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HomeMy WebLinkAboutSITE PLAN-PROJECT SUMMARYDIRECTORY OF PAGES PV-1 PROJECTSUMMARY PV-2 SITE PLAN PV-3 SINGLE-LNE DIAGRAM PV4 SAFETY LABELS PV5.1 ATTACHMENT PLAN 5.1 PV5.2 ATTACHMENT PLAN 5.2 PV-6 ATTACHMENT DETAILS PV-7 FIRE SAFETY PLAN X Z a Q ELECTRICAL CALCULATIONS MODULE DATASHEET OPTIMIZER DATASHEET INVERTER DATASHEET MOUNTING SYSTEM DATASHEET MOUNTIN3 SYSTEM ENGINEERING LETTER UL 1703 CLASS A FIRE CERTIFICATION ANCHOR DATASHEET PROJECT DETAILS PROPERTY OWNER MICHAEL ARCHER PROPERTY ADDRESS 7805 PACIFIC AVE, FORT PIERCE, FL 34951 US ASSESSOR'S PARCEL NUMBER ZONING RESIDENTIAL USE AND OCCUPANCY CLASSIFICATION ONE- OR TWO-FAMILY DWELLING GROUP (GROUP R3) PERMITTING AUTHORITY COUNTY OF ST. LUCIE UTILITY COMPANY FLORIDA POWER & LIGHT CO METER SERIAL NUMBER NEC VERSION 2011 NEC (NFPA 70) FIRE CODE 2015 NFPA 1 CONTRACTOR INFORMATION COMPANY LONE WOLF BATTERY AND SOLAR LICENSE NUMBER CBC1251588 (EC13008003) ADDRESS 921 E PARKER ST, :LAKELAND, FL 33801 PHONE NUMBER (352) 942-1221 CONTRACTOR SIGNATURE ICJ �c Ave Pacific Ave Pacific Ave Pacific Ave Pacific ... = -. _. _ -_. _ • - ... _ _ _ 1;taP data M018 Goog'a 1 PLOT PV-1 SCALE: NTS � N We .' � 1 1 Florida Ridgep tncGeu rzfvEs Ala„ e; a �' • " s�R V 8, ea h dam; A an6 fo [ Prerce >�n i a - t �l rid !Z i` Wltrocd *f f 1$ a c Ava ova ra i,7 U& rh, *`*c`P QE Tr,easure:Coa I interif5tionai� ��� t � �,` �s' I Air oR ) r r Business Paris Uvc" r,� Iv+ ,,avyDT E�tuse to • .k '� y. IIi s- -- was '.; V otaQ,''filBGogg?e' 2 LOCALE PV-1 SCALE: NTS ST.LUCIE COUNTY PLAN REVIEW BLDG: DATE: d` I — / -� PLUMB: DATE: MECH: DATE: j RECEIVED JAN 31 2918 t-ucie countyr Pormitting SCOPE OF WORK THIS PROJECT INVOLVES THE INSTALLATION OF SOLAR PANELS. THE SOLAR PANELS WILL BE RACKED USING A PREENGINEERED RACKING SYSTEM. THE RACKED MODULES WILL BE ELECTRICALLY CONNECTED WITH DC TO AC POWER INVERTERS AND INTERCONNECTED TO THE LOCAL UTILITY USING MEANS AND METHODS CONSISTENT WITH THE RULES ENFORCED BY THE LOCAL UTILITY AND PERMITTING JURISDICTION. THIS DOCUMENT HAS BEEN PREPARED FOR THE PURPOSE OF DESCRIBING THE DESIGN OF A PROPOSED PHOTOVOLTAIC POWER SYSTEM WITH ENOUGH DETAIL TO DEMONSTRATE COMPLIANCE WITH APPLICABLE CODES AND REGULATIONS. THE DOCUMENT SHALL NOT BE RELIED UPON AS A SUBSTITUTE FOR FOLLOWING MANUFACTURER INSTALLATION INSTRUCTIONS. CONTRACTOR SHALL INSTALL EQUIPMENT IN ACCORDANCE WITH MANUFACTURER