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N N N Ver. 2014 Utility Fault Current amperes kVA - 3(0 `m 1'ds corTtcast. net E =1 208 1= Vtrans.L k A x1_ fi0f3 »t sorts A r $ ans FLA 1 '. E x 1.732 hea = trans. FLA x 100 x PF PF = 05°I1 transformer Z Z - 2.50-1 Ise"= ampere short-circuit current RMS symmetrical, is 35,063 amperes Point to Paint Method Three Phase 208112€t _.,. Length(distance)�r L O er in Nonmetallic Rc� a = ?0 to e 1.732 x L x l (ASC) f ` factor � � 14L.t , NxCxE L-N # conductors r phase N = 2. Phase conductor constant C 20 ease Conductor resit Volt Line to Line E L - L = 208 .Volt .... , '. Neutral conductor Constant C =Rp Neutral Conductor F500 kernit Multiplier Volt Line to Neutral E L - N = 120 Volt f - M= 1 + n 1 f Line to Line M - Q Lute to Neutral M Ov"601, Fault Current at Service Equipment Isca x M = fain currant at terminals of main disconnect L- L = amperes Isca x M = fault current at terminals of main disconnect L- N amperes Fault Current from M o P EL F corps in Metal Ra (y Three Phase Feeder Length (distance) L =F 12 `ffactor = 1,732x L x I (ASC) Inca Phase 17,57`' Neutral N x C x E L-N # conductors per phase N Phase conductor constant C = ' : ' I T ease C€ nductor �� aW . Volt Line to Line E L - L = Volt f T Neutral conductor constant C �..�Neutral Conductor 4/0 Volt Lune to Neutral E L - N = Volt Multiplier f M = 1 Line to Line I + f Line to Neutral M M =� Isca x M = fault current at terminal of the pastel L- L = amperes Isca x M = fault current at terminal of the panel L- N = amperes Ver. 2014 Utility Fault Current _ amperes kVA = 300 'rrl lids con ast net E 208 I = kVA x 1000 = trans. FLA trans. FLA E x 1.732 Isca = trans. FLA x 100 x PF PF = OS°fn transformer Z _ Z - 2.5{i°l LC�a= ampere short-circuit current RAMS symmetrical. Isc<a w„ amperes Point to Point Method Three Phase 2C 712O �► Length (distance) FEET L = 0 corner In Ntanmeta he c ay 'f 'factor = 1.732 x L x I (ASC) N x C x E L-N # conductors per phase N - Phase conductor constant C - ......:......e.a..._.,,.,,,,, Phase Conductor 15wkCM0 v Volt Line to Line E L - L 208 Volt f Neutral conductor constant C Neutral Conductor kcm _ , Multiplier Volk Line to Neutral E L - N = 120 Volt f 0.095 M= 1 1 + f Line to Line M 0323 Line to Neutral M - 0.501' CurrentFault - - EquipmIent Is ., x M = fault current at terminals of main disconnect L- L amperes Isca x