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REVISION - GRID-TIED SOLAR POWER SYSTEM - CORRECT MATERIALS
rkw OFFICE USE ONLY: DATE FILED: REVI,Q&W&E: Permltting Department 9t: tdelt eounty j SCAgN�NED PERMIT # St. Lucie County RECEIPT 9 PLANNING & DEVELOPMENT SERVICES BUILDING & CODE REGULATION DIVISION 2300 VIRGINIA AVENUE FORT PIERCE, FL 34982.5652 (772)462.1553 APPLICATION FOR BUILDING PERMIT PROJECT INFORMATION DETAILED DESCRIPTION OF PROJECT REVISIONS: updated to reflect correct materials used in installation (rails) CONTRACTOR INFORMATION: STATE of FL REG./CERT. #: EC2e66 ST. LUCIE CO CERT. #: BUSINESS NAME: Magralogic QUALIFIERS NAME: Rick cheek ADDRESS: 895 Diplomat Dr CITY: Debary PHONE (DAYTIME): 407a20-4300 STATE: FL OWNER/BUILDER INFORMATION: NAME: 9randlein, Vince & Carol ADDRESS: 4042 Greenwood Dr. CITY: Fort Pierce PHONE (DAYTIME: 772-462-4446 STATE: FL ARCHITECT/ENGINEER INFORMATION: NAME: Michael Wojluniak ADDRESS: 1700 Patterson Ave CITY: Deland PHONE (DAYTIME): 386-985-3805 STATE: FL ZIP: 32713 FAX: 888-692-7577 IOIE" FAX: SLCCC: 9123109 FILE C®PY Revised 06130117 ZIP: 34982 ZIP: 32724 40 _ CE VIED t 9 101 E �Rt`u DePa n1n ., DIRECTORY OF PAGES PV-1 PROJECTSUMMARY PV-2 SITE PLAN PV-3 SINGLE -LINE DIAGRAM PVA SAFETYLASELS PV-5.1 ATTACHMENT PLAN 5.1 PV-52 ATTACHMENT PLAN 5.2 PV-5.3 ATTACHMENT PLAN 5.3 PV-6 I ATTACHMENT DETAILS PV-7 FIRE SAFETY PLAN ELECTRICAL CALCULATIONS MODULE DATASHEET OPTIMIZER DATASHEET _ DISCONNECT DATASHEET o INVERTER DATASHEETS w INVERTER DATASHEETS a Q MOUNTING SYSTEM DATASHEET ' MOUNTING SYSTEM ENGINEERING LETTER UL 1703 CLASS A FIRE CERTIFICATION UL 2703 GROUND AND BONDING CERTIFICATION ANCHORDATASHEET PROJECT DETAILS PROPERTYOWNER WNCE BRANDLEIN ' PROPERTYADDRESS 4042 GREENWOOD DR, FORT PIERCE, FL 34982 US APN 2421-702.0023M0.1 _ ZONING RESIDENTIAL USEANDOCCUPANCY CLASSIFICATION ONE OR TWO-FAMILY DWELLING GROUP (GROUP R3) ARI IINLITYCOMPANY FLORIDA POWER" LIGHT CO ELECTRICAL CODE 2014 NEC(NFPA 70) FIRE CODE 12015 NFPA1 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 0 N r d Dr Greenwood Dr Greenwood Dr Greenwood Dr S5f RAN FlVirf' btt Edwards Rd RmP aa�ozoiR 1 PLOT PV-1 SCALE: NTS y. Anglevillas j r Pierce 22)- QIndian River S1 College; Fort Pi• ce South' White City g'r I 1 h • Il Indian River t i. - � Estates 2 LOCALE PV-1 SCALE: NTS FILE COP Y - - SCOPE OF WORK THIS PROJECT INVOLVES THE INSTALLATION OF A PERMITTING SYSTEM DETAILS DESCRIPTION NEW GRID -INTERACTIVE PHOTOVOLTAIC SYSTEM WITH NO BATTERY STORAGE DC RATING OF SYSTEM 15,75OW AC RATING OF SYSTEM 17,60OW AC OUTPUT CURRENT 74.OA INVERTER(S) 1 X SOLAR EDGE SE7600H-US 1 X SOLAR EDGE SE100DO14-US MODULE O-CELLS O.PEAKDUO BLK))-G5315 ARRAY WIRING R STRINGS OF IO (INVQ INTERCONNECTION DETAILS POINTOFCONNECTION NEW SUPPLY SIDE AC CONNECTION PER NEC 705.12(A) U-nUTY SERVICE 120/240V1(I) INSIDE PANELBOARD EATON DG223NRB, 2-POLE, 100A, 24DVAC SITE DETAILS ASHRAE EXTREME LOW 0'C (32-F) ASHRAE2'/.HIGH 33'C(91-F) CLIMATE DATA SOURCE VERO BEACH MUNICIPALAIRPORT (KVRB) WIND SPEED 170 MPH (ASCE7-10) RISKCATEGORY 11 P-125881 SUPERIOR ENGINEERING 17M PATE115014 AVE OELANO, FL 32724 CERT OF r=HORIIATION 30105 MICHAEL W03MMM 2 W I_ IX W O EL cc g O Cn Q W d. Z m W Q m O W ?> LL Ix Z W Z_ W IX W W W J � � Q o O m v LL N 60934 ISTgI qI�F }10 R 010p SOONP -E PV-1 GENERAL NOTES EQUIPMENT LIKELY TO BE WORKED UPON WHILE 1 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 FORA COMPLETE AND OPERATIONAL PV SYSTEM. WHERE DC PV SOURCE OR DC PV OUTPUT CIRCUITS ARE RUN INSIDE THE BUILDING, THEY SHALL BE 4 CONTAINED IN METAL RACEWAYS, TYPE MCMETAL- CLAD CABLE, OR METAL ENCLOSURES FROM THE POINT OF PENETRATION INTO THE BUILDING TO THE FIRST READILY ACCESSIBLE DISCONNECTING MEANS, PER NEC69D.31(G). O 1 SITE PLAN O \,t-�2,1 SCALE I'=20' 6 (E) MAIN SERVICE PANEL (MSP), OUTDOOR (N) AC AGGREGATION PANEL (PAN1), OUTDOOR w1RWtl:litl:71P1 •T 1- -1 (ARMRAY.IPOSED IC 5.12 (23') SLOPED R00 P 10TOVOLFV MODULES (BLACK FRAME. BLACK BACKSHEET), 0-AZIMUTH LOCATED WI THIN 110 FLOCKABLET LABELED OFUTILITYME'ER (SW�T OUTDOOR CRUROUTDOOR. SMON SSHALL UN NLF C CONDUIT OVER ROOF. NO CLOSER THAN O.S ABOVE ROOF SURFACE OCIRCUIT CONDUCTORS SHALL BE RUN IN LFNC CONDUIT OVER ROOF NO CLOSER THAN QS ABOW ROOF SURFACE O R11INVERTER p1), OUTDOOR p11 PROPOSED ROOF -MOUNTED PHOTOVOLTAIC Og ARRAY. 5:12 (23' SLOPED ROOF, 21 PV MODULES ,(BLACK FRAME,LACK BACKSHEEI), 91- AZIMUTH (N) PROPOSED ROOF -MOUNTED PHOTOVOLTAIC 10 ARRAY. 5:12(23' SLOPED ROOF, 8 PV MODULES (BLACK FRAME, LACK BACKSHEET), 270-AZIMUTH 17 (E) UTILITY METER OUTDOOR P-125881 SUPERIOR ENGINEERING_ _ 1700 PATERSO! AVE DELAND, FL 32726 CERT OF AMIMORIZATION 30105 MICHAEL WO3TNlIAK 2 W H W CV U) Z rn Q' W p M (n O LL a LuZLu D z LLL.( = Lu W W 0 o CD a Z¢a,o0 o W � LL � m 0 Q' ' No 6�41 e1(n O R aC9 PV-2 w M000UE MODULES OPn3DZERwuEArouaa¢ PmsA Prc Isc PeP vac wP reuP.caaP.wwc FusERArxD RII+L so ocLus a}FIJIwD& 315 9tm ]RM 984T vIu ICav 3]6V a.flrvrc(a]Owcl Xrp 315r AA AO I I "w t 2 QQ I low low AA WN 9 AA �w1I n ®A m IItD,000W I I -nT— I/ VT.6DDW PANT -WSYSTENDISOONNECT AA. URLIIYME�1�� YSTEMSUMMARY Nv.f Nci 9rPN31 91PBYJ] S1RN41 9MH'] Wa almv 41xm S.Ism 41ww ra .aerW as6m xvmv zsmv {WIW]CU1wBlL 1S\ 1ST 1S1 ISi SENE9 Is 16 10 10 ICSYSTEW waV0.TNF ICT/ IZV I2A 1NGC11�1R IM 1fAt r9R- rJRe]CmvN13t NT p..W POY,£A Wlfllf . - IsrS]w TPfCPOKa 14010W ]a+c w ru lT urrcPov]mwlwr.. XE rFD M MIU01Rlf U3WW INVERTERS a uL-.m N]B]} WM9raPlcnrm n24CT -INx aAarTw]APu I wA9 EDGroE5EmIMDW¢U DaWgro119E G I w.0% jttjljsit,aED�ww"sj]Iw ISA T6ww I xiw le6v N.Dx JINrAM POWER OPTINUZERS us. Im. uao¢ IUTmvwrFwm unaalrlwrclmsm]T IMSBNRISa uwvocvaTACE wt3rart®Ertnmz:v PoI[E [0 90UQEW.EVN .ANY. 15. 11 ¢L KY- 140% 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). 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F9 P¢iNEC SECLIp:e9]III1N ILUDCL'OLTOLEOFNA.TYR Br110: ONd MATTMVnEG4BP Ma ® r¢FFFAlU4:.r1Em mI TACEOFnEYaDIIEATWCJS F¢:ra TOMOAV FC-3 AIINMIQ N-alw 8 wsrste�DmcoiazcrswuBEAVTSISIElo1FEaIPDEinE Drscow¢crTlwTm OGCEes@IEA4DLaM$Eern1E11N1Y.1NED19caHECrsIWLBELCGI¢I vrnllw t s n w urLSlr uETa PONr-0FOON n0NISWIE9U YWEDFSERY%EDIXOWECr.N30E ®PNL3AONb1E 05'AEU9NOUA15®nPIANNs.IEWJB44s TwruiE9Ur/ffiE FCRDd Wc()RI1sDICOnEALCGllTiFFPDVEOMETNOSM HV9A' NeaMRYesELNMMLre41 K CONDUCTOR AND CONOUITSCHEDULE W]EIECTRICAL CALCULATIONS _ OIOJCfIp 4PdI1.uBY o.am wnw M Ine.ma lu owa Yuw�a oeu�m ma Yv alvw .ur.a � fMv iWTM P.wM IIEy NP. .Y i1Y. WiX6 ] CW 1I . XX .0, U ,m 1. Sti RC SM UA I 1 MCiMxi O)T.. XXOAK'9 u W R1m PC .Gnmi,i. 1 ylw2 CYalp U W 5]Y. OY RC 44H ] WNeAE MECwE yryK'q U fm 1. wlim.i MM emMuxc MolwYi ¢R K4 CI vC W 1 MGMm,i 1 MGl,M12 Il:�y'. C%Itry M W MCircex'L fCYIiNC ] L%(RQ U iY 4L R•C lY.l MCDn'vi Mu.] 4M(Yq U tY qi1 ]551.W 41M SINGLE -LINE DIAGRAM PV-3 SCALE: NTS I MODULE LUGS OR RACKING INTEGRATED NDING CLAMPS AS ALLOWED BY LOCALJURISDICTION THEIR EXPOSED METAL PARTS SHALL BE GROUNDED I UL-ISTED LAY -IN LUGS. LLER SHALL CONFIRM THAT MOUNTING SYSTEM HAS EVALUATED FOR COMPLIANCE WITH UL 2703 1NDING AND BONDING' WHEN USED WITH PROPOSED )DULE. ROUNDING SYSTEM COMPONENTS SHALL BE LISTED HEIR PURPOSE EXISTING MAIN SERVICE PANEL DOES NOT HAVE A TABLE GROUNDING ELECTRODE, IT IS THE RACTOR'S RESPONSISIUTY TO INSTALL A EMENTAL GROUNDING ELECTRODE. . 'STEM GROUNDING ELECTRODE CONDUCTOR (GEC) - BE A MINIMUM SIZE N8AWG WHEN INSULATED, N6AW�i LE WIRE. s WENT GROUNDING CONDUCTORS SHALL BE SIZEDaZ RIDING TO NEC ARTICLE 69OA5, AND BE A MINIMUMV VG WHEN NOT EXPOSED TO DAMAGE, AND #6AWG: 'A - BE USED WHEN EXPOSED TO DAMAGE NDING AND BONDING CONDUCTORS, IF INSULATE -( . BE COLOR CODED GREEN, OR MARKED GREEN 1 w n P-125881 1700 PATERSON AVE DELAND, FL 32724 CERT OF AUTHORIZATION 30105 MICHAEL HDITUNIM TR W co U p rn w Lu 0 p OEn J O u— d' Z U Z Uj Q' W W a:W O (1- Q U in d- a W p , u- � m W0j No P.. . C? NA�-Ero``� 11111111111\\\ SINGLE -LINE DIAGRAM Dx LABELING AND WARNING SIGNS LOCATION; LIBEL DC RACEWAYS - #4 JUNCTION BOX #1 INVERTER #2;3 ACDISOONNECT #6 MAIN SERVICE PANEL #7,8,9,10 . #4 M OPEN PV PANEL ARRAY #2 WARNING: PHOTOVOLTAIC POWER SOURCE PHOTOVOLTAIC AC DISCONNECT RATED AC OUTPUT CURRENT. NOMINAL OPERATING AC VOLTAGE JUNCTION BOX #1 INVERTER Fl # 2.3 #4 #3 AC DISCONNECT if requiied #6 MAIN SERVICE PANEL #S #7,8,9,10' =—:J ! CjC • 0 ' •-• • lf.TEA.f7.i�uC.t�1C(J"�1!!�J[1.Safx' ,�,, '�•`I�.�j1r(,=y�yy'}� LI�T1PirJj!�, : a4_id' • ' l�G.'U(�UrLI�AJU—fir. ICJ.=A�.1A31� C�J IIC�ULL'0.0 O _ _ D ALL SIGNAGE REQUIRED BY 2014 NEC AND 2015 NFPA 1 WILL BE INSTALLED AS REQUIRED P-125881 17M PATERSON AVE DELMD, FL 327M CERT OF AO RMTION Mies NICNAEL W03MM r- W F— W CV N Z m Ci W p c W 0 0 0 _I O w a z LLi z Lu W M 0 .I CD °- Z CAI W v 0 H mLL `IP TATE OF A •_ S o.. _ c PV-4 P-125881 O SUPERIOR ENGINEERING 17M PATERSON AVE DELAND• FL 32724 CENT OF AUTHORIZATION RIDGE 3O40G MICHAEL WO3MNIM P.E. 0 60934 w F- Lu Z p En w a' W W p cv 0 O J � Tn O LL. z w n LLI d' Z_ g WLu W o a Zq C-4 SAVE w p O f� ` . fI ,� OJTU/y. WIND ZONEI WINDZONEII WINDZONE111 ,,1 NSE' ' .` DISTANCE.0).THEI5E0 HEIGHT SMALLER F THEROOF LEAST HORIZONTAL DIMENSION OR3FEET (AL•Sb� • L DIMENSION ORAND TO 0%OIED a CORNERS, RCHEVERIS THEPLHENIEANROF KSMEAL MANSARDS,A DRIDGESOF FACES. 70). THESESETBACKS ARE APPLIED TO THE BUILDING FOOTPRWTAND PROJECTED TO THEPIANESOF ROOF CORNERS,RAKES,HIPS,EAVES, MANSARDS, AND RIDGES OF ROOF FACES. "tS'� TO THDWG'SLEASTHOPRINTA 6pg _ NO a= MAX(MIN(OA -MEAN ROOF HEIGHT, 0.1-LEAST HORIZONTAL DIMENSION). 0.04 • LEAST HORIZONTAL DIMENSION, 3 FT) • 4 e 3.OFT= MAX(MW(0.4'13.3 FT, 0.1' 30.0 FT), 0.04' 30.0 FT, 3 FT) ' g P dIZ- 1 ATTACHMENT PLAN ORTHOGONALPROJEC� �b ; •�'.�.•'•lG�� 5. SCALE: 3/16'=1' �� 111 It ATTACHMENT PLAN DOG ID: 125881-156882-1 GATE 1213/19 CREATOR: D.K. REVIEWER: REVISIONS PV-5.2 ROOF PROPERTIES ROOF MATERIAL TRAPEZOIDAL ME7AL(11-131NJ SLOPE 5N2(22fi') MEAN ROOF HEIGHT 13.3FT DECK SHEATHING 15132'OSB CONSTRUCTION TRUSSES (2X4 TOP -CHORD), 241N OC MODULE MECHANICAL PROPERTIES MODEL G-CELLS G.PEAK DUO BLK-G5315 DIMENSIONS (AREA) 66.31N X39.41N X1.31N (18.150 Ff) WEIGHT 41,2LB MOUNTING SYSTEM PROPERTIES RAILMODEL IRONRIDGE%R100 ANCHOR MODEL S51 SOlARF00T, 0.751N AIR GAP FASTENING METHOD EMBEDMENT IN ROOF DECKING WITH 4 FASTENERS MAX A DEAD LOAD CALCULATIONS LOAD ON LBS TOTAL LBS MODULES B 41.2 329.8 OPTIMIZERS 8 0.6 5.0 LINEAR FEET OF RAIL 53 FT 0.7 382 ANCHORS 12 0.1 1.5 NBC. HARDWARE 29 29 TOTALARRAY WEIGHT 375.5 LBS AREA NAME Ott SOFT TOTAL SOFT MODULES 8 18.1 144.8 POINT LOAD (375.5 LBS 112ATfACHMEMS) 31.3 LBS DIST. LOAD (375.S185/144.8 SOF"f) 259 PSF NOTES TRUSS LOCATIONS AREAPPROXIMATE ACTUAL 1 LOCATIONS MAY DIFFERAND CONTRACTOR MAY NEED TO ADJUST MOUNT LOCATIONS. IN NO CASE SHALL THE MOUNT SPACING IXCEED'MAX MOUNT SPACING' ROOF PROPERTIES ROOF MATERIAL TRAPEZOIDAL METAL(11-131N) SLOPE 5/12 (22.6') MEAN ROOF HEIGHT 15.3FT DECKSHEATHING 15I37 OSB CONSTRUCTION TRUSSES (2X4 TOP -CHORD), 241N GC MODULE MECHANICAL PROPERTIES MODEL QLFJIS O.PEAK DUO BLK-G5315 DIMENSIONS (AREA) 66.3IN X 39AIN X 1.31N (18.1 SO FTJ WEIGHT 141.2LB MOUNTING SYSTEM PROPERTIES RAIL MODEL IRONMDGEXR100 ANCHOR MODEL S-51 SOIARFOOT, 0.751N AIR GAP FASTENING METHOD EMBEDMENT IN ROOF DECKING WITH 4 FASTENERS MAX ALLOW. RAILSPAN 9601N ONESI AND 2) 48.01N ONE 3) MAX MOUNT SPACING 72.01N (ZONES I AND 2) 48.0IN (ZONE 3) MAX ALLOW. 38AIN(ZONES I AND 2) CANTILEVER I 19.21N(ZONE 3) GROUNDINGAND I INTEGRAL GROUNDING CERTIFIED BONDING I TO UL 2703 REQUIREMENTS DEAD LOAD CALCULATIONS LOAD CITY LOS TOTALLSS MODULES 21 41.2 865.8 OPTIMIZERS 21 0.6 13.2 UNEARFEETOFRAIL 140 FT 0.7 95.2 ANCHORS 30 0.1 3.9 MISC. HARDWARE 7.6 7.6 TOTALARRAYWEIGHT 985.6 LBS AREA NAME QTY SQFT TOTALSQFT MODULES 21 18.1 380.1 POINT LOAD (985.6 LBS 130 ATTACHMENTS) 319 LBS DIST. LOAD (985.6 LBS 1380.1 SOFT) 259 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 P�w-""Mmiml li liEmEmmm EAVE P-125881 SUPERIOR ENGINEERING 1700 PATEUM AVE BELAND, FL 32724 CERT OF AUTHORIZATION 30105 MICHAEL WO3TUNIAK P.E. # 6 934 c C W F W CN Tn Z Q rn WLu Q M 0 O E-L ZW 2' Z_ W W g W w W O o(Da Q zr O W_ 8 "I LLL_ WIND ZONE I WIND ZONE H WIND ZONE III rA DISTANCE v 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 LEASTHORIZONTAL DR&NSION OR 3 FEET(ACSE 7. 10). THESE SETBACKSARE APPLIED TO THE BUILDING FOOTPRNTAND PROJECTED TO THE PLANES OF ROOF CORNERS RAKES, HIPS, EAVES, MANSARD%AND RIDGES OF ROOF FACES. a= MAX(MIN(O.4 -MEAN ROOF HEIGHT, 0.1-LEAST HORIZONTAL DIMENSION), 0.04-LEAST HORIZONTAL DIMENSION, 3 FT) 3.O FT= MAX(MN(OA' 15.3 FT. 0.1' 30.0 FT), 0.04' 30.D FT, 3 FT) 1 ATTACHMENT PLAN ORTHOGONAL PROJECTION 5.3 SCALE: 1/8' =1' PV-5.3 LL, .Lu (::) RACKING ELEVATION (TRANSVERSE VIEW) PV-6 SCALE: NTS IRONRIDGE UNIVERSAL FASTENING OBJECT WITH STOPPER SLEEVE IRONRIDGE END CAP �J IRONRIOGE UNIVERSAL J FASTENING OBJECT TRAPEZOIDAL .__ ____,`.__.------------- _________ METAL ROOFING '.I 7 IRONRIDGE __- ,I�. XR100RAIL jjr �-- ROOF FRAMING SPACING —� ATTACHMENTSPAN %3 RACKING ELEVATION (LONGITUDINAL VIEW) \ty:V SCALE: NTS FRAMING MOUNTING SYSTEM NOTES FLASHING SHALL BE APPLIED IN ACCORDANCE WITH MANUFACTURERS' INSTRUCTIONS. IFTHERE IS ANY CONFLICT BETWEEN WHAT IS DEPICTED HEREAND INSTRUCTIONS 2 PROVIDED BYA MANUFACTURER, THE MANUFACTURER'S INSTRUCTIONS SHALL SUPERCEDE. IRONRIDGE UNIVERSAL FASTENINGOBJECT SSI SOLARF00T TRAPEZOIDAL METALROOF XR100 RAIL UNDERLAYMENT SELF -DRILLING SCREWS --' (4 REO'D) %C--� ATTACHMENT DETAIL (TRANSVERSE VIEW) PV-6 SCALE: NTS IRONRIDGE XR100RAIL L-FOOT /-- ` -\ TRAPEZOIDAL-' SS!SO METAL ROOFING �� - - ROOF DECKING �• � ROOF UNOERLAVM ROOFFRAMING-", SELF -DRILLING METAL -TO -WOOD SCREWS %D"� ATTACHMENT DETAIL (LONGITUDINAL VIEW) Ptv SCALE: NTS P-125881 SUPERIOR ENGINEERING 1700 PATERSON AVE DELANO, FL 33724 CENT OF AUTHORIZATION 30105 MICHAEL W03MNIU P.E. R W934 c G W W00 CV Tn Z 0 m Q' W 0 M 3: U5 O -L-LJ 11 W' Z W Q' Z W W Lu W 0 pct) VT �- � 0 0 W a LL � CO 0 111111EE fill' OJ q� l NLLj= �L OF :W= • Z • _ n'�� Q rn C PV-6 1- FIRE SAFETY PLAN PV-7 SCALEI'=20- GENERALNOTES EXTERIOR -MOUNTED DC CONDUITS, WIRING SYSTEMS, AND RACEWAYS FOR PHOTOVOLTAIC CIRCUITS SHALL BE LOCATED AS CLOSE AS POSSIBLE TO THE RIDGE, 1 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 11.12224.1) ROOF ACCESS POINTS SHALL BE DEFINED AS AREAS WHERE FIRE DEPARTMENT LADDERS ARE NOT PLACED 2 OVER OPENINGS NDOWS OR DOORS), ARE LOCATED ATSTRONGPOI S OF BUILDING CONSTRUCTION, AND ARE IN LOCATIONS WHERE THEY WILL NOT CONFLICT WITH OVERHEAD OBSTRUCTIONS UREE LIMBS, WIRES, OR SIGNS). (NFPA 111.12221.3) PHOTOVOLTAIC MODULES SHALL BE LOCATED IN A 3 MANNER THAT PROVIDES TWO 3 FTWIDEACCESS PATHWAYS FROM THE EAVE TO THE RIDGE ON EACH ROOF SLOPE WHERE THE MODULES ARE LOCATED. (NFPAI 11.102221.2) PHOTOVOLTAIC MODULES SHALL BE LOCATED NO CLOSER THAN 1.172 FEET TO HIP OR VALLEY IF MODULES ARE TO BE PLACED ON BOTH SIDES OF THE 4 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 1 11.10.2221.3) 5 PHOTOVOLTAIC MODULES SHALL BE LOCATED NO LESS THAN 3 FT BELOW THE RIDGE (NFPA 111.102222) 0 ROOFACCESSPOINT O3.0FT. WIDE FIRE ACCESS PATHWAY, PER NFPAI 11.102221.2 O1.5 FT. WIDE FIRE ACCESS PATHWAY, PER NFPA 1 11.10.2221.3 AND NFPA 111.102221.2 PV MODULES INSTALLED ON ROOF WITH IRONRIDGE ROOF MOUNTING SYSTEM. THE MOUNTING SYSTEM IS Oi UL 1703 CLASS A FIRE RATED ON A 5N2 SLOPED ROOF WHEN INSTALLED WITH TYPE 1 OR 2 MODULES. THE Q-CELLS CREAK DUO BLK-G5 3151S TYPE 1. O3.0Fr. WIDE SMOK6VENTILATION SETBACK PER NFPA 111.10.2222 O&0 FT. WIDE FIRE ACCESS PATHWAY, PER NFPA I 11.10.21.21.3 AND NFPA711.10.2221.2 T CABLES, WHEN RUN BETWEEN ARRAYS, SHALL BE ENCLOSED IN CONDUIT. P-125881 2700 PATERSON AVE DELAND, FL 32724 CERT OF AUTNORIZATION 30185 MICHAEL W MNIAK m W F- Z ED 0 Ch W p Fn O LL CL Z W W g Z W CC W Lu W 0 C in 0 W F., m LL Q' ID `T�1111111// �0``JT U Nlq .10 i� E JP•`3d •' LLI! •'•�a�L y�P�E o � z PLO PV-7 Conductor, Conduit, and OCPD Sizing Validation 1. Alladmum System Vob p Test 1.1. SWUEdlp bnrbrw130 "" QPEWDW BLK-05315 (31510 Amq Ploputlee May Type DbNbumd WK System lmeder Arrey System Desmlp5on Soler Ed eMvmlerw/4000eos QPEAK �UO BIxG331$ 31 Modute O.PEAK DUO B1.(G531531 Nighestnomberirctbs Msoles baPVSouce Cut iwR 1 Des Low TB 0'0 Refute Voc 40.09V Tem .Cw dent Voc 4.113V.0 NECCO&Cdcuu mlt A Maximum Voltage of PV Source Cirait 43.11V see 69d7(C/ NEC 890.T(C) ragwea Mat R one PV module reawNc9ra proVdss a tewaahre weMdeN of opendxvt.lager, R nw st be used to calaW des ".eye maximum "mwMn.. nNckdes. Wamafien note recommending one use or the ASHW Extreme AnnuW Meat Mnmum Degn Dry Bus TerrWaued none desgn bw tempermum. Uxrg Mess values, the models Voc (4029v W onaease to W lV et Ms deign err temgaabre (D-C). (0'D-25•C) x4.113VC.4D29V=4.1.11V Themodub V. don. design bx tempembee 1,43.11V. 43.11Vx 1=43.11V B. Maximum Voltage of DC-D Converter 400V Source Circuit see50. 7(CJ Ar PV dralls have ..Merge Mat does not exceed 60011. The system§ DC C orter Sown Chame ere fed by Solar Edge P310 do . wmalx ep9miz.0n dnbs. Each d.0re 1, wnnected to a snob O.PEAK DUO BUIG5315(315V) PV modulo The wlne oflNs mwR Is mgubted by one In via of a wi Wan 400V. NECCodsVidMon Tale PV Source CircVx maximum Voc must not exceed PASS 600V 4J.11V<600V=true DGDC Convedersource ClrcuilwRage must not PASS exceed 600V 400V<60pV=We 12. Soler E41p bvwtww= Q"b QPEIIKDW 131AM315 (315W)s ArnyhopwUn May Type Dis9onutaA M1YPT System onwder M System Desmipaon Sola Edgelnrwerw2000e0a O.PEAK DUO BUIG631531 s Module QPPAI( DUD BLKG 31531 ina"SourescircuR bale sedea Cvwa 1 NskmLwrw De � LOWTem 0•c Nodule Voc 4029V Te .Ccef d.etvw 4.113V4 NBLCoibctlaWme A Maximum Voltage of PV Source Cirait 43.11V see 6907(C/ NEC 6911.7(C)mgeh.MNrMe Wenodute manufacturer pravidesa bmpaasve waRMeN otependreuRweage, dmustbe u•aa e cfornad tlu PVaromama hmen system theAS RAE VV rr IMamadonsolees4nmyBngoneuseotone ASHPAEEgne Annual Nemi Minimum Desgn pY Bue TempaaNe' n tlu design psa tempaafue. U W g Me es vaNea, Me module Va (40.MV( wl Naease e /3.11V atone assign bwfempemOre (0•C(. (0•C-25•C)x4.113VAJ.QM=43.11V Themodule VocmgmtlesgnbybmWa Is43.11V. allvxl=43.11V B. Maximum Voltage of DC -DC Converter 400V Source Circuit ave M..7(C) N PV draib bins a .lags Mat tlon rot exceed BOOV. TNs systamS oC4)C CamMer Sarin C'saNs ere toe by Sala Edge P3M tloNdc wmata aptiMrahon dsukes Each devke te wmieded e a sbgte QPPAI(DDD BLKGS 315 (J f 5rig PV mAtlWe. Tim wDage of ads ctrwit is m9uNtea by tlw Invader N a wnsbnt 400V. NBCCodsVddiBm%Tssb PV Source C'ucudmaximum Voc must not exceed I PASS BDOV 43.11V<600V=true D eed Conveder Source C'uwitwxege must not PASS exc6OnV 400V<600V=hue I Whe, Condult, and OCPO Code Compliance Validallon 24. #1: BC C6wkCtwlt Soda Mft Du*d to Tmmelon Boa CIrrn isseft Pnp"" Condudu 1OAWGPVVyra,GopW E ent Gou,,CoM or EGC 6AWGBae GCPD s WA Raw ceow Free Ak LawnNTerMntl Tempests¢ Rating 75'C kladmien Wee Te Ebro 65'C Paw Sousa Desalpbon She, of 15 Solar No. P32o power QPEAI(UOBII(L53 5(315N4 wmodule Cement 15A Va a 40oV M1bdu'Senes Fuse Rear 20A Total Numbero(Salas ShN s 12 NEC Code cdmNaom A Continuous Current 15A see 69aB/AIydJ The mrNnmua arrest o/ W s reties a4hg of poxes opBOdaas b equal to Ne rdetl m az'uwm oumut amen of Ne opfim'vm. Rated Max. Guptd Carentofcp6mherb 15A B. Ampacily of Conductor 55A sane A*310. 