INSTRUCTIONS AND NOTHING IN THIS DOCUMENT SHALL BE INTERPRETED IN A WAY THAT OVERRIDES THEM. CONTRACTOR IS RESPONSIBLE FOR VERIFICATION OF ALL CONDITIONS, DIMENSIONS, AND DETAILS IN THIS DOCUMENT. SYSTEM DETAILS DESCRIPTION NEW GRID -INTERACTIVE PHOTOVOLTAIC SYSTEM WITH NO BATTERY STORAGE DC RATING OF SYSTEM 11,6B5W AC RATING OF SYSTEM 11,400W AC OUTPUT CURRENT 47.5A INVERTER(S) 1 X SOLAR EDGE SE11400A•US MODULE AXITECAC-285M1156.60S ARRAY WIRING 1 STRING OF 11 �21 STRINGS OF 15 INTERCONNECTION DETAILS POINT OF CONNECTION NEW SUPPLY SIDE AC CONNECTION PER NEC ARTICLE 705.12(A) UTILITY SERVICE 1201240V 14) SOLAR DISCONNECT EATON DG222NRB , 2-POLE, 60A, 240VAC SITE DETAILS ASHRAE EXTREME LOW 0"C (32•F) ASHRAE 2% HIGH 33•C (91•F) CLIMATE DATA SOURCE VERO EACH MUNICIPAL AIRPORT WIND SPEED 160 MPH (ASCE7-10) RISK CATEGORY 11 WIND EXPOSURE CATEGORY ,GROUNDS OW LOAD LLI H } Co iw LLI O a. 0 CA 0 LLI • ENE Wp�� Q mgllFq � SDa,P L!i LLI QM J CU L- LL LLI EL LLii O CO O LL PROJECT PV-1 a P-80435 _.. _.. . # �' i § < .r. •�e r .�; W OV a p W a W a- W SITE NOTES (AN))RPAROPOSED ROOF -MOUNTED PHOTOVOLTAIC Y. S (BLACK 112 PITCHED 31 d O FRAME, 3WHITE BACKSHEET), 269A MODULES W P: 0 o a 00 O u' (N) PROPOSED ROOF -MOUNTED PHOTOVOLTAIC 1 SITE PLAN AERIAL VIE O ARRAY. 3/12 PITCHED ROOF,10 PV MODULES (BLACK FRAME, WHITE BACKSHEET), 89" AZIMUTH PV-2 SCALE:1" = 20' SITE PLAN PROJECT ID:60435 DATE:1/30/18 CREATED BY: J. . CHECKED BY: REVISIONS PV-2 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 RELATED EQUIPMENT, CABLES, ADDITIONAL CONDUITS, 3 BOXES, RACEWAYS, AND OTHER ACCESSORIES NECESSARY FOR A COMPLETE AND OPERATIONAL PV SYSTEM. THE SYSTEM SHALL COMPLY WITH NEC ARTICLE 690, 4 ALL MANUFACTURERS LISTING AND INSTALLATION INSTRUCTIONS, AND THE RELEVANT CODES AS SPECIFIED BY THE AUTHORITY HAVING JURISDICTION'S (AHJ) APPLICABLE CODES. WHERE DC PV SOURCE OR DC PV OUTPUT CIRCUITS ARE RUN INSIDE THE BUILDING, THEY SHALL BE 5 CONTAINED IN METAL RACEWAYS, TYPE MC METAL - 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). MODULE MODULES TIMI2ER REF. QTY. MAIDEANDMODEL PAV PTC LSC IMP VOC VLlP TEMP. COEFF. OF VOC FUSERATING PM141 41 AXRECAG28SWISS605 285W 261W 9.68A 9.OBA 39.8V 31.6V -0.119VPC(-0.3 m 15A PM141 I 1 1 285W I161N I ISIN I11IN �� 1STR�ING 'STRING STRING ^Q C1 3 XINVERTER / 11 n,40OW r _-- 4 IACDISCONN L--� SW1 BOA I 5 F1-2 BOA r-� S SOA I 6 AC SERMCEDISCONNECT GEC AND MAIN MST. PANEL (200A MSP W1200A MBR) KWHR UTILITY METER 240112OV 14, 3W INVERTERS OTM MAKEANDMODEL ACVOLTAGE I GROUND I MAXOCPDRATING RATEDPOWER MMOUTPUTCURRENT MAXWWGULLET MAXINPUTVOLTAGE CECWEIGHTEDEFFICIENCY 11 1 1 1 SOLAR EDGE SE114W"S(MM I 240V IFLOATING1 BOA 11,40OW 47SA 34SA DXN 975.E POWER OPTIMIZERS REF. CITY. MODEL RATEDINPUTPOWER MAX OUTPUFCUFIRENT MAX DIM ISO 1 MAXDCVOLTAGE WEIGHTED EFFlCIFNCY P0141 1 41 1 SOLAR EDGE P330 1 306w I 10.0A I 49V I988% DISCONNECTS OCPDS REF. OTY. NAKEANDMDDEL RATEDCURRENT MAXRATEDVIXTAGE REF. OTY. RATED CURRENT MAX VOLTAGE SW1 1 EATONDG222URB OR EQW. E.210VAC F1-2 2 BOA 210VAC Ismi 1 I EATONDGZOM OREQUN. SIR 1240VAC SYSTEM SUMMARY NOTES STPo5A STRNOtl2 STRINGW OUTPUT CURRENT 15A 15A 15A QIMPACTED THE OUTPUT VOLTAGE OF THE POWER OPTIMIZERS ARE REGULATED BY THE INVERTER THEY ARE NOT ES 16 15 11 BYTHE NUMBER OF MODULESIN THE STRING. THE CON INOUS CURRENT OF A SINGLE STRING IS EQUAL TOTHE MAXIMUM OUTUT CURRENT OF THE OPTIMIZER. VOLTAGE FACCURRENT 359V 359V 350V G CURRENT 12TA 12.2A 9A R 11,665W 8690.12(2014). THE SOLAR EDGE INVERTER IS EQUIPPEDWTH A RAPID SHUTDOWN FEATUREWNCH CONFORMS TO NEC WHICH R T 10,689W 48A REQUIRES THAT A RAPID SHUTDOWN FEATURE EXISTSTO DEe4ERGIZE PVSOURCE CIRCUITS FROM ALL SOURCES TO LESS THAN 30 VOLTS WITHIN 10 SECONDS. 11,400W 7ED(CEC)ACPOWER 101286W THE SPECIFIED OPINIMCAN BESUBSTRUTED WTHAP400, P405,P320, OR PM. THESE OPTNMRS HAVE ® AN INPUT VOLTAGE WINDOWWIDE ENOUGH TO ACCOMMODATE THE OUTPUTVOLTAGE RANGE OFTHE MODULE ATTHE DESIGN TEMPERATURES, HAVEAMAX INPUT CURRENT RATINGTHATIS ABOVE THE MAXOTPUT CURRENT OF THE MODULE, ANDA MAXPONFRINPUTTHAT IS ABOVE THE RATED POWER OUTPUT OF THE MODULE A UNGROUNDED SYSTEM DC CONDUCTORS SHALL BE COLOR -CODED AS FOLLOWS. DC POSITIVE SHALL BE RED (OR MARLED RED) AND DC NEGATIVE SNAIL BE BLACK (OR MARKED BLACK) ®DCVOLTAGE RANGE OFTHEARRAYIS REGULATED BY WISCIMANDWRL BE CONSTANT AT 350V. MAXDC VOLTAGE OF THE PVMODULE IS EXPECTED TO BE 4nVAT 0-C (O'C-25'C) X-0.119VIC -3S5SV=42EV). ® THE SOLAR EDGE INVERTER IS NON4SOLATED. NEITHER THE NEGATIVE NOR POSITIVE CONDUCTOR IS GROUNDED AND THEREFORE NO OC DEC IS REQUIRED. 