S.) = WORST CASE SCENARIO (W.C.S.) = WORST CASE SCENARIO WC S -WORST CASE SCENARIO SPARE 0 1 !3 12 0.000 0.000 2U -4 20 -40 0X NOT USED ) ( - -)- (W.Q.S) = WORST CAS SCENARIO (W C.S } = WORST CASE SCENARIO (W C S) =WORST CASE SCENARIO (W.C.SJ = WORST CASE SCENARIO j w•rrw� 4wa• ) I VO! TA' .r OPOP CA,L {'UI ATta180.5 VOLTAar DE(1M CAI CULATIONS VOI T. ?0.F' DROP C. +,10111 ATI "N° VOL TA �F DROP CAI MIT ATl?N; Vf7LT.A ^_ -C pP.4P CALCUit.T {nptw VOLTAGE DROP CALCULATIONS t VOLTAGE DROP CAt CATIONS ' i - 1 D = r - - - R AN FOR DEVICES OHMS PERTHOUSAND VD - 2XLXRXI OPERATING RANGE FOR DEVICES OHMS PLR THOUSAND V 2XLXRXI OPERATING RANGE FOR DEVICES OHMS PER THOUSAND VD - 2XLXRXI OPERATING RANGE FOR DEVICES OHMS PER THOUSAND VD = 2XLXRX P N R VD - 2XLXRXI OPERATING RANGE FOR DEVICES OHMS MER THOUSAND VD - 2XLXRXI OPERATING OF 1 OPERATING 0 ANGE FOR DEVICES OHMS PER THO .77 OPERATING RANGE FOR DEVICES OHMS PER THOUSAND 7040 ARE BETWEEN INDC AND 33VDC 1 ;AWG 7.77 1000 ARE BETWEEN INDC AND 33V DC !11.1 AWG 7.77 1000 ARC BETWEEN INDC ANi 33VDC 1i AWG 7.77 1000 ARE IETwEEN INDC ANU30VDC 1i AW3 7.77 1000 ARE BETWEEN INDC AND 33VDC 1 ;AWG 7.77 1044 ARE BETWEEN 14V0G AIJ033VDC 1 ;AWG 777 YD - 2XLXRXI O I ?SAWS 419 G AWG 4.A4 tiAWG 4i1GAWG 444 ?SAWS 4.19 16AWG 4&9 1944 ARE BETWEEN INDC AND 33VDC 14 AWG 177 VD= VOLTAGE DRDM 14AWG 307 VD= VOLTAGE DROP 4AWG 397 VD= VOLTAG €DROP 74AWG 361 VD =VOLTA OE DROP 14 Awr, 307 VD= VOLTAGE DROP 14 AWG 307 VD= VOLTAGE DROP 14 AWG 3.U7 1i A7MG 4.18 1 .(, L= ONEwAV LENGTH OF C4RCUR 12AWG 193 L= ONE- WAYLENG fHrFCiKCUII 2AwG 7.73 L =bNE -WAY LENGTH OF CII[(/TY 12AWG 1.93 L =iNE -WAY LENGTH OF CIRCUIT 12AWG1•J3- L =LINE NrAYLE'N["'1'f+(7tIK'CUR r2AV ✓e� i -us C= ONE- WAY[ENGfFi iF GxY(, -(1fP T2AWV'- - -7.YJ VD= YG2TAFE G'R.rJt' 1415, =117 - '...'. R = CONDUCTOR RESISTANCE N OHMS PER THOUSAND FEET 10 AWG 1.21 R = CONDUCTOR RESISTANCE IN OHMS PER THOUSAND FEET AVJG 1.21 R = CONDUCTOR RESISTANCE N OHMS PIER THOUSAND FEET 7p AWG 1.21 R = CONDUCTOR RESISTANCE IN OHMS PER THOUSAND FEET 10A 221 R - CONDUCTOR RESISTANCE N OHMS PER THOUSAND FEET 10 AWG 1.21 R = CONDUCTOR RESISTANCE N OHMS PER THOUSAND FEET 1OAWr; 1.21 L - ONE-WAY CONDUCTOR R RESIT OF CIRCUIT 12 AWG 1._3 1- LOAD CURRENT 1= LOAD CURRENT 1= LOAD CURRENT I = LOAD CURRENT 1= LOAD CURRENT I = LOAD CURRENT I = LOAD U RRE RESISTANCE IN OHMS PER THOUSAND FEET U AWG' 1.21 ' 1 =LOAD CURRENT i �, I .....- ....... - r � , 0 Q POWER SUPPLY #i POWER SUPPLY #�'J POWER SUPPLY #10 POWER SUPPLY #1l POWER SUPPLY #12 TOWER SUPPLY #13 - - - _. _. -_ _ -_ __.__.. - 1 �'! POWER SUPPLY #�i4 U) Q STANDBY ALARM STANDBY ALARM STANDBY ALARM STANDBY ALARM STANDBY ALARM STANDBY ALARM TOTAL STANDBY TOTALALARM TOTAL STANDBY TOTALALARM TOTAL STANDBY TOTALALARM TOTAL STANDBY TOTAL AURM TOTAL STANDBY TOTALALARM TOTAL STANDBY TOTALALARM STANDBY ALARM I QURRENT CURRENT CURRENT CURRENT CURRENT CURRENT CURRENT CURRENT CURRENT CURRENT CURRENT CURRENT TOTAL STANptY TOTALALARM DESCRIPTION !TY 011RRENT PER QTY CURRENT DESCRIPTION STY CURRENT PER OTY CURRENT DE$GRIPTIDN OTY CURRENT PER OTT' CURRENT DESCRIPTION TTY CURRENT PER QTY curtrtcNT DESCRIPTION OTY CURRENT PER QTY CURRENT DESCRIPTION QTY CURRENT PER QTY CURRENT CURRENT CURRENT PFR 11NIT PER UNIT PER UNIT PFR UNIT PER UFIR PER UNR PER UNR PER HNIT PER UNIT MER UNIT PER UNR P €R UNIT DESCRIPTION STY CURRENT PE QTY CpMPENT FTEL4 (AhnP51 L J.iRS) [T €P_if "LAPS} {Af -7M�:} RERft {.AMPS) tAMMS) {TF.RA (APAPF') 014PS ITEM (AF,7PS1 (AMPSI ITECA {, ^.r4L'Sl ;AMP` -} PERt)hL T'FI! (AMPS) ' - J (AMPS) (AMPS) (AMPS) (AMPSy (AMPS) (AMPS} (AMPS) (AMPS) ) (AMfrsl (AIV7FSY - (AMPS) (Ah1P5) (AMPS) TEEM (AMMSj (AMPS) (AMPS) 1 X c 14 Q BPSIOA 447• x 7 = 097! 827° x 1 - 0270 OPS19A •.070 1 = 0 -079 0270 x 1 = 9 -279 BPS1RA 0070 1 0D70 0270 x 1 = 0270 BPSiaA 6..71 x 1 = 1.774 6.274 x 1 O.Z70 DR510A 0070 x 1 0.070 0270 x 1 0270 BP511A 9.474 x 1 = D.mD 0270 x 1 = 0278 1 CIRCUIT #1 1.992 x 1 - 1.992 CIRCUIT #1 1.243 x 1 = 1.243 CIRCUIT #1 1.259 x 1 - 1250 CIRCUIT Y1 2.050 x 1 = 2/51 CIRCUIT*1 1.259 x 1 = 1259 CIRCUIT #1 2640 x 1 - 2.040 BPS10A 0070 x 1 = 0.074 \270 x 1 - 0.270 CIRCUIT*4 1!92, x 1 = 1.792 CIRCUIT 442 .- x 1 = 149;1 CIRCUIT 42 1976 x 1 = 1.776 CIRCUIT 12 2247 X 1 = 2247 CIRCUIT *2 1.499 x 1 = 1.499 CIRCUIT T2 1.737 x 1 = 1737 CIRCUIT *1 1785 z 1 - 1.705 I SPARE it ingF z 4 4000 CIRL'UlT iii 1i$s K 1 - 1,7::..9 s= 1f <CUIT ms 1.:SU x 1 - 1.Z',9 CIKCtIiT.iKi i�Ft+ -' x T = t•Ir+_ CIRCUIT ^. ^_'31 r I = 2.' ?I CIRC!IIT iF3 1, 94 K 1 1.3v;; CIIJCUIT ArZ 2.231 x 1 = 22R1 ) ■■ JMARE •OLIO x 0 = #.0011 CWCULF #4 1250 x 7 = 7.259 CIRCUIT 804 1.446 x 1 = 1.46G SPARE 6.090 x • _ °000 CIRCUIT* -1 1476 x t = I#7Fr l'IRCUMN4 1.4.6 x 7 = 1.466 C11(C:(/11443 f.4yC x 7 = T.4II TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM CIRCUIT *4 1 4GG z 1 - 1.461 0.070 4.254 0.070 7.023 1170 1.230 0.070 6.559 9.979 T 234 8.