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Home My WebLink AboutGRID-TIED SOLAR POWER SYSTEM1y DIRECTORY OF PAGES PV-1 PROJECTSUMMARY PV-2 SITE PLAN PV-3 SINGLE -LINE DIAGRAM PV4 SAFETY LABELS PV5.1 ATTACHMENT PLAN 5.1 PV5.2 ATTACHMENT PLAN 5.2 PV5.3 ATTACHMENT PLAN 5.3 PVS ATTACHMENT DETAILS PV-7 FIRE SAFETY PLAN ELECTRICAL CALCULATIONS MODULE DATASHEET OPTIMIZER DATASHEET X ARRAY WIRING BOX DATASHEET Z DISCONNECT DATASHEET a INVERTER DATASHEETS < MOUNTING SYSTEM DATASHEET MOUNTING SYSTEM ENGINEERING LETTER UL 2703 GROUND AND BONDING CERTIFICATION ANCHOR DATASHEET PROJECT DETAILS PROPERTY OWNER PROPERTYADDRESS 4042 GREENWOOD DR FORT PIERCE, FL 34982 US APN 2421-702-0023-000-1 ZONING RESIDENTIAL USEANDOCCUPANCY CLASSIFICATION ONE -OR TWO-FAMILY DWELLING GROUP (GROUP R3) AHJ UTILITY COMPANY FLORIDA POWER &LIGHT CO ELECTRICALCODE 2014 NEC(NFPA 70) FIRE CODE 12015 NFPA 1 CONTRACTOR INFORMATION COMPANY LUMA DYNAMICS LICENSE NUMBER CVC 57032(SOLAR) ADDRESS 895 DIPLOMAT DRIVE SUITE 106E, DEBARY, FL 32724 PHONE NUMBER (407)720-4300 CONTRACTOR SIGNATURE .m 'Nootl Dr__--_ I Greenwood Dr Greenwood 0= —Greenwood Or ST-LIR.LE COUNTYPLAN _ FEVIEW DATE I j Edwards Rd PLUMB: ^t CH: MapA+1.i=19 Goo PLOT DATE. / T � PV-1 SCALE: MS � � a z \ LOCALE PV-1 SCALE: NTS SCOPE OF WORK THIS PROJECT INVOLVES THE INSTALLATION OF A PHOTOVOLTAIC POWER SYSTEM. SOLAR PANELS WILL BE RACKED USING A PREENGINEERED RACKING SYSTEM. THE RACKED MODULES WILL BE ELECTRICALLY CONNECTED WITH DC TO AC POWER INVERTERS AND INTERCONNECTED TO THE LOCAL UTILITY USING MEANS AND METHODS CONSISTENT WITH THE RULES ENFORCED BY THE LOCAL UTILITY AND PER FL PREPARED FOR THE PURPOSE OF ' A PROPOSED PV SYSTEM WITH SYSTEM DETAILS NEW GRID -INTERACTIVE DESCRIPTION PHOTOVOLTAIC SYSTEM WITH NO BATTERY STORAGE DC RATING OF SYSTEM 15,60OW AC RATING OF SYSTEM 17,60OW AC OUTPUT CURRENT 74.OA INVERTERIS) 1 X SOLAR EDGE SE760OH-US 1 X SOLAR EDGE SE10000H-US MODULE HELIENE 6OM300 1) STRING OF 1641NV#1 �. ARRAY WIRING �I; STRING OF 19 (INV#2� INTERCONNECTION DETAILS POINT OF CONNECTION NEW SUPPLY SIDE AC CONNECTION PER NEC 705.12(A) UTILITY SERVICE 1201240V 10 INSIDE PANELBOARD EATON DG223NRB, 2-POLE, 100A, 240VAC SITE DETAILS ASHRAE EXTREME LOW O-C (32-F) ASHRAE 2% HIGH 33'C(91'F) CLIMATE DATA SOURCE VERO BEACH MUNICIPALAIRPORT (KVRB) WIND SPEED 170MPH(ASCE7-10) P-114514 1700 PATERSON AVE DELAND, FL 32724 CERT OF AUNDRIZATION 30105 MICHAEL W03MNIAK LL F— W 3: Z W p Tn 0 p O 00 rn M L'Ji D- gZ O Lu W F• W oc9a in Z LLI LU 0 LLl of LU 1 O LL r 6 Pv-1 GENERALNOTES EQUIPMENT LIKELY TO BE WORKED -UPON WHILE -- ENERGIZED SHALL BE INSTALLED IN LOCATIONS THAT SATISFY MINIMUM WORKING CLEARANCES PER NEC 110.26. 2 CONTRACTOR SHALL USE ONLY COMPONENTS LISTED BY A NATIONALLY RECOGNIZED TESTING LABORATORY FOR THE INTENDED USE, CONTRACTOR IS RESPONSIBLE FOR FURNISHING ALL 3 EQUIPMENT, CABLES, ADDITIONAL CONDUITS, RACEWAYS, AND OTHER ACCESSORIES NECESSARY FOR A COMPLETE AND OPERATIONAL PV SYSTEM. WHERE OC PV SOURCE OR DC PV OUTPUT CIRCUITS ARE RUN INSIDE THE BUILDING, THEY SHALL BE 4 CONTAINED IN METAL RACEWAYS,TYPEMCMETAL- CLAD CABLE, OR METAL ENCLOSURES FROM THE POINT OF PENETRATION INTO THE BUILDING TO THE FIRST READILY ACCESSIBLE DISCONNECTING MEANS, PER NEC690.31(G). SITION OUTDOOR, OUTPUT IN CONDUT THE INTERIOR THEE Of OUN STEEL THROUGH F BUILDING N PROPOSED ROOF -MOUNTED PHOTOVOLTAIC O RAY. 5:12 (23°) SLOPED ROOF, 16 PV MODULES (SILVER FRAME, CLEAR BACKSHEET1,180° AZIMUTH IN NSITION BOX (JBI OUTDOR OUTPUT NLL IN FLEXIBLE OO TTHROUGH THEIINRUM STEEL CCONDUUIUCTORS TERIOR OF ,z^ BUILDING Q (E) UTILTY METER, OUTDOOR 1 , SITE PLAN MAIN SERVICE PAN EL(MSP), OUTDOOR PV-2 SCALE: 1'=20' O (E) OB (N) AC AGGREGATION PANEL(PAN1), OUTDOOR O7 (N) INVERTER(12), OUTDOOR gIN)TRANSITION BOX(3B3), OUTDOOR, OUTPUT OCIRCUIT CONDUCTORS SHALL BE RUN IN FLEXIBLE STEEL CONDUIT THROUGH THE INTERIOR OF THE BUILDING (N) PROPOSED ROOF -MOUNTED PHOTOVOLTAIC ' O9 ARRAY. 5:12 (23') SLOPED ROOF, 21 PV MODULES (SILVER FRAME, CLEAR BACKSHEET), 270° AZIMUTH (N) PROPOSED ROOF -MOUNTED PHOTOVOLTAIC f0 ARRAY. 5:12 (23°) SLOPED ROOF, 15 PV MODULES (SILVER FRAME, CLEAR SACKSHEET), 90- AZIMUTH 11 (N) DISCONNECT (SW1), OUTDOOR 12 (N) INVERTER (11), OUTDOOR P-1145 1700 PATERSON AVE DELANO, FL 32724 CERT OF AUTHORIZATION 3010S MICHAEL NO3TUNIAK Lu 0 } LLI ULU Z OV Lu p O m ch O LL O Q—' O LL Lu O Lil L) LLI Lu F m dN CD PV-2 ePMl-33 0� I 3o0N 2 1QQ 0� Is1i�G 0� JBI-2-----74 1 i 1 IB3 11 lo.DDm I I 11 -/ 127,600W PANI -PVSYSTEMLNSCCNNECT Mww=)AMC v ©A 24ai20V1m 3V SYSTEM SUMMARY BN.1 S48M SIRW02 Mv. z $IFMGI MYSfCPo'A'EA /6WW S.IWW 4rWW MrpTCPJNFA 4428w arwW Ezs6W PTIMrERM CUTMI CURRENT I5A 1% I5A 'IRSONSENES 16 Ir 19 INPLSTRWGVJLTAP£ IWV IWJ IOW RRAYCYERAWCURREM 11A ILM IIAA RAYSTCPoWER 9.9WN 5,1" YMPOWER 9.13M 5.f59W ACCW f IM 3N OLPPNERp 10,WGW ;WTN ER' ACPoWER WI%1! 495Ni S.IIJWsrc POWFA Is.6WW TprCPOWFA N.]WW AC LIFRFM r1A AC PoWf II.6WW EMIEOAC PoWER F9AMRrWIPIIr II.wSW I MODULES O1Y. NFY.EN9 M1gDEL PW% prC I$L g8' y0C V1-1 YP IEkP,t[6F.OFVGC FUSE FAZING P611br 52 HEIIElIE6GA]Op ]WW Zr1W 9.59A Atli J99V ]1N d11N1'C(d]1WCI IY• NVERTERS NVED F Dtt INICIfD Mapa var IXWND wuavD l MAAgRWr MAY INPUT MAxwm cEcwENmEp RAruJG NYNER TENT CER-T varAGE. FfT1LIENLY II 1 SO,ANEDCEselm01MR NDJ UNa::E WA 10WM8 ILM MCA IBC/ 99.0X I9 1 SOIAREDGESEr6001W9 BIDJ UNGR 1 IM I TIMOW 1 ]LM 1 MAA 180V 99.0% POWER OPTIMIZERS REF. ptt. MWEL M1EpwRRPoWER MUIOUIPIi CURRENT 14X MPRI9C Mi Xp TNGE WEHNTEDEFFICENCY PoIS1 l SOIMEOGEP]A RMI ISA 11.40 IdJ11 98.0% PASS-THRU BOXES AND COMBINERS REF. OIT. NAI¢ANDN l MTEOWflRENi NPXMTEOV0.TAGE R4] J SLVI£CKOR11R3FRB CREWN. ]OA 6WV11L M3 1 I 1 GEWRICGENAWPrw24ACw ECU6U JM NVNNUIfWVOC P l I I I C£NERICGEIMC4CMBWER0REQM. TWA 31WAC GENERAL ELECTRICAL NOTES UTILITY HAS 24-HR UNRESTRICTED ACCESS TO ALL 1 PHOTOVOLTAIC SYSTEM COMPONENTS LOCATED AT THE SERVICE ENTRANCE. -- 2 MODULES CONFORM TO AND ARE LISTED UNDER UL 1703. CONDUCTORS EXPOSED TO SUNLIGHT SHALL BE LISTED AS 3 SUNLIGHT RESISTANT PER NEC ARTICLE 300.6 (C) (1) AND ARTICLE 310.8 (D). CONDUCTORS EXPOSED TO WET LOCATIONS SHALL BE 4 SUITABLE FOR USE IN WET LOCATIONS PER NEC ARTICLE 310.8 (C). DISCONNECTS OCPDS T REF. Ott. RNNEINO MD]El PAIEOLURRFM MACMiFDVOLTAGE REF. O1Y. MLEDCURRFM MM VOLTAf£ MII I EATwp070. DR EWN. 1WA :IMAc CB1 I 6M zwvAc wz + IM NM<c F+i z IWA :IMAc 2 NOTES M.ERSPRDVIDERAPDSHUNRNIFUNCipRA PECUMBYNECWAI rl¢sPEclFsparpognnuw BEsu9sTtrureD wlRlnwW,PlMs,enaews. aR PNarNESE CPIIMIZEASFMVEAHwPurvMTALiWNOgYWIOE ExomsroAccoMMooATErxeareur 3 8 VOLTAGE RANGEOF THE N]wREAilXEOESICN IEMPEAATwES wAVEALLUtwFlRCWRFM RnmBGDuiISABOVEINE WBI WIPUTCMWEMOFTXE40OIAE.MIDA W%eOWER PPUTDMT m ADOJETIEMTED p0.YER WIPJTCf TXE MODUIE �UNGRWWEDSYSiEYDL W6UUCi0R6AULLBEC0.tlILODFDASFOLLOWSOC PoSDNE9VB1 L BEPEO(OR VAAYFORE0I MIDOCNEGiINESWLLIBE BMLNIORMNKEO EUCAj ALLAIE MONT 51mE$FAf.EWAY$CADI£BANOIXPGEONCNCUflREM{'MNYINGI4TAL PARIB OF EWE24 SE ffGPOWMTDFARTHMREOUNEDBYE 250AMAIDPART81OFNEC ARrIWEBSDNNEq.O'I.ODEMMDPGCIXNDCTOR M47B)MDM.tCORDwGTONEC69a1S THE IXgllmP G ELECTRODE SYSTEM SRAIL Ad1ERE TO 690.1r(B) AND 250.I6A THE DC GROIMDMG EIECIROOE SINLL BE SAD ALCdONG TO 354160 AHAOMRONPLxFIUYGR NGEIECD900ES BENSTA INACCORDWCEWRHNEC SELnON5iW3iIM2W.511MBE591NEARMYSIRULTIME ISSITABIETOSEIWEASA (AgRmNGELECiR00EASPERNECSECDON 950.; IHE LMm6ERVEDBYTIEAP1MYm NIECNML WIIHMEAPRAY•DRTNf FgEMI$E'$mI51WG WIRNGFIECTRCCE6LCGIED WIMNfFT. AS FFR x6c gcTmN69aIr(oI 7 ®LWIWVOLTAGEOFMRAYFCFDBYTxENVEAECMT BE4LW(O'C- OFIEMPF t-39" MA%[C V0.TACEOFIHEMWNEAT O'C6E)RECTED TOBEI2MIO•C-2S'CI%dIBNA: •]9&N. 129VA WSYSTEN DSCOM cCT6H4LLBEANI11FEdUDETYPc DISLONNECTM4r5At[ESEmIEPMI 6 LOIXABIE BriTEumm. rowwFsaumcnpn m ax T99E SRPLr smE oR sERWCE oscorMECT. wsmE PArmIRwI9D ® FNUOS.PE usNG1M113ED1FAL@WS, TFR6pl4LsilNr ARESLrtA9EFGRC011HFLUfli1%.' OR umlG oixER LocnLlr-naPRavm uETxoDs Avo xamWARE w cwmuwcE wlTx x[c rostzµl CONDUCTOR AND CONDUIT SCHEDULE W IELECTRICAL CALCULATIONS < , ¢e Ikw.[UAFRcrw '�R' Fn[iw cwaii Oay rpm.Rrne wro uwwwE uwwE v1,SV 1. u'Ane'x u'wiVM[ I^ veNG `N-C mRM N@'9 iLL r�wA.x 6wP.q Fu .c w mr. nnwmc x.<..c eno-*e n+ RU. 1rc mim x.A n...i . w.Fuqu 1 mprq iu au Ir r LLVre -OPWi wPr9 0.F rt]u epa rcNN. L uGlxWi. ewyq 1u ,m IA% 4°'^"" uPYR u w MI\ �1 SINGLE -LINE DIAGRAM PV-3 SCALE: NTS TRD%u4EM%MR`E4cRMI®FllilxEwRPoSEa OFSCR®INGTlfc pE5 Lil CiANUFOsmflpra4tLrNCPo1rER6Y6rEY IMIIBIWGxoErylroOFWxs1Mr6cOpgNHCEvmxILL 6PDrANEcop69.wo F3cwLlMrs.m6 ppcuvEHrsxawD wr MI RR�vvaYA9 ASeMmvrL FGR wummm wruFrcrur¢vwsrAUArpx lwmwswarAum sxw6mucw.EamuSrvrw BLCMANYE Wtw MW I64TlRw w9ruun9x IUNwu. xGlwm w r1w D%uNENT swum rc wrEFPI¢rm w A vur rxLr o+w+nTs rx 6 wamv:mxs w uMNFAc1LRw waruunox uwAu. MODULE LUGS OR RACKING INTEGRATED IDING CLAMPS AS ALLOWED BY LOCAL JURISDICTION. HER EXPOSED METAL PARTS SHALL BE GROUNDED EVALUATED FOR COMPLIANCE WITH UL 2703 JNDING AND BONDING' WHEN USED WITH PROPOSED ODE, IT IS THE TO INSTALL BE A MINIMUM SIZE #8AWG WHEN ING TO NEC ARTICLE 690.45, AND BE A MINIMUM OF WHEN NOT EXPOSED TO DAMAGE, AND #6AWG - COLOR CODED GREEN, OR MARKED GREEN IF P-114514 1700 PATERSON AVE DELAND, FL 32724 CERT OF AUTHORIZATION 39105 HICHAEL W03TUNIAX P.E. A 60934 Lu W co otf N W U WO [if Z CV Lu W p cn o W o (3- Ci' C) ILL - of = l JW O --2 w I Z (If 2 C> W O 0 V O w l(G o*Q', n_•.......