6 INTEGRATED DC DISCONNECT IS PROVIDED WITH INVERTER. DISCONNECT IS LISTED FOR USE WITH SOLAR EDGE UL 1741 LISTED STRING INVERTERS ® PVSYSTEM PONT-DFCONNECTION IS ON THE SUPPLY SIDE OF SERVICE DISCONNECT. CONDUCTOR AND CONDUIT SCHEDULE WIELECTRICAL CALCULATIONS CURRENT-CARRWN TEMP. CORK CONDUITRLL CONE. MAX CURRENT BASE DERATED TOUTE. IIPFACTOR AMP.LENGTH VOLTAGE TYPICAL CONDUCTOR CONDUIT GCONWD rz CONDUIT OCPD EGC FACTOR CURRENT (125%) AMP. AMP. RATING TERMINAL DROP 1 2 10AWGPVWRE, FREEAIR WA WA 6AWGBARE, 076(55-C) 1.0 15A 18.75A 55A 41.8A 75-C SOA S6FT 1.04% COPPER COPPER 2 1 10AWGPVWARE, FREE AIR WA WA 6AWO BARE, 0.76(65-C) 1D 15A 18.75A 554 41.8A 751C 50A 72FT 0.77% COPPER COPPER 3 1 3AWG THWN-; 1'OIA. EMT 2 WA 10AWGTNWN-Z 0.76(53-C) 1.0 45A 56.26A 115A 07.AA 751C 109A SOFT 0.32% COPPER COPPER 4 1 6AWO THWIN-; 0.75'DIA.EMT 2 WA 10AWGTHWN-; 0.76(53-C) 1.0 47,5A 59.37A 75A 57A 751C 65A 10FT 0.19% COPPER COPPER 5 1 6AWG THY,N-2, 0.7S DI0. ENi 2 WA 10 AWG THW Z 0.78 (53'C) 1.0 47.5A SB37A 75A 57A 75'C 65A LOFT 0.19% COPPER COPPER 6 1 GAWGTHYN 2, 0.7S DIA EMT 2 WAX2 'UAWGTMWN-; 076(53-C) 1.0 4T.SA 59.37A 75A 57A 75-C 65A LOFT 0.19% COPPER COPPER 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. 3 GROUNDING SYSTEM COMPONENTS SHALL BE LISTED FOR THEIR PURPOSE IF THE EXISTING MAIN SERVICE PANEL DOES NOT HAVE A 4 VERIFIABLE GROUNDING ELECTRODE, IT IS THE CONTRACTOR'S RESPONSIBILITY TO INSTALL A SUPPLEMENTAL GROUNDING ELECTRODE. AC SYSTEM GROUNDING ELECTRODE CONDUCTOR (GEC) 5 SHALL BE A MINIMUM SIZE #8AWG WHEN INSULATED, #6AWG IF BARE WIRE. EQUIPMENT GROUNDING CONDUCTORS SHALL BE SIZED 6 ACCORDING TO NEC ARTICLE 690.45, AND BE A MINIMUM OF #10AWG WHEN NOT EXPOSED TO DAMAGE, AND #6AWG SHALL BE USED WHEN EXPOSED TO DAMAGE GROUNDING AND BONDING CONDUCTORS, IF INSULATED, 7 SHALL BE COLOR CODED GREEN, OR MARKED GREEN IF #4AWG OR LARGER SINGLE -LINE DIAGRAM PV-3 SCALE: NTS THIS DO W MENT HAS BEEN CFFATED FOR THE PURPOSE OF DESCRIBING THE DESIGN OF A PROPOSED PHOTOVOLTAIC POWER SYSTEM WRN ENOUGH DEAL TO DENGVSTPATE COMB W RGE NTM ALLAPRIUBLE CODES AND REGULATION& THE D0.10@RT 91GLLD NOT BE RS IEO UPON AS A SUBSTOUIE FOR FOLLOA4NG MANUFACTURER INSTALLATION WSUALS. INSTALLER SHALL INSTALL ALLEOUIPMENT IN AMMANCE WITH MW UFACTURFR INSTALLATION MANUALS. NOTHING 94 THIS OONMENT SHOULD BE NTERPREIED IN A WAYTRR OVERRIDES THE INSTRUCTIONS IN MANUFACTURER INSTALLATION MANIALS. C W H U3 w W C) _j O co m w CD P-80435 o L) �ITfBY & 6ii C" Q J U L �— LjL U Q � C3- C co ti O U- SINGLE-LINE DIAGRAM PROJECT ID: 80435 DATE: 01130118 CREATED BY: J.M. CHECKED BY: REVISIONS PM DC RACEWAYS O SEE NOTE NO. 4 (DC RACEWAYS) O POINT -OF -INTERCONNECTION OR AT MAIN SERVICE DISCONNECT (UTIUTY METER) LABELING