M = fault current at terminals of main disconnect L- N a€riperes Fault Current from P to PANEL A& C x sapper in Metal -Raceway Three Phase Length (distance) L Three. Phase � 1.732 x L x i (ASC) `f factor = I a = 2 ,,350 Phase 17,57? Neutral N x C x E L-N # conductors per phase N = 1 Phase conductor constant C - I 1 002 Phase Conductor 4 .' Volt Line to Line E L - L = Volt f 68€ Neutral conductor constant C 1 2 Netttral Conductor 410 Volt Line to Neutral E L - N = $Volt Multiplier f0 M - 1 Line to Line M Q 73. 1 + f Line to Neutral M 0 334 Isca x M =fault current at terminal of the panel L- L Iwoamperes Isca x M = fault current at terminal of the panel L- N amperes AMPS: 225 MOUNT: RECESSED c PANEL: MAN LUGS ONLY ENCLf SUR NEMA I , 14COEL: NO AIC: 22,000 SERVICE: 12(/ 208 V. 30, 4W LOCATION ROOM 140 CKT BREAKER CONNECTED LOAD iKilA) BREAKER NUM DESCRIPTOR CODE A P A B C A B C A P COME EESCRVIiN 1 DISPOSAL MTR 20 1 1.92 2,8a 5Q 2 EQ COOKTOP 3 SPACE 00 2.I Q 50 Eta COOKTOP 5 SPACE 000 4.80 50 i 2 ED WAIL OVEN 7 J1#CC TSAR _ REG 20 1 0,54 a.) 5ct i EQ Y1ALL 6�EI=1 __ 'J Rt11 A 5 REC 20 1 72 0, . .7` 0 1 ZO i REG 1 RM 27 T11 IM 129 REC 20 1_,,.. 0.72 1,00 20 i 1 REC RM 140REFWERA OR 13 RM 123 REC 20 1 a,91D 0.90 20` 1 REC RM 124 15 RAI 124 REC 20 1 0 e4 0.36 20 1 REC RM 120 1- RAt 140 REC 20 1 rO 72 1,00 20G i REC KITCHEN DSFI+n'ASi-tEFt 19 RM 140TV REC 20 1 0.38 `,i 1,7? 20 1 REC RM 142 21 HOOD 140 REC 26 1 Q,00 0 S0 EM 20 1 REC RM 122 237 RM 120 REG 2p 1 4.72 0.72 2€1 1 REG RM 114 25 ml 101 - REC 20 i C18 1.08 20 1 REC RM 110a 27 RA4 110 REC 20 1 s i1..0 ,, 0 y6 20 1 REC JUICE BAR 29 UNG REFRIGERATORJUiCE BAR REC 20 1 1'00 0.54 20 1 REC RM 112 31 JUICE E3.AR REC 20 1 0 54 0.72 20 : 1 REC R141107 33 RAi 122 RX 20 1 1 141 35 KITCHEN REC 20 1 0,a4 0,54 70 - 1 R EC RTd 146 3' SPACE MISC €}.ta p,0#O 20 ; 1 t+i3 C 'FtwE 39 SPACE L11C fl.00 0 y0 20 s 1 MISC SPARE 41 SPACE AtiSC ___.... 4iiQ t?.00 20 I 1 MtSC SPARE 43 RAI 126 REC 20 1 a.72 2.5a 30 t 3 H NC DS4 45 LIGHTS KIT CI NIU3t1IOFFICEaAh1 LTG 1 20 1 1.<3 2.50 30 , HNC DS4 47 LIGHTING RECRONTIOPPICE U 20 1 I.02 2.51i 30 HNC L1$4 49 LIGHTING OUTDOOR LTG 20 1 0 28 4.71 50 3 H NC; D55 51 _... __.... _.__ LIGHTS OUTDOOR _ LTG 20 _ 1 0.14 � � �°� 4,71 _ 50 _. HNC -___-- DS5 53 LIGHTING OUTDOOR LTG 20 1 g 0.99 „`"" 4.71 50 HNC RS5 55 LHTW tiUr[DDOf3 LTA 20 1 20 1 REC. PROJECTOR 5.