•_%a�:: DIAGRAM DATE: 06105119 CREATED BY: D.K. PV-3 LABELING AND WARNING SIGNS 'LOCATION LABEL DC RACEWAYS _ _aa. - -JUNCnON'BOX '#1 INVERTER.#2,3 AC DISCONNECT ,1;6, MAIN'SERVICE PANEL #7,8;9,10 if 0 PV PANEL ARRAY p2 h I 1 TO BE APPUED_TO ALL DITERM ANDOR EJRERKON MCDWAND- RACE nEVERY 103TEHI FEET, ATTRNSARDABOJE ANOORSELOW ALLPENETRATKINS, .. PHOTOVOLT=DISCONNECTRATED AC OUTPNOMINAL OPERA INVERTER 03. #7 MAIN SERVICE •:PANEL #5. # 7;8;,810 1=� I inTC.iI j`�10,L,: Al 1r�,1 n V j iwl'�, W e I,a7cTAr'g IMF. %i �•il�i'T"15�� 1 w` iii." �3'�^.a9..i1'7i �. �°^.aL''; �.•1:; a1 "i. .°V�i, Lw: � �Qlrg ALL SIGNAGE REQUIRED BY 2014 NECAND 2015 NFOA MILL BE INSTALLED'AS REQUIRED P-114514_ _I - SUPERIOR ENGINEERING 1700 PATERSON AVE DELAND, FL 32724 CERT OF AUTHORIZATION 30105 MICHAEL W03TUNIAK � W U O W04 W co Lu g O m O W O C13 O LJL- Z Z LLF Z O C�7 d W I- m v CD CL' O 6`�IV Tl`k OF / 9nw°FLov T\ PV-4 ROOF PROPERTIES ROOF MATERIAL COMPOSITION SHINGLE(1 LAYER) SLOPE 5112 (22.6-) MEAN ROOF HEIGHT 14.8FT DECK SHEATHING _ 7/16'OR THICKER OSB OR PLYWOOD CONSTRUCTION TRUSSES (2X4 TOP -CHORD), 24IN OC MODULE MECHANICAL PROPERTIES MODEL I HELIENE 6OM30D DIMENSIONS (AREA) 165.01N X 39.11N X 1.61N(17.6 SO FT) WEIGHT 43.91-13 MOUNTING SYSTEM PROPERTIES RAIL MODEL- IRONRIDGEXR100 ANCHOR MODEL IRONRIDGE FM-FF2-001-B(FLASHED), 1.021NAIRGAP FASTENING METHOD 301NCH EMBEDMENT INTO TRUSSES WITH 1 FASTENER MAX. ALLOW. RAIL SPAN 48.OIN(ZONES I, 2, AND 3) MAX. MOUNT SPACING 48.OIN(ZONES I, 2, AND 3) MAX. ALLOW. CANTILEVER 19.21N (ZONES 1, 2, AND 3) GROUNDINGAND BONDING TIN-PLATED, SOLID COPPER LAY -IN LUGS LISTED UNDER UL 2703 DEAD LOAD CALCULATIONS LOAD CITY LBS ITOTALLBS MODULES 15 43.9 1658.5 OPTIMIZERS 15 0.6 9.5 LINEAR FEET OF RAIL 101 FT 0.7 68.6 ANCHORS 30 0.8 24.7 MISC. HARDWARE 5.9 5.9 TOTALARRAY WEIGHT 767.1 LES AREANAME OTV SOFT TOTAL SOFT MODULES 115 117.6 264.0 POINT LOAD (767.1 LES 130 ATTACHMENTS) 25.6 LDS DIST. LOAD (767.1 LBS 1264.0 SOFT) 2.91 PSF NOTES TRUSS LOCATIONS ARE APPROXIMATE ACTUAL LOCATIONS MAY DIFFER AND CONTRACTOR MAY NEED TO ADJUST MOUNT LOCATIONS. IN NO CASE SHALL THE MOUNT SPACING EXCEED'MAX. MOUNT SPACING' 0 WIND ZONE ❑ WIND ZONE II ElWIND ZONE III DISTANCE a IS EQUAL TO 10%OF THE BUILDINGS LEAST HORIZONTALDIMENSION OR40%OF THE MEAN ROOF HEIGHT, WHICHEVER IS SMALLER, BUT NOT LESS THAN 4%OF THE LEAST HORIZONTALDIMENSION OR 3 FEET (ACSE 7- 10). THESE SETBACKS ARE APPLIED TO THE BUILDING FOOTPRINTAND PROJECTED TO THE PLANES OF ROOF CORNERS, RAKES, HIPS, EAVES, MANSARDS, AND RIDGES OF ROOF FACES. a = MAX(!AN(0.4*MEAN ROOF HEIGHT, 0.1'LEAST HORIZONTAL DIMENSION), 0.04'LEAST HORIZONTAL DIMENSION, 3 FT) 3.3 FT. MAX(MIN(OA -14.8 FT, 0.1' 33.0 FT), 0.04' 33.0 FT, 3 FT) P-11 1700 PATERSON AVE DELAND, FL 32724 CERT OF AUTHORIZATION 38105 MICHAEL NO3TUNrAX C LLI co d 0 0 W w Z WZU JO O ll.. O .z W � IJi w W I `uj- Wj� { G 0 t. SPS� T & S \ PV-5.1 ROOF PROPERTIES ROOF MATERIAL COMPOSITION SHINGLE (1 LAYER) SLOPE 5/12(22.6-) MEAN ROOF HEIGHT 14.9FT DECKSHEATHING- - 7116'OR THICKER OSB OR PLYWOOD CONSTRUCTION TRUSSES(2X4 TOP -CHORD), 241N OC MODULE MECHANICAL PROPERTIES MODEL I HELIENE 60M300 DIMENSIONS (AREA) 165.01N X 39.11N X 1.61N(17.6 SO FT) WEIGHT I 43ALB MOUNTING SYSTEM PROPERTIES RAIL MODEL IRONRIDGE XR100 ANCHOR MODEL IRONRIDGE FM-FF2.001-B(FLASHED), 1.021N AIR GAP FASTENING METHOD 301NCH EMBEDMENT INTO TRUSSES WITH 1 FASTENER MAX, ALLOW. RAIL SPAN 48.01N(ZONES I, 2, AND 3) MAX, MOUNT SPACING 48.01N (ZONES 1, 2, AND 3) MAX ALLOW. CANTILEVER 19.21N (ZONES 1, 2, AND 3) GROUNDING AND BONDING TIN-PLATED, SOLID COPPER LAY -IN LUGS LISTED UNDERUL 2703 DEAD LOAD CALCULATIONS LOAD ON LBS ITOTALLBS MODULES 16 - 43.9 1702.4 OPTIMIZERS 16 0.6 110.1 LINEAR FEET OF RAIL 108 FT 0.7 73.3 ANCHORS 32 0.8 26.3 MISC. HARDWARE 6.2 6.2 TOTAL ARRAY WEIGHT 818.3 LBS AREA NAME OTY SOFT TOTAL SOFT MODULES 116 117.6 281.6 POINT LOAD (818.3 LBS 132 ATTACHMENTS) 25.6 LBS DIST. LOAD (818.3 LBS 1281.6 SOFT) 2.91 PSF NOTES TRUSS LOCATIONS ARE APPROXIMATE, ACTUAL 1 LOCATIONS MAY DIFFER AND CONTRACTOR MAY NEED TO ADJUST MOUNT LOCATIONS. IN NO CASE SHALL THE MOUNT SPACING EXCEED'MAX MOUNT SPACING' 0 WIND ZONE WIND ZONE II EAVE 5. WIND ZONE III DISTANCE a IS EQUAL TO 10%OF THE BUILDING'S LEAST HORIZONTAL DIMENSION OR 40%OF THE MEAN ROOF HEIGHT, WHICHEVER IS SMALLER, BUT NOT LESS THAN 4%OF THE LEAST HORIZONTAL DIMENSION OR 3 FEET (ACSE 7- 10). THESE SETBACKS ARE APPLIED TO THE BUILDING FOOTPRINT AND PROJECTED TO THE PLANES OF ROOF CORNERS. RAKES, HIPS, EAVES, MANSARDS, AND RIDGES OF ROOF FACES. a= MAX(MIN(0.4' MEAN ROOF HEIGHT, 0.1' LEAST HORIZONTAL DIMENSION), 0.04' LEAST HORIZONTAL DIMENSION, 3 FT) 3...... X(MIN(0.4.14.9 FT, 0.1.33.0 FN, 0.04' 33.0 FT, 3 FT) SCALE: 3l32' =1' P- 1700 PATERSON AVE DELAND, FL 32724 CERT OF AUTHORIZATION 3010S MICHAEL M03TUNIAK C w U N w O U LZL3 p U) O LL Q' p p 0 rn m Q' g O U) w z LLI JLU zq O 3- Z W LL_ LLI [If LLJ a m O N CD ' P 9n F.L 0P PV-5.2 , ROOF PROPERTIES ROOF MATERIAL COMPOSITION SHINS E (I LAYER) SLOPE 5112 (226') MEAN ROOF HEIGHT 142FT DECKSHEATHING - 7116'OR THICKER OSBOR PLYWOOD CONSTRUCTION TRUSSES(2X4 TOP -CHORD), 241N OC MODULE MECHANICAL PROPERTIES MODEL I HELIENE 6CM300 DIMENSIONS (AREA) 165.01N X 39.11N X 1.61N(17.5 SO FT) WEIGHT I 43.9LB MOUNTING SYSTEM PROPERTIES RAILMODEL IRONRIDGEXR100 ANCHOR MODEL IRONRIDGE FM-FF2.001-B (FLASHED), 1.021N AIR GAP FASTENING METHOD 301NCH EMBEDMENT INTO TRUSSES WITH 1 FASTENER MAX. ALLOW. RAIL SPAN 48.01N(ZONES I, 2, AND 3) MAX. MOUNT SPACING 48.0IN(ZONES I, 2, AND 3) MAX. ALLOW. CANTILEVER 1921N(ZONES I, 2, AND 3) GROUNDINGAND BONDING TIN-PLATED, SOLID COPPER LAY -IN LUGS LISTED UNDER UL 2703 DEAD LOAD CALCULATIONS LOAD QTY LBS TOTALLBS MODULES 21 43.9 921.9 OPTIMIZERS 21 0.6 13.2 LINEAR FEET OF RAIL 139 FT 0.7 94.4 ANCHORS 40 0.8 32.9 MISC. HARDWARE 7.8 7.8 TOTAL ARRAY WEIGHT 1070.2 LBS AREANAME OTY SOFT TOTAL SOFT MODULES 121 117.6 369.6 POINT LOAD (1070.2 LBS 140 ATTACHMENTS) 26.8 LBS DIST. LOAD (1070.2 LBS 1369.6 SOFT) 2.9 PSF NOTES TRUSS LOCATIONS ARE APPROXIMATE. ACTUAL 1 LOCATIONS MAY DIFFER AND CONTRACTOR MAY NEED TO ADJUST MOUNT LOCATIONS. IN NO CASE SHALL THE MOUNT SPACING EXCEED'MAX, MOUNT SPACING' G �Ls333s�sLLLo�o�� iomd�v000�ii _ P-11451_4_ SUPERIOR ENGINEERING 1780 PATERSON AVE DE=, FL 32724 CERT OF AUTHORIZATION 30105 MICHAEL W03TUNIAK P.E. A 60934 LU 1-- 11-- � U OW WLu rn C2 v' O Of O LL Z 3: LLI O � W W In z W n- U W ;� F m O EAVETU •��I J WIND 1:1WIND ZONE II WINO ZONE III ``•Z� QG9 ••*,, DISTANCE a IS EQUAL TO ID%OF THE BUILDING'S LEAST HORIZONTALDIMENSION OR 40% OF THE MEAN ROOF HEIGHT, WHICHEVER IS SMALLER BUT NOT LESS THAN 4% OF THE LEAST HORIZONTAL DIMENSION OR 3 FEET (PS 10).THESE SETBACKS ARE APPLIED TO THE BUILDING FOOTPRINTAND PROJECTED TO THE PLANES OF ROOF CORNERS. RAKES, HIPS, EAVES, MANSARDS, AND RIDGES OF ROOF FACES. N 1� a=MAX(MIN(0.4'MEAN ROOF HEIGHT, 0.1'LEAST HORIZONTAL DIMENSION, 0.04'LEAST HORIZONTAL DIMENSION, 7FT) 3.3FT=MAX(MIN(0.4'14.2Fr, 0.1.33.0 FT), 0.04.33.0 FT, 3FF) '�j •• �O� ��i FU�e'•� O l ATTACHMENT PLAN (ORTHOGONAL PROJECTION) �FF$$►ONP��, vsa SCALE: 3ns = r AMMMENT PV-5.3 rA� RACKING ELEVATION (TRANSVERSE VIEW) PV 6 SCALE: NTS 7 IRONRIDGE UNIVERSAL �� in�nniwcanrvcna.0 PVMUUULE FASTENING OBJECT /---_�' ^FASTENING OBJECT WITH STOPPER SLEEVE - � . � � r !i. � � /, - IRONRIDGE END CAP - - - - - - - - - - COMP. SHINGLE ------'t IRONRIDGE %R100 RAIL ROOFINGi _ ,\ DIY � � / ^, ROOF OECgNG --- ROOF FRAMING SPACING ATTACHMENT SPAN 1 ROOF FRAMING rB1 RACKING ELEVATION (LONGITUDINAL VIEW) PV-6 SCALE: NTS MOUNTING SYSTEM NOTES FLASHING SHALL BE APPLIED IN ACCORDANCE WITH MANUFACTURERS'INSTRUCTIONS. IF THERE IS ANY CONFLICT BETWEEN WHAT IS DEPICTED HERE AND INSTRUCTIONS 2 PROVIDED BY A MANUFACTURER THE MANUFACTURER'S INSTRUCTIONS SHALL SUPERCEDE. IRONRIDGE UNIVERSAL FASTENING OBJECT PV MODULES/ FLASHFOOT2 ROOFING .� SLIDE FLASHING 'UNDER THEORDCOURSE t77 OFSHINGLES DOF LINDERLAYM ROOF FRAMING ROOF DEC j �IAGISTRUCTURAL SCREWS EMBEDDED INTO ROOF FRAMING ATTACHMENT DETAIL (TRANSVERSE VIEW) P� SCALE: NTS MODULE XR100RAIL COMP. SHINGLE— IRONRIDGE ROOFING I FLASHFOOT2 ROOF UNDERLAYR ROOF EMBEDDED INTO ROOF FRAMING �1 ATTACHMENT DETAIL (LONGITUDINAL VIEW) PV 6 SCALE: NTS P-11451k SUPERIOR ENGINEERING 1700 PATERSON AVE DELAND, FL 32724 CERT OF AUTHORI2ATIDN 30105 MICHAEL NOTIINIAK r �j d O p V W w Z w Q Z � O LL O O 3: Z W 0 co J ILL. LLI U Of W a I m 04 lqr r O 8 N li OF 6q�WN �Q .._FLOP'. I ATTACHMENT I DETAILS PV-6 1 FIRE SAFETY PLAN PV-7 SCALE: 1' = 20' GENERAL NOTES EXTEMOR-MOUNTED DC CONDUITS; WIRING SYSTEMS, -- AND RACEWAYS FOR PHOTOVOLTAIC CIRCUITS SHALL 1 BE LOCATED AS CLOSE AS POSSIBLE TO THE RIDGE, HIP, OR VALLEY, AND FROM THE HIP OR VALLEY AS DIRECTLY AS POSSIBLE TO AN OUTSIDE WALL TO REDUCE TRIP HAZARDS AND MAXIMIZE VENTILATION OPPORTUNITIES (NFPA 1 11.122.2A.1) ROOF ACCESS POINTS SHALL BE DEFINED AS AREAS WHERE FIRE DEPARTMENT LADDERS ARE NOT PLACED 2 OVER OPENINGS NDOWS OR DOORS, ARE LOCATED ATSTRONGPOIN SOFBUILDINGCONS RUCTION,AND ARE IN LOCATIONS WHERE THEY WILL NOT CONFLICT WITH OVERHEAD OBSTRUCTIONS (TREE LIMBS, WIRES, OR SIGNS). (NFPA 1 11.12.2.21.3) PHOTOVOLTAIC MODULES SHALL BE LOCATED NO CLOSER THAN 1-112 FEET TO A HIP OR VALLEY IF MODULES ARE TO BE PLACED ON BOTH SIDES