•70 7.°17 TOTAL SYSTEM TOTAL SYSTEM STANDBY (AMPS) AURM (AMPS} STANDBY (AMPS) AURM (AMPS) STANDBY (AMPS) ALARM (AMPS) STANDBY (AMPS) ALARM (AMPS) STANDBY (AMPS) ALARM (AMPS) STANOW (AMPS) ALARM (AMPS} 0 070 7.179 - REQUIRED OPERATION TIME FROM NFPA 72 4.4.1.5.2.2.(1) & 4.4.1.5.3.1 REQUIRED OPERATION TIME FROM NFPA 72 4.4.1.5.22.(1) & 4.4.1.5.3.1 REQUIRED OPERATION TIME FROM NFMA 72 4.4.1.5.2.2.(1) & 4.4.1.5.3.1 REQUIRED OPERATION TIME FROM NFPA 7Z 4.4.1.5.2.2.(1) & 4.4.1.5.3.1 REQUIRED OPERATION TIME FROM NFPA 72 4.4.1.5.2.2.(1) & 4.4.1.$.3.1 REQUIRED OPERATION TIME FRgM NFMA 724.4.1.5.2.2.(1) & 4.4.1.5.3.1 STANNY (AMPS) ALARM (AMPS) REQUIRED OPERATION TIME FROM NFPA 73 44.15 22.(1) i, 4.4. 1.5.3.1 Bt� STANDBY: 24 HOURS ALARM:I5MINUTESX 1141 =915 HOURS STANDBY 24HOURS ALARM 15 MINUTES X 7/44 =925 HOURS STANNY: 24 HOURS AURM: I5 MINUTES X I/M =1.25 HOURS STANDBY:24 HOURS AURM 75MNUTES X7/64 =025 HOURS STANDBY: 24 HOURS ALARM 15 MINUTES X1/80 =0 -25 HOURS STAN09Y: 24 HOURS ALARM:75MP[UTESXI/tD= ❑25HOURS STANDBY: 24 HOURS ALARM 15 MINUTES X 1160 =5.25 HOURS TOTAL REQUIRED REQUIRED TOTAL REQUIRED REQUIRED TOTAL REQUIRED REQUIRED TOTAL REQUIRED REQUIRED TOTAL REQUIRED REQUIRED TOTAL REQUIRED REQUIRED . REQUIRED REQUIRED TOTALALARM REQUIRED REQUIRED TOTALALARM REQUIRED REQUIRED TIDTALALARM REQUIRED REQUIRED TOTALALARM REQUIRED REQUIRED TOTALALARM REQUIRED REQUIRED TOTALALARM TOTAL REQUIRED RElUIRCD STANDBY STANNY ALARM STANDBY STANDBY AURM STANDBY STANDBY AURM STANDBY STANDBY ALARM STANDBY STANDBY ALARM STANDBY STANDBY ALARM REQUIRED REQUIRED TOTALALARM STANDBY ALARM TIME CURRENT STANDBY ALARM TIME CURRENT STANDBY ALARM TIME CURRENT STANDBY ALARM TIME CURRENT STANDBY ALARM TIME CURRENT STANDBY ALARM TIME CURRENT STANDBY STANDBY ALARM ' CURRENT CAPACITY CAhACIIY CURRENT CAPACITY CAPACITY CURRENT CAPACfiY CAPACITY CURRENT CAPACITY CAPACITY CURRENT CAPACITY CAPACITY CURRENT CAPACITY CAPACITY STANDBY ALARM TIME CURRENT I C) TIME {HOURS) (HOURS) (AMPS) TIME (HOURS) POURS} (AMPS) TIME POURS) (HOURS) (AMPS) TIME (HOURS) (HOURS) (AMPS) THE (HOURS) (HOURS] (AMPS) TIME (HOURS) (HOURS) (AMPS} CURRENT CAMCYIY CAPACITY (AMPS! (AMP44R) (AtAM -HR) (AMPS) (AMP FIR) (AMP -HR) (AMPS) (AMP+iR) (AMP -HR) (AMPS) (AMP FIR) (AMP-HR) (nrt7PR1 (AMP HR) {nMP HRi (AMPS) (Atv7P -HR) (AP.7MY -tRl THE (hi0UR5) (HOURS) (AtAFS) __ _ (Ah1hs) i'AMP -iJRT iAR1RHR) -i 24 X p 670 = 1.NU 0.25 X 4254 T.OH 24 X 0 070 - 1680 025 X f 023 = 1501 24 X Lt7i = 7.614 7.25 X 6230 = 1.551 24 X 0.070 - 1 ;80 0.25 X 6.55° - 1.64! 24 X 0 070 = 1 630 025 X 7 234 = 1 809 24 X 007° = 1-at0 0.25 X 7.011 = 1.753 24 X 0.070 - 1.NA 0.25 X 7 -170 = 1 793 REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM i REQUIRED REQUIRED REQUIRED REQUIRED REQUIRED REQUIRED REQUIRED REQUIRED MINIMUM MINIMUM STANDBY ALARM OCRATItJG AMNHOUR AMPMOUR STANDBY AURM BERATING AMMMOUR AMP/HOUR STAN MY ALARM DERATNO AMMMQUR AMMiHOUR STANDBY M ATIN MPfHOUR AMPfHOR U M POUR REQUIRED Cl STANUOV ALARM DERATNi AMPMOUR AMM /[NUR STA f)f ALARM DFR 0 A STANDBY AURM BERATING AMPM• R A P ADAPMgI IR _ _ Ah1MMOlIR _ _ _ AMPMOl1R _ _ _ AMPMOLIR Ah7PMOUR _ _ _ ABdr'IHOt}R - _ STANDBY AUR[ „1 AIfi,7. iFk "�tJik BERATING Atlr'1H'_4JR BATTERY PS`s CAPACITY CAPACITY FACTOR i.2 2ATTEKY BATTERY }�Sg GkFA T LAPACTr FACTws 1.2 6A TErci lA T= Y �•g�p CAPAC1Tr CAMCTr FACTOR 1-2 ArrE r 6K i Psi i CAPACITY CAPACITY FACTOR 1.2 BATTERY BATTERY Psr�' GMACtT7 ctFALtFF FACT R 6.2 tAYTfFr 6AF'TET r LRPA r cArA 171 FACTOR 6..2 $ATT €fc1 iA TEiiY BATTERY BATTERY BATTERY • BATTERY BATTERY P.1.i' BATTERY PS14 CAPAC(TY CAPACITY FACTOR I2 BATTERY BATTERY I (AMP-HR) (AMP -HR) REQUIRED REQUIRED (AMP -MR) (AMP-FIR) REQUIRED REQUIRED (AMM+iR) (AMM -HR) REQUIRED REQUIRED (AMP-HR) (AMP -HR) REQUIRED REQUIRED (AMP -HR) (AMP -HR) REQUIRED REQUIRED (AMP-HR) (AMP-HR) REQUIRED REQUIRED BATTERY i (AMP-HR) (AMP-HR) REQUIRED REQUIRED I' 12 = 3292 7 161 + 1 502 = 3 -itG X i2 = 3123 7 1AtD ♦ 1.561 - 3.233 X 1.2 - 3.995 7 TUG + 1140 = 3 -320 X 1.2 = 3914 12 1080 1.809 - 3.481 X 12 = 4146 12 lot) + 1 -753 - 3433 X 7.2 = 4.119 12 1.680 + 1.793 - 3.473 X 12 - 4167 12 .I _ IT X.3 TOTALS FOR CIRCUIT 01 TOTALS FOR CIRCUIT IF:T TOTAI S FOR CIRCUIT#1 TOTALS FnR CIRCUIT •/ ! TOTALS 3 TOTALS R 1 r1 -11 TOTALS FOR CIRCUIT #1 S FQR CIRCl1ITM • LS FOR CI C )R ifl TOTALS FOR CIRCUIT *3 TOTALS FOR CIRCUIT *1 TOTALS FOR