` L1,Sfi� HNC 40 3 T�� 3.46 U.18 20 I i REC SCREEN 59 DS6 H NC 40 .d( 1.92 20 ' 1 Ea DISK)SAI_ 6t DS3 H Ne All 3 48 (la 20G 1 EQ 66H AS14, 63 D$18 EQ 15 3 0„1 C, <t? 20 1 LTG GFFICE 65 0518 EO 15 - 0.31 0,00 20 1 SPARE 67 DS18 EQ 15 i}.31 a.00 20Rm FARE 69 SPACEAvE 71 SPACE ........._..., (}.0f# v,. � G.OG _ SPACE 73 SPACE 6.00 0.00 SWE. 7 75 SPACE O.�;I� a Iro SPACE 77 FACE 0130 Y; 0,0€1 SWE 79 SPACE Q,0() 0 00 3tO 3 I41SC SPD 81 SPACE O,iG M ," €i.00 IJ iSC 5T'D 83 SPACE 0.00 0.00 14lSC SPD 1 w 7.8 10,4 191 13.8 17A C€iNNECT"D DEMAND DLMAND A1P h1 C MCI NEC LOAD (KVA) FACTOR LOAD KVA) LOAD (KVN LOAD (AMPS) LIGHT4,PG (LTG) 6-6 1.25 6,6 8.2 PER NEC 215.3 RECEPTACLES(RM 2111 1€66 154 PER NEC22OA4 AC (NON 0014G )(AC,NC) 0.0 1.0 0.0 OX PER NEC 220,63 HEAT (NON COI'ICID)(H NO 32.0 1.0 320 32.0 ` PER NEC 2204) MAC (CONCID)(HVAC C) 0.0 1.0 0-0 0.0 EQUIPMENT (FO) 18.S 1.0 18.5 8,5 MOTORS (MTR) H 1,0 00 OX LARGEST MOTOR 1.9 1.25 1,9 2A 'PER NEC 430,24 MISCEL�ANEOUS (MrC) 0-0 1,0 0.0 ox TOTAL 401 74:5 06,6 2123 MAPS CEILING IEXISTING TRANSFORMER AND PADI F t I I I I --- „tt: OII II I II I II I II I II I II I II I II I I III I I II I I I II I 111110M 76 79 80 82 AMPS'00 MOUNT' SURFACE PANEL: MAIN: LUGS ONLY ENCLOStRE_ NEMA 1 MODEL: NO AIC: 22,000 SERVICE. 120t 208 V. 30, 4W LOCATION' ELECTRIC ROOM CKT BREAKER CONNECTED LOAD (KVA) BREAKER CKT NUM DESCRIPTION CODE A j RWA C A 8 C A R CODE DESCRIPTION NUM 1 RM 153 REC 20 1 054 20 1 REC RM 154 2 a RM 151 REC 202 1 '�� 7 0 2 1 REC RM i54 4 5 RM 152 REC 20 1a 9D ii.72 20 1 REC ':RM 1027 Rid 104 REC 20 1 0.72 20 1 REC ':RM 103 8 9 RAAA 902 REC 20 1 0.3C L 5_ 10 1 REC m I:RAM1 102 REFI2f1SEitAt(7R 1tl 11 DS2 H t 1C 50 3ugly 4.71 fl.=z1 15 3 EQ 'DS+17 12 13 L't52 H NO 50 4 71 0,31 15 EQ OS17 14 15 DS2 HNC 50 4 i t 031 15 EQ DS17 16 17 DS1 H NO 80 3 � 7 21 y, 0.31 15 3 EQ aS16 18 19 DS1 H NC 60 '.21 0.31 15 Ed D516 20 21 DS1 HNC 80 7 21 0.31 15 EQ DS16 22 23 DS9 AC NO 35 3 210 3.37 50 3 AC NC D88 24 25 DS9 AC NO 35 2.1fl 3 37 %''°' 50 AC NC DS8 26 27 E1S9 AG NC 35 21 CF t x.; � 3.7 ACNG DS8 28 23 LiS10 ACNC 30 3 80 � ?. 1.44 25 3 AG NC d511 30 31 Ds10 AC NC 30 : 1 8€1 144 b,%, 25 AG NC Ds11 32 33 'DS10 AC NC 30 ! 18Q ? 1t4 25 AC NC':DS11 34 35 i2 AC NC 35 3 210 � ' ' 1.1' 20 1 LTG (LIGHT GAER0BiCSFNkbbWJFPICE 35 37 DS1 2 ACNC 35 ', 2.1G 0,96 20 1 LTG LIGHTING E1REA[KiOFFICE:tICEsS 38 39 ':DS12 ACNC 35 21a ✓ s-'s' 122 20 1 LTG LIGHTNGOFFICEILOBBY/1-OUINGE 44 41 SPARE MISC 20 1 >'> 0 Q® a , 0.00 SPACE 42 __. 