OF THE 3 HIP OR VALLEY. WHERE MODULES ARE LOCATED ON ONLY ONE SIDE OF A HIP OR VALLEY OF EQUAL LENGTH, THE PHOTOVOLTAIC MODULES SHALL BE ALLOWED TO BE PLACED DIRECTLY ADJACENT TO THE HIP OR VALLEY. (NFPA 111.10.2.2.2.1.3) PHOTOVOLTAIC MODULES SHALL BE LOCATED NO LESS THAN 3 FT BELOW THE RIDGE. (NFPA 111.10.2.2.2.2) PV MODULES INSTALLED ON ROOF WITH IRONRIDGE ROOF MOUNTING SYSTEM. THE MOUNTING SYSTEM IS 1O UL 1703 CLASS A FIRE RATED ON A 5112 SLOPED ROOF WHEN INSTALLED WITH TYPE 1 OR 2 MODULES. THE HELIENE 60M300IS TYPE 1. O3.0 FT. WIDE SMOKE -VENTILATION SETBACK, PER NFPA 111.10.2.2.2.2 O1.5 FT. WIDE FIRE ACCESS PATHWAY. PER NFPA 1 11.10.22.2.1.3 AND NFPA 111.10.2.2.2.1.2 O ROOF ACCESS POINT B FOR ROOF EAST O3.0FT. WIDE FIRE ACCESS PATHWAY, PER NFPA I 11.10.2.2.21.3 AND NFPA 111.10.2.2.2.1.2 O ROOF ACCESS POINT A FOR ROOF EAST, O ROOF ACCESS POINT FOR ROOF WEST O ROOF ACCESS POINT B FOR ROOF SOUTH Og ROOF ACCESS POINT B FOR ROOF WEST f0 ROOF ACCESS POINT A FOR ROOF SOUTH 11 CABLES, WHEN RUN BETWEEN ARRAYS, SHALL BE ENCLOSED IN CONDUIT. P- 1700 PATERSON AVE OELANO, FL 32724 CERT OF AUTHORIZATION 3010S MICHAEL W03TUNIAK Lu U) U) W O Q- O o U LU � LLu of z J Z OW � 0O O z W w CD N rn ch LL Lu a �7 M z ``11F FLOP:'.4i OA_ .. a� e PV-7 s Conductor, Conduit, and OCPD Stang Valldatlon 1. Maximum System Vollage Test 1.1. Solar Edp fnrrterlaM Hanane SOM300 (300W)s M%I'loplitin Arrry Type Oubibuted MPP7Sptem Invader System Dampfion ScdarE elmeter wa3 Helene 60M300 700 s Module 60M3pp 300W Highest number of modulmn series ma PVSomo Cim it 1 Des' n Lox round. 0-C Module Voc 39.83V Tem .CcetMent Vac -0.123VIC NMOD&C,kW,H= A. Maximum Voltage of PV Source Circuit 42.9V s &90.7(Q NEC 690.7(C) requires Out Ito PV module maaaMurer pmMes a temperature aeffvdentofopendmuawltage, A Saudi be used to calculatefin PV arrays mundane system voltage. It 6&des an afomatian note..Mng Np use of ale ASHRAE Edbeme Mnual Mean Nor um Design Dry Bulb TempeaWer as Me design In temperature. using Mesa values, on, module Vac (39.83V) will increase to 42.9V at us desgn lax tempeaWa (0-C). (0-C - 25-C) x -0.123= - 39.83V = 42.9V The modulo Vx at Me design low tamperdNre is 429V. 42.9VX 1.429V B. Maximum Voltage of DC -DC Converter 400V Source Circuit see 6A27(g M PV circuits have a voltage tallow not exe ed NOV. Thu systems DC-0C Carvetar Soume Gerais, am fed by Solar Edg a P320 do2odc asrrener optimization device. Each device IS mnnedad to a single 60M3DO(300W) PV module. The voltage of des order IS rgureted by the bnener at a amstant 400V. NECCO&VAIWIMSMTrls PV Source Circulmaximum Vac must not exceed PASS 60OV 429V<600V=Sun DC -DC Cc number Source Ci muit voltage must not PASS exceed MOV 400V <600V- no 11 Solu Edps ImtNW idle Hallam 6O111300 (300W)a Artily RWEtin May Type D 11m MPPT System Inverter System Description Sol. Edge inserter.19 Helene 60M30D 3OO1Ns Module MM300 390 Hit% number of modules In series n a PV Source circuit 1 Des' nI"Tam . 0-C Mature Voc 39.83V round. CoeKcrent Voc 4.123VIC NECCoOeGkula6om A. Maximum Voltage of PV Source Circuit 42.9V me 69071P NEC 690.7(C) requires that Attie PV module manufacturer provides tompeabtre ocefldenl of epee A voltage. A must be ad In calculate the PV move madam m system voltage. It Includes an Warrenton We recommending to use of ale ASHIA Eareme Annual Mean Mmimum Design Dry Bute Temperature' m the design lour temperature. using Ness volume, the module Voc (39.83V) .1 aamase to 42.9V at the design love tempeatas (0'C). (0-C-25-C)X-OJ23VIC.39.83V=42.9V The module Vac at Ne design love teiryeature IS 429V. 429VXI=42.9V B. Maximum Voltage of DC -DC Converter 400V Source Circuit sea 6pO7fQ AS PV cAaib rave a voltage that does not exceed WOV. The system s DC -DC Cc meter Sound Circuits am fed by Solar Edge P320 do-W do convener aormixation devices. Each device is connected W a saga RWOO (300W) PV meddle. Tire, voltegeof Ns, chura regulated by the urreteratamatant4DOV. NECoba.wwmona PV Scum Circuit maximum Voc must not exceed I PASS 600V 4ZWV G0V=bue DC -DC Comrade rSent fall Circuit voltage must not PASS exceed 60OV 400V<600V=tme I NAm, CondA and DCPD Code Compllanoo Velldatlon 21. t1: DC ClrwH Q1rvlt SeWea St111fp Ou4xdto Tmrxldon Bear fimxltsdloo Ropsran Conductor IDAWGWW.,Copp, E v' mentGmurMCorduddr EGC 6AWG Bare Copper OCPOa WA oa,own,accon, Freee, I.mwmlTemdnd Temperature Ref 75-C Mvimum Wwe Tem rahre 55-C Power Gwrm omclinan SWR of l6 Soleachar Edge P320 power 60M]00 700 Pmrmsd ton Currant 15A van a 400V Module Series Fusa Ratln 75A Teml NumMol Series Ginn s 2 NO Cods Cslcubdom A. Continuous Current 15A sa,6a26/aJ(W The oon5nat,xsgment of atis series string 0l power ep6m6ers is equal to the rated maxim um output wrreN N Ne optimizer. Rated Mao. Output Current of oplimcer Is I B. Ampacity of Conductor SSA see rsbk3f01W8)(P) Amp"(30'C) forampparmndudnrwM90•C lnsulaton Infreea'u is 55A C. Derated Ampacity of Conductor 41.BA see Tebk 3101We/(2)(aJ, Tebk 314f5(B//3//eJ. sndA ,d fttl The temperature factor W 90-C Insulation at55'C Is 0.76. The Td factor lormnduokr, N free ac's 1. The ampadty deated far CoreiEor s of Use hNe Product of me mndudor a mpaaty (55A) maintained by th a beau eatue factor (0.76) and by Nelur clor(l} 55A X 0.76 X 1=41 Ali D. MaX Current for Terminal Temp. Rating 35A see 110 f4(CJ The towreot temp ahue gran for Ws mrdudaat my termination is 75'C. Ualrg he maimed spooned in 110.14(C), are maxmum arenl permitted to an su m that the advice temi net lemperahunot ex e does nceed Its 75-C sting would be the amount nefeanmd in the 75'0 column N Table 310.15(B)(16), which h 35A E. Minimum Required EGC Size 12 AWG see Teak 250122 ever 6M 4,56AJ The smallest EGC slm dlowed is 12 AWG for OCPD rating 19A according adTable 250.122. AccoNirg to 690AS(A). it h net recess dry to broom to size of me PV arrays EGC when mnductos are oveahed for wwge drop considerations. NWOD va5drImTMA System must meet requirements for not having PASS series fuse (690.9(A)) Oersted Ampacity must be greater than or equal to PASS the Continuous Current (Article 100) 41.&A>-ISA=true Conductor Ampacity must be at least 125%of PASS Continuous Current (2152(A)(1)) SSA> 15Ax 1.25 =bud Max corentfor terminal must W at least 125%of PASS the Continuous Carrenl (110.14(C)) 350=15AX7.25 -hue EGG must meet code requirements for minimum PASS size (Table 250.122) 6AWG,-12AWG=hue EGC must meatmde requirements loin physical PASS protection (fi90.tco 6AWG,=6AWG=true 221t DC Source Clraft TrmsPoon Box to Inwdw Conductor 10 AWG THWN-2Copper Ed, are,I GmuM Conductor PEGM 10 AWG TN 2 CapMr OCPDa WA Raceway/Cable 0.5' d'a. Flexible Steel laaeat Terminal Temperaure Refirdi 60'C Mmenum Wire Tam ature 53'C Power6oumo Oemdption Suing 0116 Solar Edge P320 power optimizers, each connaled to a 601431113 300 PV module Current Im Vo a 4001 Module Series Fuse Rali 15A Total Number of Gents SM s I2 aECCodeCelclrhlMu A ConSnuous Current 15A sae 69a6(AJ(W The continuous current of this series string of power optim b.. is equal to are aeatl maximum dutpN anent of me optimizer. RetA1 Max.OulpN Cu rreN of mEmher 615A B. Ampacity of Conductor 40A sae rdak 3fa 1W5J116J Pmpmty(M-C)foramppermMu rwnh90'Ch&N on in mnd.W.Isa is 40A. C. Derated Ampacity of Conductor 30.4A seer.*3fa 1W5)(2)(e), reek 310. ff)yz1(e), s kbykd)00 ThelemperaWre factor for 90-C imaba aA55-C is 0.76. The 60 radar fora conduiVwble mat has 2 where is 1. The ampacity death for Condtions of Use is me product N the conducla r amnesty (40A) multiplied by the tempeahue factor (0.76) and by the fm factor (1). 40A X0.76 X1=30AA D.Max Current for Terminal Temp. Rating 30A see frafe(C The lowest tempeatare Emit binWas wndu at any terminationh 60'C. Using the mettiod speared in 110.14(C), Na maximum wrrent permitted to ensure Nat to corneas terminal temperature does not exceed its SO' C rating would be ma ammmt roferenced In be 600C column in Table 310.15(B)(16), which is 30A. E. Minimum Required EGC Size 12 AWG cos fete, 25a 122 x4 630 AWAJ The smallest EGC sixea0wed Is 12 AWG fdr OCPD rating 19A according b Table 250.122. Axording W 690.45(A), it not necessary W increase No see Nine PV arrays EGC when mndudos are cveaiaed far voltage drop considerations. F. Minimum Recommended Conduit Size 0.5'dia. sea30afr The total area of all bonducbs Is 0.0633M With maxmuan fill rate of DA. the recommended mnduftdumehr h OA. film TM a Tetd Aa 2 Cgdun WG M2 0211M 1W I ImrcntGround 10AWG A11M W] 0.0633W/0.4-0.1562in•(CorremW[M gtoedlameterof0.51 eE00015vadreoallesb SyslemmustmeetAmquhements for not having PASS series fuse (690.9(1) Carried Ampacity must be greater than or equal to PASS the Continuous Current (Article 100) 30.40=15A= We Conductor Ampacity, must be at least 125%ol PASS Continuous Current (2151(A)(1)) 40A> 15A x 1.25 =hue Max anent for terminal must beat least 125%of PASS the Continuous Curent.(110.14(C)) 30A>=15AXI.25 =hue EGC must meet cede requirements for minimum PASS size (Table 250.122) ID AWG,=12 AWG =hue must meet code recommendation for PASS 1vConduit min"unum sin (300.17) 0.50t>=OAte.