CIRC A ' ., __, ,... -- . -_ -. -- -- . -. ... .. .. . . ... . .u, - - TOTALS FOR CIRCUIT*1 TOT 15 FOR CIRCUIT ff3 - - - ] .. -�^ L.: ?:125 hL'Vr L1FY UIT *I b.IAL:a t`ukl t.kttulET * -+ N P TQ7AL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL TTY NOTIFICATION TYRE AMPS TOTAL TY NOHFIC it 't I i N•TIF CATION TYPE ANTS Q AT ION TYPE AMPS TOTAL !TY NO7IFICATI•N rYPC AMPS TOTAL bTY NOTIFICATION TYPE AMPS TOTAL OTY NOTIFICATION TYPE AMPS TOTAL oTr NOTIFICATION TYPE AMPS TOTAL bTY NbtILICAT1oN TYPE AMPS TOTAL !TY N•TFICATIONTYME AMPS TOTAL STY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATIL4'1 TYPE Aiv7p3 TOTAL QTY NOTFFICA TION TYPE AMPS TOTAL 6.kkr' 3 G4RF -S7VM 1232 0.717 0 - 0.000 0.000 2 G4RF -S7VM 0239 0.479 2 G4RF -S7VM 9.236 0.471 1 G4RF -S7VM 0.239 1239 1 G4RF -S7VM •.239 0.23! 1 G4RF -S7VM 0.239 0,239 3 G4RF57VM t.239 4.717 1 G4RFS7VM $239 6.231 4 G4RFS7VM °.231 $156 i GI RFVM 9256 2.740 2 G4RF -S7VM 2.239 0479 5 G4RFS7VM 0239 1196 2 G4RFSNM •.239 #.473 ■�j�ri+" J ,, y 5 G1rF -VM 8255 1.275 0 - 6.403 awe 3 G1 RF -VM 6.255 6.765 5 G1RF -VM 9.255 1.275 4 G1RF -VIM 0255 1020 4 GIRF -VIM 0255 1,020 i Gt RF -VIM 4.256 1.53• 5 GIRF.VM 0255 1 -275 4 G1RF-VM 0.255 1020 5 GIRF -VIM 0.256 1.275 0 - 0000 Dow 4 GiRF -VIM #.251 1.920 1 •- =` �'° �. 2 G1RF -VM •255 0.510 4 G1RF -VM 0255 1,WO �✓�,f 1 - 0 -000 9.60° 6 - 0.40• O.M• 0 - 9 944 0.100 9 - t. 441 #. ON 0 - O. W° 0 000 0 - DODO 0 -000 1 G7GVM 9 291 $ 281 • - DODO °.000 a - 9.000 a no 0 - 0 0°0 0.000 a - 0.000 0.000 0 - 0 °00 O Om 0 000 • 6.N 0 0 000 0 000 r T I.L. ' G - 9.06(1 O.m. O.DGD 0.(706 0 OpW 0.000 tl O.WO 0.000 U G.Uuo 6166 D S.0W 0.900 O - O.WG G900 6 - 7x4 7.0.:0 LI.m D.ULIG U U.U(J(i U.u..D 1 - 6.980 #.980 a - 1000 Qom -n - O - ; L�'� rG_ 0 0.(X10 O.ODO 0 O.tlAA 0.000 0 a.aW O.W4 0 O.WO tl.Wa 0 Ono 61100 U - 0.009 l.1U8 0 D.OW O.00p 0 9000 O.mu a 0000 0000 a DODO 0003 • fr1Dt 000E 0 - O.UU6 0AW - 0M t AS 4 - IOno 0006 � L; ��' .'" �': 0 - - - - _ - - - - 0 -- - - -_- -- -- 0 MV "t I 1Om 2.. 0- rrrwwwllJ ...ttt, , '^f��r"`f l:C; C� U 0 - 0 000 0040 1 6.6(10 0 000 D - ° -006 6..14 t 0 000 0.000 .We J,u � 0j 1 - 0.004 l.Opp 6 - 0.408 •.801 p - 0 QM 8.000 f - 9 006 9 006 0 - t M/ t 6.M a - 6.OM 19°0 0 - 0.000 0 000 • - 0 006 0.100 n - 0.000 O.QpO 0 - Q OW 0 000 0 - 0 Om 0 090 1 - 0.00° 0.000 0 OOm OQOD 0 - 6.280 9.802 IL 0 - p. Wp D -!m • - O Om DODO • - D ODD Goo 0 - ° 000 O - 6 - 0 -OD0 O DOD D - 0,000 O. WD t - 7440 4.800 1 - 0.000 U.00A • - 0.000 6 000 D - 0.000 O WO 0 - 0.000 0.000 0 - 6.Ufv f.UN e-.V- --4 0 W ( t TOTALAMMS: 1 -192 0 TOTALAFAPS: .-. 5 TOTAL AMPS 1243 7 TOTAL AMPS_ 1753 5 TOTAL AM PS_ L25f 5 TOTAL AMPS: 1259 i TOTAL AMPS 2.050 i TOTALAMPS: LM2 5 TOULAMPS' 1.259 f TOTAL AMPS: 2.231 1 - 6000 0.005 6 - OOm 0 -ODQ ( ,.11 & TOTAL AMPS' 2 \41 i TOTAL AMPS. N. 7 TO'ihL_AMPS. 1._705_ p _- - TCtTAL AMPS_ 4 -4:Ti �� A" / / /c�r1a {0�" �] •.� LY,I TOTALS FOR CIRCUO' ll? TOTAI S FOR CIRCUIT" *4 TOTALS FOR CIRCUIT 712 TOTALS FOR CJRCUITJF4 TOTALS FOR CIRCUIT AT TOTALS FOR CIRCUIT #4 TOTALS FOR CIRCUIT *2 TOTALS FOR CIRCUIT 94 TOTALS FOR CIRCUITY2 TOTALS FOR CIRCUIT 94 TOTALS FOR CIRCUIT #I TOTALS FOR CIRCUIT Jk TOTALS FOR CIRCUIT in �_ _ TOTALS FOR CIRCUIT 444 �y I:+_2., J -J QTY NOTIFICATION TYNE AMPS TOTAL QTY NOTIFICATION TYNE AMPS TOTAL OTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIIICATION TYNE AMPS TOTAL QTY NOTIFICATION TYNE AMPS TOTAL OTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL OTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL OTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYNE AMPS TOTAL �,�Ir+ '77 �'I•y ��•^•�� 3 G4RF -S7VM 9.239 #.717 • #.•M 9. on 2 G4RF -S7VM 9.239 9.474 1 G4RF -S7VM 6.239 0.239 4 G4RF -S7VM 6.239 0.966 4 G4RF -S7VM 6.239 4.969 3 G4RF -S7VM 0.239 0.717 1 - GOOD D -000 2 G4RF -S7VM 0.239 0.479 4 G4RF -S7VM 0239 0.V, 6 3 G4RF -S7VM 6.239 6.717 4 G4RF -S7VM 0239 9,956 4 G4RFS7VM 0.238 0.966 4 G4RF -SLAM 0.239 7.951 1 F : • -y- �� '� %J S G1RF -VIM °.255 1275 • j 8.780 •.Nf 4 G9 RF -VIM •256 1.471 4 G1RF -VIM 6.255 1.29 4 G1RF -VIM 1.255 1.•20 2 G1 RF -VM $255 0510 G G1 RF -VM 0.255 1.536 D - 0000 0 -ODO 4 GIRF -VM 0.255 1621 4 GIRF -VM •255 1424 4 G1RF -VM °255 1620 2 G1RF -VM 0.255 0510 _ _ ;., �� {- t - a 000 D W 0 - n nm n mn • - O 000 0 OIU 9 - 0 non 0 090 • - D.OIf & OOS 0 - a 700 6.60❑ 4 a NIU • MO I - Dom 0.000 f - 0.000 #.Ma f - 0.003 & WO a - 0 OGG I DUO 0 - Dom 0 000 _ _ '�i) � � r- - - -- -- _ - -- - ____...- _ -_ -- _- _- - ------ _ -____- _�_ - -� .�.�,. ____,� �1 iRF VM t. 55 .51 ( • - 6.449 #.nDD o - $02.0 •1x18 0 - OaW 2..m❑ 0 - O.aDO Om❑ o - ❑WD 0.❑(1❑ 0 - U.WU U.