NOTES P-80435 OALL PLAQUES AND SIGNAGE REQUIRED BY 2011 NEC I CAUTION WILL BE INSTALLED AS REQUIRED. POWER TO THIS BU)U]ING IS ALSO FROM ROOF MOUNTED SOLAR ARRAYS WITH SAFETY A PERMANENT PLAQUE OR DIRECTORY SHALL BE , Cl - STRING COMBINER INSTALLED PROVIDING THE LOCATION OF THE SERVICE MODEL NOT SPECIFIED) WARNING PHOTOVOLTAIC POWER SOURCE 2 DISCONNECTING MEANS AND THE PHOTOVOLTAIC SYSTEM DISCONNECTING MEANS IF NOT IN THE SAME LOCATION IN COMPLIANCE WITH NEC 690.56(B). NEC ARTICLE 690.31(G)(3) AND IFC 605.11.1 N WHERE THE INVERTERS ARE REMOTELY LOCATED FROM EACH OTHER, A DIRECTORY IN SHALL BE III- INVERTER AT EACH DISCONNECTING MEANS FOR INSTALLED AT EACH DC PHOTOVOLTAIC SYSTEM W O DISCONNECTING MEANS, AT EACH AC IS CONNECTING f - SOLAR EDGE SE1 t400A UB PHOTOVOLTAIC EQUIPMENT (C1,11) 3 MEANS, AND AT THE MAIN SERVICE DISCONNECTING MEANS SHOWING THE LOCATION OF ALL AC AND DC O O O WARHI 1 PHOTOVOLTAIC SYSTEM DISCONNECTING MEANS IN j Lo THE BUILDING, IN ACCORDANCE WITH NEC 690.4(H) LJ �. T S T ! 3 BO71 L AND • ARRAY LABELS) WITH MARKING 'WARNING: PHOTOVOLTAIC W M SW1- DISCONNECT f ' LOAD SIDi S MAY B - G DIN TH OP N�; POWER SOURCE' SHALL BE LOCATED EVERY 10 FEET Q EATON DG222URB V POSiT OF EACH DC RACEWAY AND WITHIN ONE FOOT OF O O O O EVERY TURN OR BEND AND WITHIN ONE FOOT ABOVE p 5 6 7 8 NEC ARTICLE 690.17(4) )- L� AND BELOW ALL PENETRATIONS OF ROORCEILING a ILU ASSEMBLIES, WALLS AND BARRIERS. AT EACH DEVICE WHERE ENERGIZED, 3 UNGROUNDED CIRCUITS MAY BE EXPOSED THE LABEL SHALL HAVE 318 TALL LETTERS AND BE SW2 - DISCONNECT O � a W EATON DG222NRB DURING SERVICE. (C7,11) REFLECTIVE WITH WHITE TEXT ON A RED BACKGROUND O O O O LABELS WITH MARKING'PHOTOVOLTAICSYSTEM 0 p 5 6 7 8 WARM G I EQUIPP�D co LECTRK SH THL DC WITH RAPID SHUTDOWN ° SHALL BE LOCATED POINT -OF- 0 ti G C-TORS T1tlS PHO OU NC SYSTEM 5 INTERCONNECTION OR AT MAIN SERVICE DISCONNECT W O UTILITY METER E GROUNDED ANO MAWBE[EIRER THE LABEL SHALL HAVE 318° TALL LETTERS AND BE F- 7O gO NEC ARTICLE 690.35(F) NEC ARTICLE 69o.56(B) REFLECTIVE WITH WHITE TEXT ON A RED BACKGROUND 0 ODC DISCONNECT (It) O SEE NOTE NO.5 (SW1, SW2) O AC DISCONNECT (SW1, SW2) NEC ARTICLE 690M OANY AC ELECTRICAL PANEL THAT IS FED BY 7 BOTH THE UTILITY AND THE PHOTOVOLTAIC SYSTEM (SW1, SW2, UTILITY METER) I W INIG I UAL S C S EONASOUR- PHOTO A1G YST6M. NEC 705.12(D)(4) j PHOTOVOLTAIC SYSTEI MAXIMJMACOPERATINGCU:RRENT475A WITH RAPID SHUTMAXIMUM AC OPERATING