=hue 29.113: DC Choi CIrw1E Staffs ShNg OuW to Tnnllllon Box cha siscom RoprOr. NECCodbVbldbONTblb Conductor 10AWGWWJM r E u' .MGround CMduaar EGC 6AWGBare Co r OCPOs WA Racsva Xebk Free Air Lowest TemWWTempeaNre Rah 75'C Madvmim Woo Tem aNa 55-C Pacer Boursemediptim stigof175olar Edge P32D power lrmnn Mdulema WMM30nectul Current 15A Voltage 400V MMub Sedes Fuse Patin 15A TaWl Numbvol5enes Strut s 2 IECCodb Cdudolktn A Continuous Current 15A see 6904(v(.J The continuous cement of thisseries stop of power optimizers, equal W the road=in output current oft e optimizer. Reed hbs. CagmA CuMmtof DpWrberb 1SA B. Ampacity of Conductor 55A see Tehk 310 AWB/(f7/ Ampedly(30'C)foiamppermM=rWtM'Cbr ton infrceeu a 55A C. Deleted Ampacity of Conductor 41.8A see Tebk 3AO 16(B/(1)(4 Teal, 3to fV)y3j(el, enCA s* 107 The temperature firer for W-C bnulz6on 455'C 40.76. The fA bald for mnduaurs in free air, 1. The ampadq de ou nd for Conditions of Use, me pmtluel of me mMuctor ampariy(55A) multiplied by the tericandure factor(0.76)and bythefOrnexi (1). 55A X 0.76 X1=41.6A sD MaX Current for Terminal Temp.Rating 35A seem fe(C/ The lowest temperature 6m4 for Nis Mai at any termination, 75•C. Using me me0ad sneered! in 110.14(C), the seadmum cement pemdttM to a. that me devionann al temperature does not exceeIsd 75'0 at, world be the amount refeanmd in to 75-C mWmn in Table 311 (16), which, 35A E. Minimum Required EGC Sae 12 AWG se a Teak 15d 122 any 690 lWA/ The amoest EGC size allowed 412 AWG for OCPD when, 19A Ong a Table 250.122 Aecading W 690.45(A), it is net necessary to increase to s,e of me PV Mays EGC when conductors are minimized he sdtage drop comidlemGGns. System must meet requirements for not having PASS series fuse (690.9(A)) Carried Ampacity must be 9rester man or equal to PASS the Continuous Current (Article too) 41.6A>=1SA=hue ConductorAmpaiy must be at least 121%of PASS Continuous Current (2152(A)(1)) 55A> 15A11.25=hue Maxmr tforteoninalmuslbeatleastl25%of PASS the Continuous Current (110.14(C)) 35A>=15AX725 =true EGC must meet code regurements forminimum PASS size (fable 250.122) 6AWG>=12AWG=bue EGC must meet code requirements for physical PASS protection (690.46) 6AWG>=6AWG=hue 2A 94: DC Soto=Chili Thimildon Box to Imrsi Conductor 10 AWG THWW2 copper Equipment Ground Condoner (EGCj 10 AWG THWW2 Couse, GCPDs WA runcowaycathe 0.5' do. Fk>be Steel Lowest Terminal Tempembre Rath 60-C Madmum Woe Tem coca. 53-C Power Source Desaipdon gpoing of l7 Solar Edge P320 power 60000 700 rantors.� moi Curren im Vol a 400V Moo,, Series Fuse Rati 15A ioel Numberol Seri es Scan s 2 10DCoi ClucuWWu A, Continuous Current 15A sea 690.F(A/An The continuous mrtentof dub series sting ofpawaopWn¢ers, equal a the usual madmmn output current of me aptimuer. Retail Mas. Output Currental amnia 15A B. Ampacity of Conductor 40A see Teak 31d 15ffi(f6/ Ampady(30•C)foramppamMWaw'ah90•Cesutaton W conduiVmNe, 40K C. Dented Ampacity of Conductor 30.4A sea Teak 010 15(B//y(,j Teak 31d 14a)(5/(e. sMA2 169 The tempeabre fader fa N-C insulation at55°C is D.76. The N factor for a cord4cable Nat has rives is 1. The ann ily de rated for Ccndbons of Use, me product oftAe conducor ampaoty (40A) m Aplied by the temperature factor (0.76) aM bytlrefllys (1l. 40A X 0.76 X t=30.4A D. Max Current for Terminal Temp. Rating 30A see 110."(Cl The lowest an on aba. 6mA for Nis conductor at any tMmiratien is CPC. Using the method speed In 110.14(C), the maximum amens remedied to, ensure that the device terminal temperature does not exceed he 60'C rating would M to amount referenced in to 60-C column W Table 310.15(B)(16), whWh, 30A E. Minimum Required EGC Sae 12 AWG sae Was 250122 a nJ 692 14'A) no smallest EGC sae allowed is 12 AWG for OGPD rating 19A amordirg to TaNe 250.122. According W 69D.45(A), it is W necessary W inveae the sce of the PV smal(a EGC when conductors are oreaized for w0age dap consisations. FM . mum Recommended Conduit Size 0.5' tiro, see1LU.11 The total area ofah mnduclors, 0.0633in'. Wm a madmum fA ate of 0.4, me recommended mnduft dameWre 0.5. One Doesisten 91xe i Area ToWAaa 2 Candumor n; 3H z m:sm• 0.0422W 1 es Gouts iMAWG nM-2 0.09116• 0.0 iV 3 0..1161 0.0633W'!DA = 0.1Win' (ConespoM'ug 0 a diani00.51 NECCodbyluldmTmto System must meet requirements for not hating PASS acres fuse (690.91 Ceated Arai must be greater than orequalW PASS the Continuous Current (ArOde 100) 30.4A>=15A= We ConductorAmpadry must be at east 125%of PASS Continuous Current(2152(A)(1)) 40A> 15Ax 1.8=hue Max cannot for terminal must be at east 125%of PASS the ConMuaus Current (110.14(C)) 30A>=1SAX1.25 =We EGC must meet code requirements for minimum PASS size (Table 250.122) 10 AWG>=12 AWG =true Conduit must meet code recommendation for PASS minimum size(300.M 0.6e.>=05h.=hue U W: Inverter Output InveAdrfo AO AWelpilion Pond CmMucior 6AWG THWN-2 Copper Equirrmot GmuM conform, EGC 10AWG➢IW&2 OCPD s 60A RamwalCaNe 1'da UFNC Lo4esl Temdnal Temperature Raft 601C Mann.Wue Tem Notre WC Power Sourm Description Enter Edge SE1DOWH43S 1w00W broader current am vas a 240V Invader Max OCPD refina 60A NEccedecam411om A. Continuous Current 42A seeA2c41P3 Equipment maxunum Noted output anentis 1 XWA=42A B. Ampacity of Conductor 75A see raft 3Wf4J/lyl Ampaaty(W'C)fara mppnmMudmwdh W°C insuWSon In cond0obleb75A C. Dented Ampacity of Conductor 57.6A see rank 910 1d'(Bl(1/(eJ. Wk 310 IS/e1I3Jy1J, aMArNi fW The temperatures factor for 9(1'C Insulation at 33'C h 0.96 ThBW factor We condulVobW Ihathas 4wies is 0A The ampaaty dem1ed for Canddons of Um's to product of the cadmor ampea typ5A) mottled by fire tempemMe faMr(0.96) and byth0nfactor(OA). 75AX0.96 XO.8=57.6A Dee. Max Current for Terminal Temp. Rating SSA s11, 14/CJ The lowest temperate Shad fro this conductor m arty Wm inaron b 60'C. Usbtg the motor spect ed in 110.14(C), to madmumourrent permitle l tensumtatte devi etemdnaltempembnedms notexceed ib W'C rating MW be me amount referenced in Inc W-C column in Table 310.15(B)(16), which b 55A E Minimum Allowed OCPD Rating 52A sat2Z4 NEC 6DOS(B) require thalthe OCPD be rated form less Man 125 times the Cwthe uous Cunent of the drain 42AX 125= 525Ahounded down to SM F. Minimum Required EGC Sae 10 AWG see re6.b Ilia 122 The smaOest EGC size of and to l0AWG far OCPD rating WA acmNbg to Table 250.122. G. Ivhnimum Recommended Conduit Size 1'dia. see3 .17 The total area of ag mnduct m Is029M Wth a mmbnum M mte of OA, therecommendedmnduAdumeleris 1. Ow Dowerion Sze Tma Area Taa Area 2 Cmdumr BAWD THWN-2 h1k iM 0.0732& 2 Neupal BAWL T -2 0.0351 0.0732 2 nl Ground MAWS THWN-2 0.0211n' OMZNa 2 Conductor 6AWG Tmm4.2 0.rRITh' 0.1014W 0 0.29n� 0.29irt/0A=0.]25'uP(Cmresmrding to a d'wmetero171 In CobVeSdatlmTSO OCPD rating must beat least 125%of Continuous PASS Cument(240.4) 60A-42AX 125=We Demted ampadlymust exceed OCPD Noting, at PASS rating of next smaller OCPD (240.4(B) and 240.4) 57.6A> S(Vk(NWShmIhrOCPDRsfm)=bee Deraled Ampaclty, must be grealerthan orequal to PASS the Continuous Current (Article 100) 57.6A r--42A=true ConductorAmpacity must be at least 125%of PASS Continuous Current (2152(A)(1)) 75A> 42Ax 1,25=min Maxwvent for tearal must be at least 125%of PASS the Continuous Current (110.14(C)) SSA,42AX725 = We EGC must meet code requirements formintimum PASS size (Table 250.122) 10 AWG I=10 AWG =hue Conduit must meet code recommendation for PASS mimnum sue (300.17) 1km-Un.=bue 28. 08: DO Circuit Circuit SMw M ft Output to Tremtllon Box Conductor 10 AWG PVWue Cover E ui menlGmund CoMudm EGC 6AWG Bare Cooper oCPOf WA Racew iCsWe Free Air Lowest Tem"TempmaNm Radial 75-C Maxim. Was remembers 55-C Power Source Description SIn'ngol 19 Solar Edge P320 power optimizers, each connected to 60WDD J00 PVmodute current is. V.Dom 400V M WSerin Fuse Rahn 15A Total Numberof:,des 1 NECCedeCetculldon FA Continuous Current 15A s4t69af(AJ/SJ The ondmmparrentof is series string of pwmoptm¢em "is t 0s hated maximum output cement of the opSmber. Rated Max. noted Current of container Is 15A B. Ampacity of Conductor 55A see Teak 310 15(9J117) Ampacity(30'C) for a mppermMudmwit WC bmula0on mfreeair Is SSA - C.DeratedAmpacityofConductor 41.8A see refs 31a.13(Bll2llaJ Teak 310. 15/SJT31(tJ. e&AKik 100 The temperature factor for W-C insulation m 55-C Is 0.76. The N factor for conduction, in free &to 1. The ampacity dammed for COMiSons of Use the product of the conductor ampaaly(55A) mullpfied by the tmnikhaNl0 factor (0.76) and bythefdoxhart). 