1s/B//17/ A petty (30'C)far amppa mnducb "M-C Nsobfim into ak Is 55A. C. Derated Ampacity of Conductor 41.8A see Ted/¢J10.13(B//T/(e% Ted¢ J10. 13/8/(JJ(gl, esONtiW 100 The bmpaaere factor M SO'C Insulation at 55'C Is 0.7a. The fi0 facto la mndugas b hw eP la 1. The arnpawy tlaatetl fa ConNtlons of Use b Ne preducl sl Ne amduchrm by er(l), (SSA)muapled by Neteiryxahre faslor (0.76)ark Ne fiOfactar(11 55A X 0.76X 1=41.BA D. Mal Current for Terminal Temp. Rating 35A sae /to 14/C/ The bweN Wnpas6se imkfatldaamduGa alany tamNafian Is ]5'C. Us'ug Ne meAodspeafied N 1f0.f4(C), Ne maiumim anren[pemNted b ensure Nat Ne deNw termbNfanpaaNa daea cat ezwetl b]5'C rating Ne emantreferenwdbtlro ]5'C wbvm NTable 3f0.15(BXI8),Bx18), WJdi b350. E. Minimum Required EGC Size 12 AWG see Tell TSO.1TTaN690.O5/ql The¢molest EGCe¢eakmdb12AWGfar OCPD,d g20A accom ing to TableT50.122 Pmadagb 6,eooA),niscatnewssaybor leg dr N, ofNe PV ana d EGCvEienmMudaaare ovaeud tovolage trap mmldaafioms NECCO&VaOdztlnnTwb System must maelaquhements for nothaNng PASS sederfuse(69OSttA)) Derated Ampacity must be greater than or equal to PASS the Continuous Current (Article 1DO) 41.ah>=1M=hue Conductor Ampacity, must be stleast 125%ol PASS Continuous Current (215.2(A)(1)) 55A> 15Ax 125=he Max csmnt for terminal must be at least 125%of PASS the Continuous Current (110.14(Cp 35A>=15AX125 =hue EGC must meet code requirements for minunum PASS size (Table 250.122) B AWG>=12 AWG=he EGC must meet code requirements for physical PASS protection (69OA6) 6AWG>=6AWG=hue 22 i2 DC Soule CNwlt TlamSlon Box to Imrarbr ClrcueBaWon Propel" COMudor BAWGTN 2,0o ' menttrouM Conduga GC 12AWGTN 2 C Wrote) NIA Raww ,Cobb 0.7SSa IFNC LmseNTermmal Te�ryasbaa Itatln We Masiman W. Temperature 55'C Power Source Deealptin SMng of 155ala Edge Pass power .inters, eachwimMedts. QPEAK DUO 6vI 315 (315W) "module c'mot 15A Vo a 400Y MOWleSedes Fuse 20A Total Number of Series Shi a 2 NECCodoCalalllww A Continuous Current 15A sea 690.B/AI/3/ The wnEnuous cunrent of Nls enbs a" d power opfim¢em is equal to Neratedmahre oUVAasrentof Neopfimim. R 16tae.outfutcurrantofap5mizeris1SA B. Ampacity of Conductor 55A see redo 319 f3(B/pB/ Ampatlty(30'C)foraappa aswuM WN90'C bsula5m in asndwUsabbls55A C. Derated Ampacity of Conductor 33.44A soar T.W 31a 14d//2/7w/, Ted¢J10.13/B//3/(s/ e4N4hb fee The Nmpaabro txtar M g0'C Nsubfion at 55'C le 0.7& Tho 611ador far a wMwUmbb Nat has 4 smaa Is 0.8. Thar ampady sealed fa COM�Sona of Use is Ne podud al Ne wMuda ampatly (SSp) muNpled by Ne tempaa6se tabor (0.76) and by Ne fi0 /ata(Ob). SSA X 0.7E X 0.8=33.44A D. Max Current for Terminal Temp. Rating 55A m f10. IO/C/ The bwesttemperatre EW WInto aeducbf st any tammation Is 9D'C. Uslrg No ireNmd specified In 110.14(c), to madesen as entpormitted to arum that Ore dWca amen al temperature does not exceed he 90'0 rating xewd be to amount refaenwd In to 90'0 calmer In Table 31D.15(BN78), vvIkh Is 6% E. Minimum Required EGC S¢e 12 AWG se a Ted¢TSa 122 ebspaOS(A) The smaUcd EGC alas atlases! Is 12 AM lr OCPD aline, NA Accrd"b Table (A).122 Aa>rtllEGb 690.45(A), tnrs;asle vssaybor fag as can of die PV era/a EGC xfien condustars are avnNred la college Aop fAR4daa50nA F. Minimum Recommended Conduit Size 0.75' die. see JL'a 11 The tsW aeaofalmeMUSas1a0.173N'. N4Namax'umvn fi0ram of 0.4, Ne reaemnendetl mntrul Senate is 0.75. Oeml em Size r area TodArea 4 CaduMr 6A�W iHWN4 0.0366n' 0.14W 2 112ANVG 1iHWN4 0.0133n 0.0266n' 6 o.1T3ir2 0.173W/OA=DA3251n'(Cmespo Mbadiamebro10.751 NECcad9vAUddw Trb System must meet requirements for nelhavwg PASS series fuse (690.9(A)) Derated Ampacity must be greater than or equal to PASS the Continuous Current (Article 100) 33.44A>=15A=he ConductorAmpadty must be at least 125%of PASS Continuous Curent(215.2(A)(1)) SSA >15Ax 125=hue Mae current for terminal most be at least 125%of PASS the Continuous Current (I10.14(C)) SSA>=i5A X 125 =hue EGC most meet case requirements (OrmNimum PASS size (Table 250.122) 12 AWG>=12AWG=he CoAduit must meet code recommendation for PASS minimum size (300.17) 0.75n.>=035a=he 2313: InwwW0dpk Imr@i%rtoAC A;F9;Won Band OWNSedloo PFDPK6W CMduder BAWGTH Copper E ent QouM CaMuder GC 10AWGTFA•M2 C OCPO s WA lrow,,gable 1•dia IFNC LovastTeMNal Temperature R" 75•C Mdd.Wh Tem ature 33•C Poem Sorer Deeo ion Sala Edge SEt0000rW610000W snorter Current 4M Vo B 240V lmorterMaxOCPDratrm jasuA =CaM Cakalrtlma A Continuous Current 42A seeA to Epipmentmmdmum n"oWumomemb I X 30A=42A B. Ampacity of Conductor 75A see TeNa,c:,5(Bl/16/ Ampa*(30•C)forawpperwrduda 00•Cbsda9m In owduabffileb75A C.Dented Ampadty of Conductor 57.6A see leeklfa. 15(81121(al ra NO.. 15/BJJ3/(U. a/dArteW 1LV The tampaahre ladenfa90•C Ns la6an at33•C 1.0.9a The l I r$1R fV 8 w11dYMtabb tlldt hd9 6 N4e9 b 0.a The anpmlydem(7firC tMpE say Use W,pepmdfd (0 conductsmter(OBp5A)miaipled by Ne bmpemNe!abler(0.88)aid by Ne fillada (0.8). 75AXO.WXO.B=57.6A D. Max Current for Terminal Temp. Rating 65A see Ifs UIP The bxesttenµarahee pmala9dacoMuda etmytaminafian is 75•C. Usug Nem&odspe WN110.WC),themadmumonentpanitled r g thatthd t ref temperaheedoescotaxcoed Bs75'C rating (B)(1 ), theamuntreferenced Nth 75'C colmm NTobb 3fo.15(B)(18), vfilch bBSA E. Minimum Allowed 0CPD Rating 52A see2ial _ - NEC 890.0(B)requ'vea Nat Ne OCPO beraetl fan less Nan 125 Bone, th CO�wwa Curren! of Ne rsoV R 61AX 125=525Amnded blamer 52A F. Minimum Required EGC Sae 10 AWG .me Ask 2FaM Thesnabst EGCstrrea rs10AWGhr OCPDmaigWA according b Teble250.122. G. Minimum Recommended Conduit Sae 1' dia. ee]M.17 Theb lareaofa0wMu lso2w.WMamadmmn Blr#aofO.4, Uemmmmende4mMuddlamatsibl. ON De,ri un Sue T. Pena TddAma 2 Dmdumr 8AWG TMV!}2 0.0366 • 0.al3 2 Neutd BAWL TN 0.0366N 0.0732iN 2 FRNipmsrdC 10 AWG T;-2 0.o211b• 0.0422W 2 CaMclar 6AWG 7Nyrtia Morro B!10 B 029N 0.29eP / 0.4 = O.TLSin• (CoirespoMing to e dianater ol1 � KWCodeVdlddon Tnb OCPD rating must be at least 125%olContinuous PASS Currenl(24DA) 4M,=41AX 125=We Derated ampacily mustmceed OCPD rating, or PASS rating of next smaller OCPD (240.4(B) and 240.4) 57.6A>=5OA (N.A roaler OCPD RaIeg) =bue Derated Ampacity must be greater than or equalW PASS the Continuous Current (Article 100) 57.60=42A=tire ConarnorAmpadty must be at least 125%of PASS Continuous Current(215.2(A)(1)) 75A,Mxl.25=bue Max current for terminal must be at least 125%of PASS the Continuous Current (110.14(C)) BSA,=42AXlZ =bus r EGC must meet code requirements for mudmum PASS sae (Table 250.122) 10 AWG,=10 AWG=sm. Conduit must meet case recommendationfar PASS minimum size (300.q In. ,=1N.=me, 2l.a4: DC CIWA CDC& WN Oft 0dpdt0TMm;K m Box Candudo 10AWGPVWn Ca E .mG,.MCondoIN 6AWGBas,C0mxr OCPO a WA Raze Fahb Free Air Loved TeMbal Temperahra Rears 76-C Madnun Wee Tem ahae 55•C Poaa Souse Descipts. StIngollOSola Edge P=powar aptNYlHe,ea]I WMM{Bd tea QPFAI! OVO BIl(G5315 (315" PVmoMb Current 5A Vo 100V Module We, Wee Rating NA T.WlIumber.fSemeaStrks 12 NECCodsWculadma A Continuous Current 15A an d]a, () The continuous current of Ns series sbing of poem optimaers Is equal b the taled maximum ouW cu enIofNe op6nuser. Rated Mmi. OuW Curerd of opbdzer Is 15A B. Ampacity of Conductor 55A see issWJfa f5(e/y17/ Ampadty(30•C) for a copper conduder viN W-C Insubtim NOeeae N55A C. Dented Ampacity of Conductor 41.SA see is e/e]10. fs/B/(2J(gl, TrOH7fo 15(BJP/(al. eafAOr/e fltl The tmperat re factor for 90•0 Nsuldo 4550C Is 0.76. The fill fads for coodudos in bee w is 1. The mnp.* derated W Conbtiom of Use is are product of the eandudar anpauty (554) muripled by ere temperature fads (0.76) aitl by Ne®lmtou(1). 55A X 0.76 X I z 41.8A D. Malt Current far Terminal Temp. Rating 35A see ffafNcl The beerAtemperature Ina for airs conductor at am termination1. 75•0. Using the awmad spedfied N 110.WC), the maxlnam-amentpemided to en. that the deV. terminal temperature dins cot exosed as 75•C rating wuM be, the amount referenced N to 75•C column In Table 310.151B$16),vhbhb3 E. Minimum Required EGC Sae 12 AWG sae 7i%W 2M far ardd]a0S() The sn alas! EGC slue ahead b 12 AM fa OCPD rdang 2DA asonfi g to Tubb 250.122 Aocordiig b 690.45(A), a Is mt cores wy b Noeaa the sae of me PV amys EGC Wren contlucers am wembed forvabage bop MRtidend.m. NECCO&Va0dadmaTrb System must meet requrtemenb for nolhavNg PASS series fuse (690.9(A)) Dented Ampadly must be greater than orequalb PASS the Continuous Current(ANde 100) 41.BA>=IM=so ConducerAmpadty must be at bast 125%of PASS Continuous Current (2152(A4(1)) SSA, 15A 1125=0ve Max current for terminal must be at least 125%of PASS the Continuous Current 35A>=lMX125 =bre EGC must meet ode requirements for minimum PASS sae(Table 250.122) 6AWG>=12AWG=bue r EGC must meet code requirements for physical PASS protection(690.46) 6AWG,=6AWL=hue 25° ix DC Sm=Chwit: Tmnillm Box to Imrbr Chcul6dkn ProDuOw Condutlr fOAWGTFIWN-2C E ant trouts Candudor GC 10AWGTHM 2,CggW oCPD a WA Raro A'abb 0.75'dia LFNC boast1f.mul Temprabra Return W-C Maeman Wse Te aNe 55'C Poem Sauce Description S8ing of la Soles Edge P320 poor optinlmrs, eatt comnectetl be QPEAK DU0 BLXC5315 (315W) "Moths Conant ISA Vo a 400V Module Saba Fuse 20A ITotafflumbe,dSoulasturings 12 11MCOds Cdaridlown A Continuous Current i5A seed'mblAlld/ The wrdmuaue.mastatine sorbs s" of poor optimlzen is equal to the rated m Aim. input rmat of Ne optimiar. Rated Jules. Outputcomment opthnar is 15A B. Ampacity of Conductor 40A see 7eble NO.. f3tBI/fig canduconduiVc Cc (30'C)fr awpper wnducbrwM BO'C hwbgw g abb is M0. C. Derated Ampacity of Conductor 24.32A sse7eA6Jf0.16(B//2/(e% 7eb'e3f0.fM)(3lyef, saaf bfee The bmperatiee talar b 90'C Nwlatlon at 55°C Is 0.78. ThefilfemMuilkab sasi0 Thnpa*d fa CdomofUmisMepreud aides wuampadV(Mill)mmilldbyNbraMefa(0.76) ad byNefigfaes(DA). 40AX%76X0.8=24.32A D. Ma Current for Terminal Temp. Rating 40A . 1/0. fill/ The bxesl temprasse f cot fa Nb contludr at ary edminaem is BO'C. users Ne Man Iss speest in110.14(C),ea madmmn exceed! C raensae NettladesiwtambrecedG a doesnoteXcoed As WC rating (BXI ), ra mwwtielaeredbtla 90°C whombTable 3ID.15(BH16). wY9dtte40A E. Minimum Required EGC Sae 12 AWG see 1e51e 150.f12ad6X..4 (4) The smallest EGC sae abwed is 12AWGfor OCPD rating 20A ."M to Table 250.122 Acartlhg to 690.45(A). His wirmce..y to increase pre dm of Me PV .eye EGC when coMudors as wessimtl for War. drop coraideration . F. Minimum Recommended Conduit Size 0.75' da. me300.17 The iced me of a8 wnduclore is 0.1266W. Wet amaumLm fir rate of 0.4. lie recommended conduit diameter b 0.75. ON OaW bm 6be i Av Ta4i/aea 4 Cmtlrb 10A I Tinm12 0.0gtin, 00al'kv.' z GmM 10AM THW2 10,0211W 0A42&2 6 0.lm6 0.12S6b'/0.1=0.3185b'(Camespondhgbadanatero/0.75T NECCOdsVn9didwr sb System must meet requhements for not having PASS sates Nse (690.9(A)) Derated Ampadtymust be great., glamor equal b PASS the Cominuous Current (A1tide 100) 24.32A>=15A=true ConductorAmpacity must be albast 125%of PASS Continuous Curtest (215.2(A)(1)) 40A>15AX 125=hue Max cumentfor terminal must be at least 125%of PASS the Continuous Cunent (I10.14(C)) 40A1=16AX 1.25 =has EGC must meet code requirements for minhnum PASS sOe (Table 250.122) 10 AWG>=12 AWG=hue Conduit must meet code recommendation for PASS minimum sae (300.17) 0.]Sin,>=0.7Em.=hue 2#$:Imruroutputhw&WtoACAW"dldnPwA Ch1m9SsdlOn Pmpuuu Cwdualr SAWGTHINN-2 Co menu QouM Condudr 10AWGTfPt W2Co GCPD s) MA Ruessumnable 1°diatFNC IaxeslTaMnal Tempaaeae Ratin 75.0 Mavmmn Woe Tem ahre DOC Power SoaveOeseiptbe sofa Edge SE7600"S 780011 beads, Cummt 32A Voltage 240V Imenr Mau OCPDmfinq 40A NECCOdaCdatlfihm A Continuous Current 32A soeAmib f00 Equipment maumum rated ouW oweal is 1 X 30A=3N B.An ity of Conductor 55A . A"3to. fs/B)rysl Arnpacar(30'C) fa a capper condudr ailh 90'C Instance in wnduiVcabb is550. C. Derated Ampadly of Conductor 42.24A see rebb 3f0. fSyBll2ll41,, re 3f0./3(B/putt. aafA si fe0 The temperature faabr for 9VClnwbtion A W-C is O.N. The fib f ecbr far a coMwVcabb Net has 4 sA as is 0.8. The ampadty dented for Conditions of Use Is Me prsductW the conductor answer(5M) m eoled by the emperature factor (0.96) end by Nefillfactortall). 55AX0.%Xa8=4224A D. MaX Current for Terminal Temp. Rating 50A see 110. Tho amend temperature bad far this caoduca r don, banned. 1, WC. Ussrs Ce meetod aped eat In 110.14(C), Me mnimum carom prmmed b enswe and Me Was terminal tang rabre does not eswed as 75-C rating would lea Ne amsud referenced in Me 75'C column In Table 310.15(BH18J, wfikh b 500. - E. Mnimum Allowed OCPD Rating 40A e204 NEC 690.9(B) requires bat to OCPD be rated fr no by Ihao 125 times Ne Continuous Carets of Ne merit 32AX 1.25=MA F. Minimum Required EGC Size 10 AWG sea 1eA0250. 122 The smamst EGC sass abne d Is 10 AM for OCPD ruling 40A acordsg b Table 250.122. G. Minimum Recommended Conduit Size 1' dia. a Mf1 ThebtdseaofdcoWu WD2 e.`W1 amadmumfdlrateof O.A the recon.nended condwt dameboIs 1. D Sae T. Area ToUlk- 2 8AAG 11pM4a Design? O.Olamte 2 VC13AM 9AM rNY1112 0.0365W 0=3 210AM TI M14 a02116e 0.04W 2 THM12 OOSOW 0.1mW 8 029 ' a2/0.4=0.725b'(GarrespmMutgbadmnetarof1T IIEC Cods VaUddi an Tads OCPD mtilg must be dleast 125 %ofCanfinuous PASS Cunent(240.4) IA>=32AX 125=sun Dented ampacily must eacead OCPD r;tiq.ar PASS rating of next smarter OCPD (240.4) 4224A >= 40A (OCPD Rog) =sue Deraled Ampacity must be greater than or equal to PASS its Continuous Current (Article 100) 42240=320true Ampacity must be at least 125%of PASS UConductor Continuous Current (2152(A)(1)) SS =x125=sue Mmmnnlfortermalmustbealtemtl25%of PASS the Continuous Current (110.14(C)) 5OA>=31AX1.25 =sue meal code requirements for minimum ffC PASS 'ust sae (Tade250AM 10AWG>=10AWG=hue Candut must meet code recommendationfar PASS minimum size(300.17) It. >=tort=hue 17. ff. CombIDW Ctltyutottmrl IACAgrega n Pmd to UINtt7 Dbl iced Chaul6adlan Propirow Condudar 3AWGTI W 2,Copw E entGo"CmduAa GC 8AWGTIW 2,Go GCP c NIA Pere now. 1'da LFNC Lowest Termsul Tempaabre Ralmir 75-C Maximum Woe Tem atac 33-C Pcea Safrce Description 2Sala Edgebnataexw50Qt 1s QPEA3(DUO MU 315 1 Damn 7M V.11i 240V NECCodaCdcubdom A Continuous Current 74A seAZcb fro Equipment madmum rated output ementis 2 X 42A = 74A B. Ampacity of Conductor 115A see 7eb/a 3rat a/6//fc/ Ampaoty(M-C)fmamppamMud .b W°Chm .in c nd."h is 115A C. Derated Ampacity of Conductor 110.4A sea 7eMa Jlaf5/a/Rl(41,, 7elb Jfa f5ie/Pl/4/, mdPkr!4 NV Thefempxahee factrrfa W'C Nvbtlm nt33'Cb O.W. The fit faAa fa a mnduMcffiW Mat by 2 Mras is 1. The wnpaity demNd ear CoridSov of Uv la tie product of No cmduM anpadty (175A) mulfip6ed by Ne lempaasre fader (0. W ) and byes MfMa(1). 11SAX0.WX7=110.4A D. Max Current for Terminal Temp. Rating 100A sor faa a/c/ The bwestbmpaa6m Imdfa this mndudar scary Wrtninaeon is 7S°C. Udrg as method ocow in 110.14(C), the mawnum cmmipemJaed tr ensue N LL the dedce termNd tempaesn dma rot exceed b 7S0 rin gacid! be to amount referenced N the 75-C mlun In ratio 310.15(B)(16), xtdAr is look E Minimum AODwed OCPD Rating 92A ses lla4 NEC 6 W 9(B) requtres Nat Ne OCPD be retrd b no Wv N art 1.25 NM9 NB Gallillwms rilRelll Ol Ne LPmtl. 744X I25=825Araunded does, to 92A F. mum Required EGC Sae 8 AWG a4a rmre2w fu The smal sl EGC dze allowed is 8 AWG MOCPDrabg 100A accedingto TasW250.1M G. Minimum Recommended Conduit Size i' dia. .3017 The trial ma of an contludae is 0.3136iP. WM a madmwn fie rate of 0.4, to mmmmeni d condut diiararri 1. T Mae TAdMee TNWK2 0.0i 0.191 M THWN? O.Oa2<m' 0.692Sm`THWN2 Q0366M 0.0365R 0.31s&M 0.3136ir?10.4= Moir'(Cmespasdmg N a daaeler of I NECCodeVaOdalbn Tab OCPD raNg must be alleasl 125%ol Continuous PASS Cement (240.4) I 1WAa=74A %125=Ova Dereted ampacity must exceed OCPD rating, or PASS rating of next smaler OCPD (240.4) 110A, I WA (OCPD Pietro) =eve Dereted Ampadtymust be greater than or equal to PASS the Continuous Current (Article 100) 110.4 =TM=he ConduMrAmpadty must be at least 1251/6of PASS Continuous Current (215.2(A)(1)) 1154>74A025=he Max current for terminal must be at ant 125%of PASS the Continuous Current (110.14(C)) i00A>=74AX125 =sue EGC must meet ode requbements for minimum PASS size (Table 250.122) BAWG>=BAWG=true Conduit must meet mile recommendation for PASS minimum size (300.1]) 1in.>=1h=he 2s° M Ud ft Dbmmdouf pd utft Dlsmrllldto &ln swtn P1mN cliculBsflon Pnpetln Comi.ear 3AWGTMML Co ant QaunsCoodunor BAWD THM2, C4 OCPD, 100AX2 Race A7ffiW 1-dia LFNC lmmslTamNal Tempaabve Mr 75-C Masmum Wh Tam xu-s 33'C Poxes Soume Dearlplon 2SoWEdgebwedsaoiWOCells QPEAR DUO 1111 531531 s Durso ]4A Volcano 240V NECOada CdcuWam A Continuous Current 74A saeArlb'a AV Equipment madmum rated oulputoun rNa2 X 42A=74A B. Ampacity of Conductor 115A see Teas 310Ws 11s/ Ampadty'(30°C)faamppamnduc vih W'c MuMm in aadWUoffiW is 11SA C. Dereted Ampacity of Conductor 110.4A see TabN710. f5(B/(2//eJ, iaNe7f0. fNelR/(d eVAdb'a IN Thetempaahre faAa W W'C Nmbtlm al J3'C IS O.W. The fie latrr fa a mndiVcabW Nat has 2 etres is 1. Theempaimdaaledi ) mumprodof Use isdercumlofNa mrduCa ampadty (715A) mulfip5ed bythe tempaabre late P.96) nd bytlre fatabr(1). 