(0U f - OOm OOm 0 •.448 !440 U - 1.VLV D.aw _ v.UfU D.u-v '�p - OOCtO -00171 • - a.Ur10 Dnm - -- - -i.466- 1 �-Q �rA 5 GIRF VM 0.2.5 a n n rrsL n Dm n n 0770 nnnn . L y4:' t - 7.000 0.(X10 0 - a.9u •e- • - I.00a 0.000 tl - p.OW O.WO G - OOW 0.000 0 - OWD p -000 D - OWO 0, DOG 0 - 0.000 0.000 • $Om Om0 4 - 9099 9.000 0 - Oflm Om0 0 - OOOD DODO 0 0000 O.tlW 0 - 9.nt41 #.009 I F � +r •+ U14 «") • 6.Nf •180 a D.oW a.WV ti [ -" ! ' 0 - 0. we 7.400 0 - O.OM fMa 0 - O.OW 9.000 0 - 9.009 0.000 0 - 9.9°0 9.400 0 - 6.980 LM0 0 0,000 0.000 p - 4,444 8.448 0 - 0.000 0.000 0 - 0.000 0.000 O - poop GOOD 0 - 8.9{0 6..1° c�i �. 0 -000 D. • 0.180 l.N4 0 9 880 6.808 1 2449 9.809 1 •804 6.fM 1 O Om Q -mQ 0 - a om 0 OOD 0 - O.IM f 801 ', "+ " 0 ' 0 - - - - - D - 6.IOI •DTI f - Q -000 O ODO 0 - 0.O W 0.000 0 - 0.000 00u0 1 - TIN \ aa0 D O OOD O Dm ' co 0 O.WO O,Om 0 - 8480 1400 1 4 ^• /r ! _ O - 0 WO 4.44• ! - 0.101 4.097 0 ? 6.M 6.N[ 9 D N\ 9 449 2 n IX7U ! [%Y3 ° 0 -p0q 0440 D • ON t.NI 1 0 000 0000 l - l IN l Nl • - l N! ! N! D _ #.880 •,Nf ! - !900 p 000 n _ p npI 9,090 p - D GOO 0 °710 7 y' r4 - 3 DOTAL AMPS 1.077_^ 0 TOT. ^- L. ^.f.iPS' 0❑D❑ ti TOT. ^ -L AMI'j. 1.4:1: TOTAL Ah7N:;: 7.3^.:1 C T::fAt AP.i f':i. 1.e:U G LOCAL A0.1P5. 1.4tC3 *3 Tfli:.(. iiviF =S 124.' 1 TOTAL Ah7F5. U.'OW S TOTI\LRtM1F'S: 1. IOIAL!'.f ih'C: l.J?ti TC,T„LAMP3- 1,'37 G TOIALAMPS 1ais, f TOTAL AMPS: 2.231 i '�' TOTAL AMPS. 1.4Rt � ,•�,,, � VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS ) 3 '«r VOLTAGE DROP CALCULATIONS '.+ /1. I WIRE RUN VOLTAGE WIRE RUN VOLTAGE WIRE RUN VOLTAGE WIRE RUN VOLTAGE WIRE RUN VOLTAGE K T,..,, r -%- A WIRE RUN VOLTAGE WIRE RUN VOLTAGE OHMS PER TOTAL POWER VOLTAGE i OHMS PER TOTAL MOWER VOLTAGE NR OHMS MER TOTAL MOWER Vpor A OHMS PER TOTAL POWER VOLTAGE OHMS PER TOTAL PONlER VOLTAGE OHMS PER TOTAL POWER VOLTAGE VOLTAGE - -- - CIRCUIT ONE WAY VOLTAGE RER OIJi ACCEPTABLE CRG'UR ONE WAY VOLTAGE READING ACCEPTABLE CIRCUIT ONE WAY VOLTAGE READING ACCEPTABLE CfKCUR ONE wAV VOLTAGE REA01N('J ACCEPTABLE CIRCUIT' ONE WAY VOLTAGC READING ACCEPTABLE CIRCUIT ONE WAY VOI TAr,E READING ACCEPTABLE OHMS PER TOTAL POWER r r I. VdIRC 5kL CIRCUIT _ SURELY DROP AT WIRE 5¢E CIRCUrt'_ SUPPLY DROP AT WIRE 517E TOTALT POWER DROP AT _ - l!I! {FlF SIZE CIRCUIT SUPPLY BTROF A7 W{RE 54_E CIRCUIT SUMMLY NOM AT - r 1 I I P � 'Td'7P 4.T CIRCUR ONC WAY _ _ VOLTAGE REABIrIG t,CCEFTACsLf l TYUMBLIt (Flmk li DROP ATLASF VOLTAGE UROP NUMBER (FEET) UR•P AT VOLTAGE UFtiW NUMBER (FEET) DkOP AT LAB -F WLlAG't CntcYP NUMYEK (FEtU DHON AF[,SSt VVLrxct'UKUW NUNt6ER (FEET] DRi1F' AT LAST 1fULTAGE DF[OP NUMRF..R (FE WtRESLM 'rCl_1T DROP 5`P LY ATUST L VOLTAGE RR•P VriFiE 512E Wr <CUI7' SUrI•L'Y FikvF AT DRAW VOLTAGE Et1D DRAW VOLTAGE END DRAW VOLTAGE 2ND DRAW VOLTAGE END DRAW VOLTAGE END � DRAW VOLTAGE END NUtABER (fFET) DRgr AT ST VOLTAGE DROP 'f (W C.S.) OHMS AWG DEVICE (WC 5) OHMS AWG DEVICE (W -C -S -) OHMS AWG DEVICE (W.C.SJ 4O"MS DEVICE (W.C.S.) OHMS AWG DEVICE A'C 'S') OHMS AWG DEVICE (VJ.C.S.) DRAW VOLTAGE DEVICE FND OHMS AWG CIRCUR *1 194 1-93 12 1.882 0.900 204 iJGO 4X YES CIRCUIT *1 164 i!3 72 1.243 0717 Z0.4 1907 4% YE5 CIRCUIT *i 141 193 12 1.250 0645 204 1171 3% YE5 CIRCUIT *1 G2 75° 0497 204 1991 2% YES CIRCUIT #1 133 193 12 1 -259 0444 204 1975 3% YES CIRCUIT *1 130 11'3 12 2,040 1024 204 19.39 5% YES CIRCUIT *1 151 113 12 1.705 1.040 20.4 i•J,3C 5.00 YES CIRCUIT *2 131 1.03 12 1892 1.oc1 20.4 1-134 5% YES CIIRCUIT*2 92 1997 3 "6 YES CIRCUIT *2 too 1.93 12 1.076 0763 20.4 19.64 4% YES CIRCUIT*2 !1 .247 079! 204 19,61 4X YES CIRCUIT *2 734 1!3 12 1.411 $775 20,4 7$03 4X YES CIRCUIT *2 170 1 -91 12 1 -737 7.140 20.4 19.2E G% YFS , REVISIONS: SPARE 0 1'93 12 4.ND OND 204 2U .4p 0'80. NOT USED CINGYIIT *3 142 143 72 7 -753 0461 20-4 7_•44 G ^1, YE5 CIRt.UIi #3 122 1.73 12 1.25& OSG73 20.4 19.41 3'w VES CIROUR *3 141 ,9=12 1!32 5% YE5 CIrrCI7IT *3 1217 143 t2 2231 110'>t ?hi 1440 5% YES ITY3 1490 1956 4 "I, YE5 1l3 12 1.45 20.4 i% CIRCUIT#2 133 2.231 19.25 YES - ,,,�„ - _ _ CIP.CU 1+15 1.93 12 f.i3S 29.4 CIRCAJR4t3 d12 6.._3 7_ 1.42 C.__ .J.4 1687 _ - YE5 1 SPARE o 1 -Y3 12 0009- 9449 294 2.80 9",c NOT USED CIRCUIT *4 76 1 -O6. 12 1.259- 6.36! 