55A X 0.76 X1=41.BA D.i Cunent for Terminal Temp. Rafing 35A see hale/cJ The lamt Immpemhue limit for this conductm at any Wrmnadi b 75°C. Using the method specified in 110.14(C), the maximum anent pemWWd t ensure Mat the device Nominal temperature does Not exceed! tla 75-C caring wouM be the amount referemed in the 75-C mAumn le Table 310.15(BX16). which a 35A E. Minimum Required EGC Sae 12 AWG see re"2W 112 ad690t5/AJ The smallest EGC sae allowed to 12 AWG for OCPD rung 19A a:m Ong to Table 250.122. Author, b 690.45(A), Ale Not necessxryt increase to srse of to PV shays EGC when conducts are aveneed ton vologe drop considerations. System must meet requirements tornathaving PASS series fuse(690.9(A)) Denoted Ampacity must be greaterthan orequalto PASS the Continuous Current (Article 100) 41.8A1=15A= We Condo cloy Ampadty must be at least 125%ol PASS Continuous Current(2151(A)(1)) 56A> 15Ax 1.25=true Max anent for terminal must be at least 125%of PASS the Continuous Current (I10.14(C)) 35A-15AX US =We EGC must meet code requirements for minimum PASS size (Table 250.122) 6 AWG r_ 12 AWG =true EGC must meet code requirements for physical PASS prottection (690.46) R6 AWG>=6AWG=hue 27. n: DC Somee Circuit TruulBon Bai Trivad r ansuvaeciden Propi Conductor IDAWGT!i N Coppar E o' menlGmund Condudw EGC 10AWGTHWN-2 Co r OCPG a WA Raswa7Cable cysts. Flexole Smel Lowest Terminal TerneaWns Ratio 60-C Meximum Woe Tam i 53-C Power Source Description String of 19 Solar Edge P320 power epfimieea, each connected to a 601,1300 3001aPV module Current ISA voltes, ON Module Sedes Fina Ratio 15A Tool Numberal Satlas Shins 1 NEC Code CeleuLd m A.Continuous Current 15A soe69aeyld(dV The contnuo us anent of this series string of power optimbem b equal tithe sled mazimum output comentof to optimizer. Ruled Mass. Called Current of opwkerb iSA B.Ampacitycf Conductor 40A sass ra0.H J7a.1;'a/(15/ Ampa*(30-C) fwa mppermnduaorwilh 90'C imulaton in mndait( cis 40A. C. Derated Ampacity of Conductor 30.4A sass Talk 710 f;'S/(2/(el. re 710 15(B)17/(e). adyAgR✓e 100 The bmperaWre famrfw 90-C insulation at WC a 0.76. The f l factor for aconduitcable that has 2wires is 1. The ac iydeated for Conditions of Use Is the product of me conductor ampacity(40A) muripled by to himperahue factor (0.76) and by the fil factor (1). 40AX 0.76 X7=30.4A D. Man Current for Terminal Temp. Rating 30A seallalgC/ . The lowest tempo mWm Grad for IWs m W udw at any brmireton is 60-C. Using the method speed in 110.14(C(, to mazimum amweemhitled mensumllatthedeveeNmd lempeahaedoesmtexaedits60'C sting words W the ammml raferencedin the60'C column In Table 310.15(B)(16), which b 30A. E. Minimum Required EGC S¢e 12 AWG sea redo ZU31122amy69Re5/A/ The smallest EGC size showed is 12 AWG fW OCPD rating 19A arcoWirgo Taae250.122. According to 690,45(A), it a not necessary Wlnaease me size of the PV ways EGC when bond utters are pass sed for whose dap considerations. F. Minimum Recommended Conduit Size 0.5' dia. ae 3, The total arse of al conductors or c06330'. With a maximum N rate of 0.4, me recommended conduit diameter as 0.5. ion Biro i Ama L Area ] CaMuaor IOAWG 111 T2 10211W 0.0a220 I E enl Ground 10AWG THWK2 00211iM 10,0211W ] 0.0612iN 0.0637 in' 10.4 = 0.1582in• (Corresponding W a dia meter of0.5T NEc Cadevaden®7eeh System must meet requirements for not hand ng PASS series fuse (690.91 Dented Ampaity must be gmaterthan orequal to PASS the Continuous Current (Article 100) 30.4A>=15A=man ConductorAmpadty must be at least 125%of PASS Continuous Current (215.2(A)(1)) 40A> 15As 1.25= We FIrMa an int for temunal must be at least 125%of PASS the Continuous Current (I10.14(C)) 300=15A X 1.25 = We EGC must meet code requirements forminimum PASS size (Table 250.122) 10 AM -12 AWG=We Conduitmuat meet code recommendation for PASS minunum sae (300.11) O.SN.>=O.Sia=ran 2& 18.Inrabr Output Imxbrto AC Apprpttlon Will Conductor BAWG THWN-2 Lo er Eq ui menl Gmund Conductor EGC 10 AWG TH ii Copper OCPOs 40A Raaw /Cable 1'diel- C Lowest Temdnal TereperaWre Ras 60-C Mamnum Wins Tem ram 3TC Power6oume Desralpton Saar Edge SET600H43S 7600W Imaner Cutmal 32A Vo a 240V Imreder Max OCPD reI q 40A RODadeDet ulldom A Continuous Current 32A s.,41vti 1G-0 Equipment mstmann rated ovyut current Is 1 X ISA= 32s, B. Ampadly of Conductor 55A see redo Jfa l$B//15/ Amlecity (30'C)fora cappwwndatorwb 90'C imulaien in conduit/®bleb55A C. Deraled Ampacityof Conductor 42.24A see red'e 310 r$'d//ii AbAs J1a.16il8jp/(e%endArbi Aa AM The lerepeaNa factor fix 90-C osuletiwh at 33-C Is 0.96. The fit factor fore coMaWide that has 4 w'ves b 0.8. The wewid, dendlzd or Conditions of Use he the product of the conductor ampac0y(55A) makcred byt o temperature fader(0.96)and bythefilbroor(0.8). 55A X 0.96 X 0.8=4224A D. Max Current for Terminal Temp. Rating 40A see Ito. 10(C/ The owed Wm pre aWre Emit for this conductor at any brmioabon b 6PC Using me method specified In 110.14(C), the maximum arrent counties to as. that to devie terminal mmperaNre dop not exceed ho 60'C pi would be me amount referenced in the 60'C cdumn In Table 310.15(3)(16). which is 40A E. Minimum Allowed OCPD Rating 40A se, NO.4 NEC 690.91 required that the OCPD be read for no less man 1.25 fines the Continuous Current of the drtmit 32AX1.25.40A F. Minimum Required EGC Size 10 AWG see Table 25a 122 The smallest EGC *a allowed is 10 AWG or OCPD rating 40A acomng W Table 250.122. G. Minimum Recommended Conduct Size 1' dia. see7la f7 The mmI area of all condadors Is 0.29W. With a max were fin ale of 0.4. the recommended conduit nameterb 1. Deamob. Isce Tee Total Nee 2 BAWG niWN3 0.0]6fiw• tm]3w• 2 i THWY 2 00366a• 0.07321,' 210AWG 9i4BAWG mWW2 0.0211M scalar• 2 TThN42 001 O.IDWIn• 0 0.28n' 0.29in'10.4 =0.7256' (Comnponding W a dixmawof 1 NEC Cede VddSdM Teel OCPD rating must be at least 125%ol Continuous PASS Current (240.4) 40A>=37A %12s = We Derated ampadty, must exceed OCPD rating, or PASS rating of next smaller OCPD (240.4) 42.24A>= 4DA (OCPD Rating) - sue Dereed Anna must be greater than or equal to PASS the Continuous Cumnt(Ar6de 100) 42.24A>=32A= We ConductorAmDacity must be atleast 125%of PASS Continuous Cunent (2152(A)(1)) 55A>37Ax 115=We Max coment for terminal must be atleast 125%of PASS the Continuous Current (110.14(C)) 40A>=32AX 125 = We EGC must meet code requirements for minimum PASS size (Table 250.122) 10 AWG >-10 AWG = We Conduit must meet code recommendation for PASS minimum srse (300.17) 1m.>=10.=We 2.9. IM: Combined Output of Inverters: AC Appnpolon Penal to Wily Discor n47d Conductor 3AWG Till Cooper E a' ment Ground Conductor (EGCl BAWL ril Copper OCPD s WA RoussairlGable Vdia. UFNC Lowest TemdnalTemperature Radial 75-C Maximum Wire Tem more 33-C Power Scum Description 2 Soar Edoe mveMrs wI52 Helene WNDO 7 Vie Currenl 74A Vol 240V NECCO&Cekolzllpr A Continuous Current 74A see,16m, fat Equipment samrbnum aced output current or 2 X 32A = 74A S.Ampadiy of Conductor 115A :eB7aao Jla fNe/(rs7 Amp 6tyi30'C)fwamppermndfdorwb M'Cbsubron in condui0wble is 115A C. Derated Ampacity of Conductor IIOAA sea A" M. 15/elRl(e% Teok Jla 14'elp/e). anOArtW AX The lempeabre factor for 90'C Wsula im at 33-C is 0.98. The factor for acondurmble that has 2wiree k 1. The ampecty demled forCondltim3 of Use Is the prod ct ofthe conductor ampscily (I I M) multiplied by the Mmpeatwa factor (0.96) and by 0a fill factor (1). 11So X0.96Xf=110AA D. Max Current for Terminal Temp. Raling 100A see 110. M(C) The ll lempeabre, Omit for this mnductonat any termination is 7WC. Using the method spewed in 110.14(C), the maxmuor current peornred b ensure that the device terminal WmpwaM1ne does out exceed its 75-C a0ng would be the amount referenced in the 75-C coNan b Table 310.15(6)(I6), which is 100A E. Minimum Allowed OCPD Rating 92A see2G04 NEC 690.9(B) requires that the OCPO be meted for no less Man 125 times the Cmtinu ous Current of the dmuit 74A X US = 925A sounded down to 977a F. Mnimum Required EGC Size 8AWG see Taw.& 150. 122 The soul EGC sae allowed is 8 AWG for OCPD atirg 100A according W Table 250.122. G. MTinimum Recommended Conduit Size Vila. e Jai f7 The Wad area of all wnductas 1, 0.3136W. Wth a maximum m ate of OA, GW recommended oondudd'amelerle 1. 0esm :ion S® T- Ala mostAm. 2 ranMmbr 3AWG THWN-2 00973io' 0.1SAW 1 Neutrl 4AWG THLN12 0.0824W 0.0024W 1 .mIGmM BAWL 1MM12 O.Me 1 0.0966 O.]1 fiiI 0.3136W 10.4 a 0.794W (compounding ma diameter of 1') NBCO&VAIIAI 11" GCPD rating must beat least 125%ofConlnuous PASS Cument(240.4) I 100A>-_74AX1.25=true Dented ampacity, must exceed OCPD ating,w PASS rating of next smaller OCPD (240.4) 11OAA>-_ f00A(OCPD Rathg)=bue Dented Ampadry, mu" greater than or equal to PASS the Continuous Current (Article 100) 110AA>=74A=tore Conductor Ampadty must be at least 125%of PASS Continuous Current (2152(A)(1)) 115A> 74Ax 1.25 a me Max mmealfcrlennMal must be al least 125%of PASS the Continuous Current (110.14(C)) IWA>=74AX 115 =We must meet code requirements formuumum PASS MrEGC size (Table 250.122) BAWG>=8AWG=true Conduit must meet code recommendationfor PASS minimum sae (300.17) 1trx>=tIn. =bue 2.10. #10: Willy Dimmed Output Wifly Dkeome d to kiln Serltea Pant Conductor 3AWG THWN-2 Copper Equipment Gaunt Cmductor EGC 8AWG THWN-2 copper DCPD 5 100A X 2 Racew (Cable 1- dim LPNC LowestTerminal Temperebre Reti 75'C Wamme Wire Temwoubure WC Power Source Description 2 Solar Edge inauss wl52 Helene WM i(0 Q00W s Emma ]4A Voltage 2CpM NECCode Cakukdom Fontinuous Current 74A A19 f00 Equipmentm nmum aced outputerantk 2X32A=7/A S. Ampacity of Conductor 115A see Tack Jfa MM116, fvntady(30'C)foracoppermMucl Vr 90-CO ulaben in cdduilu able k 115A C. Derated Ampacity of Conductor 110AA .TaMo31a M(9)/1/(a), Tao% 310. 