115AXO.WX1=110.4A D. Max Current for Terminal Temp. Rating 100A .sae fist a/c/ The linestbmpareb4e imBfa NismnduMatarrybmifa0onis 75°Q Ue'ug Ne metled ePedBed N 110.74(C), Ne mazOram amanlpermlNd rating raensuedadce Wmnd�affieedavmteIb 75'C vuldbe hamaudransomed Nthe 75°Ccolumn In Table 31DAS(B)(16), MJM W look E. Minimum Allowed OCPD Rating 92A sae240.4 NC-C6W.8(8)requ sNMNe OCPDbaredtarn WVNan IM Imes to continuous Current of to cif m1. 74AX 125=92.%mulled down to SM F. Minimum Required EGC Sae 8 AWG rest 7eab 250.M Tho smarest EGC she allowed is 8AM for OCPD ra" 1 WA acadmgbTabW250.122. G. Minimum Recommended Conduit Sae 1' dia ses300 f TheteWaeaofanmrd 130.31360P.WMamaximumfinrateof 0.4,11seremmmeided mWuddaneW is 1. Div pssa'tim ebe i Poe Tall Area 2 cmda3a 3AWL iHWN-2 o(eW 0.19dnrt 1 Neutral 14AM 1N 4? e.NOW Op92We 1 Exi Ground BAWL mts&2 10035firP O.OWne / 03maM 0.31NW10A=0.78 (Govespondrgeochrons 1T NECCodeVaedMon Tab OCPD rating must be at least 125%of Continuous PASS Cuaent(240.4) 1WA>=71AX125=sus Dereted ampacity must exceed OCPD rating, or PASS rating of next smaller OCPD (240.4) 1 Il. =IM(OCPD M.)=he Derated Am pacify muslbe greaser man er equalN PASS the Continuous Cumnt(ANcle 100) 110AA>=7M=sue Conductor Ampacity must be at town 125%of PASS Continuous Cumerit (215.2(A)(1)) 115A>74Axl25=Nre Mmccunenlfor terminal most be attoasl 125%ol PASS tha Continuous Curren (110.14(C)) I 1000=74AX115 =sue EGC must meet code requirements formNbnun PASS size (Table 250.122) BAWG>=BAWG=bm Conduit must meet ode mmmmandation for PASS minimum size(300.17) th.>-_ 1h =he The new Q.PEAK DUO BLK-135 solar module from Q CELLS impresses with its outstanding visual appearance and particularly high performance on a small surface thanks to the innovative Q.ANTUM DUO Technology. Q.ANTUM's world -record -holding cell concept has now been combined with state-of-the-art circuitry halt cells and a six-busbar design, thus achieving outstanding performance under real conditions - both with low -intensity solar radiation as well as on hot, clear summer days. © QAxTUM TECHNOLOGY: Law LEVEUZED COST OF ELECTRICITY Higher yield,per surface area, lower BOIS costs, higher power classes, and an efficiency rate of up to 19.3 %. ' INNOVATIVE ALL-WEATHER TECHNOLOGY Optimal yields, whatever the weather with excellent low -light and temperature behavior. ENDURING HIGH PERFORMANCE tt' Long -ten yield security with Anti LID Technology, Anti PID Technologyl, Het -Spot Protect and Traceable Quality Tra.Q1 a. EXTREME WEATHER RATING High-tech aluminum alloy frame, certified for high snow (5400 Pal and wind loads (4000 Pa) regarding IEC. O A RELIABLE INVESTMENT Inclusive 12-year product warranty and 25-year linear performance guarantee'. STATE OF THE ART MODULE TECHNOLOGY Q.ANTUM DUO combines cutting edge cell separation and innovative wiring with Q.ANTUM Technology. THE IDEAL SOLUTION FOR: ®RWIWafahm ,pMmlul Wllle. caCRIs Twevarom. 2018 cal N ICODD e] ' An per CoMitiw e¢wdlnero IECTS 628W-1:2015; Armhod a I-1500V, fault ' See dale f11M 4n rear Ar EurNer inkrmation. F. 66.3 in x 39.4 In x 1.261n(InclutlNg frame) 11685mm z IOOO in. x 32mm1 winF.0 a1P Imn8]Fgl F,mlLam 0.I3N(3.2mm) Ne[maHy pesViceE glsss N,h an4fe11tttRn lttM1mlgy Cazi Cart Punlmife film Frei' now. 6x20 WireOtlfilreQ mollmon Cell 6 x 20 monzryffalllne OANSOM mlv haH<eIB Jamew We 2.]63.35in x 1.97-2.76IN x0.51-0.83m (7085mm x 50-70mm x 1321 mm), decenlnllaed, onan ' Uhl. 4mm'6olar Safe;(+) a633 In(1103 mM. (-).4331,(1100mm) Coot. MUINLOmed MCA. IP68 .. ,re•T�l"m ELECTRICAL CHARACTERISTICS POWERCLL55 3W 305 310 315 am MMMUM IFWORMANCEAF SSANOARO RST CONDTIONS, STC (POWER TOLERANCE KW /-0M Po.vYMPP' P,.. (WE _ 300 305 310 315 320 SMn COcuCd,iem, _ . k MI 9.73 9.78 9.83 9.89 9.94E onrich.ay.Oap' V. NI 31,18 39J5 40.02 40.29 40.56 OR bmlm OR'e MP! I_ GI. 9.25 9.31 9.36 9A1 9.47 PoNpYWP Va NJ 33A3 32.78 33.12 33.46 33.80 Elfidenn' q I%1 zVB z18.1 SIBA a18.7 119.0 MINIMUM PERFORMANCE AT NORMY OPERATING CONDITIONS, SORT' P-M YPP P_ Van 234.E 227X 331.E 235.3 239.1 g • sbOr ClwH Pvnm le GI 7.83 7.88 7.92 ].W 8.01 5 . U.CiUay.sx, V. on 37.15 37AO 37b6 37.91 38.17 s Conem AS YPP 1„ UI 7.28 _ 7.32 ].3] 7.41 7.45 VOHa3e e,YlP v_ M 30.78 31.11 31A4 31.76 MOS Y dean ..a3L:I.,V.xSYa,stt:IOSWMt. z5z35 RY 150r[mdy,[IEC6%063'9m WIM,NYOrxe[..aN150 O CELLS PERFORMANCE WARRANTY PERFORMANCE AT LOW IRRAOIANCE 2� �amu ..9.x"No meannn4uagPort Y' -f f • '��'- "-'--'--:-'---- Aeinner 93.1i [I 1pmiv,peen, wblOpeal ` x � wmAD es%Aeremiw I as Fum Mramamrammeramne : ---- ----- _ FNlvmanW lnaevJazm.rNYe.annry S 5 emnamNope"u� moO. clef vgmlrnEmdpv e pprul mule FNnmmw uunderlw lineal al aIn �. s..�....�m. � - Ae+ ."Oponecon"U ..Imevuma TEMPERATURE COEFFICIENTS Lenpan.cemnmeatf6 a I%FRI +e.o4 rem9vemeeoemfbm 9f v. Or I%]n -e.za Tem9enW7C.xKnhmal P.,. V 1%/CI -0.37 parmfl opendoC YaduM Fampelrtm NYOF l'FI 10915A(4323-C) Marano®Suite Fme set., FOCI 20 1. Fin Patin, C(IECl/TYPE 11Uq Z. Deep Ll Pool raw IMaa,i 75(3EWPS)/55(266]Pa) Pelmmed CHUM Ympe Sao -407 up A+185-F An namrm. lluy I-40•C up to+35'es Yu. TOY toed. Two I Pon (CUP 1OY81 II3154W Pal /84 (4000Pa1 2 me lm6lMlbn manual QUALIFICATIONS AND CERTIFICATES PACKAGING INFORMATION .1'103: VOE Oualrryreno; CE-pumnl; NAmMmYoduln Pa Palm 32 Issfire,20le: IM 61$3a 16, MAOtat'mn da=A NAmferNPart; ]' pe15LIaUn 30 OVE C E Numen W PxWv par 4O', Nlp, Cube Complain26 nuum Pmmalmn a a asx N) 6931n x 45.3 in x 46.9N CV�t W (1760rum x 115omm x 11%mon) hllel WeNM 14151b5(RAZRy am finatufflaRlo, onfirwrmn mutt M I. her Ne Imeollafw W[p,a[rN-news tm,gmIe .mute daraNem or IWM m,mruOm on mxrn M Imper.oneM Im of muprerec NmaAaOR114. be 3W3pKWmcerw.W.1$50.mire.G9$616.Y6411n+19a9$411.1.1OYn emlrypufq'uS.-IWee vam.11"e, Engineered in Germany OCEIIS Power Optimizer For North America P320 / P340 / P370 /P400 / 0405'/ P505 PV power optimization at the module -level Specifically designed to work withiolarEdge inverters Up to 25% more energy Superior efficiency (99.5%) Mitigates all types of module mismatch losses, from manufacturing tolerance to partial shading Flexible system design for maximum space utilization solaredge.com / Fast installation with a single bait / Nest generation maintenance with module - level monitoring / Meets NEC requirements for arc fault protection (AFCI) and Photovoltaic Rapid Shutdown System (PVRSS) / Module -level voltage shutdown for installer and firefighter safety solar - .. a Power Optimizer For North America P320 / P340 / P370 / P400 / P405 / P505 NaleEFpnaC fbreM 310 3M 370 Ka 405 SVi W. AOSOMe Mb—vW lbpa9e (srt urel [e - 48 W 80 us- 83. Mk M"RiTOpaWrae Ra 8-48 B-W 8-80 - llS-SOS IE.s-B3 We MaJmum Slwrt CLwlCvrem aY3 Il Val 14 Otk. M"imvn OC Cw[+t � 13.7s - IE.63 - 17.5 Nk Mb .EMae 99.5 % W49 Effi rcw 988 966 % (Nervtlu]e Gugay 8 . ENSTCI I AIRON SPFORCIATIONS Malmim Mvxetl syaem wrta 1ppp � Cmm McMe AO SdmEe eSmgk Muss aN ]Iree Nme Mertes - Umtrt Nm LeM 128[I52%28/5RS97sll 12Re95E e32 SS50113 E IEORISES W/ S[5.9]e 196 IEB s1Re59/ Se S9h 232 mm1h .we" [odes) �6W/1.9. J50/I] '845/L9 IW4/E3 r/k Npu[Comecoi MCO gnputWtre Tyye/fineGq - M61 LaeMMG WnL 095/30 1213.9 NW. _ a36/04 m/fl ap[mprq iemper�re RaMje -40-•85/-4a-e18$ 'Y/f %pttpon Pa(Ig P EP RAANe HumJ 0-O.IW - IW % •MCA1l mNam"me, npx'g15eLeMmaebsw btrav e4aE •LedlnmuLN OR E�•'b^'tlbVRJle Mimwm50ry LeyN P4W "— -_ 8 u) 18 flu"'e OWrtiieN V405/V505 6 9 N Ma .W, Le,N ES ES SY eo m Matlmlm Powe per Sm� SFIWlUS-SE11Y6 52M Wb9 1EJ50• W U5 paraneiswgsdomaemLayae � viaNbmenreMl3Cnrq�MruMbS[a3[I51 egwan .ne�l�•.Y�ert�...-aeomme.�rnm��m.nm,Yrccuv IWas CC RoHS E:T•N Powering BusinessWeddwide pe.eaton.com General Duty Cartridge Fuse f Safety Switch d DG223NRB UPC:782113144252 •i Dimensions: - • Height: 7IN • Length: 6.42 IN • Width: 8.82 IN Weight:9 LB Notes:Maximum 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/Cartddge: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 Product compliance: No Data © 2016 Eaton. All rights reserved. IIIIIIIIIIIIIIIIS Single Phase Inverter with HD -Wave Technology mT for North America r SE3000H-US / SE380OH-US / SE5000H-US / SE6000H-US / SE7600H-US / SE1060OH-US / SE11AOOH-US /Tm�J o emarp,:u .,F9a.a. I — I o O I• fir •��• e C •���• a 1° : AW T Optimized installation with HD -Wave technology Specifically designed to work with / Extremely small power optimizers If Record -breaking efficiency / Built-in module -level monitoring / Fixed voltage inverter for longer strings / Outdoor and indoor installation 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 (O.S%accuracy) / UL1741 SA certified, for CPUC Rule 21 grid compliance solaredge.com solar- • . = / Single Phase Inverter with HD -Wave Technology for worth America SE3000H-US / SE380OH-US / SE5000H-US / SE6000H-US/ SE760OH-US / SE10000H-US / SE1140OH-US SE3000H-US SE}800H-U5 SE5000H-US 5E6000H U5 5E760UH-USSE1000OH-US OE1140UH-US Rare AC PvnetON(N 30]0 30W @z4w 330J@216V SD]0 HxP@xWY $IM iO $MiV I6DJ NA] 1.D)Q 4W Ilgp]@20W VA Ma+imun AC PoxerONPrt 3We J&0@24W sm KN@240J M 100) IN QNW VA 33000M 5000@208V 1=92. 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Operi6gkmµ+aLR Page -40m.M/-25b.60w I-40'E/- CophmOn "E/'C Pm4Nwn pzlvg NEMA 4x0mx'lmwlm 5ahrys �1 ^AMA*/�man¢m,M'4�io2tMnntn N�Im�I urytwm�m W Nn,a✓d eerue9raeemam]M S1mdL5ULNIQ •�µw rMN9'n4meb.rtMla'.ImKIA��}¢MM++/YEukA1.'Au�,nW,wnW,onl.nnm4`>I M S1um1Y�LxMN ROHS Single Phase Inverter with HD -Wave Technology for North America SE3000H-US / SE380OH-US / SE5000H-US / SE6000H-US / SE760OH-US / SE10000H-US / SE1140OH-US Optimized installation with HD -Wave technology / Specifically designed to work with / Extremely small power optimizers / Record -breaking efficiency / Built-in module -level monitoring Jr Fixed voltage inverter for longer strings / Outdoor and indoor installation / Integrated arc fault protection and rapid shutdown for/ Optional: Revenue grade data, ANSI C1220 NEC 2014 and 2017, per article 690.11 and 690.12 Class 0.5 (0.5%accuracy) / UL17415A certified, for CPUC Rule 21 grid compliance solaredge.com solar - • • / Single Phase Inverter With HD -Wave Technology for North America SE3000H-US / SE3800H-US / SE5000H-US / SE6000H-US/ SE760OH-US / SE1000OH.-US / SE1140OH-US kr AIMDuT ReM AC Poher OutWl 3W] 3 02. SCW M@2xN ]W] ICOW 14W@NW VA 33W@2WV SW OMY I 02W Mmnum ACN 3M 3BW@ WJ sWJ dOJ 1- am naw@2WV VA rQtx rt 33W ®2WV OA®269V Im.0. 1%qJ@208V AC Wrpu M, a eMin-Nom.'Max ! ! ! Vac Rn-2a0-2Ul AC Grtprt`AIN.3e Mm.-NNn'Md. - - ! ! Max 08,205-2291 ACFm6enry QbmNap 593- W -605^ Hz MmmPn� WWN oa—a @zaw VS 1G 21 25 32 a2 .5 A Max—CMfuwrWa wyW t6 - 2d - J0z A Gv-1@20V GFwID taw . I - A I9C-ig PntaavoRCbaMyCanfguraNe P.,.,cv 'ka ThresMtla ]Moor Maairrmm eC Pwrer@24V 46W 59]0 ])Sh 93W lom ISSW n650 W Ma+imun MC r@NSV SIM � T50 ISSW W TrvNermer.leR lkgiwNee - - Ri MmvNminpM1bha]e dW ramealoc mynwiN9e 3W dW MacMc Mminum NpucC.02<QM 05 Vs n.5 I Ifis X ZF 305 A% MymWm lnpYLCurRm @2WW 9 1 135 Zl AEc Mm NPm Stn[Clmr'rt Cwrenl 4S ACc Paveftla gPmceOY 'ks Lm.W-fauhlxL'M De[ec0.n fQk' aSaMxM,y. Mavnumlmenr FPoMny 93 992 Y a<wagnlmcad•my 99 W @ tawvs gas @ zaev MgM1rvme nrvrerCttSwpAn a251 w. ADDITIONAL FEATURES wrm nummn-naauw aru ANNndx Rapd euxa. r nACG. DIS . I GM Canim.[Mn SWdad: KC Pan 15 @ss B M-N AC CU''pRCwWUA We/AWYr 3/a'mktimun/14-6AWG W1.Fi. M4 G DCIr�pir COMti[ste/•MSNrg/ AWG 3/d'Mnhm=/1-2rnr9a/bEAWG 3/d'mhumun/I-3IIrvgi/MdAWG DmeMbnswtJ�Sakry SwttU' 177. M6.68/450z 370. nd 21.3•W6.73/SWa3N,I85 m/ WegM�Sakry SwtA .MN 2E/10 Z51/IL< E62/119 388/R6 b/kg Noes .25 6o eas 6calrg wwmicm.emm� 0,M:rgkmWaWre Rage a0m-M1-25m•m"E<O I/ CcphoN^' 'F/'C P .axP NEMAdx Rm2MwMU"S.) • FaWv 29v W Nu^T Pk+'<w.at 5 W el9a uLmr m Pearvae 9�Na mvm PM SEmX�IMtW rNQ •(v�p �CrrID:y mbmmn rthrinMp/I—atl,rtly..¢+Nure4.MbM4M-nvrvmMawTaanµCl MSfmd1U�]LNNw wme�6nN�mrPoiN�em�i.meN�w.,a���mr �r9wwaa�AMmMPrasd�nd.um,�nmaa.t4��WmraN RcHS /%r IRONRIDGE Built for solar's toughest roofs. uatasheet 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 gashings, 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 UL2703 standard. Pre Certified Pre -stamped engineering letters available Inmost states. Design Assistant ® Online software makes it simple to create, share, and price projects. 25-Year Warranty Products guaranteed to be free of impairing defects. 'Datasheet — XR Rails® XR10 Rail XR1D0 Rail XR1000 Rail Bonded Splices A low -profile mounting rail for regions with light snow. • 6'spanning capability • Moderate load capability • Clear and black finish Clamps & Grounding ED 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 wpabTty • Extreme load capability • Clear anodized finish CAMO All rails use internal splices for seamless connections. • Self-dnfing screws • Varying versions for rails • Forms secure bonding Grounding Lugs Universal Fastening Objects Snap onto the UFO to turn Bond modules to rails while Connect auays to bond modules to mils. into abonded end clamp.. staying completely hidden. equipment ground. • Fully assembled 8lubed Bonds modules b rails Universal end -cam clamp Low profile • Single, universal size Sized to match modules • Ted -less installation Single tool installation • Clear and black finish Clear and black finish Fully assembled Mounts in any direction — Attachments FlashFoot2 Conduit Mount Slotted L-Feet Bonding Hardware Flash and mount XR Rails Flash and mount conduit, Drop -in design for rapid rail Bond and attach XR Rails with superior waterproofing. strut or junction boxes. attachment. _ to roof attachments. • Twist -on Cap eases install • Twist -on Cap eases install Secure rail connections • T 8 Square Ball options • Wind -driven rain tested • Wind -driven rain tested Slot for vertical adjusting Nut uses 7116• socket • Mill and black finish Secures -°or 1•conduit Clear and black finish • Assembled and lubricated Resources Dealgn Assistant ., NABCEP Certified Training Go from rough layout to fully NABS Earn free continuing education credits, _-- engineered system.. For free. while teaming more about our systems. Go m lmnRidge.eom/design Go to lronifidge.com/training 1495 Zephyr Avenue 1495 Zephyr Avenue /lam IRONRIDGE I Hayward, CA 94544 /lr IRONRIDGE Hayward; CA 94544 1.800-227-9523 1.800-227-9523 IronRidge.com I IrenRldge:com Attn: Corey Geiger, COO, ImnRldge Inc. Date: September r. 2018 Re: Structural Certification and Span Tables for IronRidge Flush Mount System This letter addresses the structural. performance and code compliance of ImnRidge'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 lmnPidge mounting damps. The XR Rails are side mounted to a selected roof altachmentwith 3/8' 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 installafion,and its core components are shown in Exhibit FCC-0015. The ImnRidge Flush Mount System is designed and certified to the structural requirements of the reference standards listed below, 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) 2015 International Budding Cade (IBC-2015) e Florida Building Code 6e 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, mof zones 1, 2 8 3, and roof slopes from 0° to 45e. 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 45e or less. 3. The mean roofhelght; defined as the average of the roof save 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 48. 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- 0 2018 bonaipge. Inc. FL Flush Mount System CenAcalion Lever-1 The span tables provided In this letter are certified based on the structural performance of ImnRidge XR Rails only with no consideration of the swctural adequacy of the chosen roof attachments, PV modules, or the underlying roof supporting membem. It is the responsibility of the installer or system designer to verify the structure) capacity and adequacy of the aforementioned system components in regards to the applied or resultant loads of any chosen army configuration. Sincerely, C'- "'�4•" Nr b iu 6�- u; - �' SlAll tF '4e7 Gang Xuan, PE, LEED AP Senior Structural Engineer 0 MIS kanRMge. Ina Date: oa, 2018.09.18 05.48:42-07'00' FL Flush Mount System Caninralion tetler- 4 /%r IRONRIDGE Background All roofing products are tested and classified for their ability to resist fire. Recently, these fire resistance standards were expanded to Include solar equipment as part of the roof system. Specifically, this requires the modules, mounting hardware and roof covering to be tested together as a system to ensure they achieve the same fire rating as the original roof covering. These new requirements are being adopted throughout the country in 2016. IronRidge Certification IronRidge was the first company to receive a Class A Fire Rating —the highest possible rating —from Interelk Group plc., a Nationally Recognized Testing Laboratory IronRidge Flush Mount and Tilt Mount Systems were tested on sloped and flat roofs in accordance with the new UL 1703 & UL 2703 test standards. The testing evaluated the system's ability to resist game spread, burning material and structural damage to. the roof. Refer to the table below to determine the requirements for achieving a Class A Fire Rating on your next project Tech$rief Class A Fire Rating • • - Test Setup solar Models. eater modules are given a Type sir ressul awtbn based an their reaterlel,p and corrsWdiort Mounting fiyatom MouNing k lestetl as paM1 d a system Nat I bro-rated lypa-1 sted ceasing. nodules and are+atetl roof caveriig. Roof Co"Ont, Roof covering products are given a / Fire Coss Ream ofA, 9 or e. based on arehtesled lire resonance. Burning Brand Test A burning wooden block b placed on modela as a fan blows at 12 ash. Flame cannot be seen on u cleislde of roof wf h n m mbanes. Spread of Flame Test Flame at southern edge of roof is aimed up the roof as a fan bbm at 12 mph The hang..at spread 6 feet or mare bn 10 mkwles. Flush Mount 12 Any Slope Type 1, 2, & 3 Class A Tilt Mount s 6 Degrees Type 1, 2, & 3 Class A •aan w raw nv.imem. u, m .mares m aav A a.m a ram. Frequently Asked Questions What is a -module type"? The new UL1703 standard Introduces the concept of a PV module type, based on 4 wristmctlon parameters and 2 fire performance parameters. The purpose of this classification is to certify mounting systems without needing to test It with every module. What mofng materials are covered? All fire rated roofing materials are covered within this certification Including composition shingle, day and cement file, metal, and membrane roofs. What R 1 have a Class C roof, but the jurisdiction now requires Class A or B? Generally, older roofs will typically be'grandfafhered in', and will not require re -rooting. However, if 50 / or more of the roofing material is replaced for the solar Installation the code requirement will be enforced. Where Is the new fire rating requirement code listed? 