20.4 20.03 21k YE5 CIRCUR#4 NI 180 i2 1466 1132 2.4 1727 M.R YES SPARE � �- .oN_ 9 -6011 294 20.40 0'X. NSJT(JSECI CIRCUIT 6.4 167 1.93 12 1776_ 1.286 204 9l 93 4% YE5 CIRCUR#7 193 1 -s3 12 1.477 7.1'_'0 2•.4 10.18 5',(, YCS CtRCUlTJi4 10F 6.!v' 6.2 1 #66 !644 27.4 1947 3•h YES PER CiTY COMMENTS (W C S,) = WORSTCASE SCENARIO (W.C.S.) - WORST CASE SCENARIO (W.C.S.) = WORST CASE SCENARIO (W.C.S.) -WORST CASE SCENARIi (W C S )= WORST CASE SCENARIO W C 5 WORST CASE SCENARIO ( - )_ (W C -S ) =WORST CASE SCENARIO BY; DL 04 /22110 VOLTAGF DROP CALCULATIONS _ V()ITA IC DROP CALCLAK50tJ : VOLTACfE DROP GALC><IUT1C'N5 VOLTAGE DRDM CAl �,ULATICiN` VOLTAGE 0RC'M CALCULAT10N5 VpI.TAGE DiN]P CALCULATIONS PER CITY COMMENTS - - -- VOLIACL ^.TOP CXLCUL/4TUWz; f . Y1 VD = 2XLXRXI OPERATING RANGE FOR DEVICES OHMS MER THOUSANB VD = 2XLXRXI OPERATING RANGE FOR DEVICES OHMS MER THOUSAND VD = 2XLXRXI MEWATiNG RANGE FOR DEVICES OHMS PER THOUSAND VD = 2XLXRXI QMERA7ING RANGE FOR DEVICES ICE$ OHMS PER THOUSAND VD = 2XLXRX) OPERATING RANGE FOR DEVICES OHMS PER THOUSAND VD = 2XLXRXI OPERATING RANGE FOR DEVICES OHMS PFR THOUSAND -: BY: DL 07/1301 Lt Ian ARC BETWEEN 16VDCAN033VDC 1tAWG 7.77 1600 ARE BETWEEN INDC AND 33VDC 1, AWG ,_ .77 1000 ARF BETWEEN INDC AND 33VDC 1 ;AWG 7.77 10(Iq ARE BETWEEN INDC AND 33VDC 1 ;AWG 7,77 VD = 2XLXRXI OPERATING RANGE FOR DEVICES OHMS PER THOUSAND 7000 ARE BETWEEN IEVDCAND33VDC 18AWG 7.77 1009 AREBETWEENiNDCAND33VDC 18AWG 7.77 1i AWG 4.19 1M6 ARE BETWEEN I8VDC AND 33VDC 6.I AWG 7.77 .' iG AWG 4 -49 1iAWG 439 16 AWG 4.19 7G AWG 442 14 AWG 480 1snQ 2..0 PER CITY COMMENTS VD= VOLTAGE DROP 14 AWG 307 VD= VOLTAGE DROP 14AW- 1117 VD= VOLTAGE DROP 14 AWG 307 VP - VOLTAGE DROP 94 AWG 307 VD DROP 14 AWG 307 VD= VOLTAGE DROP 14 AWG 3.7 1 VD =vp1 PAGE DRUM 12. AWp D7 L ONE WAY LENGTH OF CIRCUIT 72 A'rJG t.a3 - - -- - - - -- - - - - - - . - BY: DL 07/1 5110 ( L - ONE-WAY LENGTH •F CIRCUIT 12 A- 1.13 L. - ONE -WAY LENGTH OF CIRCUIT 72 AWG- _1 93 L = ONE -WAY LENGTH OF CIRCUIT 12 AWG 1 B3 L = ONE wAV LENGTH OF CIRCUIT 12 AWG 1 Y-5 L = ONE -WAY LENGTH OF CIRCUIT 12 AWG 1 -93 L - ONE -WAY LENGTH OF CIRCUIT 12 AWG 1 M 1 R = CONDUCTOR RESISTANCE IN OHMS PER THOUSAND FEET 10 AWG 121 R - CONDUCTOR RESISTANCE N OHMS PER THOUSAND FEET 10 AWG 1.21 R = CONDUCTOR RESISTANCE N OHMS PER THOUSAND FEET 11 AWG 1.21 R = CONDUCTOR RESISTANCE N OHMS PER THOUSAND FEET 70 AWG 121 _ R = CONDUCTOR RESISTANCE N OHMS PER THOUSAND FEET to AWG 1.21 R = CONDUCTOR RESISTANCE N OHMS PER THOUSAND FEET to AWG 1 21 CONDUCTOR 1= LOAD CURRENT I= LOAD CURRENT RCSISTANCC N OHMS PER THOUSAND FEET 6.O AWG 721 � PER CITY COMMENTS I= LOAD CURRENT 1 =LOAD CURRENT 1= LOAD CURRENT I =LOAD CURRENT I =LOAD CURRENT { .... _____-._ _ BY. DL 08/16/10 POWER SUPPLY #15 POWER SUPPLY #1C POWER SUPPLY #17 POWER SUPPLY #1! - - -- POWER SUPPLY #799 POWER SUPPLY #20 POWERSUPPLY#21 , , PER CITY COMMENTS I STANDBY ALARM TOTAL STANDBY TOTALALARM STANDBY ALARM STANDBY ALARM STANDBY ALARM STANDBY AURM STANDBY ALARM STANDBY ALARM - ` BY: DL 09/03/10 TOTAL STANDBY ITSTAIALAR. TOTAL STANDBY TOTAL AURM TOTAL STANDBY TOTALAURM TQV1L STANDBY TOTALALARM TOTAL STANDBY TOTAL ALARM ( CURRENT CURRENT CURRENT CURRENT GURRENT CURRENT CURRENT CURRENT TOTAL STANDBY TA CURRENT CURRENT CURRENT CURRENT DESCRIPTION !N CURRCNT PCR OTY CURRCNT CURRENT CURRENT PER UtJIT PER UNIT DESCRIPTION QTY CURRENT PER arr RRENT DESCRIPTION QTY CURRENT PER OTY CURRENT DESCRIPTION OTY CURRENT PER !TY CURRENT DESCRIPTION STY CURRENT PER OTY CURRENT iESCRIPTNN QTY CURRENT PER QTY CURRENT DESCRIPTION QTY CURRENT PER OTY CURRENT ITEM {At1MS) Ut.1PS1 (AMPS) FAMPS) A` , MER UNR MER UNR PER PS) PER UNR A PER UNR PER UNIT PER k1NIT PER UNIT Iwlp -s) PER UN)r ITE&7 jAl'.7F,c,) PER UNIT {Ariln) (At"SPS} (AfiPS) (AMPS) ITEM tAh.1P`+} (AMPS) ZriC'S) (AMPS) ITEM {AMPS) (AMPS) '44aAr>> JAMPS) TTEM (,a'MF� (AMPS) ( "CAPS) (AMPS) ITEii tnTAPG} (AMPS) (AFhhbi (AMPS) (.AMT'S) (AMPS) - IAMMS) BP51M 6.97 x 1 = 0.070 0.270 x 1 0.270 BMSiW 0070 x 1 - 0 -070 g27U x 7 - g270 RPS iDA 9.070 x 1 - •070 •270 x 1 - 8.278 9PS14A #.170 x 9 - 0470 8.271 x 1 0270 BMSiBA 6.974 z 1 - 1.979 4.271 x 1 - 9271 ■M59BA 0.070 x 1 - 0.070 °270 1 - 027° BP510A 0.070 x 1 - 0.070 #.277 x 7 = 1.279 ) _ CIRCUIT *1 1.769 x 1 = 1769 CIRCUIT *7 1.737 x 1 - 1.737 CIRCUIT *1 1434 x 1 = 1.434 CIRCUR *7 2,43& a t - 2.439 - CIRCUIT #7 1.494 x 1 - 1444 CIRCUIT*7 2.438 x 1 = 2131 i CIRCUIT *2 1.493 x 1 = 1.491 _ _ CIRCUIT #i 2247 x 1 = 2247 - CIRCUIT #2 1753 z 1 1.753 SPARE O.Wo X 0 - ODIJO CIRCUIT R 1753 1 - 1.753 - CIRCUIT Alt 2247 x 1 - 2247 CIRCUITt2 2,7!71 x 1 - 2-231 i CIRCUIT 443 rJOn _ X CIRCU4 *2 1.ON x t - 1.004 .._ '< - .__= 2 =� ",__ „_ C:Ik[ :LN78:9 1?11 1 = 1?11 `j,VA.kF, 13.(vw1 v 4 - fk r�nQ CIFC. -I ilf *.} i -1�:J i __ 14A2_ i.IFC.i IIT 1p, Q:!ft(7 N f QF+;;11 1yR)_i l"" fin'- T_ . 