43 DS14�__ - AC NC 15 -- 3 1 fl8 �,; `'- 18G 3t1 3 #C NC __..... _ _ w._. D513 _ _ 44 45 DS14 AC NO 15 C 8 84 30 AC NC D513 46 47 DS14 AC NO 15 t 08 1 80 30 ACNC 0513 48 49 DS3 HNC 45 3 4 23 z QC 30 2 EQ DRYER 50 51 ...._.._........ DS3 . _.... HNC 4-�3 2.00 30 _..m... E0, _ _ . _ ... DRYER 52 53 DS3 H NC 4.23 fl.00 SPACE 54 55 RECEPTACLES REC 20 1 09f1 _ O.bC SPACE 56 57 ,SPACE 0 Csv 0.00 SPACE 58 5'3 SPAC E O.Ofl 4.00 _ - SPACE 60 61 SPACE Q 0C1 ' O.aQ !SPACE 62 63 SPACE a 0C SPACE 64 65 SPACE 0:00 - _0.L10 0.00 SPACE 66 67 SPACE 4 ill 5 1C SPACE 68 69 SPACE va 0 SPACE 70 71 SPACE 0.00 - 0 00 SPACE 72 73 SPACE a.f Q ` ` ' o a© SPACE 74 75 SPACE 0 00 mm 0.fl7 SPACE 76 77 SPADE �` (J 0U '�': O.tO€i SPACE __.... 78.- 79 SPACE 0,00 O t}a 30 3 MISC SPD 80 81 SPACE €1.00 000 A4ISC SPD 82 83 SPACE. 0.00 000 MISC ISPD 84 25.8 24S 24.1 U1,5 117 1 91 CONNECTED DEMAND DEMAND A1INNEC MNNEC LOAD (KVA) FACTOR LOAD (KVA) LOAD (KVA) LOAD (AMPS) LIGHTING (LTG) 3.3 1,26 3.3 4A ' PER NEC 215.3 RECEPTACLES (REC) 8.2 8,2 8.2 PER NEC 220,44 AC (NON COINCII),;AC NC) 41.1 1.0 0.0 0,0 ' PER NEC 22a.60 HEAT (NON COINCD)(H NC) 48.5 1.0 48.5 48.5 `PER NEC 220.60 HVAC (COINCIi)(HIIAC C) 0.0 1.0 0.0 0.0 EQUIPMENT (Eli) 5.9 1.0 5.9 5.S MOTORS(MTR) 00 10 0o 0:0 LARGEST MOTOR 0.0 1,25 Ok 0.0 'PER NEC 430.24 MISCELLANEOUS(MISC) 0.0 1.0 0.0 0.0 1069 65,8 66.7 10.0 AMPS 6" X 6" X 21 WIREWAY xxxxxx 2 1/2" EMT W/4 4/0 THHN CU & 1 #2 CU G. #2/0 CU IN 3/4" PVC WHERE EXPOSED #3 CU IN 3/4" PVC TO TBB TELEPHONE BOARD #3 CU IN 3/4" PVC TO DATA RACK #2/0 CU IN 3/4" PVC TO METALLIC COLD WATER PIPE 2"X12"X1/4" CU GROUND BAR INSTALLED ADJACENT TO MSB WITH ISOLATION MOUNT & COMPRESSION LUGS #2/0 CU IN BUILDING STEEL IF APPLICABLE #2/0 CU IN TO CONCRETE ENCASED STEEL #2/0 CU IN 3/4" PVC WHERE EXPOSED #2/0 CU CONNECT ALL GROUND RODS EXOTHERMIC CONNECTION, TYPICAL 5/8"X10' COPPER CLAD GROUND ROD, TYPICAL ELECTRICAL RISER DIAGRAM - 208Y/120V 3+ PANEL A 2 1 /2' EMT W/4 4/0 THHN CU & 1 #2 CU G. PHASE 2 KEY NOTES PANEL C CEILING GRADE AFAPS 225 ......_..... ............. ,... , _.............. MOUNT: RECESSED PAS MAIN. LUGS ONLY ENCLOSURE. NEMA 1 MODEL: NQ AIC: 22,000 SERVICE: 12G!' 208 V. 34> 4A LOCATION:- ROOM 158 CKT BREAKER CONNECTED LOAD (KVA) AKER CKT NUM DESCRIPTION ;ODE CODE DESCRIPTION NUM A i P A Et G A B C P 1 RM 150 REC 20 ! 