20121BC: 1509.7.2 Fire classification. Rooftop mountedphotovoltaic systems shall have the same fire classification as Me roof assembly required by Section 1505. Where is a Class A Fire Rating required? The general requirement for roofing systems In the IBC refers to a Class C fire rating. Class A or B Is required for areas such as Wildiand Urban Interface areas (WUI) and for very high fire severity areas. Many of these areas are found throughout the western United States. California has the most Class A and B roof Ore rating requirements, due to wild fire concerns. Are standard mid clamps covered? Mid clamps and end damps are considered part of the PV'system', and are covered in the codification. More Resources Installation Manuals Vlsft our website for manuals that Include UL 2703 Listing and Fire Rating Classification. Go to Ironmdge.com What attachments and fiashings are deemed compatible with Class A? Attachments and their respective lashings are not constituents of the rating at this time. All code -compliant gashing methods are acceptable from a fire rating standpoint What mounting height Is acceptable? UL fire testing was performed with a gap of 5. which is considered worst case in the standard. Therefore, the rating is applicable to any module to roof gap. Am 1 required to Install skirting to meet the fire code? No, IronRidge achieved a Class A fire rating without any additional racking components. What determines Fire Classification? Fire Classification refers to a fire -resistance rating system for roof covering materials eased on their ability to withstand fire exposure. Class A - effective against severe fire exposure Class B - effective against moderate rim exposure Class C- effective against light fire exposure What if the roof covering is not Class A rated? The IronRidge Class A rating will not diminish the fire rating of the roof, whether Class A, B, or C. What tills is the t9t mount system fire rated for? The tilt mount system is rated for 1 degrees and up and any roof to module gap, or mounting height Engineering Certification Letters We offer complete engineering resources and pre -stamped certification letters. Go to lmnRldge.com 0 MI61renFiJep, Irc: NI fleM1m reegveC. VtSltwww)renntlgesom o, coil 1-Bap-i3iA52J 1.,..-IMemwJgn. VenTon t'Sa MODULEFRAMELESS ilr Insert Frameless KB T-bolt in top rail slot Place star washer over T-boq allowing it to rest on top of rail. Secure w„ module clamps with a hex nth and torque to 801n-lbs. Q Tested or evaluated module clamps: Sunforaan allrm or bleep SF4 G-210(B) mid and SM OfE 2011(13)mtl olamPe. • settlement wNw or black mid end and Lampe Nth pen nuseere 75oa105X wheat •1(• Is 1, 5, a or 7. • IroNOdgo What or black mH end and Wmpe Mth pen numbws FAILSX000I-Y whore •X• le E or M tnd •Y• Is B or Mar. Q Follow module menutanurefs Installation humuctions"ameba ere module clamps. Q Fameless modules teeth tells, a Gramsirg Lap on every tell. Q For Sunpreme Modulm Only: If mquLed to use Wide pmenaon Imrtlwme. see Module Slide Prevention Addendum (Yertlon 1.10). (-MMY41nq teor.eu \ MODULE 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 far grounding and/or mounting in compliance with the included Instructions. Unless otherwise noted, Soaf refers to the module power rating and both black and silver frames are included in the certification. •e s with 35, 40 and 50 mat frames AS-bYxxxZ Where'b• can be 5 or 6;'Y' can be M, dsolar7w� P.27, Por P30;'xm' is the modulo power rating; and T can be blank,W or WB nergs with 30, 35, 40 antl 45 ram frames eaSMobyyC/rt-nu Where'aa' can be CH or 77A,mw b' ca66. or 72; W can be blank, 10 or 12;'Ccan M, P, M(By, M-HC, M(BL)-HC, P-HC; , or (z can be blank, HV, F-B, or F-BH ; and'xxx' Is the module Power rating nergss modules CHSM6610P(DG)-mt Mere'mf Is the motlule power rating n mod40 mm frames AXN6y6zAxxx Where'y' can be M er P;'e can be 08, 09, 10. 11. or A• car T; and ')W is the module Power rating i mesAGxn1Y/aaZZb Where is the module power rating;'Y' Modules with 35 end 40 mat in... Axitec can be M. P or MH;'aa' can be blank, 125-or 156-: = can be 54. 60.72, 120. or 144;'b' can be S or SE, Bovlet modules wm140mm frames BVM66aaYY-me Where *ae can be 9; 10 or 12;'YY' Is M or P; and Soviet ',W Is the module power rating BYD Where -xxz' Is me module Power rating:'Y' can be M. P or MHI'ae can be blank, 125- or 156.;'ZL' can be 54. 60. 72. 120. or 144: V can be S or SS Canadian Soler modules with 30,35 and 40 mat frames CSbY-x x2 Where"b' can be 1. 3 or 6:'Y' can be H. K P. U. V. W. or X;')W refers to the module power rating: and Tcan be M.-P, MS. PXrM-SD, Canadian Solar P-AG.P-SD.M&AG, PB&AG,"MS-AG, or MS -SD Canadian Solar frameless motlules CSbY-xxx-Z Where'b' can be 3 or 6:'Y' Is K, P. U. or X;'mf is the module power rating, and'Z' can be M-FG. MS-FG, P-FG, MB-FG, or P&FG- CerlainTeed CertamTeed modules with 35 and 40 frames CTxoiY7Z-AA Where'xiW is the module power rating;'Y' can be M, P or HC:'ZZ' can be 00,01. 10. or 11; and 'AA' can be 01, 02, 03 or 04 CSUN Dean modules with 35 and 40 mm fames YYxxx-zzAbb %%am'YY• is CSUN or SST; xxx is the module power rating:'zr is blank. 60. or 72; and •A' is blank. P or M; •bb• is blank, BB, BW or HOOF Ecasolargy modules with 35,40 and 50 ram frames ECOxxxYzzA-bbD Where •xm is the module power Ecosolagy arA, H, S, orT,'Ze can be 125 or 156;'A' can be M or P; •bb' can be fill or 72; ad'D' cano bgebYla' B MODULE... TWWG,, ET Solar modules with 35. 40 and 50 mm frames Er-Y6MD MAA Mere •Y' can be P, L,'or Er Solar can be 60 or 72;'x W refers to the module power rating; and 'AA' can be WB, W W, BB, WB WRAC, WBCO, W WCO, W WBCO or BBAC Flex modules with 35, 40 and 50 mm frames and model Identifier FXS-mYY.,=; where')Ooe is the Flex module power rating:'YY'can be BB or SO:anl•ZZ•can be MAA1B, MAAI W MABI W SAAI B. SAAIW SACIB. SAC1W SAD1W, SBAIB, SRAM. SBCIB, or SBC1W GCL GCL modules with 35 mm and 40 mm frames GCL-a6/YY xxx Mere 'a' can be M or P; •YY' can be 60, 72, or 72H; and xxx is the module Power rating GigaWaft Solar Gigawalt modules with 40 mm frames GVb=YY Where Swf refers to the module power rating: and 'YY' can be either PB or MB Hansel Hansel modules with 35 and 40 frames HSxxxYY-u Where'X)W Is the module power rating;-YY-can be PB, PD, PE. TB, TD. US, LID, or UE; and -ze can be ANI. AN3. AN4, HVI, or JH2 Hanwha Solar Hamel a Solar modules with 40, 45 and 50 mat frames HSLaaP6-YY1-xxxZ Where eae can be either 60 or 72; -YY- can be PA or PB;'xice refers to the module power rating: and'Z' can be blank or B Hanwha 0 CELLS Modules with 32, 35.40 and 42mm frames and model Identifier aaYY.ZZ-mt where 'ae can be 0. or B.;'YY" can be PLUS, PRO, PEAK, LINE PRO, LINE PLUS, or PEAK DUO: and •ZZ' can be G3. G3.1, G4, G4.1, L-GZ LG2.3, L-G3, L-G3.1, L-G3g LG4, L-G4.Z L-G4g LG4.2rrAA, Hanwha 0 CELLS BFRG3. BLKG3, BFRG3.1, BLKG3.1, BFRG4, BFRG4.1, BFR G4.3, BLK-G4.1, G418C, G4.1/SC, G4.1/rAA, G4.IMMAX, BFR G4.1fi BFR G4.1/MAX, BLK G4.1/rAA, ELK G4.1/SC. ECG4.4, G5, SLKGS. LGS, LG5.1, I.G5.Z LG5.2111, LG5.3, G6, G6+, BLKG6, LG6, L:-Gi LG6.Z L-G6.3, G7, BLKG6t; BLKG7, G7.Z Ge, SLKG8, Ge+, BLKG8+LG7, LG7.1, L:G7.Z LG7.3, LGB, LGSA. LG8.2, or LG8.3: and •xm is the module power rating Helene Heliene modules with 40 mat frames YYZb= Where 'YY' can be 36.60. 72. or 96;= can be M. P, or MBLK; and'mf is the module power rating HTSAAE HTSAAE modules with 40 ram homes HT72-156Z-wm Where •T can be M. P,MG, PG, M(S), M(VS), M(V), P(V), M(V)-C. P(V)-C; and'" Is the module power rating. Hyundai modules with 33, 35, 40 and 50 mat frames HiY-Sxxi Where'Y' can be A. M or S;'m' Hyundai refers to me module power rating; and'7Z' can be HG, HI, KI, MI, MF MG, RL RGSF), RG(BK), SG, TI, orTG Itek leek Modules with 40 and 50 mat frames Ir-m-YY Where -x1a'Isthe module power Wing; and 'Yy- can be blank. HE or, SE, or SE72 ' JA Solar modules with 35, 40 and 45 mm frames JAyya-bbww-wu/aa Where 'yy'can be M, P, Me or JA Solar P6;'zz can be blank (K), (L). (R), M. (SK), (FA). (rG), (FA)(R). (L)(BK), (L)(I-G), (R)(BK). (R)(TG). (V)(BK); (BK)(TG), or (L)(SK)(rG);'bb' can be 48, 60, or 72;'ww• can be Sol, S02, S03, See, or S10: Sou' is the module power rating: and'ali can be MP, St. SC, PR, SEE, 4BB, 4BBIRE 5BB ' Jinko modules with 35 and 40 mm frames JKMYxxxzz4a Where'Y' can enter be blank or S;'xxx' is Jmko the module power rating;'ZZ' can be P, PP, M; and -ae can be blank, fill. Sell, 60H, SOL, 60BL, 60HL, 601-1131-, 60J4, 601344, 608-EP, 60(Plus), 66V, 60-MX, 72, 72-V, 72H.V, 72L-V, 72HL-V or 72-MX Jinko frameless modules JKMlomPP-DV Where 'A W is the module power rating Kyocera Modules with 46mm frames KYxxx=-AA Whom'Y' can be D or U;'Xxx' is me module power Kyocera rating; -Pr can be blank GX. or SX; and 'AA' can be LPU. LFU, UPU, UPS, UPS. LFB,.LFBS. LFB2. LPEIZ SAC, SEC. 3FC, 4AC, 4BC, 4FC, 4UC, SAC, SEC. 5FC, 5UC, 6BC, 61C, 850, 6MCA. or 6MPA LG modules with 35,40 and 46 mm frames LGxxxYaZ-bb Where'xm is the module power rating;'Y' LG can be A,E.N.0,S;•a'can be l or 2;'Z'can be C. K T. or W and'bV can be A% AS. 33, G3, G4, K4, or V5 Lorgi modules with 30,35 and 40 mm frames LRa-YYZZ-)=M Where can be 4 or6;'YY' can be Longi blank 60 or 72;'IZ' can be blank, BK. SP, HV, PI PE, PH, HBD, HPB, or HPH; Nice Is the module power rating Mission Solar modules with 40 mat frames MSEbbx oc2Zaa Mere'bb' can be blank or 60A; •xm is the Mission Solar module power mting; •ZZ' can be blank, MM. SE SO or S0, and -ae can be blank, 1J. 4J, 4S, SK 5T, 6J, 6S, 6W. 8K, 8T or 9S Mitsubishi Mitsubishi modules with 46 mm frames PV-MYYwaZZ Where'YY' can be LE or JE; xxx is the module power rating; and'ZZ' can be either HD. HD2, or FB , �a -MODU LE COMPATIBILITY Motech IM and XS series modules with 40, 45 and 50 mm frames Nec, Solar Power modules with 35 mm frames D6YmZZaa Where'Y' can be M a P; m is the Nee, Solar Power module. power rating;'ZZ' can be B3A, 134A, E3A, E4A, H3A, H4A; and'aa' can be blank, (TF). ME or ME (TF) Panasonc modules with 35 and 40 mm frames BHN=YYaA Where'm' refers to the module Panasonic power rating; 'YY' can be either KA. SA or ZA; •a• can be either 01. OZ 03, 04. 06. 06B, 11, 11 B. 15. 15B. 16. 166, 17. or 18: and •A• can be blank, E or G Peimar Palmer modules with 40 mm frames SG=Y= Where Saaf is the module power mbng:'Y' can be M or P; and'zi can be blank. (BF), or (FB) Phone Solar Phono Solar modules with 35. 40 and 45 mm frames PStoaY-ZZJA Where= refers to the module powerrating;'Y'catbefi P; •2Z'canbe20or24;and•A'cmbeF'TorU Prism Solar Pnsm Soler frameless modules BIYY-=BSTC Where'YY' can be 48, 60. 6D.S, 72 or 72S: and '1mf is the module power rating REC modules with 30, 38 and 45 mm frames RECMYYZZ Where - Is the module power REC Solar ratirg;'YY- can be AA, M. NP, PE, PE7Z TP, TPZ TP2M, TP2SM, or TP2S; and = can be blank, Black BLK, BLI(Z SW or 72 ReneSola modules with 35, 40 and S0 man frames JCmY.ZZ Where ')W refers to the module parasols power rating; •Y' can be F. M or S: and'ZZ' can be Ale, Ab-b, Abh, Abh-b, Abv, Abwb, Bb, Bb-b, Bbh; Sbh-b. Bbv, Bbv-b, Do. or Db-b Renogy Renogy Modules with 40 and 50 mm frames RNG-mY Where')W is the module power rating; and'Y' can be D or P Risen Modules with 35 and 40 mm frames RSMyy6mZZ Where'yy' can be 60 or 72; ')W is me Risen module power rating: and'ZZ' can be M or P Frameless modules RSMyy6xoZZ Where'yy can be 60 or 72; Nice is the module power rating: and'ZZ' can be MDG or PDG SEnergy S-Energy modules with 40 frames SNmY-ZZ Where'1oa' is the module power rating;'Y' can be M or P: and •ZZ• can be 10. or 15 Seraphim Energy Group Seraphim modules with 35 and 4D mm frames SEG-6YY-mZZ Where -YM cagbe MA MB, PA, or Pi'm' is the module power rating; and 'W can be BB, BW WS or VVW Seraphim USA Seraphim modules with 40 and 5D mm frames SRP-mtiYY Where •m' is the module power rating; ad •YY• can be MA,. MB, PA,. PB, OA-XX-XX, and OIB-XX-XX Sharp Sharp modules with 35 and 40 mm frames NUYYm Where'YY- can be SAor SC; and 'mf is the module power rating Silfab SOlate Modules with 38 mm frames SYYY-m Wnere'YY' can be SA or LA; SG or LG; •Z' can be M, P, or X; and 7mm• is the module power rating Solaria Solaria modules with 40 mm frames PowerXT Loci Where•=O is the module power raung:'Y• can be R or C: and •Z2' can be AC, BD, BX, BY, PD. PX, PZ WX or,WZ Solarchy Solarcity modules with 4D mm frames SCmYY Where Sea' is the module, power rating; and-(r can be blank. B1 or 82 SolarTech SolarTech modules with 42 mm names STU-mYY Where •x)W Is the module power rating; and 'YY• can be PERC or HR SolarWodd Sunmodule Plus.. Protect &sun. XL, Sisu t XL may be followed by mono. poly. duo. SolarNbdd AG I Industries GmbH black, bk. or clear, modules with 31, 33 or 46 mm frames SW-m Where •m• is the module power acing . SolarWorid Americas Inc. SolarVbdd Sunmodule Plus, Protect, Silver. XL Bisun'XL, may be followed by mom, poly, duo, black, bk, or clear; modules with W mm frames S WA-m Where'mf is the module power rating Stion Stich Thin film modules with 35 mm frames STPm or STPmA Thin film frameless modules STL-m or STL-mA Where'm' is the module power rating SunEdison Modules win 35,40 and 50 mm frames SE-Y1boiZABCDE Where'Y• can be B, F, H. P. SunEtlison R,orZ;'m' refers to the module power rafing:'Z•can be 0 or 4;•A• can be B.C.D,E,H,I.J,K,L,M, or N :'B' can be B or W.'C' can be Aor C:'D' can be 3. 7. S. or 9: and 'E' can be 0, 1 or 2 MODULE COMPATIBILITY Suniva modules with 35.38, 40, 46 and 50 mm frames OPT=-AA$YYY-Z MV)b=-AA-B-YYY-Z Suniva Where'm' is me module power rating; 'AA'Is either 60 or 72;'B'Is either 4 or 5;'YYY' is either 100, 101.700,1 W, or IB1: and T Is blank or B Sunpower standard (G3 or (14) or InNsiMount (GS) 40 and 46 mm frames SPR-Zb-m-YY Where Sunpower 'r is either A. E. P or X; -b' can be blank. 17. 18, 19. 20, 21. or 22; Soot is the module power rang ad'YY- can be blank, BIJ( COM, C-AC, D-AC, E-AC, G-AC, BLK-PAC, or BLK-D-AC Suriname Sunpreme frameless modules GXB-mYY Where 'm'Is the module pow" rating; ard'YY' can be blank or SL Sunspark Sunspark modules with 40 mm frames SYY-1o2 Where'YY- can be MX or ST,')W is the module power rating; ad'r can be P or W Suntech Vd, Vern. Wdb, Wde, and Wd series modules with 35,40 and 50 mm frames Talesun Talesun modules with 35 and 40 frames TP6yyZoi-A Where can be 60. 7Z H60 or H72;77 can be M. or P; :10oC is the module pow" rating; and "A* can be blank, B, or Trims Modules with 30. 35.40 and 46mm frames TSM-mYYZZ Where •m' Is the module power ramp; -YY• can beDD05, DD06, DEI4. DEI5, DEG15, PADS. PCOS, Pi PDM. PA14, PCi4, PD14, PE14. or PE15 ; ad'ZZ' can be blank,.05, .08, .10, .18, .08D, :18D, 0.82..002, .00S, OSS, Trina OBS,A,A.05.A.08,A.10,A.18,A(I),A.05(Ig,A.08(II),A.082(IQ,A10(Ip, A.1 Bill). H. H(IQ,. H.05(Ip, H.08(I0. HC.20(11), HC.20(II), or Frameless modules TSM-mYY Where -YY' can be either DEG5(II), DEG5.07(11), DEG5.40(II), DEG5.47(ll), DEG14(II), DEG14C(IB, DEG14C.07(li); DEG14.40II1), PEGS; PEG5.07, PEG5.40, PEG5.47, PEG14, or PEG14.40_ Vilmim solar modules with 40 mm frames SyyZZAAA.bb Where'yy' can be M, P. MBB, Ukram MHBB, or PBS;•ZZ' can be 60 or 72;-AAA- Is the module power rating:ad -bb• can be 03.04 or 05 Wnam WnaKo modules with 35 and 40 mm frames Wsy-loa¢6 Where'ycan be either P or T,'mc' is the module power rating; ad'r can be either M or P - Yingti Panda, YGE and YGE-U series modules with 35,40 and 50 mm Irames- SoiarFootT"' Mounting for Exposed Fastener Rooting The Solarpoot Is a simple, cost-effective pedestal for L-Foot (not included) attachment of mil -mounted solar PV. The unique design is compatible. with all rail producer L-Foot components. The new SolarFoot assembly ensures a durable weathenight solution for the life of the roof. Special factory applied butyl co -polymeric sealant contained in a reservoir Is The Right Way, allowing a water -tested seal. Stainless Integrated stud and hex flange lock -nut secure the L-Foot Into position. A low center of gravity reduces the moment arm commonly associated with L-Foot attachments- Direct attachment of the SolarFoot to the structural member or deck provides unparalleled holding strength. I 'ftut sWdsepaawy.Anrenn rypewrtf Me, 01nwte ConwaS-51 an hmvmp=ha fas a wMa Wnmrteietttulh lfoatplmsWdxeparmel} Fastener Selection `O S1== Metal W Metal: 1/4-14 Self Drilling Screw 1-1n•t02-In' O13==>� Metal to Wood: 1/4Wype 17 AB Milled Point f 1-ln• m x-1i�• 1 To sou rce fasteners for your projects, contact S-51 ee When other brands claim to be -just as good as S-51, tell them to PROVE IT. _ Odd Con S51aWarning! Please use this prolud responsiblyi Distributed by: iM1elydepemmt NErmEnubuW atwwxSSmmnnEeussd rw hMulYml EeLgnartlappWaMw a tammum.rmmw.wmu�ssam.�s.manswxo.sn.,.wrc.. w.wsamn.upsngn.zWoniI.ln.euiVnook rVM, l �bmna=np�a¢,.,wn,pm¢¢a rn-pmgmmn. wteuiamruw.aemvun Mm,imnr OFFICE USE ONLY: DATE FILED: 1 ii,, REVISION FEE: PERMIT# RECEIPT # PLANNING & DEVELOPMENT SERVICES BUILDING & CODE REGULATION DIVISION 2300 VIRGINIA AVENUE FORT PIERCE, FL 34982.5652 V72) 462.1553 APPLICATION FOR BUILDING PERMIT REVISIONS PROJECT INFORMATION ADDRESSLOCATION/SITE SCANNED 4042 Greenwood Dr. Fort Pierce, FL 34982 ,,,�� r __®'yy ^_,_e� _ D^ a®V DETAILED DESCRIPTION OF PROJECT REVISIONS: Engineering updated to reflect correct roof material per inspectors notes. CONTRACTOR INFORMATION: ' u �'j" ; :� f o- I• H STATE of FL REG./CERT. #: CVC57032 ST. LUCIE CO CERT. #: _ BUSINESS NAME: 'Luma Dynamics OUALIFIERS NAME: John Cahill ADDRESS: 895 Diplomat or CITY: Debary STATE: FL ZIP: 32713 PHONE (DAYTIME): 407-720-4300 FAX: 888-692-7577 OWNER/BUILDER INFORMATION: NAME: Bmndlein, Vince & Carol ADDRESS: 4042 Greenwood Dr. CITY: Foil Pierce PHONE (DAYTIME: 772-462-4446 STATE: FL ARCHITECT/ENGINEER INFORMATION: NAME: Michael wojtuniak ADDRESS: 1700 Patterson Ave CITY: Deland PHONE (DAYTIME): 386-985-3805 STATE: FL FAX: IIT.