VOLTAGE- 240V OS AC SOLAR DISCONNECT (SW1, SW2) PHOTOVOLTAIC DISCONNECT NEC ARTICLE 690A4(C)(2) SAFETY LABELS PV204 ROOF PROPERTIES ROOF MATERIAL COMPOSITION SHINGLE (1 LAYER) SLOPE 3H2 (14.0°) MEAN ROOF HEIGHT 11.9FT DECK SHEATHIKG 7116' OR THICKER OSB OR PLYWOOD CONSTRUCTION TRUSSES (2X4 TOP -CHORD), 241N OC P-80435 RIDGE w U) W Lo � � M W 0 c V— L U U a _w In a- 00 w ~ O EAVE ILL 1 ATTACHMENT PLAN OBLIQUE PROJECTION CD V 5.1 SCALE: 3/16' =1' ATTACHMENT PROJECT ID:80435 DATE:1/3018 CREATED BY.- J.M. CHECKS BY' REVISIONS PV-5.1 WEIGHPLAN T MODULE MECHANICAL PROPERTIES MODEL AXITECAG285M/156-50S DIMENSIONS (AREA) 64.61N X 39.11N X 1.41N (17.5 SQ FT) WEIGHT 39.7LB MOUNTING SYSTEM PROPERTIES RAIL MODEL IRONRIDGE XR100 ANCHOR MODEL IRONRIDGE FM-FF2-001-8 (FLASHED) FASTENING METHOD 3 0 INCH EMBEDMENT INTO RAFTERS WITH 1 FASTENER MAX. ALLOW. RAIL SPAN 48.OIN (ZONES 1, 2, AND 3) MAX. MOUNT SPACING 48.OIN (ZONES 1, 2, AND 3j MAX. SOW' CANTILEVER 19.21N (ZONES 1, 2, AND 3) GROUNDING AND BONDING INTEGRAL GROUNDING CERTIFIED TO UL 2703 REQUIREMENTS DEAD LOAD CALCULATIONS LOAD OTY LBS :TOTAL LBS MODULES 31 39.7 1230.2 OPTIMIZERS 31 0.6 19.5 LINEAR FEET OF RAIL 235 FT 0.7 159.7 ANCHORS 65 0.6 53.4 MISC. HARDWARE 11.5 11.5 TOTAL ARRAY NOTES RAFTER 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' P-80435 RIDGE W H I I I I 1 I i ILo c W I I I i I w Q 3:U� I � I I O LLl 0 MONK=I I f I I I I i , I i �. W I I I I I I O lu') 0- w ~ o I I I I I I I 0 t I 6 I t 1 1 ATTACHMENT PLAN OBLIQUE PROJECTION V-5 SCALE:1/4" =1' ATTACHMENT PROJECT ID: 80435 CREATED BY: J.M. CHECKED BY. REVISIONS PV-5.2 ROOF PROPERTIES ROOF MATERIAL COMPOSITION SHINGLE (1 LAYER) SLOPE 3I12 (14.0°) MEAN ROOF HEIGHT 11.9F"I' DECK MODULE MECHANICAL PROPERTIES MODEL AXITECAG285MH56-605 DIMENSIONS (AREA) 64.61N X 39.11N X 1.41N (17.5 SO FT) WEIGHT 39.7L8 MOUNTING SYSTEM PROPERTIES RAIL MODEL IRONRIDGE XR100 ANCHOR MODEL IRONRIDGE FM-FF2-001-B (FLASHED) FASTENING METHOD 3 0 INCH EMBEDMENT INTO RAFTERS WITH 1 FASTENER MAX. ALLOW. RAIL SPAN 48.OIN (ZONES 1, 2, AND 3) MAX. MOUNT SPACING 48.OIN (ZONES 1, 2, AND 3) MAX. ALLOW. CANTILEVER 1921N (ZONES 1, 2, AND 3) GROUNDING AND BONDING INTEGRAL GROUNDING CERTIFIED TO UL 2703 REQUIREMENTS DEAD LOAD CALCULATIONS LOAD OTY LBS TOTAL LBS MODULES 10 39.7 396.8 OPTIMIZERS 10 0.6 6.3 LINEAR FEET OF RAIL 66 FT 0.7 452 ANCHORS 21 0.8 17.3 MISC. HARDWARE 4.0 4.0 TOTAL ARRAY NOTES DATE:1/30/18 