1,yF)y3)fa/, acylk /e 100 The hmpeahue realm for 90-C imuleem at 33-C Is 0.96. The fed fdawfwemMurmble Ihathae 2 rues k 1. The ampaciy bill for Constituents of Use is the pmductof the conductor = W y (I ISA) mirrored by the WmpemWa factor (0.96) and by the fJl factor (1). I I % X 0.96 X 1=11OAA FD.Mu Current for Terminal Temp. Rating 100A tea Ifa lqc/ The lowest tempeaWreWit fa this conductor at anyWrmina60,n k 75'C. Using tin method specified in 110.14(C), Ore maximum current p ronded to ensure Oatthe deuce turn" tempeahue dome out exwed'R 75-C ralig woutl bo the amount referencetl m the 75-C bell in Table 310.15(0)(16), which is 100A E. Minimum Allowed OCPD Rating 92A ee 240 NEC 6908(B) requires Mathe DCPD be rated Wr no lass than 125 limes the Continuous Current of the dreuk 74A X 725 = 92.5A sounded down to 92A F. Minimum Required EGC Size S AWG eve TL72Ua 111 The smaOest EGCs¢e thawed k 8 AWG Ice OCPD rating 10GA according W Table 250.122 G. Minimum Recommended Conduit Size 1' edict. ee30 77 The load area of ad conductors be 0.3136W. Will a maxmum fill rate of 0.4. the recommended conduit dameters 1. Size T 0.2a TaalAma 2 Co,hmor JAWG mivm-z boy, 0.1946W 1 Neutral 4AWG THWM-2 ocaNW 0.0e24W 1 enl Ground JBAWG ITKVilfil 0.0366m' 0.0i66W 4 01136W 0.3136in'/0./ = [Jul (Correspond or lore diameter of II NEC CadeVeW9eoTab OCPD rating must beat least 125%of Continuous PASS Current(240A) 100Ar_74AX115=hue Derated ampacily, must exceed OCPD rating, or PASS rating of next smaller OCPD (240.4) 11p.dA>= t00A(GCPD Ra%,)=he Dammed Ampacity must be greater than or equal to PASS the Continuous Current (Ar5de 100) 11o4A>-74A=true Conductor Ampaciymuslbealleast725% of PASS Continuous Cunenl (2152(A)(1)) 115A>74Ax 115=hue Max anent for terminal must be at least 125%of PASS the Continuous current (I10.14(C)) t00A>-74AX1.25 -bee EGC must meet code requirements for minimum PASS size (Table 250.122) BAWG>=8AWG=bus, Conduit must meet code recommendation for PASS minimum size (300.17) 1in>-_ In= We MONO POLY • HELIENE 60m 60-CELL MONOCRYSTALLINE MODULE HELIENE INC. IS A PREMIER SOLAR MODULE MANUFACTURER, SERVICING THE GROWING SOLAR ENERGY MARKETS OF NORTH AMERICA. COMBINING PROVEN EUROPUNTECH40LOGY WITH NORTH AMERICAN INGENUITY ALLOWS HELIENE TO MANE A REAL COMMITMENT IN PROVIDING SMARTER ENERGY CHOICES FOR THE FUTURE. HELIENE www.heliene.com �a GUARANTEED POSITIVE POWER SORTING: 1-0: +4.99 WPI AVAILABLE IN IOBOV OR 1500V j'k MANUFACTURED ACCORDING TO INTERNATIONAL DUALITY SYSTEM STANDARDS: IS09001 H-BLACK INTEGRATION AVAILABLE (ALL -BLACK MODULE) LINEAR PERFORMANCE GUARANTEE on. n DEG VA(UpC TUwrs9a"may ryARRAA7p __^^•�-- ______eaxaaxa ir. 60N r1- T- 31�^ T ELECTRICAL DATA (STC) Peak Haled Power P,ro1VO 305 300 p% 390 20 'Aavimum Peas ReHeae V_HH 33.44 33.14 13.% 1351T 31116 hemimem Pcweurrent i_w 11% 9,1n SWU slag 833 O'r C'rcnnlTM1... I VIM 39.981 33.83 39.% 1 39.521 1 3916 SlndGwAChrent Ien(N 9.673 959 $.51 IA24 934 Modu'iz Etnnienry• Fffmi 11.9 LL6 Iis Is.a 17.7 Paver Duipul Tp'nanaL (-u°+4191wp VC -ttaodard Teri Conditions: Irradiation 1000Who7-❑rmaeslM 1S-cell tempmalwe 35 °C • Gioulatetlminpmatlmum ppnerbaeed hh bN poUtiva avpup Nleraha (-O M.991 WP MECHANICAL DATA Dimzeaieas Aali U1 165Da993a43wAHS139a1Jmcw Weight- 199ke(41.9 Ws) Ducal Gables 1Jan(43.3batch) s9mmerrlrsl cables trial MG ester contractors luraction 6. IF-6T rated vi b bno ss Nodes Flame Unublewe%etl l5 mNmaaimmaed aNmM®a0hv Front Glass Ina-Ilellal1erll. biehtrammistloa PV sa6r pleas Solar Cells 60 M000crysh9lw caps(156.156 aan) CalcWaledasln432mnl PV plait It Amer pmp3e is Meatball bad will nary CERTIFICATIONS Ill Usted UICAIRDC 1703-I, Inn%. Ull In Fire ClassificaHua T3pol IEC tirted — IEC61315,1061710 kH Habana mediae are norma d harder the GNmob EmW gamesters(CEGI Leasing Repprl TEMPERATURE RATINGS PACKAGING CONFIGURATION M1lmen. ar Em: 360ieces andulaapm 53'Uailer: 936piehes 1lamihN OpvaOne Cell .IS°C(zZ'G) Tcnpanwre w9cn iemarature CaaN'vealot'— -0.19YJ't Tempialua Ccalfteclat M31NC Tempuatua CceHumntol4 0.045%PC MAXIMUM RATINGS Operafmnakiemcaretme JUT-a85•C Las Sp@mppl'eae 1 I%oVYISM Ma Seeshsefiatine 15A WARRANTY Io Irar ManWacbeafaftn mambip Warrant} 35 her U!35 Pear Ga.cto. (Helen. pmdeat varrahN pope lar dataits) CALDRON: READ SAFELY AND DISTILLATION INSTRUCTIONS BEFORE USING THE PRODUCE Ey, ® ® 02017 Helier. Inc. All rights reseved. Specifications included in this datasheel are Subject to HELIENE — 1�1 change withwt notice. Power Optimizer For North America P320 / P340 / P370 / P400 / P405 / P505 MID O m X MO N X I PV power optimization at the module -level I l ' / Specifically designed to work with SolarEdge / Fast installation with a single bolt inverters / Next generation maintenance with module - Up to 25%more energy level monitoring / Superior efficiency (99.5%) / Meets NEC requirements for arc fault protection (AFCp and Photovoltaic Rapid / Mitigates all types of module mismatch losses, Shutdown System (PVRSS) from manufacturing tolerance to partial shading / Module -level voltage shutdown for installer and firefighter safety / Flexible system design for maximum space utilization solaredge.com solar- • e / Power Optimizer For North America P320 / P340 / P370 / P400 / P405 / P505 minrt RaM Nprt DCPmN 3.o 3J0 370 W] 405 soy w ILaMe MVYmrm Np�l bhage MOP. 9remperat Je W eo Isrs 83'a lOc MPPTpi gWrye 8-Je B-W H-80 li.5-lOs p5-83 We Marvn.um SM1oSxvn C'vcW CurteR �) 11 101 14 RGc Matimun OCNyut Cumin 13,75 L-69 175 REc mEMee 59.5 % Whghlei.RM Elryercy 98H 986 % dervahage Caegory 0 an MO.atl $y7em M�avMma 1W0 we Campmffi Inwmrs AO SCIm FO9x S'ngk Plan aM ltaee plus inverters Dmaums llY VLV X) liHvl£v:8/Sv59]vll liBvlII a36/ Sv59ly lot 7 EBVI $v59vL96 96 L-Hv15e :3] $r8W v:K mm/rs Wzgk jmdEuqudnl 630/L4 ]So/L] 8WL9 1 1C /23 gr/Ot Lprt Cvua¢O MCau OumN Wve ipe/Come:[ol Oo.ea:MCi OumN Wne LerglX 0.95/30 I2/39 m/h NprtW langtX ol6/OSZ m/.F Opretiy Lmpzrawa W rqe <0-•es/ _10-•185 'C/'i PmlBteOn PxOrg P68/NEMAED ReIaWOXumNiry 0-3W % ^0.wd Srt pedTnofrhWTbdWm •94 p�.r[ye+naa\vf rs I FC aCl] rel�,im my nprt vA.y M rcL rmm pm Po V +(neger.imeevrygµ p�,u]hXRM1y Mrvmum SbmglergN vaJ.�u rauu n,u 8 10 38 ffavv OP6nanL P-s'Pso5 6 8 tJ Magmwn 5Vx9 Le^9M' 0 _5 5]W L-SE1M Mamnwn Poanperswq SE]YM1S-SF11JW- SSp i]]'^ L']W° W U PaNelSwgi INPNerev LergUs Yxs a�am-4�Ya irvu¢'Wf WLLF4b• av wF�s Me��ea^•tJN•r4 ra6d`�+Pc CC ROHS SolaDeck FLASHED PV ROOF -MOUNT COMBINER/ENCLOSURE Basic Features Stamped Seamless Construction 18 Gauge Galvanized Steel Powder Coaled Surfaces Flashes Into the roof deck e 3 Roof deck knockouts .5", .75", 1" e 5 Centering dimples for entry/exit fittings or conduit 2 Position Ground lug installed Mounting Hardware Included SolaDeck Model SD 0783 SolaDeck UL60 Type 311 Enclosures Available Models: Model SD 0783 - (3" fixed Din Rail) Model SD 0786 - (6'slotted Din Rail) SolaDeck UL 1741 Combiner/Enclosures Models SD 0783-0/ and SD 0786-41 are labeled arid ETL listed UL STD 1741 .according to the UL STD 1741 for photowibic combiner enclosures. Max Rated - 60OVDC, 120AMPS Model SD 0783.41 3" Fixed Din Rail fastened using Nodock System —Typical System Configuration 4- Din Rail Mounted Fuse Holders 60OVDC 30 AMP 1- Power Distnbution Block 60OVDC 175AMP 1- Bus Bar with UL lug Model SD 0786-01 6' Slotted Din Rail fastened using steel studs "Typical System Configuration 4-Din Rail Mounted Fuse Holders 60OVDC 30AMP 4- Din Rail Mounted Terminal Blocks Bus Bars with UL lug "Fuse hold. and terrdnal Mocks added in the sold nwst be AIL listed or recognh id and meet 800 VDC 30AMP It= far fuse holden, 600V SO MP �m We for rail mourned tamurW Mods _ 1 1 and 6m V 175 AMP W for Power Dislnbu8on Slacks. Use C4Pporwue la. _ Condiodom Co . Mmm to a0ow Model SD 0783 1, wired with Model SD 078641, wired v th cond.1 or magR base is Dkt {tail mamted fuse holders. Din Rol maunred fuse hoders. center d'anpled for tilting bus bar and power distribution termptal Mocks end bus pan. locations. black. RSTC Enterprises, Inc " 2219 Heimstead Road "Eau Cliare, WI 54703 For product information call 1(866) 367-7782 FILE COPY ST.LUCIE COUNTY PLAN REVIEW BLDG: DAu O E //.!�,/�y DATE:r� � _/,l PLUMB: DATE: MECH: DATE E=T•N Product compliance: No Data Powering Business Woddmile pe.eaton.com © 2016 Eaton. All rights reserved. General Duty Cartridge Fuse Safety Switch d DG223NRB UPC:782113144252 Dimensions: • Height: 7IN • Length: 6.42 IN • Width: 8.82 IN Weight:9 LB Notes:Mazimum hp ratings apply only when dual element fuses are used. 3-Phase hp rating shown is a grounded B phase rating, UL listed. Warranties: • Eaton Selling Policy 25-000. one (1) year from the date of installation of the Product or eighteen (18) months from the date of shipment of the Product, whichever occurs first. Specifications: • Type: General Duty/Cartridge Fuse • Amperage Rating: 100A • Enclosure: NEMA 3R • Enclosure Material: Painted galvanized steel • Fuse Class Provision: Class H fuses • Fuse Configuration: Fusible with neutral • Number Of Poles: Two -pole • Number Of Wires: Three -wire • Product Category: General Duty Safety Switch • Voltage Rating: 240V Supporting documents: • Eatons Volume 2-Commercial Distribution • Eaton Specification Sheet - DG223NRB Certifications: • UL Listed H Single Phase Inverter I3333� with HD -Wave Technology m for North America T SE3000H-US / SE380OH-US / SE5000H-US / SE6000H-US SE7600H-US / SE10000H-US / SE11400H US Aft m O (enlei'-1�Q� __ILA vd ' ^.Fm y OIR S.. 312 ft* I Optimized installation with HD -Wave technology / Specifically designed to work with / Extremely small power optimizers Record -breaking efficiency / guilt -in module -level monitoring if Fixed voltage inverter for longer strings / Outdoor and indoor installation JF Integrated arc fault protection and rapid shutdown for / Optional: Revenue grade data, ANSI C12.20 NEC 2014 and 2017, per article 690.11 and 690.12 Class 0.5 (0.5% accuracy) / UL1741 SA certified, forCPUC Rule 21 grid compliance solaredge.com solar- e = I / Single Phase Inverter with HD -Wave Technology for North America SE3000H-US / SE380OH-US / SE5000H-US / SE6000H-US/ SE760OH-US / SE10000H-US / SE1140OH-US Patetl AC hover Oulgr, l0'A 3a'A®2dOV mal®2dW ww )w9 100w IWW®2dpV VA 33N 0208v SIXe®N9V 1=02. Ma.