��i� SLCCC: 9123109 R ONI S I0 Revised 0616/3011/17 N ZIP: 34982 ZIP: 32724 PV-1 I PROJECT SUMMARY PV-2 SITE PUN PV-3 SINGLE -LINE DIAGRAM PV4 SAFETY LABELS W-5.1 ATTACHMENT PLAN 5.1 PV5.2 ATTACHMENT PLAN 5.2 PV-5.3 ATTACHMENT PLAN 5.3 PV5 ATTACHMENT DETAILS PV-7 FIRE SAFETY PLAN ELECTRICAL CALCULATIONS MOOULEDATASHEEr OPTIMIZER DATASHEET X DISCONNECT DATASHEEr Z INVERTER DATASHEETS dMOUNTING SYSTEM DATASHEET MOUNTING SYSTEM ENGINEERING LETTER PROJECT DETAILS 2 VINCE BRANDLEIN SS 4042 GREENWOOD DR FORT PIERCE, FL34982 US FLORIDA POWER B UGHT CO 2014 NEC (NFPA 70) 2015 NFPA 1 CONTRACTOR INFORMATION COMPANY LUMA DYNAMICS LICENSE NUMBER CVC 57032(SOLAR) ADDRESS 895 DIPLOMAT DRIVE SUITE 106E, DEBARY, FL 32724 PHONE NUMBER (407)7204300 CONTRACTOR SIGNATURE D \*add Dr Greenwood Dr _ Greenwood Dr Greenwood Dr F__ _ I I f i I I ♦ I I I I I -- 011 Edwards Rd _`LOCALE PV-1 SCALE: NTS ram;•• 9a - 4 ST. LUCIE COUNTY BUILDING DIVISION REVIEWED FOR C 911hNCE REVIEWED BY. 'v `t DATE ':s n MUST BE KEPT ON JOB OR c=� NO INSPECTION WILL BE MADE SCOPE OF WORK AND DOCUMENT SYSTEM DETAILS NEWGMD4NTERACTIVE DESCRIPTION PHOTOVOLTAIC SYSTEM WITH NO BATTERY STORAGE DC RATING OF SYSTEM 15,750W AC RATING OF SYSTEM 17,600W ACOUTPUTCURRENT 74.OA 7F INVERTER(S) 1 XSOLAREDGESE760CH-US -a 1 XSOLAR EDGE SE100DOWUSE MODULE OCELLS O.PEAK DUO BL(-G530 ARRAYWIRING (2)STRINGSOF15 0,pNVI 2) STRINGS OF 10IINV#2) INTERCONNECTION DETAILS POINT OF CONNECTION NEW SUPPLY SIDE AC CONNECTION PERNEC705.12(A) UTIUTYSERVICE 12024OV7(P INSIDE PANELBOARD EATON DG223NRB, 2-POLE, 100A, 24DVAC SITE DETAILS ASHRAE EXTREME LOW VC (327) ASHRAE2°AHIGH 33-C(91•F) CLIMATE DATA SOURCE ERO BEACH MUNICIPALAIRPORT WINDSPEED 17OMPH(ASCE7-10) RISKCATEGORY II P-125881 SUPERIOR ENGINEERING 2700 PATERSON AVE DELAND, FL 32724 CUT OF AUTHORIZATION 30105 MICHAEL HOJTUNIAX W 3t. L Tn W W Z 0 CO 0 O N CD _J LL d of o W H Z W o z m W Lu CD - CD v LI M W CL of 0 LL \OE/V.* :-�V No 934 I b PV-1 BY ;ie County r N 1 , P-125881 T SUPERIOR ENGINEERING _� `a- - '^ -.-- •' �' 1700 PATERSON AVE 911\LCT; 2 .. DELAND, FL 32723 CERT OF AUTHORIZATION -__ • 30105 NICHAEL WOITLINIAK P.E. R 6093 -c W LLI 00 fA 0 m _s. _i ( W Q O f � to O Li �..- Let O W z W d W' Z y� 1O (E) MAIN SERVICE PANEL(MSP), OUTDOOR Of Z_ W � O (N) AC AGGREGATION PANEL IRANI), OUTDOOR W UJ W O2 (N) INVERTER 02), OUTDOOR O Z CV F' (N) PROPOSED ROOF -MOUNTED PHOTOVOLTAIC 0 < O O O Ilf ARRAY. 5:12 (23') SLOPED ROOF, 21 PV MODULES C) (BLACK FRAME, BLACK BACKSHEET), 0• AZIMUTH F-. m LL (NJ VISIBLE, LOCKABLE, LABELED AC DISCONNECT O5 LOCATED WITHIN IO FT OF UTILITY METER(SW1), OUTDOOR Q' T SITE PLAN ,TRANSITION BOX(JB2), OUTDOOR, OUTPUT \\� IA — CIRCUIT CONDUCTORS SHALL BE RUN IN LFNC �\ PV-2 SCALE:1'=20' OO CONDUIT OVER ROOF NO CLOSER THAN 0.5•ADOVF��% ROOF SURFACE ••��C•EN'••• Z �i (N)TRANSITION BOX(JB1), OUTDOOR, OUTPUT��� OCIRCUIT CONDUCTORS SHALL BE RUN IN LFNC% NO 6• 3 CONDUIT OVER ROOF NO CLOSER THAN 0.5, A�Y� ROOF SURFACE O (N) INVERTER(11), OUTDOOR ® O9 ARRAY. 5:RIP012F-(28j SLOPED ROOF, 2I PV MODI��•'. '1 ✓9L°�((A� `Tcccyyy� (BLACK FRAME, BLACK BACKSHEET),911 AZIMLU �'. Q`•, •!v,`` 0 ROPOSED ROOF -MOUNTED PHOTOVOLTAIC 14,\,s ••,� R 1 .• \��� ® to ARRAY. 5:12 (23-) SLOPED ROOF, 8 PV MODULES 0j ...... (BLACK FRAME, BLACK BACKSHEET), 270°AZIMUTH 41i �JJ \\ 17 (E) UTILITY METER, OUTDOOR "81TEIPLAN_ DOG ID: 125881-156882-1 DATE: 10123/19 CREATOR D.K. REVIEWER: REVISIONS PV-2 GENERAL NOTES EQUIPMENT LIKELY TO BE WORKED UPON WHILE 1 ENERGIZEDSHALLBE INSTALLED IN LOCATIONS THAT SATISFY MINIMUM WORKING CLEARANCES PER NEC 110.26. 2 CONTRACTOR SHALL COMPONENTS LISTED BYA NATIONALLY RECOGNIZED TESTING LABORATORY FORTHE INTENDED USE. CONTRACTOR IS RESPONSIBLE FOR FURNISHING ALL EQUIPMENT, CABLES, ADDITIONAL CONDUITS, RACEWAYS, AND OTHER NECESSARY FORA COMPLETE AND OPERATIONAL PV SYSTEM. WHERE DC PVSOURCE OR DC PV OUTPUT CIRCUITS ARE RUN INSIDETHE BUILDING, THEY SHALL BE 4 CONTAINED IN METALRACEWAYS,ttPEMCMETAL- CLAD CABLE, OR METAL ENCLOSURES FROM THE POINT OF PENETRATION INTO THE BUILDING TO THE FIRST READILY ACCESSIBLE DISCONNECTING MEANS, PER NEC 690.31{G). JBI �� 1110iWHr 1911UHG �© JB2 1110,000W I I _ `ff a 1/ I21,000W PAN1 -FVSYSTEMDISCONNECT 2W�12WMq W 00 MODULES —EAYD NDDEL PMAY Prc I6C Bev vac NAv rFE1v.wEFF.aivoc FUOEMiING PY1dx 0p OCELLSO➢ENt WO&RGS315 015W x91W 0.&A BAfA IO.N StN d.11NfC(L20WC) xBi INVERTERS D1T IAA'IEINDYOOFI V0.TA GRgl10 MVIWPD FATED WixW-T NA-M NA WP T CmwF1G W RAiMG PIN,£A CM CUPR@R VOLiOLE EFFIC6NCV I1 I GMAAmGE8E1Wp01W6 31DV N— R epA fOA pDM IE.pA 27.0A IEpv D 00.0% Q 1 GdOIi EDGESER001WG 2W UNWGIBJDE IOA I T.WNI SSAA 201A WV NbA POWEROPTIMIZERS F.. 1OW1 MOOR 1 MMOMEPOVIER Ynx 0111PIrtcuRREHF WSINPurlsc YNICC VW.TaGE LCIGN1m EFFlCIENCr PoIt W 60URmGEM UM ISa IILA NV 00A% DISCONNECTS OCPDS RFE. QTY. wAEAMGYaoa RATmC.T fuYraTmvaracE R$. an MTED.T MAxvoLrAGE 51'It 1 E9raN OG�MS GR EWN. tOOA 21pVAC CB3 I iM xWVOL cBl 1 60A x10VAC P I-x 2 IapA 2apvAc W.:I�R.O�.. MEOPECBROOPIMP MBE&IBOTI N81HAPQD,PQ6Mxq M.ORPMI. i $EOPN.BZERSMN MNPNWLTAGEYMDON YMEENOUMTO/ comomm a Q WTNRVMTAGEPANGEUF SISO EAT TIE DESIGN TFIIFEFAMES HAVEA OF, "a PATING TNT IS ABOVEME SIMOUT'UT CLPPF2R OF TE MOONS ANDA61A ROMPt BFVTTNT IS MOVE TE FATS PO,Y9I OIIfPIIF OFTd: MWUIE UNGROI G"e WCOI TORSSHNLBECOLORL00mMFOMM.00 8 PoSIMESIWLBFRED(00.YMfm RE➢1 <NOOC NEOArfvE SWll BEB10L%(OR YlA%m NN:MI NNLL CONDUCTOR &IRCONDUIT SCHEDULE WIELECTRICAL CALCULATIONS »rrx oaumR manluaE PVNXILKMN4 CO'tVOflluN 1B°ec1oR`� w`nw �Aw� u�M�m6 a"`r6R ox:�r .,'�. T.➢.wnw oepP� I x 4�M BxrPE F¢E ue E ¢l6 y'9 ,v IVM Su u ISc yy 2 "�M"�"'� 6>rmAu+c P9s�'"°'"L aN1%•a m IUN xs ss6N +o-< s% ranr.°»x. rwlN,c "•'"+ Islyq ¢e sv1 Wn nu 6M 1 v'ENbWE � 6M4WIE R.xi OMMNIS 1. 1. NMBMx2 .rrpN,IrXc OrIIN1ixC Vils:q a M1rL W'C "^„+ �'� 1 'p'"°n^"1 A%yq sN M2N sa fim 1 roNlix[ I wM0ntb1,3' 4M1Yq YY. IIL IIY4 ICM rnM,;t 2 eualxvieZ 6se1W YS. n'A ISx IW1 SINGLE -LINE DIAGRAM PV-3 SCALE: NTS rlasmcwwrlusazwcvrArEnFoumEPlauoseocDEuwewar11E1�6sMroFAI>w DvnProroaru6wwaLsnmlmrllwBlulBEraLrowwnrvArtmwvusEmmlAu vvRr aelpp6zWa PEOAAnpnG.r1EMCWPA'fvraAurotEEuiEplaa ASAarmnrvlEFW wuwxneuAe6arivBTarrAlurwxNnw+La NsreumslAUN6rPMAUEWPIIENIN JL<aIRVfEMM WNLACNPHiIN4rAWIMYPNY1y NJIWGINM6 WLWEM40Ap0EIMFfJ4Elm91AMY11%l PhR9Ph5TEPgrR1CIKK661YAY6ALPP£R66INUM41 WNWS GROUNDING NOTES 1 ALL EQUIPMENT SHALL BE PROPERLY GROUNDED PER THE REQUIREMENTS OF NEC ARTICLES 250&690 PV MODULES SHALL BE GROUNDED TO MOUNTING RAILS USING MODULE LUGS OR RACKING INTEGRATED 2 GROUNDING CLAMPS AS ALLOWED BY LOCAL JURISDICTION. ALL OTHER EXPOSED METAL PARTS SHALL BE GROUNDED USING UL-LISTED LAY -IN LUGS. INSTALLER SHALL CONFIRM THAT MOUNTING SYSTEM HAS 3 BEEN EVALUATED FOR COMPLIANCE WITH UL2703 GROUNDING AND BONDING"WHEN USED WITH PROPOSED PV MODULE. 4 ALL GROUNDING SYSTEM COMPONENTS SHALL BE LISTED FOR THEIR PURPOSE IF THE EXISTING MAIN SERVICE PANEL DOES NOT HAVE A 5 VERIFIABLE GROUNDING ELECTRODE, IT IS THE CONTRACTORS RESPONSIBILITY TO INSTALL A SUPPLEMENTAL GROUNDING ELECTRODE, AC SYSTEM GROUNDING ELECTRODE CONDUCTOR(GEC) 6 SHALL BE A MINIMUM SIZE#aAWG WHEN INSULATED,#6AW,C; IF BARE WIRE. EQUIPMENT GROUNDING CONDUCTORS SHALL BE SI 7 ACCORDING TO NEC ARTICLE 690.45, AND BE A MIN�iQ1M: #1OAWG WHEN NOT EXPOSED TO DAMAGE, AND ilQtWG SHALL BE USED WHEN EXPOSED TO DAMAGE : GROUNDING AND BONDING CONDUCTORS, IF INSMATEID, 8 ISHALL BE COLOR CODED GREEN, OR MARKED GIMLBbI I- - if4AWGORLARGER P-125881 SUPERIOR ENGINEERING 1]00 PATERSUN AVE DELANDP FL 32724 CERT OF AUTHORIZATION 30105 MICHAEL W03TUNIAN P.E. R 60936 C `W Cn >- W N Cn Uor- p rn W Q O J 0 0 LL O z C) Wof J W W 0 Q Q z O 0 d- In LL I SUTIII 1L.. C E NS�..?'�': 609 4 IITE .-7��: 'RIOp �'��: SINGLE -LINE DIAGRAM PROJECT ID: 125881 DATE: 103119 CREATED BY: D.K CHECKED BY: REVISIONS PV-3 LABELING AND WARNING SIGNS LOCATION LABEL DC RACEWAYS #4 JUNCTION 80X pl INVERTER #2,3 AC DISCONNECT K6 MAIN SERVICE PANEL #7,8,9,10 MAIN SERVICE P-125881 INVERTER PANEL PV PANEL ARRAY 05 SUPERIOR ENGINEERING 1700 PATERG32 AVE DFIAND, FL 33R4 CERT OF AUTHORRATION AC DISCONNECT 30105 if required NICHAEI WOINNIAR JUNCTION BOX P.E. # GD934 #1 #2,3 #B FW- #4 #4 #4 #4- U) W N Z m m #7,8,8,10 � W i M W 0 Q J PHOTOVOLTAIC r °� 3O w O W •:I a � Z U 7ERMNALS NdN I. WAR IN . . W Z w �W W Wof OCK HAZARD ELECTRIC SHOCK HAZARD O Q O#1H TERMINALS #2 DONOT TOUCH TERMLM #3 •• • 1 "'=== ``' ZNTERMINALS ON BOTH THEUNEAND OTH THE UNE AND • • • # r !", i? O LOAD SIDES MAY BE ENERGIZED WY BE ENERGIZED INTHE OPEN POSITION MAXIMUM SYSTEM VOLTAGE f •"' h mWNPOSMON °XOn+a s}w�irav�'�'im" mloaeuur r' SHORT-CIRCUIT CURRENT ADC of i #4 i ■ ■ OEM• 95 MISS mm I *;' NO 60631 •:yam TEYVAnEIEDTO(TMFEa.ATT RNSEXIEABMANDOFVOE • • RACE.WaYSEVEitYtO(T I EET,ATNRNSFNDRM ANDuffTM0OW - = * _ ,YLPENEIAATNING • - - - ATL��jF�IR;�� ... #7 d CAUTIIb N 0 R I O p:•'����� RATED AC OUTPUT CURRENr. f Q-pT1`7'LIABELS DOG ID: 125881-156882-1 . - DATE: 10123/19 #9 winCREATOR: D.K. REVIEWER: 1 , • 'll#10 G t1Ti©N: SOLAR ELEC l REVISIONS 5YSTE GONNf CTEQ - _ _ALL SIGNAGE REQUIRED BY 2014 NEC AND 2015 NFPA 1 WILL BE INSTALLED AS REQUIRED _ PV_4 ROOF PROPERTIES ROOF MATERIAL TRAPEZOIDAL METAL (11-131N) SLOPE SM2(22.V) MEAN ROOF HEIGHT 13.3FT DECKSHEATHING 15/32"OSB CONSTRUCTION - TRUSSES (2X4 TOP -CHORD), 241N OC MODULE MECHANICAL PROPERTIES MODEL I O-CELLS O.PEAK DUO BLK-G5315 DIMENSIONS (AREA) 166.3114 X 39AIN X 1.31N(18.1 SOS WEIGHT 41.21-13 MOUNTING SYSTEM PROPERTIES RAILMODEL IRONRIDGEXRIOD ANCHOR MODEL S-51 SOLARF00T, 0.751N AIR GAP FASTENING METHOD EMBEDMENT IN ROOF DECIJNG WITH 4 FASTENERS MAX ALLOW. RAILSPAN 48.01N (ZONES 1, 2, AND 3) MAX MOUNT SPACING 48.OIN (CONES 1, 2, AND 3) MAX ALLOW. CANTILEVER CANTILEVER 19.21N (ZONES 1, 2, AND 3) GROUNDINGAND BONDING INTEGRALGROUNDING CERTIFIED TO UL 2703 RE UIREMENTS DEAD LOAD CALCULATIONS LOAD QTY LBS TOTALLBS MODULES 8 41.2 1329.6 OPTIMIZERS 8 0.6 15.0 LINEAR FEET OF RAIL 53 FT 0.7 36.2 ANCHORS 16 0.1 2.1 MISC. HARDWARE 3.3 3.3 TOTALARRAYWEIGHT 376A LBS AREA NAME JQTY SOFT TOTALSQFT MODULES 18 11&1 144.8 POINT LOAD (376.4 LBS / 16 ATTACHMENTS) 23.5 LBS DIST. LOAD (376A LBS 1144.8 SQFT) 2.6 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' 1 aJ mm_Ti�O���So�i�u ❑ WINDZONEI MVE WINDZONEII i El WINDZONEIII DISTANCE a IS EQUAL TO 10%OF THE BUILDINGS 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 FOOTPRINTAND PROJECTED TO THE PLANES OF ROOF CORNERS, RAKES, HIPS, EAVES, MANSARDS, AND RIDGES OF ROOF FACES. 0= MAXIMIN(OA' MEAN ROOF HEIGHT, 0.1 *LEAST HORIZONTAL DIMENSION), 0.04-LEAST HORIZONTAL DIMENSION 3.0 FT = MAX(MIN(0.4. 13.3 FT, 0.1 •30.0 FT), 0.04.30.0 FT, 3 FT) T \ATTACHMENT PLAN (ORTHOGONAL PROJECiA V5. SCALE 3116' =1' �1 ® C Ins P-125881 SUPERIOR ENGINEERING 2700 PATERSON AVE DELAND, FL 32724 CENT OF AUTHORIZATION 30105 MICHAEL 403TUNIAK W I-- Tn a' � Z W o 0 0 cc) LL a X 0 L Of Z_ W 0 Z LLI Lu W a' W a W O� 0 n CEA �U'� 3TAI'E OF �0RIOP:�� Pv-5.2 i P-125881 O SUPERIOR ENGINEERING 1700 PATEp50N AVE a �•- DELAND, FL 32724 CERT OF AUTHORIZATION - '"' 30105 ✓��j NICHAEL H03TUNIAK P.E. A w934 t�¢7 FT flIl10E W WW((�� ' y. ', F- ,. _ W 00 X W p M �1 MENEMrx. E � 1 Tn O L.L. Z W Of W of W O (D 0 Z o Q W p O F IbLL 6 d' �1 III I111 MENEM Ps!:... °�)', �o E9�. .,��� No 60 �VE STATE OF 00 ''�j O R 1 O'•• `` WIND ZONEI 0 WINDZONEII WIND ZONE III El , I // In 13 RI HORRONTAL DIMENSION OR4 SNIA_EAVESERL NOT LESAND THAN 4% LEASTFACES. ORIZOMAL DIMENSION OR3FEET (ACSE 7- THTO OFED HEIGHTS, EMOF r 10). THESE SETBOVALT0 APPLI0% THE BUILDING ID). THESE SETBACKSARE APPLIED TO THE BUILDING FOOTPRINT_ANO PRQIECTEDSO THE PLANES OF ROOF CORNERS; RAl(ES, HRS;lAVES, MA14SAED5, AND RIDGES OF ROOF FACES. THEROOF RAKES. HIPS, .-MANS RIDGES ROOF "A=MAX(MW(0.4•hffAN ROOF HEIGHT, 0.1• LEAST HORIZONTAL DIMENSION), 0.04-LEAST HORIZONTAL DIMENSION.3Fn DOC ID: 125881-156882-1 DATE: 10/23119 0.0 FT MAX(MIN(0.4.1iI FT, 0.1 -00.0 FT). 0.04.30.0 FT, 7 FYI CREATOR D.K. REVIEWER: 1 ATTACHMENT PLAN ORTHOGONAL PROJECTION V5.3 SCALE: 118'=V REVISIONS PV-5.3 ROOF PROPERTIES ROOF MATERIAL TRAPEZOIDAL METAL (11-131N) SLOPE 5/12 (226') MEAN ROOF HEIGHT 15.3FT DECK SHEATHING 151320SB CONSTRUCTION TRUSSES (2X4 TOP -CHORD), 241N OC MODULE MECHANICAL PROPERTIES MODEL O-CELLS O.PEAK DUO BLK-G5315 DIMENSIONS(AREA) 66.31N X39.41N X1.31N (18.1 SO FT) WEIGHT - 41.2LB MOUNTING SYSTEM PROPERTIES RAILMODEL IRONRDGEXR100 ANCHOR MODEL S-SI SOLARF00T, 0.751N AIR GAP FASTENING METHOD EMBEDMENTIN ROOF DECKING WITH 4 FASTENERS MAX ALLOW. RAILSPAN 48.OIN QONES 1, 2, AND 3) MAX MOUNT SPACING 48.OIN (ZONES 1, 2, AND 3) MAX ALLOW. CANTILEVER 19.21N (ZONES 1, 2, AND 3) GROUNDINGAND BONDING INTEGRAL GROUNDING CERTIFIED TO UL2703 REQUIREMENTS DEAD LOAD CALCULATIONS LOAD QTY LBS TOTAL LDS MODULES 21 41.2 865.8 OPTIMIZERS 21 0.6 13.2 LINEAR FEET OF RAIL 14D FT 0.7 95.2 ANCHORS 42 0.1 5.4 MISC. HARDWARE 8.7 8.7 TO7ALARRAVWEIGHT 988.3 LBS AREA NAME OTY SOFT TOTAL SOFT MODULES 21 18.1 380.1 POINT LOAD (988.3 LDS/42 ATTACHMENTS) 235 LBS DIST. LOAD (988.3 LBS 1380.1 SOFT) 2.6 PSF NOTES TRUSS LOCATIONS ARE APPROXIMATE ACTUAL 1 LOCATIONS MAY DIFFERANDCOMRAC70R MAY NEED TO ADJUST MOUNT LOCATIONS. IN NO CASE SHALL THE MOUNT SPACING IXCEED'MAX MOUNT SPACING' ,�AOIf�■Q�I���� B -A-� RACKING ELEVATION (TRANSVERSE VIEW) PV$ SCALE: NTS 0 FASTENING OBJECT WITH STOPPER SLEEVE IRONRIDGE END CAP IRONRIDGE UNIN FASTENING OBJI ` �iI: ' j ` " IRONRIDGE� / XRIGO RAIL ROOF FRAMING SPACING ATTACHMENT SPAN �1RACKING ELEVATION (LONGITUDINAL VIEW) PV-B SCALE: NTS ROOFOEC MOUNTING SYSTEM NOTES FLASHING SHALL BEAPPLIED 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. FRAMING IRONRIDGE UNIVERSAL FASTENING OBJECT PVMODULE, S-5! METAL ROOF XR100 RAIL -IRONRIDGEL-FOOT PROOF DECKING ROOF UNDERLAYMENT SELF -DRILLING SCREWS (4 REDO) ATTACHMENT DETAIL (TRANSVERSE VIEW) PV-B SCALE: NTS IRONRIDGE .. XR100 RAIL L-FOOT TRAPEZOIDALI METALROOFING , METAL -TO -WOOD SCREWS [D � ATTACHMENT DETAIL (LONGITUDINAL VIEW) PV-B SCALE: NTS P-125881 SUPERIOR ENGINEERING 1700 PATERSON AVE DELAND, FL 32724 CERT OF AUTHORIZATION 30109 MICHAEL HOJTUNIAK c P.E. # Fi0934 C W On Z Q m Of W Q cn w O O LL d Z W w Z W W w W O oCDa Q o 0 W � m � L.L. Q 111111//��', t. '%GENs No 09 4 CJT �•• �0R10P' PV-6 (a) FIRE SAFETY PLAN PV-7 SCALE: 1'=20' GENERAL NOTES EXTERIOR -MOUNTED DC CONDUITS, WIRING SYSTEMS, AND RACEWAYS FOR PHOTOVOLTAIC CIRCUITS SHALL BE LOCATED AS CLOSE AS POSSIBLE TO THE RIDGE, 1 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 11.12224.1) ROOF ACCESS POINTS SHALL BE DEFINED AS AREAS WHERE FIRE DEPARTMENT LADDERS ARE NOT PLACED OVER OPENINGS OR DOORS), ARE LOCATED 2 AT STRONG POINTS OF BUILDING CONSTRUCTION, AND ARE IN LOCATIONS WHERE THEY WILL NOT CONFLICT WITH OVERHEAD OBSTRUCTIONS (TREE LIMBS, WIRES, OR SIGNS). (NFPA 111.122.2.1.3) PHOTOVOLTAIC MODULES SHALL BE LOCATED IN A MANNER THAT PROVIDES TWO 3 FT WI BE ACCESS 3 PATHWAYS FROM THE EAVE TO THE RIDGE ON EACH ROOF SLOPE WHERE THE MODULES ARE LOCATED. (NFPA 111.10.2.2.2.1.2) PHOTOVOLTAIC MODULES SHALL BE LOCATED NO CLOSER THAN 1.1,2 FEET TO A HIP OR VALLEY IF MODULES ARE TO BE PLACED ON BOTH SIDES OF THE 4 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 111.10.2.22.1.3) 5 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 O ILL 1703 CLASS A FIRE RATED ON A 5112 SLOPED ROOF WHEN INSTALLED WITH TYPE 1 OR 2 MODULES. THE Q-CELLS CREAK DUO BLK-353151S TYPE I. �•.� Oz ROOF ACCESS POINT C O30 FT. WIDE FIREACCESS PATHWAY, PER NFPAr 11.10.2.221.2 O15 FT. WIDE FIREACCESS PATHWAY, PER NFPAS 11.10.2221.3 AND NFPA111.10.2221.2 - -0 7 O5 3.0FT. WIDE SMOKE -VENTILATION SETBACK, PEFIGF•, 111.10.2222 7 O30 FT. WIDE FIRE ACCESS PATHWAY, PER NFPAI R 11.10.2221.3 AND NFPA 111.10.2221.2 I� T ENCLOSED D IN CRUNONDUIT. BETWEEN ARRAYS, SHALL BE ENCLOSED IN CONDUIT. P-125881 17W PATERSON AVE DELAND, FL 32324 CERT OF AUTHORIZATION 30105 MICHAEL W03MNM P.E. # fi M W 00 Z 0 m Of W Q M V5 o Ll a M Z W z LLI � W ILL, W Q. O 0007d 0 q) O W g m v LL H PV-7 Conductor, Conduit, and OCPD Sizing Validation 1. Maldmum System Voltage Test I.I. Solt Edge ImorferwriD O"le QPEAK DUO BLK-W 315 (315W)e AMPraperfle Array Type DlstriMded NPPT System lmw Pn System Dessiplan Soya Edggee Invederx✓400Ce0s OPEAK UOBU(G5315(315M. Module O.PEAK DUO BLK45315 1 HighestmcIxa.fmodub,I,mdm inaPVSource Circuit 7 O.xIwIUs,T.mp, I 6Vm 4u29V Tem .Ccelfident Vac .0.113V/C NEC Code Cakuldbm A Maximum Voltage of PV Source Cirait 43.11V m 117(CJ NEC 690.7(C) requue s Nat 6 be PV module mamdacNer proNdes a temperature csulc ont a apervdiait weage, it must be used to W cubs the PV aray%mm mum system wllage. It b W des an hdorma5on note reoxnmands, be use of to ASHBAE Extreme Annual W. IlWmum Design Dry Bub TemparabmY as be design low temperature. Udkg these value; be module Vm (4029V) WO incre am 10 43.11V at to design bw them usab a. to -C). (6' C- 25-C) X.0.113VM . 40.29 V= a I I V The moduli Voc atom design bmannounces Is 0.11V. 4.11VX 1=43.11V B. Maximum Voltage of DC-D Convener 400V Source Circuit m 6807(C) At PV ciaib haw a voaege bat does not mmed 60OV. This system. DC -DC Com ertar Samm Cbatifa as fad by Soar Edge PM debit cmnveder opfazacon devipx Each device Is mumted to a single OPEAK NO BU45315 (31SM PV meatus. ilia wEage of this cuwK is repubted q to inverter at a comet d W V. NEC Code Vdldatlon Teaba PV Source C'vanmaxmum Vac must not exceed PASS 600V allyV 600V=trw DC43C Converter Source Circuit whage must not PASS exceed 6DOV 400V<600V=sue 12 Solar Edge IrnaterWM QOdls QPEAK DUO BLK45315 (315W)s Arraylaropaeeo NECCodeValideaonTeah Anay Type - D'ishitsteri AQ'Pr Symen I.M. Array System Desdp6w SolarEdgebvertarm'20 per OPEAK DUO BLKG531531 s 1Mdub OPEAK DUO BLK45315 1 Highest nwnber oformubs N sobs ..PVSource CbaA t De ntmu Tom . 