1 0.54 0.54 F2O 1 REC RM 150 2 RM t50 REC 20 ! 1 7 1 REC RIA 150 4 RPr1 159 REC 20 1 ; °; 0 54 ; , , , 1 08 1 REC RM 157 6 7 RM 156 REC 20 t C90 ;, 0.54 2G 1 REC RM 156 8 9 DS15 E£) 9i# 3 1 8.0D n' iO.72 20 1 REC RM 156 10 11 ._._-, DS15 EQ 90 [ �{ � 8,00 sa" : 0.0J 20 1 EQ AUTOMATIC DOOR 12 13 .............. DS15 EQ ._.e._...M.... 90 --_, 8 00 0.00 '' r.. „': x -.._ 20 1 EGi FREADt4 L 14 15 TREADMILL EQ 20 € 1 J.0C G.OG 20 1 EQ TREADMI L 16 17 TREADfALL EQ 2Q 1 ,.: 000 m" 0.00 20 1 EQ TREADMILL - 18 19 TREADMILL EQ 2(} € 1 Ot}0 7' 0.Go 20 1 EQ TREADMILL 20 21 TREADMLL EQ 2Ci 1 100, � < 0,00 20 1 EO TREADMILL 22 23 LIGHTING OF�:CUSTORITECHILOCKER LTG -- 20 € 1 U, 1 86 ~).€ 00 0,00 20 1 REC TREADMILL 24 25 LIGHTING WEiGHTIGYM y y, „ ,;' ' 20 1 REC SPADE 28 27 LIGHTINGWEiGHTIGYAI LTCx 20 I 1 1,87 0.00 20 1 REC SPACE 28 29 RECIRCULATING PUMP REC 20 € 1 _ 10 0 `"�' s 0 56 I 1 r 003 ', 0,00 20 1 REC SPACE 30 31 SKYLIGHT L)GH LTG F 20 , 1 2 0 1 REC E SPACE 32 33 CEILING FANS EQ 20 1 1.0C g'I 0.00 20 1 REC _ SPACE 34 35 SPARE REC 20 I 1 O GO G:DO 20 1 REC FACE 36 37 SPARE REC 20 1 1 0.00 20 1 REC SPACE 38 39 SPACE „%t 0.00✓'s 0,00 SPACE 40 41 SPACE G.GG 0.00 SPACE 42 43 SPACE 0.00 I 0.00 SPACE 44 45 SPACE Q.Oa 0,00 SPACE 46 47 SPACE '` 0.flu O.flOI ISPACE 48 49 SPACE 0.00 0.00 SPACE 50 �. 51 _ SPACE .. `. O.Oa 0.0G _ _ _.. �„-PACc 52 53 SPACE w: G.QO 0.00 SPACE 54 55 SPACE - -�t.Op - SPACE 56 5i .� SPACE << ,o il 0100 0.00 SPACE 58 i,- SPACE O G0 0.00 SPACE 60 61 ISPACE i 000 0,00 SPACE..- - 62 63 ISPACE D Ou° 0,00 SPACE 64 65 SPACE f .flC O.OD SPACE. fib 6i SPACE - D 00 0 00 _. SPACE 68 65 SPACE I O.Ov C.00 SPACE 70 71 SPACE G €10 0.00 FACE 72 73 SPACE _. SPACE 74 75 SPACE I 0 0C ti.OU SPACE 76 77 SPACE °' 0,00;, -O.flO SPACE 78 79 _81 SPACE 6 0C " 1 ; ` ' 0.00 30 3 MISC SPD-....__._...__� 80 SPACE -- .., .. " 0.0 r. "- 0,00 MISC SPD 82 8a SPACE - I " 000 0.00 M ISO SPID E4 12.0 € 11,6 11.0 1 1.1 _ 1.8 1.1 CONNECTED DEMAND DEMAND MIN NEC MIN NEC LOAD (KVA) FACTOR LOAD (WA) LOAD (KVA) LOAD (AMPS) LIGHTING (LTG) 63 1,25 6.3 T9 'PER NEC 215.3 RECEPTACLES (REC) 7.2 17.2 T2 'PER NEC 220.44 AC (NON COINCID)(AC NC) 0.0 1.0 0.0 0.0 PER NEC 220.50 HEAT (NON COINCIO){H NC) 01 I'D 0.0 0.0 PER NEC 220.50 HVAC (COINCO)(HVC C) 0.D 1.0 0.0 010 EQUIPMENT(EQ) 25.0 1.0 25.0 25.0 MOTORS(MTR) 0.D 1.0 0.0 0.0 LARGEST MOTOR 0.D 1,25 0.13 0,0 'PER NEC 430.24 MISCELLANEOUS(MISC) 0.0 1,0 0.0 0,0 TOTAL 38.5 38.5 40.1 111.3 AMPS AMPS: 800 MOUNT: SURFACE PANEL: MDPMODEL' MAIN' LUGS ONLY ENCLOSURE` NEMA t NO AIC' 30,000 SERVICE: 120? 