�mYNn ac FowN aIP,1 3w3 3aC0Ci UDN02" Sow )6N worn nuo4P 2QV VA 33wozcfiv E sowmzcev Ic00002ofiv AC W{M WF19e Mn: Nan. -Ma J 01.240-26d1 I J vx ACMt WM1age M'n: Nmn.-N.aa J 093.2w.2291 X Fn'u MamW 59.3-0-N.s^ Hz M 'm' Ca+wuom Ou¢uc 125 i6 21 25 32 d2 OS A n1@2d0J MMu1 16 26 aa.5 A C�Mm[W �mp'u G DI nwsMN 1 A vo, Mmrtwiro xh drg ft`,Wn. Caun yCxfigunde mrevaas INPUT Maximum oc Po^u�2a0V 66so s91w MO 93M It&w w5w nfiso w Mum CCPower®zoBV - Slao - nso - Issw w r rama-ksx um�a:^eea Ye M um lnpul Wita3x 40 We Nannil fY_Nryl Valrsge 3w aM We Mumlminxxlmnn3PMVQ 85 AS 135 16S 20 P 30.5 Mc Max:um LnM Gment M206 I 9 135 Mat Nry[ SMR 01.1 Cbemt d5 )de xaer>rpdanlyp�a<mnn v s LmvMivn lwxl Mx. EwYUSvyvvlry Ma.mvn FvuW1 f14Yerxy 93 I W2 % CECN 9i Effon 99 %®2d0v 99 S 2 % NgMlvre Ferrel Ca+swnplim <2S W fterenue Gnde W'..9cuz a�n [an» •-•--••••�••• Aueematlx Rapif sl�wlpxn upm ACGeN D'¢omea I Emis,'a E« pyI15 CNa B ! INSTALLATION SPECIFICATIONS ! aCQi¢tRCwtl.k S'¢e/AWG P 3/d'mmmum/46 AWG Yd'mvYmum/Idd AWG CCC �Cwtlw Lm/ee(Suags/ 3/4'm nVn/Hmrgs/14L AWG 3A'minimum/1-3 m+gs/14E AWG n'unae'arswM Sahty SwM 03 w.m try Ka 60/450 z M. nd 213z U6 v)Nx 3/Sf0v 3185 m/ We S�Ixi1�SNery Switl� 221M 25111W 262/11.9 399/9b IE/kg Ner< a 25 <50 cWA C.!" M.11CgvMp1 npnewg :rrtPen:ure Rugs 30 b.1101-25..ws l<PF/<sCopbnr^ 'F/'C pmmcw�wvq rvEMa axa^rener.Mu, solely s.,:m) ^Adi Mm�rt�ilbr'a^W E..W.venmr�.afrrrt�n ^Re�e�ygaxa^mnpM YwNi5ROa%) ^F�emn[bP.rJstflM rww.aw.aog at,^�a.rek.b�^�2r..-m.a)...�.vw�mr.n+wg..w.n.w�,:.yw�uoa ^-V vn� VMY®Md6tOl.'NJa bs�aw�—�r.dµFnnsnbm+a��^we.�rw��ta�1.4Tn av W�OrJ..eW.^sMe+. ofs.rtlLa.FM �^^-AT4N RoHS A211110RONRIDGE Built for solar's toughest roofs. DatasheeC Flush Mount System IronRidge builds the strongest mounting system for pitched roofs in solar. Every component has been tested to the limit and proven in extreme environments. Our rigorous approach has led to unique structural features, such as curved rails and reinforced 0ashings, and is also why our products are fully certified, code compliant and backed by a 25-year warranty. Strength Tested All components evaluated for superior structural performance. ®Class A Fire Rating Certified to maintain the fire resistance rating of the existing roof. UL 2703 Listed System Entire system and components meet newest effective UL 2703 standard. Pre Certified Pre -stamped engineering letters available inmost states. Design Assistant ® Online software makes it simple to create, share, and price projects. Datasheet XR Rails XR10 Rail XR100 Rail XR1000 Rail Bonded Splices Alow-profile mounting rail for regions with light snow. • 6'spanning capability • Moderate load capability • Clear and black finish — Clamps & Grounding e UFOs The ultimate residential solar mounting rail. • 8'spanning capability • Heavy load Capability • Clear and black finish Stopper Sleeves A heavyweight mounting rail for commercial projects. • 12'spanning capability • Extreme load capability • Clear anodized finish CAMO All rails use internal splices for seamless connections. • Self -drilling screws • Varying versions for rails • Forms secure banding Grounding Lugs f� fi IL L � �®�r�• Universal Fastening Objects bond modules to rails. • Fully assembled & lubed • Single, universal size • Clear and black finish — Attachments B FlashFoot2 Flash and mount XR Rails with superior waterproofing. • Twist -en Cap eases install • Wind -driven rain tested • Mill and black finish Resources Snap onto the UFO to turn Into a bonded and clamp. • Bonds modules to rails • Sized to match modules • Clear and black finish Bork modules to rails while staying completely hidden. • Universal end -cam clamp • Tool -less installation • Fully assembled Connect arrays to equipment ground. • Low profile • Single tool installation • Mounts in anydirection Conduit Mount Slotted L-Feet Bonding Hardware Flash and mount conduit, strut, or junction boxes. • Twist -on Cap eases install • Wind -driven rain tested • Secures -•or 1'conduit Drop -in design for rapid rail attachment. • Secure rail connections • Slot for vertical adjusting • Clear and black finish Bond and attach XR Rails to root attachments. • T & Square Bolt options • Nutuses7/16'socket • Assembled andlubricated - Design Assistant ,�,q NABCEP Certified Training 25-Year Warranty _ Go horn rough layout to fully NABI:EP Earn free continuing education credits, engineered system. For hee. while teaming more about our systems. Products guaranteed to be free T Go to IronRidge.com/tlesign Go to IronRkge.com/training of impairing defects. O melt Ria 'b Ml �I9Ma,esarvaC.OAeamnn_1a69fi.490; RA19AO; fl'Ks9 Othm Pe Y Vmon 1.70 AaL I RON RI DGE 11495 Zephyr Avenue Heyward, CA 94544 1-800.227-9523 IronRitlge.wm Attn: Corey Geiger, VP New Markets, IronRidge Inc. Date: December 200, 2017 Re: Slmctural Certification and Span Tables for IronRidge Flush Mount System This letter addresses the structural performance and code compliance of IronRidge's Flush Mount System. The Flush Mount System is a proprietary rooftop mounting system used to support photovoltaic (PV) modules installed in portrait or landscape orientation and set parallel to the underlying roof surface. PV modules are supported by extruded aluminum XR Rails and secured to the rails with IronRidge mounting damps. The XR Rails are side mounted to a selected roof attachment with 318" stainless steel bonding hardware and then attached directly to the roof structure or to a stanchion that is fastened to the underlying roof structure. Assembly details of a typical Flush Mount installation and Its core components are shown in Exhibit EX-0015. The IronRidge Flush Mount System is designed and certified to the structural requirements of the following reference standards for the load conditions and configurations tabulated in the attached span tables: ASCEISEI 7-10 Minimum Design Loads for Buildings and Other Structures (ASCE 7-10) e 2015 International Building Code (IBC-2015) Florida Building Code 6- Edition (2017) Building 2015 Aluminum Design Manual (ADM-2015) The tables included in this letter provide the maximum allowable spans of XR Rails in the Flush Mount System for the respective loads and configurations listed, covering wind exposure categories B, C, & D, roof zones 1, 2 & 3, and roof slopes from 0° to 450. The span tables are applicable provided that the following conditions are met: 1. Span is the distance between two adjacent roof attachment points (measured at the center of the attachment fastener) 2. The underlying roof pitch, measured between roof surface and horizontal plane, is 45o or less. 3. The mean roof height, defined as the average of the roof eave height and the roof ridge height measured from grade, does not exceed 30 feet. 4. Module length shall not exceed the listed maximum dimension provided for the respective span table and module width shall not exceed 40'. 5. All Flush Mount components shall be installed in a professional workmanlike manner per IronRidge's Flush Mount installation manual and other applicable standards for general roof construction practice. 020171roMidge, Inc. FL Flush Mount system Certificadan Letter-1 /lam IRONRIDGE 1495 Zephyr Avenue Hayward, CA 94544 1.800-227-9523 honRidge.mm The span tables provided in this letter are certified based on the structural performance of IronRidge XR Rails only with no consideration of the structural adequacy of the chosen roof attachments, PV modules, or the underlying roof supporting members. It is the responsibility of the installer or system designer to verify the structural capacity and adequacy of the aforementioned system components in regards to the applied or resultant loads of any chosen any configuration. Sincerely, Gang Xuan, PE, LEED AF Senior Structural Engineer 020171ronRifge, Inc. f2V7-i'q F Flush Mount Systen Cergficabon tatter-3 MODULEvlr The Flush Mount System may be used to ground and/or mount a PV module complying with UL 1703 only when the specific module has been evaluated for grounding and/or mounting in compliance with the included instructions. Unless otherwise noted, "xW refers to the module power rating and both black and silver frames are included in the certification. Modules with 35, 40, or 45mm frames and model identifier aaSM66yyPzz-xxx; where "aa' is CH Astrcnergy Solar or A; W is either 10 or 12; and "zf is blank or (BL). Frameless modules with model identifier CHSM6610P(DG)-p Ak toc Modules with 35 or 40mm frames and model identifier AC-=Y/aa-ZZ; where "Y" is M or P;'aa" is 125 or 156: and = is 54S, 60S or 725. Modules with 35 and 40mm frames and model identifier CSDY-x aZ; where "b" can be 1, 3 or 6; "Y" can Canadian Solar be K. P, U, V, or X; and "Z" can be M, P, AG, MS, PX, M-SD, P-AG, P-FG or P-SD, MS -AG, MS-FG, or MS -SD. Frameless modules with model identifier CSW-xxx-FG; where m" can be 3 or 6; "Y" is K, X. or P; and 'Tcan be WFG or P-FG. ET Solar Modules with 35. 