0.0 I✓oMb V. 402W Te .Caeffidem Voc 4AMIC NEC CaMGIwWa s A Maximum Voltage of PV Source Circuit 43.11V m 6"..7(C/ NEC 890.7(C) raquvos Nat d Ne PV motlu b mamdachrer provides a remperahae cseNdesd of openciraK whop, A must be used to calamine the PV.a am arman system voltage. It ir*des an Information note recommending be use of Nor ASHRAE Extreme Aemu aI Was Mmbmurn Design Dry Bub Temperature' as be deign bw tompwabea. Using be. vabm; be module V. (4029V).1hare. b 43.11V at to doom Isiv aNe(0'C). (0-C - 25-C) X 4.113VC .4029 V a 43.11 V Th e module V. at be desgn bw tempaabae is at I V. 43.11VX 1=QIIV PVSource Ci=*a main in Von must not exceed PASS 600V 43.tiV wV=true DC4DC Convener Source Cauit whage must not PASS exceed 600Vue 400Ve600V=tr B. Maximum Voltage of DC' -DC Convener 400V05 Source Circuit m 6907(C/ At PVciordb have avolagetatdoes W exceed EOOV. THs sysbm's DC4)C Con ems as. Circus are red by sober Edge P320 datodc m veiter optimixatien devices Earn dews Is conneded as a ingb OPEAK DUO BLK4 315 (315V4 PV modub.Tho voltage of this dro it Is regulated by to Inverter I a consbnt40OV. alga gala Q-t-w .' I Wro, Conduit and OCPD Code Compliance Volldagon 21.91: DC CUw1tCIrwB: Sol Sing Outputto Trared lon Box ClrtuNaectlan Properdea CoMudor I0AWGWWbs,CoVW ui ent GrouMOondudor GC 6AWGBare Oc a ccPDs WA Paonsynable Free Ab Loeest Temtct Temperable Ralb 75'C MadmuneWde Tem able 55-C Pawl Sawn Description Sang of 15 Sala Edge P320 power .PtnJ}8s, each cc a. ldlea ¢PEAK DUD BU( 315(315Vq PVmodule Cu ent 1SA voltage 400v Natluk Series Fuse Rahn NA Toll Numberal SedNSidn s 2 NEC Code CalwatWnt A Conuous Current 15A See 69QB/tin/1/f5/ The continuous event of this redo , string of power openness is equal to the ne,el maxi mum output conent of to opf lsr. Rated Marv. Ouput Gmentof ap micro is 15A B. Ampacity of Conductor 55A see 7e0/e Jf015tg)(17/ Ampachy(N-C)faacopper uclerwidi90°CLnsuletm tteeab 1565A. C. Derated Ampadly of Conductor 41.8A see Taele Jf0.f5(B)R)ts/, Tm/e Jf0. 15B/(J/fs/, aMA'Scls 100 The temp setae factorfor 90-C insulation at 55-C le 0.76. The fir fzachfidewMuor C intreealeis1. coneu Theanpxtlly .*(55ACouleesrot toeisdiepmMdofto byte Hamer (1). 5A)multip0ad byte kmperahm lacla (0.76)Nd byte fig laM(1j. 55A X 0.76 X 1=41.BA D. Max Current for Terminal Temp. Rating 35A sap 11R Me been temperature Emil for this ooMudor at an, termination la 75'C. Using to rested specified In]10.14(C),to reseueum.1 Pembed to Nose diet the device kmtal temperature does cot exceed be 75-C raise vvuld be be, amount refeencd In to 75'C mi. in Table 31D.15(BXI6), Micb b 35A E. Minimum Required EGC Size 12 AWG sec Ta!A,23Q 122asd600.I W The.¢fled EGC.im amwedIs 12AWGM OCPD rating 20A acotdig to Table 2WAM Acording b 6W.45(A), it Is cot necessary to increase to size oft. PV greys EGC when on worsas cveszed fa vole]. drop coldd9aEoni NEC Coda Va0da8on Tech System must meet requirements for not having PASS series fuse (690.9(A)) Donated Ampadty must be greater than or equal to PASS the Continuous Current (ANde 100) 41.6A>=IM=hue ConductorAmpzdty must be at least 125%of PASS Continuous Current (215.2(A)(1)) 55A>1M A 1.25=five Maxwmntforte.lnal.ustboatlewtl25%of PASS tie Continuous Cunent (110.14(C)) 3SA>=15AX 1.25 =hue EGC must meet code requirements for minimum PASS size (Table 250.122) 6 AWG>=12 AWG=boa EGC must meet code requirements for physical PASS omhoCtDn(690.46) 6AWG>=6A=-true 22 ft DC Sou1m CIra11h Tlmalaan Boxto lnv& er clionsection PmpMam Conductor BAlffi(3 2C0 EquipmentGrouirdCondustoorEW 12AWGT1 2,Ceper GOMs WA Ras Cable o.75'die. IFNC LawedTenntal Temperable Ratin 90'C MadmumW Tem able 55'0 Pow Source Desorption 3Mngofl58oWEdge P320paea op0m2ere, oath connected to a QPEAK DUO B-K1 315 (31 SNj PVmodule Cunent 15A Vc a 400V hbtlule Seas Fuse Refin 20A Tdd NumberdScres StAn s 12 NEC Code CalculElom A Continuous Current 9A see 690."(5) The continuous current of this sees sting of power optimism is equal Is be rated malmum OUW c oment of t. oplmizer. Rated Mae. OUW C. no of.plindw h 1 M B. Ampadty of Conductor 55A svo Tadb 31015(,(") Arepadly(30'C) for a copper conductr wit We tsuleem In ocoduitcableia65A C. Derated Ampacity of Conductor 33.44A see Ted/.J1015yB/f2)/4. TeMe J/0. 15/B/fi//sl,N A2E/e AV The temperature cation or 90-Clnsubdon at 55-C is 0.76. The 61 factor for acond hiczble dial has 4 cotes Is 0.8. The sel dMated MCoodom of Use Is the Pmdudofthe conductor amp xiby (55A) mugp5e by he temperahae lads (D.76) and by the fig fechc left. SSA X 0.76 X 0.9=3344A D. Max Current for Terminal Temp. Rating 55A see In..f4/C/ The bwesttemperabee INK Minh conductor at my tetmiwtlenis M.D. Using die mated specfied In]f0.14(C), to maWrsm wrest Numbed he on swe that t e dW. bmi nil temperature does not exceed as 90-C ratingcould be the amount referenced In to W-C column in Table 310.15(B)(16), Mich is 55A E. Minimum Required EGC Sae i2 AWG m e Teblo'50. f1'so 690. AS(A/ The s iksd EGC size e0oaed is 12 AWGher OCPD rating 20A assrdngto Table2W.122. Accenting to 690.45(A), it is net roessaryis increase the on of to PV arrays EGC Men conductors are oversized M ale9a crop conitlaa5om. F. Minimum Recommended Conduit Sae 0.75' die. see 30.17 The tow sea of all contlatcrs is 0.173b'. Wit a maximum fig rate of 0.4. to recommended condM demeter is 0.75. G Demi ON Size T Me TdalAma Tes"M 4 C.>1ucM aAWG = Om6an• 2 'mad Geoid 112AM nmmx 100133ni 0.0265r 6 ln,T, 0.1731N10.4=D.43290' (CN Wndbg t a daneterof0.75T NECCadeValldnionTerb System must meet requirements far not having PASS series fuse (690.9(A)) Derated Ampacity, must be greater than or equal to PASS theContinuous Cumnl(MC18100) 33.N, =15A=true Conductor Ampacity, must be at least 125%of PASS Continuous Current(2152(A)(1)) I SSA> 15A x 1.25 =cue Mat current for terminal must be at least 125%of PASS the Continuous Camin. (110.14(C)) 55A>=15AX 125 = true EGC must meet ode requirements for minimum PASS size (Table 250.122) 12AWG>=12AWG=five Conduit must meet code recommendation for PASS minimum size (300.17) 0.751n>=0.75us=hue Ian.-. 2.& #3: ImoMrOutput ImrmtertoACAggnigdlon Pend ClrweSedlan Pmperees C.nduelar 6AWG RM*Z Co E ul ent Ground Conductor ECL I0AWGTHyAN-2,Corp. colorist 60A Face scabs 1•dia UNC I.oweMTemnal Temperabue Rivers 75°C Mazimwn Woe Tem oboe 33•C Povsr Souris Desorption Solar Edge SE10000H-US 10000W Ironer Current 42A Volueso 240V Imenu Max OCPDratin 60A NEC Coda Calaldba A. Continuous Current 42A seaArtzb 100 Equipmentmmbnuma douVdo Mis1X30A=42A B. Ampacity of Conductor 75A see rma9Jm. 15(B)(M) AmPee'M(d0'C)fa acaPps corduMwilh 90°Cfmbb'on In wnduNwbb Is 75A C. Derated Ampacity of Conductor 57.6A see reap af0.1Ne//1//aJ r&M 3to 15(B)(JJ(V,, mMAng* 1W The tempereoee fasts for 90•C Insulation at 33•C Is 0.98. The In faster fer a mnde Veabie mat has 4 sees Is 0.8. 'The ampadty located rer Conditions of Um Is be product of me conductor a pat, (75A) mubAoed by to re"raNe fader (0.96) and byfefigfadar(DS). 75AX0.96XO.8=5].6A D. MaX Current for Terminal Temp. Rating 65A see f1010/CJ The bwsstdmpocahne kft for fie musucdor at eny browses is WC. Using fie metod specified In IIO.14(C), the ma 1. omenspocmided to move far the dorAw In new! teniMahaa does not aimed its 75•C rating would ea Its amountrefaencatl Info 75•C column In Table 310.15(8)(16). shish t 65A E. Minimum Allowed OCPD Rating 52A NEC 690.9(o requires that fie OCPD be abed W no less fan 115 -- timaslheCantlnuouaCurtanloffedrvdit 42A X 115 = 52SA rou ded dw,n to 5M F. Minimum Required EGC Sae 10 AWG sae rearelsafll Re smallest EGC eke a00wed Ia 10 AWG has OCPD lading 60A ascerdIng roc Tabs 250.122. G. Minimum Recommended Conduit Size 1' dia. see J0011 tonsml aeaofa0candudssisOl.1. Wmamatimumfi0�ale of 0.4, fie recammentled candu6dlameter is 1. ON Desm'Sm Iso. T. Area Trial Mea 2 CaducIn, BAWL TIMnt2 0.0366 • O.0133M 2 Neural aAWG TM6M-2 D0363it offObn2 2 1G.ad 1DAWL THrNN3 D.@ IW OUMn' 2 Caducb 6AWG THM42 0050W 0.1016n• B 0.29M 0.29Ina/OA=0.725vA (CanespoMIngf aGmneMo/1� NECCodeVaDdadan Tosb OCPD rating must be at least 125%of Continuous PASS Current(240.4) 60A>=42A X 115 =hue Derated ampacdy must exceed OCPD rating, or PASS rating of next smaller OCPD (24DA(B) and 240.4) sr.sA>=son Med smamr ocPO Rah'ng) =ea, Denpadty oersted Ammust be greater man or equal to PASS me Continuous Cumenl(Aatide IDO) F5] .BA,4M-sue ConductorAmpadty must be at least 125%of PASS Continuous Cement(215.2(A)(1)) 7MA 4Mx 1.25=Sea Ma Max current far terminal must be at least 126%of PASS the CDamuDus Cement (110.14(C)) =hue r EGCmustmeetcoderequuement far minmum PASS size (Table 250.122) 10 AWG >=10 AWG=hue Conduct must meet code recommendationfor PASS minimum size (300.17) 11.>=In. z Iuo 7A, #4: W CUeultChurb Serfoe 8WP9 0utputtoTreneNlon Box Cla:uNSecdon Properd a Conducor IDAWGWW1ra E Iment(iovrd Conehdor GC 6AWOB.,UPW OCPDs WA RNosaamabb Free Ah lmasst Termnul Tempaabee For 75•C _ Madmmn Wee Tem oboe S-c P. Soeca Desolpfi.n ShfgoflOSoia EdgeloMpawxr oP6m r eachcarmedad to O.PEAK DUO 11 115 (315W) PVmoduls Current 15A Vo a and" Noeub Series Fum Paf A TaW NumbocMSenes SW s 2 NEC Cads Cabviatlona A Continuous Current 15A cues 646(A)(5) The contemn orient of f i s Sense string of power opfimkem is equal to To rated maximum outyut current elms cpfimiW Itated Max. Output Cement ofoptimizat is 15A B. Ampacity C of Conductor SSA yes reap Jla 15B1 Ampadly(30•C) tor capper conductor win WC houiation In he air I. SSA C.Derated Ampacity of Conductor 41.8A see reapra 1N8/r1//y, reaAJfo.1sBJPJIJ. m✓Aroep f00 The bmperatere faster for W-C Insulation A 55°C is 0.76. Thefifi fail for conduders In be ah Is 1. The ampadty derated far Conditione of Use is In. oduct of to mndudor amp otty(SSA)muWpIW by the tmPershae faster (0.76)and byte rd factor (1). 55A X 0.76 X 1=41.8A D. Max Current for Terminal Temp. Rating 35A sea lf0. M(C) The revised temperature link or Its, mnducter at any han um seen Is 75•C. Using me mate specified hil10.14(C), the monmen curves permitted s .nsure that Its d.V. terminal dempera0ue does nN eased AS 7SC rubber would be fie amount referenced Inure 75•C sooner In Table 310.15(a)(16), wlech is 35A E. Minimum Required EGC Sae 12 AWG see AsMe 152 122soar 690450) R. Needed EGC size dbaetl is 12 AWG for OCPD rating 20A Seconding to Table 250.121 According to 690.45(A), it is net namssayb Inseam to size.fits, PV am/e EGC Men mnduclon as omrsirstl for voyage drop cowdera5ons NECCodsVaDddienTsals System must meet requirements for nothaInng PASS series fuse (690.9(A)) Derated Ampadly must be greater than or equal to PASS the Continuous Current(Attide 100) 41.11A>=15A=hue ConductorAmpacity must be at least 125%of PASS Continuous Current (215.2(A)(1)) 55A> 15Ax 1.25=hue Max cortentfor terminal must be at least 125%of PASS the Continuous Current (110.14(C)) 35A>=15A X 115 =Ina EGC must meet code requirement for minimum PASS ske (Table 250.122) 6 AWG>=12 AWG =hue EGC must meet code requirement Mr physical P protection (690.46) 6AWG>=6AWG=hue 2i /5: DC Souro® Cimllt TrolnNlon Bolcto hTfulder COae&ction proportion; Candudm 10AWGTNwil.2C err E vi enttrauM COMudm GC MAVVGTNWW2,Cou OCPOs WA Few iCabk 0.75'dia. UNC L stTomimal Temperabeo RaBn M-C Maximum Wm Tom elure 651C Poser Saume Dessip6on Sting of tO Sala Eager P320 poser eIIImR95. BN11 COMeL10a fe a O.PW DUO BUKt 315(315M "Module cmrem 15A Va a 400V 6bdub Beres.R FuIn 20A Total Numberaf Sedan Stir a 12 NEC Code Calculations A Continuous Current 15A see 690.6(A/(6/ The continuous mannerist Vecands string of power optimizers is equal W Ne Mae maxMwn oNpulament oline opE'mixer. Rated Max. Output Cumemdoptimizer is 15A B. Ampacity of Conductor 40A see 7.*NOJ5/6//16/ Amp.*(30'C)fvempWer ue# W-Ch.M, In mnduiDonble Is 40A S.Deraled Ampacity of Conductor 24.32A e Te07e J10. 15(B)/1/!U. 7e J10.15fB/fl/(,/, xxxf tla f00 Thetmperaturefadesfv90°Ch IAMffi55'Cis0.76. The fiIfwarforawnduft ble Nathas4whex Is0.6. Theampaiyd%atedforC MOMof U.ISti pmtluGat Na cnductor ampxAy (4DA) multiplex! by to bmperffive lad. (0.76) and by Nefafagor(D.8), 40AX0.76X0.8=24.32A i D. Max Current for Terminal Temp. Rating 40A see ffa M(C) The bleat tmperature Imit for this mMuctor ffi my twou a ion is W.C. Using to metotl spedfied In IID.14(C), to maximum current fremNted to mmm that to device term e.1h am erabue does not exceed as W-C mtingsouMbe Neamounlreferenmdln Ne9ll•CwM in Tffib - 310.15(B)(16), Mid, a 40A. E. Minimum Required EGC Sae 12 AWG see Moll, 160.122orf6AJ. (V The walked EGC Sze effused V 12 AWG fan OCPDrating M aaroNing U Table 250.122. Aging to 69D.45(A), fix not necessary In Wives. to size of Me fW mays EGC Men rand eci are oversized fv while bop considerations. F. Minimum Recommended Conduit Size 0.75' dia. see J00.17 The total.... A conductors is 0.1266W. Wit a maximum filrate of 0.4, to recommended conduit creaser is 035. on nosmno, fib. TYPeDreg Tdaaaa 4 C Ld r 2- TMM1 0.0211m' .L. 2 Equa.1G,nand ItOAWG lmMWN2 OM11M o.0122M 6 0.1,51; 0.126 W10.4=0.31UW (Cortespandmg to a diameter of 0.751 NEC Code Va➢ eM n Teals System must meet requirements for not having PASS series fuse (690.9(A)) Derated Ampaciy, must be greater than or equal to PASS the Ccntinuous Cument(Main 1DO) 24.3M, 15A=he Conductor Am pady must be at least 125%of PASS Continuous Current (215.2(A)(1)) 40 15AX 125=hue Max cunenlfor terminal must be at least 125% of PASS the Continuous Current (110.14(C)). 40A s=15A X 1.25 =hue EGC Must most code requirements for minimum PASS Stan (Table 250.122) l0AWG>=12AWG=hue 51 Conduit must meet code recommendation for PASS minimum sae (300.17) 0.75h J=0.75h, wor 20. 96: 1111relfaz0uO t IlnertertoACAggseWon Panel CimueeedWnpmpedkt Candudm 8AVVGTKWWZCcpar E u' .m GM rd CondxA. 10 AWG Tt 2 Copper OCPO s 40A passnowmabl. Vdia.L C LoveriTamunal Temperature Ratln 75°C - Maxna.W.Tem ature 330C PosenSour.Oesrslption Solar Edge SIFAMW-US7600W Imo er Ceres 32A Voa a 240V Inverter Mae OCPD .tin 40A NEC Code Calaktlomi A Continuous Current 32A seeAtir/e 1LV Equipmenlmadmum rateaaulputvereffiis 1 X 30A=32A B.Ampacityof Conductor 55A see Te4k Jf0. x./ j16/ Ampa*(M'C)forampWwndw s 90'Cm.Uam In conduitoebk n55A C. Derated Ampacity of Conductor 42.24A see TeMe JI0. 16fB/(7/fU. Teb(e 310. 15fg1fJ/(s). mMAZfle f00 Tha temperature teal. TQ BO°C Nwfa6m ffi 33°C la 0.98. The6fffxbtara condo Th Ctl Natbas4vdrasla0a. e enpaiy semted tar Ca Waona of use Ia No protlun of Na oonaudma byrDS(55A)muitipged bylhe Nmperatae teal. (0.96)end Ne fi0laiorw (0.8). 55AX0.98X0.8=4224A D. Max Current for Terminal Temp. Rating 50A see f10, f4/C/ The blest N. owdsae land fast. conductor ffi amy bmuf anti. is 75'C. Using the moved specified In 110.14(C),Ne maximum s mentpeMitled t0 mama that Ne dad. tamm al lempemtere does not exceed ifs 75'C rating soda be flw amwm rehrenced in No 75°C mMmm m Table 310.15(8)(18), sfddr is WA. F Mnimum Atiowed OCPDRating 40A e2Qa NEC M.9(B)recfinsthffiftOCPDWratedfvmie.Mm 125 times Ne far W ours docent of Ma mcuiL 32AX 125=WA F. Minimum Required EGC S¢e 10 AWG .,coo rae�zsa122 The enrolled EGC abbe aMAed is 10 AWG for OCM,knol QUA aarorcmgloTableM.122. G. Minimum Recommended Conduit Size 1' dia. see J0RI7 Themt4aeao(affwndUM omin•.WNamadm=fdreteofO.4. Nerecommendedcersh ldlemteris1. D Oemi fie Bbe TYPs Me TotalAea z CaMudn BAWD THWRY2 0.036an' 0.0mn' 2 Neutral BAWG 11RYN3 )WRE ' 00raiM 2 Gmmd tOAWG 11MR}2 oxiiial 0.04b 2 CarfixM BAWD TNWf12 0.0501re 0.10V& 9 O'9 0.2W1 DA- 0.`%t5io` (Oweei to a diameter of 11 NECCodeValldalbnTeols OCPD fabg must be at least 125%ofComb nueus PASS Cunenl(240.4) 40A>=32AX 125=sue Dented ampacity must exceed OCPD rating, or PASS rating of next smaller OCPD (240.4) I 4224A r= 40A (OCP D Ra8n A = hs Donated Ampacity must be greater than Or ¢��alk PASS the Continuous Current (Article 100) 472,10=Mmmie ConductorAmpaciy must be at least 125%of PASS Continuous Conant(215.2(A)(1)) MA>32AX125=ha Ma current for terminal must be at least 125%of PASS Ne Continuous Current (I 10.14(C)) Wn S ,32AXta=hue a EGC must meet code requirements for minimum PASS sae (Table 250.122) 10 AWG I=10 AWG =Mae Conduit must meet code recommended ter PASS minimum size (300.17) 1N.» tin.=he C •T__ "vsu�:fp. -as•` r. �Ty;+eTv a�ne. 27, p: Combined Output of Imfertas: AC Aggregetlon Panel to Utlllty Dbgonned ChouRSmtlan properees LaMudar 3AWG iNW1,-2 Co ui antGrourN Cmduclor EGC 8AWG TNw012 Co "Dist WA Racowz )Cable 1' dia IFNC lowestTsmnl Tempvaesa Ratio 75'C Madman Woe Tem aeae 33-C Paws Sosce Desoription 23ola EdggeimaRas wI50OCega aPEAx DUO BLI(1.531531 s Cunent TM Vora,. 240V NEC Code Calculdluu A. Continuous Current 74A seoActs,Aw Equipmenlmaalmum rand eutyutamerd is 2 X 42A=74A B. Ampacity of Conductor 115A see leAb M. 15(B)(16/ AmPadtylat'C)MacoppacoMudsxilh at•C ssontim in cslduNcable n 1150. C. Derated Ampacity of Conductor 110.4A ses Able $10.15(B/(1)(s). 7ed/e 310. J5(B/p/(eJ, mMA1CHe 100 The tempaahaefxtor is W-C hsulxtion m33'C Need. The fig fadorfs a wnLftabb Mathas2 wheals 1. The moastdoraled ter CaMiEons of Use Is to p Wuctof to amducer ampaclty (115A) mat ipliad by Me temperama facer (0.96) andbytxffl Wx(1f 11MXO.96X1=110.M D. Max Current for Terminal Temp. Rating 100A see 1fa M(y The boast nmpsabse Smit fro ibis conductor at any tam i noon is 75-C. Udrg to mellod spoalled 1,11DAsic), to mmI. amendpemutled to answe M90a device terms.] benperahse does not exceed es 75-C rating would bs the concert relu me ed in Bat 75-C cobam in Table 31 D.15(B)(16), Mach Is 100A E Minimum Alowed OCPD Rating 92A ee....4 NEC 690.9(B)catseeth.t Me OCPD be and form less Man 125. Casslea CmNmmuaCw mF-.of to ruait 74AX125=925A.ndeadownn9M F. Minimum Required EGG Size B AWG see 7abA,ZM 111 The saneness EGC size anneal Is 8AWG for OCP9 rating 100A aaordsg to Table250.122 G. Minimum Recommended Conduit Size 1' dia. see J0011 The ldalaea ofa ccroudomis 0.3131ac. Wits a maximum fill rxlo of 0.4, Me recommendedmndatdimatals 1. Q1, Doom dm Sbe Too Neat Tdxlaea 2 Catluces 3AWG JTH 0,4673W 0.1945m' 1 Neutral - 4A- THr1M-2 p-41 o.092din• 1 'fired Gwmtl 9AlAG TINNNZ o.03E6in' boaaw 4 0.31361V a313M'/OA=0.704n'(CaespmdirgnadE m WoftT NEC CodeVaBddlan Tem OCPD rating must be at least 125%BfContinuous PASS Cunnt(240.4) INA>=7MX 125=gas Gamed ampadlymust exceed OCPD rating,or PASS rating of next mma08rOCPD (240.4) 110AA >=10M(OCPU na Wg) =true Derated Ampacity must be gmater than or equal to PASS the Continuous Current (Article 1DO) 110.4A>-T' hue Conductor Ampacity, must be at least 125%of PASS Continuous Cement(215.2(A)(1)) 115A>7Mx125=hue Max cement for terminal must be at least 125%of PASS the Continuous Cunent (110.14(C)) 1O A>=7MX125 =hue EGG must meet code requirements for minimum PASS size (Table 250.122) I O AWG >=8AWG=hue Conduit must anaat a de recommendation rer PASS minimum a" (300.17) 11 .