3(133 CIRCUIT #4 1.759 x 1 = 1.769 CIRCUIT *v 1,574 X T - OH11- _ CIRCUIT#4 1.514 x 7 = 1.514 SPARE 0000 x 0 = 0.u70 CIRCUIT I4 1.705 x 1 = 1785 - SPARE 00W x t - 1.OW GRCUIT *4 2.247 x 1 - 2.247 I SPARE DODO x U - UUW ' T A Y T TOTAL SYS FM TOT L S S EM - T 'T to SYSTEM M TOTAL SYSTEM TOTAL SYSTEM TOTAL SYS EM TO L S TOTAL SYSYE TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM TOTAL SYSTEM 9.071 7.314 \ 070 6.485 1979 7.704 0.070 7.601 TOTAL SYSTEM 8.770 TOTAL SYSTEM 5.136 8474 5103 0.070 7.211 r STAN-1- (AMPS) AURM (AMPS) STANDBY (AMPS) AURM (AMPS} STANDBY (AMPS) AURM (AMPS) STANDBY (AMPS) AURM (AMPS) STANDBY AMPS) ALARM (AMPS) -STANDBY (AMPS) ALARM LAMPS) STANDBY (AMPS) AURM (AMPS) REQUIRED OPERATION THE FROM NFPA 72 4 4 -1 5.22 (1) & 4.4.1.5.3.1 REQUIRED OPERATION TIME FROM NFPA 72 4.4 1 5.2.2.(1) & 4.4.1.5.3.1 REQUIRED OPERATION TIME FROM NFPA 72 4 .4.1.5.2.2.(1) & 4.4.1.5.3.1 REQUIRED OPERATION TIME FROM NFPA 72 4 4 -1 5 2 2 -(7} L 4 4.15 3.1 REQUIRED OPERATION TIME FROM NFPA 72 4 .4.1.5.2.2.(7) 9 4.4.1.5.3.1 REQUIRED OPERATION TIME FROM NFM 72 4 4 .1.5.2.2 (1) & 4.4.1.5.3.1 REQUIRED OPERATION TIME FROM NFPA 72 4.4.1.5.2.2.(1) a 4.4- 1 -5 -3 -1 Z ( SYANEMY -24 HOURS ALARM. ISMNUTESX11WY 0.26 HOURS ETANDBY'24HOURS ALARM 15MNUTESX1169 =0.25 HOURS STANDBY: 24 HOURS ALARM: 15 MINUTES X11M =025 HOURS STANDBY_ 24 HOURS ALARM 15 MINUTES XV8o= 025HO(IR5 STANDBY: 24 HOURS ALARM_ 15MNUTESX110 =025 HOURS STANDBY- 24 HOURS ALARM 11MNUTESX1 /8D =025 HOURS STANDBY- 24 HOURS ALARM: 15 MINUTES X1 /60 =025 HOURS I � REGESTEREDENGNVEER: f, REQUIRED STANDBY STANDBY REQUIRED TOTALALARM RAQAI D REQUIRED TOTAL REQUIRED REQUIRED TOTALALARM REQUIRED REQUIRED TOTAL REQUIRED REQUIRED v TOTALALARM REQUIRED REQUIRED TOTAL REQUIRED REQUIRED TOTALALARM REQUIRED RE IRED TOTAL REQUIRED REQUIRED - fUTALAURM REQUIRED REQUIRED TOTAL REQUIRED REQUIRED TOTALAURM REQUIRED REQUIRED TOTAL REQUIRED REQUIRED TOTAL ALA REQUIRED S p STANDBY STANDBY ALARM STANDBY STANDBY ALARM STANDBY STANDBY ALARM QU • STANDBY STANDBY AURM STANDBY STANDBY ALARM SHANTILAL C. PATEL i, STANDBY ALARM THE CURRENT STANDBY ALARM TIME CURRENT STANNY AURM TIME CURRENT STANDBY ALARM TIME CURRENT STANDBY STANDBY STANDBY ALARM TIME CURRENT ALARM STANDBY ALARM TIME CURRENT STANDBY ALARM TIME CURRENT CURRENT CAPACITY CARACfTY CURRENT CAPACITY CAI CURRENT CAPACITY CAPACITY CURRENT CAPACITY CAI CRY TIME (HONKS) (HOURS) (/tMM$) THE (HOURS) (HOURS) (AMPS) TIMF (HOURS) (HOURS) (AMPS) TIME (HOURS) (HOURS) (AMPS} TIME (HOURS) CURRENT CAPACffY ALARM (AMRS) CAPACITY CURRENT CAR CI CAP CITY CURRENT CAPACITY CAPACITY (AMPS) (AMP -HR) ,AM CITY ) TIME (HOURS) (HOURS) (AMPS) TIME (HOURS) (HOURS) (AMPS} (Amrn (Aril• HR) (ANTI' -HR) (AMPS) (AMP-HR) (AMP -HR) (AMPS) _ (Amr -HR) (AMP -HR) (Ah3P5) _ (AF4p+i14} _ (AMP -LIRi (AMPS) 1-1 -NRI (AMP -HR) (AMPS) (AMP-HR) (AttC'4"IR) - 954-962-3765 1 24 X flfl7q = 1GN 7.25 X 7.314 = 17129 24 X 6.076 - 1.640 0.25 X C48a - 1621 24 X 007° = 7490 0 -25 X 1 -'04 - 0.426 24 X 0070 = 1.6&9 0.25 X 7.643 - 1.912 24 X 0070 - 1440 025 X 5035 - 1250 24 X 0.070 - Tsa0 0.25 X 5.°03 = 1257 24 X 6470 = 1.iN 1.25 X 9213 - 2.305 , r VJti1 REQUIRED LREQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MNIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM REQUIRED REQUIRED MINIMUM MINIMUM � FIRE PF�p''j�{''y7�i'�. STANDBY BERATING AMP /HOUR AMNHOUR REQUIRED REQUIRED REQUIRED REQUIRED REQUIREU REQUIRED ♦ 1 �1 - ,I AMPlNOUR STANDBY ALARM DERATiNCa AMPMOUR AMPMOUR STANDBY AURM DERATNO AMPMOUR AMP /HOUR STANDBY AURM DEBATING AMMIHOUR AMP /HOUR STANDBY AURM �E1. AMP /HOUR AMP /NOR STANDBY ALARM DFRATNG AMPMOUR AMhMQUR SEALANT ALARM BERATING AMPMOUR AMPMOl1R � .� Ps1$ CAPACITY FACTOR 12 BATTERY BATTERY AhiRMOUR AMP1tI0UR MAIM UR AMMlHOLJR Sh1PMOH2 AMMIHOUR ♦ i I BATTERY PS1G CAPACITY CAFACirl FACTOR t2 BATTERY BATTERY PS17 CAPACITY CAPACITY FACTOR 11.2 BATTERY hAYWRT' PSI= CAFAGITY CAPACITY FACTOR T.2 BATTERY BATTERY CAPACITY CAPACITY FACTOR 12 BATTERY BATTERY PS20 CAPACITY CAPACiiY FACTOR1..2 2ArrRY aATTERY Pg.21 CAPACITY CAPACITY FACTORI2 BATTERY BATTERY t' •••• 1 4# ( (AMP -HR) REQUIRED REQUIRED RAI ILRY RATTF.RV BATTERY PS1•J BATTERY BATTERY BATTERY .p M+iR) REQUIRED REQUIRED (AMRHR) (AMP -HR) REQUIRED REQUIREU (AMP -HR) (AMN+IR) REQUIRED REQUIRCD (AMP -HR) (AMP -HR) REQUIRED REQUIRED (AMP -HR) (AMP -HR) REQUIRED REQUIRED (AMP -HR) (AMPFFQ REQUIRED REQUIRED • C� ,A i 1.680 + = 3 509 X 12 = 4 -210 12 t.ilU + 1.621 = 3301 X 12 = 3.962 7 142° + 0 420 - 2 100 X 1.2 - 2.527 7 1.640 + 1.912 = 3.502 X 1.2 4.310 12 1410 + 1254 - 2734 X 1 2 3 -527 7 1 680 + 1.251 = 2.911 X 1 2 = 3.517 7 7.804 2.3Ki = 39&5 X 1 2 - 4 791 12 - 0 • I C d N ti •fi - - 2.0 TOTALS FOR CIRCUIT *1 TOTALS FOR CIRCUIT *3 - _ __ __ �' - _ _ -_ TOTALS FqR GRr><}IT 81 7q TALS FOR GIRGU 6.L Jf3 TOTALS FOR GIRL ?!IT *7 TOTALS FOR CIRCUIT *3 TOTALS FOR CIRf.IJfi *1 TOTALS FOR CIRCUIT *.v R CIRCUIT Ii TOL46.5 FOrt CIRQl/IT #3 TOTAL$ FqR QIRCUIT #t TOTALS FOR CIRCVIT *3 TOTALS FOR CIRC'I!IT #1 TOTALS FOR QIRCl1IT 4!4 • TY NOTIFiCATIONT"rPE AMPS TOTAL � OTY NOTI,ICATIOFIT� E A�JP� TOTAL .ps -..