40, or 50mm frames and model identifier ETN6Z booukA; where "Y" is P. L or M; "ZZ" is 60 or 72; and "AA" is WB, WW, BB, WBG, W WG, WRAC, W BCO, W WCO, W WBCO or BBAC. Modules with 35, 40, or SOmm frames and model identifier FXS-=YY--ZZ; where Sax" is the module Flex power rafing; "YY" Is BB or BC; and "ZZ' is MAAl B, MAAl W, MABI W, SAAl B. 8AAI W, SACI B, SACIW,SADIW,SBAIB,SBAIW, SBC1B,orSBC1W. GCL Modules with 35 and 40mm frames and and model identifier GCL-a6/YY xwr; where'a" can be M or P; and "YY' can be 60, 72, or 72H. GigaWatt Solar Modules with 40mm frames and model identifier GWwaW; where NY" Is either PB or MB. Hanwha Solar Modules with 40, 45. or 50mm frames and model identifier HSIaaP6-W-1-x Z; where "aa" is either 60 or 72; "YY" is PA or PB; and "Tis blank or B. Modules with 32, 35, 40, and 42mm frames and model Identifier aaYY-ZZ-wa; where "aa" can be O. or B.; "YY" can be PLUS, PRO, PEAK LINE PRO, LINE PLUS, or PEAK DUO; and ZZ" can be G3, G3.1, Hanwha G CELLS G4, G4.1, L-G2, L-G2.3, L-G3, L-G3.1, L-G3y, L-G4, L-G4.2, L-04y, LG4.2f1AA, BFR-G3, BLK-G3, BFR-G3.1, BLKG3.1, BFR-G4, BFR-G4.1, BFR G4.3, BLK-G4.1, G4/SC, G4.1/SC, G4.1/17AA, G4.1/ MAX, BFR G4.1/rAA, BFR G4.11MAX, BLK G4.1/fAA, BLK G4.1/SC, ECG4.4, G5, BLKGS, L-G5.2, or LG5.2/H. Heliene Modules with 40mm frames and model identifier YY2Z a ; where -(Y"is 36, 60, 72, or 96; and "ZZ" is M, P. or MBLK Hyundai Modules with 35, 40 and 50mm frames and model Identifier HiS.YxxxZZ; where "Y" can be M or S; and "ZZ" can be MI, MF, MG, SG, RI, RG(BF), RG(SK), TI, or TO. Itek Modules with 40 or 50mm frames and model identifier IT-wa-W; where "1'Y" is blank, HE, or SE, or SE72. Modules with 35, 40 and 45mm frames and model identifier JAyyn-bb-xxwaa; where W can be M. P. JA Solar M6 or P6; "ze can be blank, (K), (L), (R), (V), (SK), (FA), (TG), (FA)(R), (L)(BK), (L)IT% (R)(BK), (R) (TG), (V)(SK), (BK)(TG), or (L)(BK)(TG);'bb' can be 48, 60, 72, 60SOI or 72501; and "aa can be MP, SI, SC, PR, RE, 3BB, 4BB, 4BB/RE, 5BB. Modules with 40mm frames and model identifier JKMYroor72-aa; where "Y' is blank or S; 7r is P, Jinko PP, M; and "aa' is 60, 608, 60J4, 605J4, 60(Plus), 60-V, 72. or 72-V. Frameless modules with model Identifier JKMmPP-DV. Modules with 46mm frames and model identifier KYxxvZZ-AA; where "Y" is D or U; = is blank, GX, or Kyocera SX; and "AA" is LPU, LFU, UPU, UPS, UPS, UPS, LFBS, LFB2, LPB2, 3AC, 3BC, 3FC, 4AC, 4BC, 4FC, 4UC, SAC, SBC, SFC, SUC, 6BC, 6FC,8BC, 6MCA, or 6MPA. LG Modules with 35, 40, and 46mm frames and model identifier LG=YaZ-bb; where N" is A, E. N. O, S; 'a' is 1 or 2;'Z' is C, K, T, or W; and "bb" is A3, AS. B3, G3, G4, or K4. Long[ Modules with 40mm frames and model Identifier LR6-YY--w M; where "y r can be 60, 72, or 72HV. Mission Solar Modules with 40mm frames and model identifier MSEmZZaa: where "ZZ" can be MM, SE, SO or SO; and 'aa' can be 1J, 4J, 4S, 5K, ST, 6J, 6S, or 6W. -A MODULE COMPATIBILITY -7Z/Adkk Modules with 46mm frames and model identifier PV.MWxxxZZ;where "Yr is LE or JE; and"ZZ" is e'Mer HD, HD2, or. FB. IM and XS series modules with 40, 45, or 50mm frames. 7SolarModules Modules with 35mm frames and model identifier D6YxxxZZaa; where "Y" can be M or P; = can be B3A. B4A. E3A, E4A, H3A, H4A; and "aa' can be blank, (TF, ME or ME (TF). Modules with 35 or 40mm frames and model identifier VBHNx YYu;where"YY" is SA or KA; and "zz" is 01, 02, 03, 04, 06, 06B, 11. 11 B, 15, 158, 16, 168, 17, or 18. with 35, 40, or 45mm frames and model identifier PSMY--ZZIA; where -r is M or P; ZZ° is 20 or 24; and "A" is F T or U. Prism Solar Frameless modules with model identifier BiYY-=BSTC; where NY" is 48 or 60. REC Solar Modules with 30, 38 and 45mm frames and model identifier RECxxYYZZ; where "YY' is M, PE, - TP, or TP2S; and ZZ" is blank, BLK, SLV, or 72. Renesola Modules with 35. 40 or 50mm frames and model Identifier JC=Y--ZZ; where "Y" is F, M or S; and "ZZ' Is Alb, Ab-b, Abh, Abh-b, Abv, Abv-b, Bb, Bb-b, Bbh, Bbh-b, Bbv, Bbv-b, Db, or Db-b. Renogy Modules with 40 or 50mm frames and model identifier RNG-x Y; where 'Y* is D or P. SEnergy Modules with 40mm frames and model identifier SNMY-ZZ; where "Y" is M or P; and "ZZ" is 10, or 15. Seraphim Energy Group Modules with 40mm frames and model identifier SEG-6YY-Io-(rZZ; where "Ycan be MA, MB, PA, "ZZ" PB; and can be BB, W B, or W W. Seraphim USA Modules with 40 and 50mm frames and model Identifier SRP-wa-6YY; where 'yY" can be MA, MB, PA, PB, OA-XX-XX, and OB-XX-XX. Sharp Modules with 35 or 40mm frames and model identifier NUYY x ; where "W" Is SA or SC. Siffab Modules with 38mm frames and model identifier SYY-Z-=: where "YY" is SA or LA; SG or LG; and 2'Is M, P, or Solaria Modules with 40mm frames and model identifier PowerXT x Y-ZZ: where -r can be R or C; and ZZ" Is BX, BY, PX, PZ WX or WZ SolarTech Modules with 42mm frames and model identifier STU-x YY, where "YY" can be PERC or HJT. SolarWorld Sunmodule Plus, Protect, XL, Bisun, Bisun XL, may be followed by mono, poly or duo and/or black or bk; modules with 31, 33 or 46mm frames and model Identifier SW-xwt. Stion Thin film modules with 35mm frames and model Identifier STO-xxx or STO-xxxk Thin film frameless modules with model identifier STL-wa or STL-)mk Modules with 35. 40. or 50mm frames and model identifier SE-YwaZABCDE; where "Y" is B, F, H, SunEdison P.R.orZ;"Z"is0 or 4;'A'isB.C.D.E.H,1,J,K,LM,or N;"B"is B or W;"C"is A or C;"D"Is 3, 7,8, or 9; and "E"is 0, 1 or 2. Modules with 35, 38, 40. 46, or 50mm frames and model Identifiers OP-r=.AA.B-YYY-Z Suniva or MVXxxx-AA-B-YYY-Z; where "AA" is either 60 or 72; "B" is either 4 or 5; "YYY" is either 100,101,700.1 SO, or 1 Sl; and "Z' is blank or B. Modules with model identifier Ab-xwr-W and standard (G3) or InvisiMount (GS) 46mm frame; Sunpower where "A' Is either E, P or X; V can be 17. 18, 19, 20, 21, or 22; and "YY" can be blank, NE, BLK, COM, C-AC, D-AC, BLK-GAC, or BLK-D-AC. Sunpreme Frameless modules with model identifier GXB-x YY, where -rr is blank or SL Sumach Vd, Vem, Wdb, Wide, and Wd series modules with 35, 40, or 50mm frames. Modules with 35, 40 or 46mm frames and model identifierTSM-xxxyyZZ; where 9'N is PA05, PC05, PD05, PA14, PC14, PD14, PE14, or DD05; and ZZ" is blank, A. A.05, A.08, A.10, A.18, .05. Trina .08,.10,.18,.08D,.181),0.82,A.082(I1),.002;.00S,05S,08S, All), A.08(I10, A.05(I1), A.10(Ig, or A.18(I1). Frameless modules with model idenGfierTSM-mYY, and NY" is either PEGS, PEG5.07, PEG14, DEGS(II), DEG5.07(II), or DEG14(I1). Winaico Modules with 35 or 40mm frames and model identifier Wsy-xxxz6; where "y" is either P or T. and z^ is either M or P. Yingli Panda, YGE, and YGE-U series modules with 35, 40. or 50 mm frames. fir IRONRIDGE FlashFoot2 The Strongest Attachment in Solar IronRidge RashFoot2 raises the bar in solar roof protection. The unique water seal design is both elevated and encapsulated, delivering redundant layers of protection against water intrusion. In addition, the twist -on Cap perfectly aligns the rail attachment with the lag bolt to maximize mechanical strength. Twist -On Cap R FlashFoot s unklue Cap desgn ehppsulates the lag WA and loci¢ Into place with a simple Three-7ier Water Seal twist The can helps FlashFwp dekver FlashFoot2's seal architecture utilizes three superior structural strehi by aligning layers of prots0lon. An elevated platform Me rail antl lag bolt In a toneeNnc divetfs water away, while a stack of rugged bad path. components mhes the seal an entire inch. The seal is then Iuhencspuslated by the Cap. Fla MFoo@ Is the first solar aVachment to pass the TAS-100 Wmd-nrrven Rain Test. 4 , Single Socket Size A wstomdesgn lag bon albws you to install lbshFoot2 Mh the same 7AW socket she used on other Flush Mount systemmn¢onenh. Water -Shedding Design An elevated platform diwas water away from the weterseal. Installation Features 0. Alignment Markers Quickly align the flashing with chalk lines to find pilot holes. O, Rounded Corners Makes it easier to handle and insert under the roof shingles. CQ Reinforcement Ribs Help to stiffen the flashing and prevent any bending or crinkling during installation. Benefits of Concentric Loading 1:00 Traditional solar attachments have a horizontal offset between the rail and lag bolt, which introduces leverage on the lag�— bolt and decreases uplift capacity. FlashFoot2 is the only product to align the zm �_ rail and lag bolt This concentric loading _ ___ _—_ design results in a stronger attachment for 0 1 2 the system. Ral I -to -Lag offset fin) Testing & Certification Structural Certification Designed and Certified for Compliance with the International Building Code &ASCE/SEI-7. Water Seal Ratings Water Sealing Tested to UL 441 Section 27 °Rain Test* and TAS 100-95 'Wind Driven Rain Test" by Intertek. Ratings applicable for composition shingle roofs having slopes between 2:12 and 12:12. UL 2703 Conforms to UL 2703 Mechanical and Bonding Requirements. See Flush Mount Install Manual for full ratings. a 7.lran41dea, lic As rights rie ed. MvrawwJrmrid0ecom.—MI1E0-=74513 fwriore lNormatlon Version 1.0