>- Ih- bus 28, /b: UNUty Dbwnned Oufprk UtUtly Ubwnmetto Main SmW co Pend ClaultBeNon Properties cmducxr 3AWG TH 2 comes, E menitrouM Contluda EGC 8AWGTNWN2Co OCPD, 10I RacowafCahb Vdm. LFNC Lowest TamNal Tempaaere Kati 75'C Madman Wee Tem ahwe 33-C Power Source Oesaiption 2Sola Edge svanawl50 aCe8a aPEAI( DUO BU45 315 (315MS Clarets 7M VoM a 240V NEC Cadre Calalstions A Continuous Current 74A seeMmle to Equipment maximum rated output amend is 2 X 4M = 74A B. Ampaaty of Conductor 115A see TWb, 3M 15(BJ(16J Ampadty(at'C)far a copper conducbr wits W-C msulaten s condantableis115A C. Dented Ampadty of Conductor 110.4A see 1sG/e 3A215(e/(2)(e), 7aMe 3W.. 15(B)(J)(5s, aalAefx.'1s 1W R. to mpaalao facer tor g0'C sea nfion a 1.0IS 0'N The fill factor for a condui leabb Mat has 2odes is 1. The anpaaty dsantl MCmdaons of Use Isbee p Aact of Me conducicr m audy (I I M) multlp0ed by the terawahee fatter (a.%) andby MefiOnda(1} 115A X 0.96 X 1=110.M DMads Current far Terminal Temp. Rating 100A rem 11¢ fe(c1 The bwedtonamatre fimit W Mis connector #any iaminecon is 75'C. Usbg to meMod speed d in 110.14(C). Me maximsn anrentpm pled to ensure Mal the device nimmal tempera0se does not... 8s 75-C rating would be one amount referenced in Me 75-C colism in Table 310.159(161. Mich Is 100A E Minimum Allowed OCPD Rating 92A sse204 _ NEC 690.9(B) mquhes Mat to OCPD berated loan lass Mar 10 time s Ma Continuous Csrent of Me drail 74AX 125 a925A reached dose to 92A F. Minimum Required EGG Size 8 AWG me Te b250W The smalled EGC size aerwed is 8AWG rat CCPD rating )DOA managing n Table 25DAM G. Minimum Recommended Conduit Size 1' dia. eo3, 1 The tatal man of ao conductors is 0.3136in'. WM a maximum fig ran of 0.4. the recommended coMut diameter is 1. Dasm' fion sea T Area Tda Aea 2 Cool 3AWG iHNM-2 00971el 0.19aW 1 Neutral 4AWG iFfYM-2 00a24M 0.0824uO 1 rfmad aAM itMR42 ro36Ge 0636ar1 4 o.emn, 0.313(le/0.4 a 0.784E (ConsponGng no adiamxnrof 11 NEC Code Vandalism Tesb OCPD rating must beat least 125%of Continuous PASS Cunent(240.4) 1aA1=74AX 125=hue Damned ampadly must exceed OCPD rating. or PASS rating of next smaOerOCPD (240.4) 110.4A>= late (CCPD bating) =tine Dermal Ampa* must be greater than or equalM PASS the Continuous Came at (Article 100) 110.4A>=74A=hue Conductor Ampacity must be at least 125%of PASS Continuous Current (215.2(A)(1)) /15A>74Ax1.25=hue Max arrentorterminalmuslbeatleast125%of PASS Me Continuous Cunent (110.14(C)) 1014>=74AXt25 =he EGC mustmeelade requirements formMimum PASS see (Table 250.122) 1 8AWG>=8AWG=hue Corded must meet ade recommendation far PASS minimumsae(300.17) I us. >=1ut=hue The new Q.PEAK DUO BLK-05 solar module from Q CELLS impresses with its outstanding visual appearance and particularly high performance on a small surface thanks to the innovative Q.ANTUM DUO Technology. Q.ANTUM's world -record -holding cell concept has now been combined with state-of-the-art circuitry half cells and a six-busbar design, thus achieving outstanding performance under real conditions - both with low -intensity solar radiation as well as on hot, clear summer days. Q O.ANTUM TECHNOLOGY: LOW LEVEUIED COST OF ELECTRICITY Higher yield per surface area, lower BOS costs, higher power classes, and an efficiency rate of up to 19.3%. ,8j INNOVATIVE ALL-WEATHER TECHNOLOGY 7illiOptimal yields, whatever the weather with excellent low -light and temperature behavior. a ENDURING HIGH PERFORMANCE Long-term yield security with Anti LID Technology, Anti PID Technology', Hot -Spot Protect and Traceable Duality Tra.QTMt. AEXTREME WEATHER RATING f High-tech aluminum alloy frame, certified for high snow 1 (5400 Pal and wind loads(4000 Pal regarding l EC. ® A RELIABLE INVESTMENT Inclusive 12-year.product warranty and25-year linear performance guarantee'. STATE OF THE ART MODULE TECHNOLOGY O.ANTUM DUO combines cutting edge cell separation and innovative wiring with Q.ANTUM Technology. THE IDEAL SOLUTION FOR- ®amvn maWom 'aM,MNWarrnp Engineered in Germany goEUS 2018 puYav T•sr•a mer[� .e y�or3 ID. a011a]SB] r Afn tent CBlWf1m. a[toNin8W I EMS 62804-1f3015, method B (-1500V, ISO N1 e Sea date zMet on agar, In lumber mfommetion. O CEIIS MECHANICAL SPECIFICATION TO. 66.3in x 39.4in x Liam(indWing frame) (1685mm x ICCOmm x 32mm) v..l _ Weigle WeICM 413In(3.2 -e .•.us L V+y y„ O ❑ \�H\ti�,.vC mm) n 0.131n(3.2mml tM1ermal IY PrcoUezz[E glas win anlLrenenian lec6nnlow Ba[Y Comer Composite flm Erwe Blafk anodized aluminum Call x20 monrcry[tallina 6MITUM wlarpall<ellz 6x20 hection Eee 2.]63.351nx1.9]-2.I6rrt.Os1-0.S31n p085mm x 56]Omm x 13 2IMM1, decen mlieee, IP6] Cal 4mmp 6aLu mEle;G)xC33In (1100mmI�(-Ix0.i.3in (S1Wmm1 �F,adti erTfll°'• u Cpwepn Multi-Contnt MPR, INS ELECTRICAL CHARACTERISTICS nNERCIA35 300 305 310 315 320 MWLWM PERmPMPNCFAT STARODA0TES1 COMMONS. San' MGM TOLERANCE 45W ]-0W) Newai NPR' P_ IWI 300 San 310 315 320 Stmlelwteunmt' le W 9.72 9.78 9.83 9.89 9.94 Open tYu;HVOHaee' V• M 39M 39.75 M.02 40.29 A0.56 Z N[ema NPP 16 GI 9.25 9.31 9.36 9.41 9.47 VNtpgN% V•. M 32,43 32.78 33.12 33.46 3380 EXI[4op' n I%1 xl].8 x18.1 i,18R 218.7 x19.0 MONICA PERnetun CE AT NORMAL OPERATING COMITIONs, NM01' proton an MPP pen. m 224.1 227.8 231.6 235.3 239.1 F� shancircuHhnem Ix lu 7.83 7.88 7s2 ]s] 8.01 5€ Open c'vavHVOHage V. M 37.15 37.40 3].fi6 3L91 38.V Cm[enlnt NPP I• DO 7.28 1.32 ].3] 7.41 7R5 VNtageMMpP V- M 30.78 31.11 31R4 31.76 32.08 tourramn Pn•13%;Ix.V.15%nSa41000W.TV,2512'C. AMISO :rnniM of No 60p00.3 'Bltl WMt, NaO µown AM 1.56 OCFILS P(AFOAMM[f WMRAMTI • ��r.�••� - [� • • nal i�.`�i�v.�� • Karratual AT WON STADIA o-1 ex:n ._T i Y At mid 96%of.1.1 pwinr.ea g Yr. _ effi93i ul.Ixol wmiml m�'+Pml0yee2 ' 411effi35%ol mminY �� 1 - pwnupm25Ynrf. r : r r � I F.nlad.i iaamewwxtn menxtntr ImaWN ucMls,maRM;ialalpyo:,r msPn minlry Tinned dm.pen morn maeo lw ima iv[euxau., in [apol to 3TCtm... 125'C. I San.%. TEMRAATURE COE{{ICIEMn RmpemWCBeRlciemol4 a M/R] 40.04 Temperame cwplavar aV• P 1%/in -0.28 iempetaYee eoeai[leM el P., V 1%/in -0.37 Nm 4en SMMIeT�eW NMU M 109 A 5.4(43 e3S) PROPERTIES FOR SYSTEM DESIGN Naels®sWteMVnLLzp Vim, M load IEC)11000 mU sadly Clm, II tlaeln®Sad•, Ner RatinP_ _ U,,, 20 IT. RaW3 CVEC)/TYPE IIUU Ma al alone. PAN, Nil per froapi ]5(36DO Pal 155(266]Pa) Pe;mroe6mo6efelemporml [onllna EUO -40'F up W R1857 (-43-C up to WSTI Mo. Ten load," IPUo("F Soull 113(5400 Pal /8414W0NO ne metallation manual INFORMATIONQUALIFICATIONS AND CERTIFICATES PACKAGING VL 1703; VIDE(Amfr Testmr CE`omounl; Ranpn 0 MWnln per Palln32 tEC 612152016; 1061730:MI6. Mpliwtrc[Im A opera M parer per SY Taller 30 DVE C C / SBposim Al PareMproaarmncopeewhNer 26 :u Pa.. omemlom(l x W x in 69.3 in x A5.3in x4.9in :.•.a (Heater x I150mm x it. mm) paid welCM 1a15mz(6azxy x 01n II� 1. tmmd). Mq be Re.6n me 1".aMo[aatw menuat orcomes leNmm-it.e¢pvtmem earaWb NfmnWM m wW[we Ir¢hYtlimWIw W OWN po]ucL Xmea RCREZMeea Me. 300Spann.1... 0ule 125p. Wln, ox 92618, USA I M+194171859961 CA MAL uiryDua.9<ellecom I WM•e Oodb.ue 1 t3$On_ »i6 Cla( C" a k' S T �ys ay v bm"1 11 rj a,n4 i<'qT 1 Power Optimizer For North America P320 / P340 / P370 / P400 / P405 / P505 2A5 WARRANTY I ' PV power optimization at the module -level MO sO 1M I u� N X / 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 am fault- - - — — / Mitigates all types of module mismatch lasses, protection (AFCp and Photovoltaic Rapid Shutdown System (PVRSS) from manufacturing tolerance to partial shading / Module -level voltage shutdown for installer / Flexible system design for maximum space and firefighter safety utilization / Power Optimizer For North America P320 / P340 / P370 / P400 / P405 / P505 INPUT R.MpmoCPnm'P 320 M 370 AD <M vS µ AbseMe Maimrm Npur ]t3n9e 0bcn bxm rawre) a8 CO W ll50 83m Wr MPP30rentlrg Barge 8-A8 8-0 a-80 125-I0 Ii.S-03 W[ Maimum Sort GrtuRCuren b0 11 101 14 Mc M oC Npe Current Li.JS 12.63 175 PE[ M"hnumum EMtle 995 % WAgMeC FFtlenry 9fl8 9fl6 % WenoM1a9e4[ p RISTALIATION SPECTR[ TIONS M 1_mMavetl Syiem Wh e 1000 W[ Comrywe Merters MSOWEEge9rgk PRatt vd ibtt PluSe Yxertes pimerdorelW vtvp 129v152v28/5v59Ja L1 12aa152142 ]28 w15E v50/ Sa 59]v1@ sv 59]v 06 128v14�59/ SV S9]a 1.32 mm/In W'M(ttLCi Wes) 630/1,4 ]50/1.] US/19 M/2.3 r/b DPAG eGar MGm 0=p Wee Type/C or ooubk4wlatetl; MC< O .Wie Le 095/3.0 1]/39 m/h Npu[ Wse LergN 016/0.52 m/R OperaM1g YmpnmreRmge K0--85/-W--US T/T P .n Ra FW/NEMAEF Rd. H 0.10D % eiE�mir�rertlrme.+"9„J�.oe�:���°m�m:e°'w maa�arm.a ramr solaredge.com solar a • = CC RoHS E:T•N Powering Business Woridwlde General Duty Cartridge Fuse Safety Switch DG223NRB UPC:782113144252 Dimensions: • Height: 7IN • Length: 6.42 IN • Width: 8.82 IN Weight:9 LB Notes:Maximum 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: Tw.o-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 pe.eaton.com Product compliance: No Data © 2016 Eaton. All rights reserved. Single Phase Inverter with HD -Wave Technology for North America SE3000H-US / SE380OH-US / SE5000H-US / SE6000H-US / ' SE7600H-US / SE10000H-US / SE11400H-US I sees Does i r 0 t' Ilk Optimized installation with HD -Wave technology Z m m / Specifically designed to work with / Extremely small power optimizers Record -breaking efficiency / Built-in module-leveLmonitoring — — — -- — — / Fixed voltage inverter for longer strings / Outdoor and indoor installation / Integrated arc fault protection and rapid shutdown for / Optional: Revenue grade data, ANSI C7210 NEC 2014 and 2017, per article 690.11 and 690.12 Class 0.5 (0.S%accuracy) / UL7741 SA certified, for CPUC Rule 21 grid compliance solaredge.corn solar - • e 1 / Single Phase Inverters—=' Wit HD -Wave Technology for North America SE3000H-US / SE380OH-US / SE5000H-US / SE6000H-US/ -I SE7600H-US / SE10000H-US / SE11400H-US OUTPUT 3e03@24 Pa:tlAC Poor QM1prt 3W] w SCOJ 6oaa@zaw ]i0 IOHIO loco ez4w VA 33W @209V 5[M2 208V CCfA®209V Minimum ACPoMerOu'pN 3W0 3&0@2aw Sro] 6CW @29w 7� ICON IMOJ@2dw VA 33W@AOV 5[N@M9V LVLO@ZOBV ACCVIpN Whale MirtilomMaz J all-z4o�zw1 J J 5'a� AC OagN Wlta3e Min-NomMaz J (183.ID9.2ry) _ _ _ _ Vac AC FrewPrcv P+anma0 593 W.605n Hz Cwrclnaars P/.ryt 125 a 21 25 32 42 Current C $71 A ffi Cor2c.. Qnpn CnuoN CUMn@LOSV GfOlThmbb 1 A WKy Mantmrq l9aMLg Pmten'cry Coun4y Canigurabk Yes lMy1J]s' — ;INPUT Mary OC Nwzr OZWV .50 550J MD ORO IIOW ISSW 11650 w .-KC @z[¢V - s" ma SSW w RenAgme TP UrgqunEN 14s Marimun NpullWtaae 490 wW NOINnaIOCInpNN4U]P sic dX) Nk M.Wix nn tcxWnt@240M fly as 13.5 I65 20 27 305 mW Manmum lnpNCuiren[@208`R 9 1}5 P Pdc M.N'.S c'—ftcu—t 45 Mc r,W PoNnry Pros . I45 GrtunE faWllYNtm Otta:bn GWFn SensXNly MmYnumlmeMEfi[rtrcy 93 93.2 % <ECwe 9MM Fficenry 99 @240V 85@200 g Nlg6tine hwerCmsumption <35 W AC OryNCmEUR $'ue/AWG y4•rrin0yrn/W6AWG 3/1'mnlrrum M-4AWG OCNpf. UirinS¢e/P Nieirg/ AWGN 3/4'minnnum/1-2 anrgs/14d AWG 3/4'mlNmum/1-3 mugs/N-6AWG OlmenurnswF.F Sahry SwdcM1 M+WmI 9.7 e N 6 x 6 a 1450 z 370. 1. 2L3 r 146 z 73/ MO z 370 v US k/ WegMwRli yk[y SviW 22/10 25111LA ( 262/119 380/26 C/19 Nd <25 <50 dM crony N .A CO. Owa6gT perawm Paige J0m+WO/-25WI6 r-IOT/-IPC pION' 'F/'C fttt on Fiat, NFMAU0m'erterw SaW Sw" =pn waynrti,ss 1y Ee .0 10rtam•eeni nnwo.rwum:nFerand rm. sF�x-usmorvrv¢ a� M•� • w.a<. aP,..g mm�� nro m wwn..waa•evvemm/xreae�r.�a+iaw...�ws..«, • p.ro.Pm su®x.Nmoxxw °n.."ftlpw...r, �°cw.:.`..sinx6....o.auwa>mnwnn r.+remnv....a...ti.•a�••a..a..araserw.u..mFv,.u..0 •-r-...�,W.r,m,M.m�p.pr<V..we.P.gr.n,..m ROHS /Tlr IRONRIDGE Built for solar's toughest roofs. Flush Mount System _XR Rails(D Iron Ridge 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 flashings, and is also why our products are fully certified, code compliant and backed by a 25-year warranty. Strength Tested PE Certified All components evaluated for superior ® Pre -stamped engineering letters structural performance. available in most states. -©Class A Fire Rating Design Assistant Certified to maintain the fire resistance ® Online software makes it simple to rating of the existing roof. create, share, and price projects. XR10 Rail G XR100 Rail XR1000 Rail Banded Splices L - - `_ _ ` - - Aiw ,A_ A low -profile mounfng rail The ultimate residential A heavyweight mounting All rails use internal splices for regions with fight snow. solar mounting rail. rail for commercial projects. for seamless connections. • 6'spanning capability • 8'spanning capability 12'spanning capability Self -drilling screws • Moderate load capability Heavy load capability Extreme load capability Varying versions for rails • Clear and black finish Clear and black finish Clear anodized finish Forms secure bonding Clamps & Grounding E) UFOs Stopper Sleeves CAMO Grounding Lugs i— Universal Fastening Objects Snap onto the UFO to turn Bond modules to rails while Connect arrays to bond modules to rails. Into a bonded end clamp. staying completely hidden. equipment ground. • Fully assembled & lobed Bonds modules to rails Universal endtarn clamp Low profile • Single, universal size Sized to match modules Tool -less installation • Single tool installation • Clear and black finish Clear and black finish Fully assembled Mounts in any direction — Attachments 0 RashFaot,2 J Conduit Mourn Slotted L-Feet Bonding Hardware Flash and mount XR Rails with superior waterproofing. Twist-odCap eases Install • Wind -driven rain tested • Mill and black finish — Resources Flash and mount mnduit, strut, or junction boxes. • Twist -on Cap eases install • Wind -driven rain tested • Secures Y,"or 1"mnduil Dmp-in design for rapid rail anachment. • Secure rail connections • Slot for vedicaladjusfng • Clear and black finish Bond and attach XR Rails to roof attachments. • T & Square Bolt options • Nut uses 7/16'socket • Assembled and lubricated 4.Design Assistant, NASCEP Certified Training ® UL 2703 Listed System + 25-Year Warranty _ _ Go from cough layout to fully NABS Earn free continuing education credits, ® Entire system and components meet 'I' Products guaranteed to be free engineeretl system. For free., while reaming more about our systems. newest effective UL 2703 standard. of impairing defects. Go to ImnRidge.com/design Go to ImnRidge.com/training 1 F� O i01H WnflWHe•Nrs All rIVMa,gerva6 eS HWenLs e40BH]B0: rejlB.Wl'rB�BHe,H]@ OMers Vxtl1,q. Venlon 1.I4 /lam I RON RI DGE 1495 Zephyr Avenue Hayward, CA 94544 17-9523 ImnpidgnRitlge.wm Attn: Corey Geiger, COO, IrenRidge Inc. Date: September 7-, 2018 Re: Structural 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 moftop 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 secumd to the rails with IronRidge mounting clamps. 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 requimments of the reference standards listed below, for the load conditions and configurations tabulated in the attached span tables. ASCE/SEI 7-10 Minimum Design Loads for Buildings and Other Structures (ASCE 7-10) 2015 International Building Code (IBC-2015) Flodda Building Code 6aEdidon (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, met Zones 1, 2 & 3, and roof slopes from 0e to 45e. The span tables are applicable provided that the fallowing 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 root surface and horizontal plane, is 45° or less. 3. The mean too height, defined as the average of the roof save height and the root ddge 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 48'. 5. All Flush Mount components shall be installed in a professional workmanlike manner per IronRidge's Flush Mount instal/anon manual and other applicable standards for general roof construction practice.----- -- 0201e ImnRldge, Inc. FL Flush Mount Syrtem coruscation Lane,-1 /lr IRONRIDGE 1495 Zephyr Avenue Hayeard, CA 94544 1-600-227-9523 ImnRidge.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 mot attachments, PV modules, or the underlying roof supporting members. It is the responsibility of the Installer or system designer to verify the struchWral capacity and adequacy of the aforementioned system components in regards to the applied or resultant loads of any chosen army configuration. Sincerely, Gang Xuan, PE, LEED AP Senior Structural Engineer 02018lo nRidge, Inc. FL Fluee Mount Sp era CeNficaeon Letter-4 /lr IRONRIDGE Background All roofing products are tested and classified for their ability to resist fire. Recently, these fire resistance standards were expanded to include solar equipment as part of the roof system. Specifically, this requires the modules, mounting hardware and roof covering to be tested together as a system to ensure they achieve the same fire rating as the original roof covering. These new requirements are being adopted throughout the country in 2016. IronRidge Certification IronRidge was the first company to receive a Class A Fire Rating —the highest possible rating —from Intertek Group plc., a Nationally Recognized Testing Laboratory. IronRidge Flush Mount and Tilt Mount Systems were tested on sloped and flat roofs in accordance with the new UL 1703 & UL 2703 test standards. The testing evaluated the system's ability to resist game spread, burning material and structural damage to the roof. Refer to the table below to determine the requirements for achieving a Class A Fire Rating on your next project. Tech Brie/ Class A Fire Rating Test Setup Solar Modules Solar modules are given atype classification based an their matedals am consWdlon. Mounting System Mounting is tested as partof a system that lneWes type -tested modules and fire -rated roof covedrg. Raaf Cavedng Roof covering products are given a Fire class Rating of A. B or d based an their leaned fire resistance. Bathing Brand Test igm A burning wooden block is placed on module as a Can blows at 12 mph. Flame cannot be seen on underside of roof wtam fig minutes. Spread of Flame Ties iA_,T000or Flame at southern edge of roof is aimed up the roof as a fan blows at 12 mph. The game cannot spread 6 feet or more in 10 minutes. - - Flush Mount i� Any Slope Type 1, 2, & 3 Class A Tilt Mount ,aay s 6 Degrees Type 1, 2, & 3 Class A Frequently Asked Questions What is a'module type'? The new UL1703 standard introduces the concept of a PV module type, based on 4 construction parameters and 2 fire performance parameters. The purpose of this classification is to certify mounting systems without needing to test it with every module. What roofing materials are covered? All fire rated roofing materials are covered within this certification including composition shingle, clay and cement tile, metal, and membrane roofs. What if I have a Class C met, but the jurisdiction now requires Class A or B? Generally, older roofs will typically b t'grandfathered In', and will not require re -roofing. However, if 50%or more of the roofing material is replaced for the solar Installation the code requirement will be enforced. Where is the new fire rating requirement code listed? 