208 V, 30. 41A' LOCATION: ELECTRIC ROOM CKT BREAKER CONNECTED LOAD(<VA) BREAKER CKT NUM DESCRIPTION CODE A P A _$- C A_ 0 C_ A P CODE DESCRIPTION NUM 1 JPANEL A Eli 225 3 29-50 % ?°_' 225 EQ PANEL B 2 3 PANEL A ECl' Ei3 PANEL 8 - 4 5 PANEL A EQ 25.9C 33. 4 iz{1 PANEL B 6 7 PANEL C EQ 225 3 SPACE 8 9 PANEL G EQ SPACE 1' PANEL C EtD 1 ;r L1,Lfl SPACE 12 13 SPACE C » 0,0f 30 3 MISC SPD 14 15 SPACE 0 i),I O.OG M€SC SPD 16 r_ 17 „ SPACE 0.00 0.00 _...._ . MSC _ - SPD 18 41.6 33A 37A 36.1 1 36.9 i 33.5 CONNECTED DEMAND DEMAND MIN NEC MIN NEC LOAD (KVA) FACTOR LOAD (KVA) LOAD WA) LOAD (AMPS) LIGHTING (LTG) 0.0 1.25 0.0 0.0 'PER NEC 2153 RECEPTACLES (REC) 0.0 0.0 0,0 PER NEC 220.44 AC (NON COINCID)(AC NC) 0.0 1'0 0.0 0.0 ' PER NEC 220.60 HEAT (NON CONCID)(H NCI 0.0 1,0 0.0 0,0 PER NEC 220.60 HVAC (COINCiD)(HVA!-C) 0.0 1,0 0.0 O.0 €QJIPMENT (EQ) 219,5 1'0 219.5 219.5 MOTORS (MTR) 0.0 1.13 0.0 0-0 LARGEST MOTOR 0,0 1,25 0-0 0.0 'PER NEC 430)4 MISCELLANEOUS (MISC) 0.0 1,0 0.0 0.0 TOTAL 215.5 21915 219,5 6013 AMPS O1 INTERCEPT EXISTING UNDERGROUND SIGN CIRCUITS AND EXTEND TO NEW PANEL VIA TIME CONTROLS O INTERCEPT EXISTING OVERHEAD SITE LIGHTING CIRCUITS AND EXTEND TO NEW PANEL VIA TC. Q 0 I rlw% LEN ENGTH GTH 120V BRANCH CIRCUIT CIRCUIT LCIAD NTE kVA #12 THHN Cu Max. Length % VD VD #10 Max, Length THHN Cu % VD VD 0,18 405 20% 24 0.36 202 2.0% 2.4 0.54 135 2.0% 2.4 0,72 101 Z.O% 2.4 _ i61 2_0% 2.4 0.90 81 2.0% 1 2.4 129 2.0% 2.4 1,08 67 2.0% 2,4 107 _ 2A°Jo 2.4 1.26 58 2.0% 2.4 92 2.0% 2.4 1.44 51 2.0% 2.4 80 2.0% 2.4 PANEL VOLTAGE DROP 9.73 x tC x I x L VD = CM TRA d5Ft3RER MDP MDP MDP PANEL A PANEL B AZP PANEL C _K= _ 12.91 For Copper 1 W 12.9 800 12.9 _ ..IZ9 ,_.. 225 225 ... 12.9 .225 L = Lenqth 70 120 120 10 CM Circular Mills 1,000,000 211,600 211600 211.600 V = 1 VoUW, Three Phase 208 ma 208 208 VD = ` Volta Drc 1.2 2,8 2.8 0.2 % VD % of 208 0.60% 1.37% 1.371% 0A l % NCWARD c i47 ��pc of. 1 40193 KPI I�` � � C. PROFESSIONAL ENNIEERS SM QUEEN PALM DRIVE TAMPA. FUNUDA 33619 PHONE (813) 241-64M ��FAX 613 241_®via Project No. 151010 NOT FOR CONSTRUCTION E5,0 02015 BH/PK Architects, Inc. Z:\BH-PK Architects\151010 - FH (Zephyrhills) - Wellness Center\Design\151010_E5.0.dwg Mo doy, February 14, 2011 3:34:45 PM Shawn Jeffrey