__" __.- - -- - _.._...., - _ TOT; ,LE F� _ -.,.., lJ" • �'' , e O _ bTY NOTIFICATION TYPE AMPS TOTAL TTY NOTIFICATION TYNE AMPS TOTAL OTY NOTIFICATION TYPE AMP- T•TAI !N NOTIFICATION TYPE AMPS TOTAL !TY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL 1 G41(FSNM U 237 U 239 Z G4RF -SLAM 1.239 4.471 - nITY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYNE AMPS TOTAL OTY NOTIFICATION TYPE AMPS TOTAL !'h' N[311FIC,A'FION^T'YPE AMPS TOTAL QTY NOTIFICAT70N TYPE AMPS TOTAL QTY N - hf- ICAYKfN TYPE AMPS IOTA f rri • .�; 1 3 G4RF -S7VM 0.739 0.717 4 G4RF -57VM 0.239 O.Y6 6 �G4RFSNM 9238 1434 t I's 0004 7 G4RF -S7VM 0238 1673 3 G4RF -S7VM 9.239 0.717 3 G4RFS7VM 0.739 0.717 1 G4RF -SLAM 0.730 0.739 2 G4RF -SNM 0.239 0.474 2 G4RF -S7VM 9.239 9.478 7 G4RFS7VM 9238 1673 1 G4RF -S7VM 0.239 0239 •• • Ir• • `� 6 G1RF -VIM 0.255 1.530 C G1RF -VIM 0255 1 -530 4 G1RFVM 9.255 1.021 1 G1Rf -VM 6.255 A. a - 0°00 Dom 0 - O0W 0.000 3 G1RF -VM 9.256 0.765 3 G1RF -VM 6.255 6365 6 G1RFVM 1255 1.531 5 G1 RF -VIM 0.256 1.275 4 G1RFVh7 6.255 1129 2 GiRF -VM _ 0.255 0.510 3 GIRF -VM 0255 OIG5 1 757 -4MSS(75c4) •297 0263 - 0 r R,J • �'-' 6 - 0000 0.000 0 - OOW 0.000 t - ° -Om OOOD 0 - OOW 0 -000 • - 0.000 O.OW 0 - 0.000 0.000 A 0.000 OOW D - 4404 8.M• a - 0 -000 DODO D - Om0 0000 0 - 0.000 0.00° 0 - 0000 0000 ° - 00(10 O.N• 6 G1 RF -VIM 0256 1530 0 - a.4N 9980 6 - 9480 a909 ; _ 0 -mo DODO 0 0Om _0 -000 0 _ _ _ 00W 00W p 6.fM 9.449 I l6M 0.080 • O.pW 0.000 0 000° 0000 D 0000 0ODU 0 0mp 080° 0 9DM 9.Goo 0 p.WO p.WO 0 I'M RAN ~' C • 0 - O(Y_Y) 4 rrca O - 0 Gila i1 GOn -4) = ,0.OW 9 000 1l = U.ow 0 W0 4 - � a out a 004 a = •.180 10.,0°1 9 *.aN 9.80! • -- 0 0"4 0000 q ll D0n f aGa 0 IS -(Y17 0 -.1717 0 = 0.000 0.004 D - TON f.ODf U 0.0W 0.09II U U UW U. WU � r • ^ • • 0 - 0,on 9402 0 fl 000 6.801 U - D OM Dom 0 - 0 000 GOOD 0 - 0.000 0.000 0 - cow a 804 a 1.480 6400 0 - D.nDA Q. WD p 0 -000 0 WO U 0 -Clm D -000 0 - 0 mb 6000 O - 1 880 9 Bo° 1 - 0 Opp 0.000 0 - 0 -000 Cl WU ` •• 'J ' / U • ]Y[ ( 0 - 0.030 G 900 0 - 9.000 0 -000 0 - 0.000 0.000 0 - 0 000 O. W A tl - • QM logo • 0.000 0 000 0 - a Wa a DIN] 0 - 0 000 6.000 t 0 000 0 000 C) 0.000 p 000 0 - 0.000 A. W 0 q - 0 000 9.000 9 - 6.an 0.804 9 - 0.000 0.000 I ! • 11� �^ (� • T ti 0 - 0.0W DoOD • - 7.000 O.mO ♦ A / - O.NI ION t - 8144 7.007 • - Dow O.OW ° - OAW O -DW 0 - 0000 0.000 0 - 0000 0.000 0 - 0000 0000 0 - 0.000 0.000 t - Iwo 1.80° ! - O.OW 0.000 ! - f.O0 6.844 D - 0000 0.000 7 TOTAL AMPS 1.769 9 TOTAL AMPS: 2.W4 - YA s - 7 TOTAL AMFS: 1737 5 TOTTLAM PS: 1.211 6 TOTAL AMPS C 0 TOTAL AMPS: O.WD 10 TOTALAMMS: 2A3i i TOTAL AMPSI 1.41,2 9 OA 20-0 2.247 G TOTAL AMPS: 1.514 G TOTAL AMPS 1498 4 TOTAL AMPS: OBU 10 TOTAL, MRS 2.431 t TOTAL AMPS: 2.832 :/1 j`r ,� TOTALS FOR CIRGIIT Jt2 TOTALS FOR CIRCUIT #4 TOTALS FOR CIRCUIT* TOTALS FOR CIRCUIT #4 TOTALS FOR CIRCUIT #2 TOTALS FOR CIRCUrt *4 TOTALS FOR CIRCUIT Jr- TOTALS FOR CIRCUIT *4 TOTALS FOR CIRCUIT 92 TOTALS FOR CIRCUIT *t TOTALS FOR CIRCUIT iC' TOTALS FOR CIRCUIT #4 TOTALS FOR CIRCUIT *2 TOTALS FOR CIRCUIT *4 ��,�//y� pr QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL OTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL OTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL QTY NOTIFICATION ttME AMPS TOTAL !TY NOTIFICATION TYNE AMPS TOTAL QTY NOTIFICATION TYPE AMPS TOTAL z � -N UMBE . r j' ! i 2 G4RF -SNM 0.238 0471 i G4RFSNM 1.237 4.23! 2 G4RF -SNh1 6.239 •472 1 G4RF -SNM 8239 4.249 1 - 6.909 0400 I - UDm ° -000 2 G4RFSNM 0.239 •476 5 G4HT- -SNM 0237 1.195 i G4RFS7VM O.Z39 0.739 0 - 0.000 O.OW 3 G4RF -SNM 0239 9717 0 - 0000 OOOD 4 G4RF -S7VM 7239 6.806 3 G4RF -SNM 0.239 0.717 ' 4 GiRF -VIM 0256 1.020 G GiRF- -VIM o.25G 1.530 5 G9RF -VIM 7255 1275 5 GiRF -VIM 4256 9.275 0 - 8.900 •880 1 - OOm 0 -000 5 GiRF -VIM 0.256 1.275 7 G1RF -VIM 0,255 #.51! 3 GiRF -VIM 0255 0.765 0 0.000 OQW R G7RF -VIM 0255 1530 0 O0m OOm 5 G1RF -VIM 0255 1.275 G GiRF -VIM •255 7530 S/ F -00214 { U - 9.877 LfM t - 2.011° 6.IM • - O.WU f.OW i - OlX1U f.WU • - $990 O.ON 1 - $880 6.W0 0 - aa(0 a.DUO 1 - •000 #.Mo a _ - •440 0On$ • •rm 9017 _•_ - am* iMi \ - OpaO 8000 0 - 0BOB 0486 • - 000° Cam D - 0(703 1.0;:2 i - D.#.CD 0.006 0 - $tIJO 0UW 6 - $Dl8 f.WO ❑ - uuw •uw V - O.U170 &WO O - blm vow • - •.iM 6.400 -a ._- .. -. . -_ .. -. a.MO 8148 • . -. ..