20121BC: 1609.7.2 Fie classification. Rooftop mounted photovoltaic systems shall have the same fire classification as the roof assembly required by Section 1505. Where is a Class A Fire Rating required? The general requirement for roofing systems in the IBC refers to a Class C fire rating. Class A or B is required for areas such as Wildland Urban Interface areas (WUI) and for very high fire severity areas. Many of these areas are found throughout the western United States. California has the most Class A and B roof fire rating requirements, due to wild fire ooncems. Are standard mid clamps covered? Mid clamps and end clamps are considered part of the PV'system', and are covered in the certification. — More Resources Installation Manuals Visit our website for manuals that include UL 2703 Listing and Fire Rating Classification. Go to IronRidge.com What attachments and flashings are deemed compatible with Class A? _�-.'•'1 Attachments and their respective flashings are not q Ems.. constituents of the rating at this time. All code -compliant flashing methods are acceptable from afire rating standpoint. t __— t C<i What mounting height is acceptable? UL fire testing was performed with a gap of 5', which is considered worst case in the standard. Therefore, the rating is applicable to any module to roof gap. Am I required to Install skirting to meet the fire cede? No, IronRidge achieved a Class Afire rating without any additional racking components. Lmqv What determines Fire Classification? aka Fire Classification refers to a fire -resistance rating system for roof covering materials based on their ability to withstand fire exposure. Class A - effective against severe fire exposure _ Class B - effective against moderate fire exposure Class C - effective against light fire exposure What If the root covering Is not Class A rated? The IronRidge Class A rating will not diminish the fire rating of the roof, whether Class A, B, or C. _ _ n What tilts Is the tilt mount system fire rated for? The tilt mount system is rated for 1 degrees and up and any roof to module gap, or mounting height Engineering Certification Letters We offer complete engineering resources and pre -stamped certification letters. Go to InonRoge.com Balldlr Rod-, Inc. M rights msemod Walt w Immldge.com orcall l d W,eats for more Wormatlon:vmlon 120 FRAMELESS MODULE KITS Insert Frameless Kt T-bolt in top rail slot. Place star washer over T-bolt, allowing it to rest on top of rail. Secure module clamps with a hex nut and torque to 80 in-lbs. 0 Tested orevoluated module damps: • Sunforaon sliver or black SFS CI 200(6) mid ark SFS U7EGN()gi) and clamps. • seaplane silver or black mid and end clamps xdM part numbers 7500105X where -X- Is 1, 5, 6 or 7. • lmnNdga silver or black mid and eM clamps with Pad number. FM XC-001-Y where'%" Is E or M aM'Y' Is a or blank V Fail. module maref.M.na's lninalf. on Instructions to Install them.dul.darn's. 9 Frameless modules napalm using a Grounding Wg on every mil. For unpmme Modulo.only: If rwlubed to use slide prexamion hardeners, see Module Slide Prevention Addendum (Version 1.10). sm. survmb� F-wwwmn � teona6l \\ 0aNni �'aPL MODULE COMPATIBILITY 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, ')OW refers to the module power rating and both black and silver frames are included in the certification. Amensalar Amedsolar modules with 35, 40 and 50 ram frames AS-bYxXxZ Where °b° can be 5 or e; °r can be M. P. M27, P27, M30, or P30; "xm' is the module power rating; and "Z" can be blank. W or WS Asbonergy modules with 30, 35. 40 and 45 moo frames aaSMbbyyClzz-m Where'aa' can be CH or Astronergy Solar AI "bb' can be 60, 66. or 72;'yy' can be blank, 10 or 12; "C" can M, P, M(BL), M-HC, M(BLI-HC, P-HC, (DG), or (OGT);'zi can be blank, HV, F-B, or F-BH ; and'Xm' is the module power rating Asbonergy frameless modules CHSM6610PGG)-xxx Where')W Is the module power rating Auxin Auxin modules with 40 mm frames AXN6y6zAxxx Where °Y can be M or P;'z' can be 08, 09, 10. 11. or 12;'A' can be F or T, and'mf is the module power rating A) tec Motlules with 35 antl 40 moo framesAGxxxY/aaZZb Where'xm• is the module power rating; "Y" AXitec can be M. P Or MH; "Be can be blank, 125-or 156-;'ZZ' can be 64. 60, 7Z 120, or 144;'W can be S or SB Soviet Soviet modules with 40mm frames BVM66aaYY-xla Whereas- can be 9, 10 or 12; "Yr is M or P; and ScW is the module power rating _ BYD Where'1oo` is the motlule power rating;'Y' can be M, P or MH;'aa" can be blank, 125-or 156-; "ZZ" can be 54. 60. 72.120, or 144; "b' can be S or SB Canadian Solar modules with 30, 35 and 40 mm frames CSbY-xxxZ Where "b' can be 1, 3 or 6; °r can be H. K P. U. V. W or X; "mX° refers to the module powarrating; and-Z' can be M, P. MS; PX ,MSD, Canadian Solar - P-AG,-P-SD[ MB-AG,-PB-AG, MS -AG, or MS -SD Canadian Solar frameless modules CSbY-xxx-Z Vvhere "b° can be 3 or 6;'Y' Is K, P. U, or X;'=' is the module power rating, and',' can be M-FG. MS-FG, P-FG, MB-FG, or PB-FG CedainTeed CenainTeed modules with 35 and 40 frames CTxmYZZ-AA Where'xxx' is the module power rating;"r can be M, P or HO;'ZP can be 00,01, 10, or 11; and 'AA' can be 01. 02. 03 or 04 CSUN Calm modules with 35 and 40 ram frames YYmx-zzAbb Where -Yr is CSUN or SST; loot is Ole module power rating:'ze is blank, 60, or 72; and *A* is blank, P Or M;'bb' is blank, BB, BW, or ROOF Ecosolargy modules with 35, 40 and 50 ram frames ECOxxxYzzA-bbD Where'Xm' is the module power Ecosolargy rating: *Y" can be A,H,S,orT,-ze can be 125 or 156;-W can be Mor P;"bb- can be 60 or 7Z and'D" can be blank or B MODULE Er Solar modules with 35, 40 and 50 moo frames ET-Y6ZZxxkAA Where'r can be P, L. or M;'ZZ' ET Solar can be 60 or 72; -)W refers to the module power rating; and'AAW ' can be WB, W , BB, WBG, W WG, W WRAC, WBCO, NCO, W WSCO or BBAC Flex modules with 35, 40 and 50 ram frames and model Identifier FXS-MYY-ZZ; where'na' Is the Flex module power rating:'Yr can be BB or BC; and •ZZ' can be MAAI B, MAAI W MASI W, SAAI B. SAAI W SAC1B, SACI W SAD1 W SBA1 B, SBA7 W, SBCIB, or SBCI W GCL GCL modules with 35 mm and 40 mm frames GCL.a6/YY xxx Where 'a'can be M or P;-YY'can be 60, 7Z or 72H; and xm is the module power rating GigaWah Solar GigawaO modules with 40 min frames GWxxxYY Where'== refers to the module power rating; and 'Yr can be either PB or MB Hansol Hansol modules with 35 and 40 frames HSxtaYY-7z Where Sam• Is the module power ratng;'YY' can be PB, PD, PE, TB. TD, US, UD, or UE; and "zz" can be AN1, AN3, AN4, HV1, or JH2 Hanwha Solar Hanwha Solar modules with 40. 45 and 50 mm frames HSIaaPO-YY-1-naZ Where 'so- can be either 60 or 72; "Yr can be PA or PS; "xxV refers to the module power rating; and'r can be blank or B Hanwha O CELLS Modules with 32, 35. 40 and 42mm frames and model Identifier aaYY-ZZ.m where 'as" 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. G4, G4.1, L-GZ L-132.3, L-G3, L-G3.1, L-G3g L-G4, L-04.2, L-G4S LG4.2fTAA, Hanwha O CELLS BFR-G3, BLK-G3, BFRG3.1, BLK-G3.1, BFR-G4, BF8G4.1, BFR G4.3, BLK-G4.1, G4/8C, G4.1/SC, G4.1/rAA, G4.1/MAX, BFR Ed.IIIAA, BFR (34.1/MAX, BLK G4.1?AA, BLK G4.1ISC, EC-G4.4, G5, BLK-G5, L-G5, L-G5.1, L-GS2, L-G5.2M, L-G5.3, G6, G6+, BLK-G6, L-G6, L-G6.1, L-G6.Z L-G6.3, G7, BLK-G6+, BLK-G7, G7.Z G8, BLK-Ge, GB+, BLK-GB+L-G7, L-G7.1, L-G7.2, LG7.3, L-G8, L-GS.1, L-G8.2, or LG8.3; and Soa' is the module power rating Helena Heliene modules with 40 moo frames YYZZna Where'YY" can be 36. 60. 72, or 96;'ZZ' can be M. P. Or MBLK; and'xxx" is the module power rating HTSAAE FIT-SAAE modules with 40 ram frames HT72-156Z-xxx Where "T can be M. P. M-C, P-C, MIS), M(VS), M(V), PM. M(%O-C, PM-C; and "xm' is the module power rating Hyundai modules with 33. 35. 40 and SO moo frames HiY-SxxxZZ Where')(' can be A, M or S; ')W Hyundai refers to the module power rating; and'ZZ' can be HG, HI, KI, MI, MF MG, RI, RG(BF), RG(SK), SG, TI, or TG Itek hek Modules with 40 and 50 mm frames fir-xxx-YY Where•xvW is the module power rating; and'YY' can be blank, HE, or BE, or SE72 JA Solar modules with 35, 40 and 45 mm frames JAyyzz-bbww-mv/aa Where W can be M. P. M6 or JA Solar P6;'zf can be blank, (K), (L), (R), M. (BK), (FA), (TG), (FA)(R), (L)(BK), (L)(TG), (R)(SK), (R)(rG), M(BK), (BK)(rG), or (L)(BK)(TG); -bb' can be 48, 60. or 72; "ww" can be Sol. $02. SO3. 509. or SI0; "na is the module power rating; and 'as' can be MP, SI, SC, PR, 3BB, 4BB, 4BB/R E, 5BB Jinko modules with 35 and 40 mm frames JKMYwaZZ-aa Where 'Y' can either be blank or S;'xxX• is Jinko the module power rating; "ZZ' can be P. PP, M; and "as" can be blank, 60. BOB. 60H. 60L 60BL 60HL. 60HBL, 60J4, 60BJ4, 60B-EP, 60(Plus), 60-V, 6GMX, 72, 72-V, 72H-V 72L-V, 72HL-V or 72-MX Jinko frameless modules JKMxxxPP-DV Where ')W is the module power rating Kyocera Motlules with 46mm frames KYmxZZ-AA Where'Y' can be D or U; "xxx• is the module power Kyocera rating;'ZZ' can be blank, GX, or SX; and RAA" can be IPU, LFU, UPU, LPS, 1-PB, LFB, LFBS, LFB2, LPSZ 3AC, 3BC, 3FC, 4AC, 48F, 4FC, 4UC, SAO, SBC, SFC, SUC, 68C, 6FC, BBC, 6MCA, or 6MPA LG modules with 35. 40 and 46 moo frames LGxxxYaZ-bb Where'voce is the module power rating; -Y• LG can be A.E,N.0.S;'a•can be l or 2;'Z'can be C.K,T. or W; and%b• can be A3, A5. B3. G3, G4, K4, or VS Longs modules with 30.35 and 40 mm frames LRa.YYZZ-=M Where'a' can be 4 or 6;'Yr can be Longi blank, 60 or 72; "ZZ" can be blank, BK. BP, HV, PB, PE, PH, HBD, HPB, or HPH;'xxie is the module Power rating Mission Solar modules with 40 moo frames MSEbbmxMa Where'bb' can be blank or BOA; "xm" Is the Mission Solar module power rating;'ZZ" can be blank, MM. BE. SO or SO, and 'as" can be blank, 1J. 4J. 4S, SK, ST. 6J. 6S, 6W, 8K, 8T or 9S MitsuNshi Mitsubishi modules with 46 mm frames PV.MYY=(ZZ Where"Yr can be LE or JE; ma is the module power ratng; and 2Z' can be either HD, HD2, or FS dA��aas S; il9kC� Zf •.yi1, mom+ -3C L1ySs;4: 6� 7. c. s�17a' MODULE/�� Motech IM and XS series modules with 40, 45 and 50 mm frames Neo Solar Power modules with 35 mm frames D6YmZZaa Where'Y' can be M or P; m is the Nee Solar Power module power rating;'ZZ° can be B3A, 134A, E3A, E4A, H3A, H4A; and *so* can be Wank, (TF), ME or ME (TF) Panasonic modules with 35 and 40 mm frames BHN)YYzzA Where')' refers to me module Panasonic power rating; -YY' can be either KA. SA or ZA;'zz" can be either 01. 02. 03. 04. 06, 068. 11, 11 B, 15, 158, 16, 168, 17. or 18; and -A- can be blank,,-E or G Peimar Peimar modules with 40 mm frames SGmY22 Where')' is the module power rating; "Y' can be M or P; and'z' can be blank, (BF), or (FS) Phone Solar Phone Solar modules with 35.40 and 45 mm frames PSmY-ZZIA Where =refers to the module power ming; "Y° can be M or P; 'Zr can be 20 or 24; and -A-can be F, T or U Prism Solar Prism Solarframeless modules BIYY-mBSTC Where'YY' can be 48, 60. 605, 72 or72S; and "W is the module power rating REC modules with 30, 38 and 45 mm frames RECmYYZZ More',cW Is the module power REC Solar - rating;'YY' can be AA, M. NP, PE, PE72, TP, TP2, TP2M; TP2SM, or TP2S; and'ZZ' can be blank, Black. BLK, BLK2, SLV, or 72 - ReneSola modules with 35, 40 and 50 mm frames JClootY-ZZ Where "loon° refers to the module Renescla power rating; "Y' can be F. M or S; and "ZZ" can be Ab, Ab-b, Abh, Abh-b, Abv, Abv-b, Ble, Blob, Bbh, Bbh-b, Bbv, Bbv-b, Do, or Db-b Renogy Renogy Modules with 40 and 50 mm frames RNG-)Y Where "xxe Is the module power rating; and °Y" can be D or P Risen Modules with 35 and 40 mm frames RSMyy-6-mr72 Where °yy' can be 60 or 72;')W is the Risen module power rating; and'ZZ' can be M or P Frameless modules RSMyy-6-mZZ Where °yy' can be 60 or 72; °m° is the module power rating; and'ZZ" can be MOG or PDG S-Energy S-Energy modules with 40 frames SN)KZZ Where'm' is the module power rating;'Y' can be M or P; and -= can be 10, or 15 Seraphim Energy Group Seraphim modules with 35 and 40 mm frames SEG-6YY.=,ZZ Where'YY° can be MA, MB, PA, or PB; )' Is the module power rating; and °ZZ" can be BB, SIN, WB or W W Seraphim USA Seraphim modules with 40 and 50 mm frames SRP-)-6YY Mere')w is the module power -Yr rating; and can be MA, MB, PA. PB, OA-XX-XX, and CB-XX.XX Sharp Sharp modules with 35 and 40 mm frames NUYYm Where "YY' can be SA or SC; and "m° is the module power rating SJfab Sillab Modules with 38 mm frames SYY.Z.m Where -YY° can be SA or LA; SG or LG; °Z° can be M. P. or X; and "m' Is the module power rating Solaria Solaria modules with 40 mm frames PowerXT mY.ZZ Where')° is the module power rating; °Y' can be R or C; and 'Zr can be AC, BD, BX, BY, PD, PX, PZ, WX or WZ Solarcity Solaro ry modules with 40 m n frames SC)YY Where')' is the module power rating; and'YY° can be blank. B7 or B2 SolarTech SolarTech modules with 42 mm frames STU-mYY Where'). is the module power rating; and °YY° can be PERC or HJT SolarWodtl AG y SclarWodd Sunmodule Plus, Protect, Bisun, XI, Bisun XL may be followed by mono, poly, duo, Industries GmbH black,bk, or clear; modules with 31. 33 or 46 mm frames SW-m Where')' is the module power rating SolarWodd Americas Inc. SolanNodd Sunmodule Plus, Protect, Bisun, XL, Bisun XL may be followed by mono, poly. duo, black, bk, or clear; modules with 33 mm frames SWA-m Where')" is the module power rating Scion Scan Thin film modules with 35 ram frames STO-m or STO-mA Thin film frameless modules STL-) or STL-mA Where')" is the module power rating SunEdlwn Modules with 35. 40 and 50 mm frames SE-YmZABCDE Where'Y' can be B, F. H. P. SunEdison R. or Z;'1 refers to the module power rating; °Z"can be 0 or 4;'A" can be B,C,D,E,H,I,J,K,L,M, or N ; °B" can be B or W. °C" can be A or C;'D' can be 3, 7, 8, or 9; and'E" can be 0, 1 or 2 MODULECOMPATIBILITY Suniva modules with 35. 38. 40, 46 and 50 mm frames OPT=-AA-B-YYY-Z MVXm-AA-B-YYY-Z Suniva Wlere'wrz' is the module power rating; 'AA°Is either 60 or 72; !B' is either 4 or 5;'yyY°is either 100, 101,700,1 DO, or 1Bi; and'Z' is blank or B Sunpower standard (G3 or G4) or InftlMount (G5) 40 and 46 mm frames SPR-Mb m-YY Where Sunpower 'Z' Is either A, E, P or X;'b' can be blank, 17. 18, 19, 20, 21, or 2 ;'m' Is the module power rating and 'YY' can be blank. BLK, COM, C-AC, D-AC, E-AC, G-AQ BLK-C.AC, or BLK-D-AC Sunpreme Sunpreme frameless modules GXB-mYY Where'roo' is the module power rating; and 'Yy'can be blank or SL Sunspark Sunspark modules with 40 ram frames SYY-uZ Wlere'YY' can be MX or Sr,,'tooe is the module power rating; and'T can be P or W Suntech Vd. Vem, Wdb, Wde, and Wd series modules with 35,40 and 50 mm frames Talesun Talesun modules with 35 and 40 frames TP6yyZoa-A Mere'yy' can be 60, 72. H60 or H72; can be M, or P;"=x is the module power rating; and can be blank; B. or Trim Modules with 30, 35, 40 and 46mm frames TSM-mYYZZ Where')" is the module power rating; "YY' can be DD05, DD06, DE14, DE75, DEG15. PA05, PCOS, PD05, P0O6, PA14, PC14. PD14,PEI4, or PE15; and'ZZ" can be blank. .05, 08.10,.18.08D,. 180. 0.82, .00Z .00S. 055, Tnna 08S,A,A.05,A.08,A.10.A.18.A(IQ,A.05(II),A.08(II),A.082(1%A.10(II), A.1 B(II), H. Hill), HAS(II), H.08(II), HC.20(II), HC.20(I)), or M Frameless modules TSM-mYY Where-YY" can be either DEGS(Ip, DEG5.07(h). DEG5.40(I1), DEG5.47(II), DEG14(II), DEG14C(II), DEG14C.07(II), DEG14.40(II), PEGS, PEGS 07, PEG5.40, PEG5.47, PEG14, or PEG14.40 Vikram solar modules with 40 mm frames Syy.ZZ.AAA.bb Where'yy° can be M, P, MBS, MH, MS, Ykram , or PBB;'ZZ' can be 60 or 72; 'AAA' is the module power rating; and °bb° can be 03.04 or 05 05 Wnalco Wnaico modules with 35 and 40 mm frames Wsywx (i Where can be either P or T')Doe is the module power rating; and -z' can be either M or P Yingli Panda, YGE and YGE-U series modules with 35. 40 and 50 mm frames SoWFootTM Mounting for Exposed Fastener Roofing -- The SolarFoot is a simple, cost-effective pedestal for L-Foot (not included) 'SOlarFdOtYAdVAta§es:: attachment of rail -mounted solar PV. The unique design is compatible with - Fxptd fastenerounting osem; , Fat all rail producer L-Foot components. The new SolarFoot assembly ensures a LL Fn`-platform Poi solar ysattached]' '' IVW �'grds q durable weatheNght solution for the life of the root Special factory applied Weath r rooPattacMmentto tiuryl co -polymeric sealant contained in a reservoir is The Bight Way, allowing a c %e Pwe-nt`� exoAfa>[en�eoofing per,: water-testedseal. Stainless integrated stud and hex flange lock -nut secure the L-Foot Into position.A low center of gravity reduces the moment arm commonl .B tylysseeal treSe r mvldaryTN-„ y Jung;termwaterp- associated with L-Foot attachments. Direct attachment of the SolarFoot to the - 'MA�255X diY tudw1" Meese stmctumlmemberordeckprovidesunparalleledholdingstrength.e •rpnmm sdesrnamMy. r�rme, qPa vanes mu, mbstmm epataa s-sr m nw. ro vadlaM mnmen p,mpetmn wrmrremrn t-roo)arsa sdeseyvutey. 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