- - ... . � a.aM IN\ O - uWB D.ipO 0 0.9fU 0444 t - 0000 OWL[ 6 - #.WD U.WU 0 - Dom 9D OD 0 - O.Ow 0.000 0 D -000 0000 a 0DOD 0000 0 0000 0.000 0 1910 4.000 • 9.140 6.OW D Dam OD00 • awe Ime • aan !400 • &OOn \.M6 0 0409 4.240 D 0000 0.000 0 0000 0-000 DATE: SCALE: , 0 - O.WO 0.000 9 - 9 -OOD 0.44° 0 - 0000 0000 O - 0000 O.WO 0 8.807 O.00D 0 0000 0000 • - 0000 0900 0 - 0 -OW Omo 0 - 0000 0000 a - 0 -000 •ODD O - O.WO O.WO 0 - ,-2 DOD 0000 • - •.lN 0100 0 - 0.000 O.WD • 0.14o p.oW D GOOD o.mo D 0.000 O.DW D - DDW D.Wp D - 4, 100 9900 0 0000 a.Wq 0 - O.DW O.aW D - 9000 o.WO o - 0000 °000 D oom D.om 1 D.m- IWD 6. a- 0coo D - DODO o.fof 6 4.N° 4Dm 07/13/06 1/8 0 - 0 -004 8.600 0 - O.DOn tl. W4 D - ■ 8LO same \ - 1 !N O IUt U - A 000 1 Opl7 0 - 0.•80 0.800 1 - 9980 9.000 • - 1 Q±O O.NO 0 0.00A 0.000 0 U.00U 0.000 • - -.N9 f.Nl 1 - 1 QN �.lDO • - 0000 A.QUn 0 - 4000 0 000 PyJ G TOTAL AMW$. 1.4:701 7 TOTAL At,IPS. '1.709 7 TOTAL AMP S. 9353 • DOTAL AMFS: { -514 a TOTAL tPAPS: 000'7 0 T ^'TAI!.F. +.E'•1 0.7F1 7 T'_TAL A6:lf•::. I.i53 ? 1ti='T r.1- Al:Ik'S, 1.705 ,R 101f4LANIP;: 1.(7UT 0 i�O 1P.t AP.1:'S: O,- _ TOT.!LY.R.7I'P_: 2. °"' U TIIDki AP "f`S' .O.M _rAt 111 Z2?I 9 TpTA.L ±A.'!u5' 2 "!4-C _ Z) DRAWN BY: CHECKED BY: VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS VOLTAGE DROP CALCULATIONS / � 11 WIRE RUN VOLTAGE WIRE RUN VOLTAGE WIRE RUN VOLTAGE WIRE RUN VOLTAGE WIRE RUN VOLTAGE WIRE RUN VOLTAGE WIRE RUN VOLTAGE V - C E N AR R U D • N OHMS PER TOTAL POWER VOLTAGE OHMS PER TOTAL POWER VOLTAGE OHMS MER TOTAL POWER VOLTAGE OHMS PER TOTAL POWER VOLTAGE OHMS PER TOTAL POWER VOLTAGE OHMS PER TOTAL POWER VOLTAGE OHMS PIER TOTAL POWER VOLTAGE CIRCUIT ONE WAY VOLTAGE READING ACCEPTABLE CIRCUIT ONE WAY VOLTAGE READING _ ACCEPTABLE CIRCUIT ONE WAY VOLTAGE READING ACCEPTABLE CIRCUIT ONE WAY VOLTAGE READING ACCEPTABLE CIRCUIT ONE WAY VOLTAGE READING ACCEPTABLE CIRCUIT ONE WAY WLTAGE READING ACCEPTABLE CIRCUIT ONE WAY VOLTAGE READING ACCEPTABLE WIRE SIZE CIRCUIT SJPMLY DROP AT _ 15/IRE 51S' CIRCUIT _ ;d1MPi Y DR,-,P AT _ - - _ WIRE SIZE CIRCUM 5UI4'LY DROP AT WIRE SIZE CIRCUIT SUPPLY DROP AT _ _ WIRE SITE CIRCUIT -- SUPPLY - DROP AT -- - -- -- - WIRE SEE CIRCUIT SUPPLY DROP AT -- Lti9RE SL'E CIRCUIT SUPPLY _ PF1Uh AT PJUMEER (Hf£Y) S)tiOM ATUST VOLTAGE DROP NuM6Erc (FeET) Fmvh ATUST Vc1LTAGE GROM NUMLIEK = DRAW V•LTA(iF_ END •MW VOLTAGE END (F7 =ET) UR {W DR•r VOLTAGE 'ATU'S'( ENO VOLTAGE DiiOP iVttivTBER (FEES DRAW DROP VOLTAGE ATUST CND VOLTAGE DRDM NUMBL -R (FkEi) DuW ukbN VOLTAGE AT USf END VbLIV,GE UKUW Ni)ititER ('FEET) DRAW GROr VOLTAGE ATUST END VuLTNGE UkOG NUMBER (FEET) DRAW T' F VOLTAGE 7`T tHaT END VOLTAGE DROP (W.0 -S.) DEVICE (W Q,S -) DEVICE (W -C -S -) DEVICE (W C. DEVICE OHMS AWG (W -C -S -) DEVICE (W.C.S.) DEVICE (W.C.S) DEVICE I r �� ` OHMS AWG OHMS AWG OHMS AWG OHMS AWG OHMS AWG OHMS AWG Lv--J' I CIRCUIT #1 128 1.93 12 1 76• 2.131 294 1952 . 4% YES CIRCUIT *1 iG9 1,93 12 1.737 1.133 20.4 19.27 i% YES CIRCUIT *1 712 173 12 7434 9.429 27.4 16. 7i 3% YE5 CIRCUIT *1 iRb 713 12 2431 1769 204 1i,S3 9X VES CIRCUIT *1 201 1.93 12 2.247 1.743 204 19.671 � YES CIRCUIT $1 165 293 12 1.498 0.954 20.4 11.45 5% YES CIRCUIT #1 171 1.93 12 2438 1009 20.4 17.79 ;% YES ( CIRCUIT*2 124 7.93 12 1.49& 0717 204 1114 4X YES CIRCUIT*2 120 1.93 12 1.753 0812 20.4 1959 4% YES SPARE 0 1.73 12 CARD 0009 204 2040 OX NOT USED CIRCUIT #2 212 143 12 1.753 1435 204 18.97 7% YES CIRCUIT#2 151 1.92 12 1.004 #.585 20.4 19.91 3% YES CIRCUIT*2 170 1.83 12 2.247 1.474 204 18.83 114 YES CIRCUIT*2 772 7 -93 12 2.237 1.481 20.4 Ian 7% YES CIRCUIT *3 ti! 7.93 12 2A0; 13$1 204 1900 7'X YES GIftCI_IIT *3 116 193 tt _1211 _0542 _ 204 it 6R 3% YES SPARE D 1P.'1 12 OOnn 0000 2114 2p 419 oX N(jT USED CIRCUIT >t.3 2q5__ 1 -43 12 1.482 1772 204 _ 1823 _6% YES CIRCUIT #r3 2U+ if3 12 1574 1772 29.4 1421 GAi YES CIRCUIT *3 192 if3 12 OSiOn •732 2.4 11 G7 4' <. YES CIRCUIT A"3 iF2 143 to 211'12 1.271 214 19.13 G�. YES __ - - .. -w.__ __ .. _ __ __ _ _ _ __- _ _ _ _ - _ _ __ _ _ _ un� -UTT lt4 12.9_ 1:�0 1: 7.7W U.iiT 717.4 11.52 Oar 'YE5 CIRCl11T *4 172 -7.93 12 1.514 1.805 204 14.34 5% YES SPARE 0 193 12 DOM nDOG 20-4 20 -4❑ 0% NOTUSED CIRCUR#4 741 793 12 1.744 •12i� 204 1447 5% YES SPARE 0 T!3 T2 0000 0°00 204 2040 6% NOTUSED SMARE 9 173 72 •.M• 1000 204 2044 0% NOT USE■ CIRCUR 444 192 1 -xi 12 2247 TAGS 20-4 1473 i% YE5 ( (W.C.S.) = WORST CASE SCENARIO (W,C.S.) = WORST CASE SCENARIO (W C S ) = WORST CASE SCFNA RK.7 (w.CS) = WORST CASE SCENARIO, (W.C.S.) =WORST CASE SCENARIO (W.C.S.) =WORST CASE SCENARIO (W C S -) = WORST CASE SCENARIO : _ I _._ _ ._'_ - - - . - - --- - - - - . - -' - - '- - - - -_ - - - -. - - - 1- - 1