RAFTER 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' A RACKING ELEVATION RANSVERSEVIEM PV 6 SCALE: NTS B RACKING ELEVATION LONGITUDINAL VIEIM PV 6 SCALE: NITS PV MO[ E L IONRIDGE .ASHFOOT2 COMP. SHINGLE ROOFING MATERIAL FLASHING INSTALLED BETWEEN UPPER AND LOWER COURSE OF SHINGLES LAG SCREW INTO ROOF STRUCTURAL MEMBER C ATTACHMENT DETAIL (TRANSVERSEVIE PV-6 SCALE: NTS MOUNTING NOTES FLASHING SHALL BE APPLIED IN ACCORDANCE WITH MANUFACTURERS' PRINTED INSTRUCTIONS. IF THERE IS ANY CONFLICT BETWEEN WHAT IS DEPICTED 2 HERE AND INSTRUCTIONS PROVIDED BY THE MANUFACTURER, MANUFACTURERS' INSTRUCTIONS SHALL SUPERCEDE. PV MODULE IRONRIDGE XR100 RAIL IRONRIDGEFLASHFOOT2 COMP. SHINGLE ROOFING MATERIAL LAG SCREW INTO ROOF 'AN -� STRUCTURAL MEMBER (2) ATTACHMENT DETAIL (LONGITUDINAL VIE1M P1-6 SCALE: SCALE P-80435 m L LI H of Lu O a O CO 0 Lu H 4r1�4Y & 50`P v- Lo LJJ m aJ C.0 u- V- Llj a w_ o �" ti O u- ATTACHMENT PV-6 P-80435 r Y f } .' W C/) �/ O 0 w H W CD cn < C� Q -j U V- W a w_ Lo EL c H ti O 1 �ci 1 1 z rEL 0 FIRE SAFETY IMPLEMENTATIONS 1 FIRE SAFETY PLAN Ot ROOF ACCESS POINT, PER NFPA 111.12.2.2.1.3 PV-7 SCALE: 1" = 20' PV MODULES INSTALLED ON ROOF WITH IRONRIDGE ROOF MOUNTING SYSTEM. THE MOUNTING SYSTEM IS O2 CLASS A FIRE RATED ON A 3112 SLOPED ROOF WHEN INSTALLED WITH TYPE 1 OR 2 MODULES. THE AXITEC AC-285WI56.60S IS TYPE 1. FIRE SAFETY PLAN PROJECT ID:80435 DATE:1/30/18 CREATED BY: J.M. CHECKED BY: REVISIONS PV-7 FIRE SAFETY REQUIREMENTS 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 11.12.2.2.4.1) CONDUIT RUNS BETWEEN SUBARRAYS AND TO DC 2 COMBINER BOXES SHALL REDESIGNED TO TAKE THE SHORTEST PATH FROM THE ARRAY TO THE DC COMBINER BOX. (NFPA 1 11.12.2.2.4.2) 3 DC COMBINER BOXES SHALL BE LOCATED SO THAT THE CONDUIT RUNS ARE MINIMIZED IN THE PATHWAYS BETWEEN THE ARRAYS. (NFPA 1 11.12.2.2.4.3) ROOF ACCESS POINTS SHALL BE DEFINED AS AREAS WHERE FIRE DEPARTMENT LADDERS ARE NOT PLACED 4 OVER OPENINGS (WINDOWS OR DOORS), ARE LOCATED AT STRONG POINTS OF BUILDING CONSTRUCTION, AND ARE IN LOCATIONS WHERE THEY WILL NOT CONFLICT WITH OVERHEAD OBSTRUCTIONS (TREE LIMBS, WIRES, OR SIGNS). (NFPA 1 11.12.2.2.1.3) PHOTOVOLTAIC MODULES SHALL BE LOCATED IN A 5 MANNER THAT PROVIDES TWO 3 FT WIDE ACCESS PATHWAYS FROM THE EAVE TO THE RIDGE ON EACH ROOF SLOPE WHERE THE MODULES ARE LOCATED. (NFPA 1 11.10.2.2.2.1.2) 6` PHOTOVOLTAIC MODULES SHALL BE LOCATED NO LESS THAN 3 FT BELOW THE RIDGE. (NFPA 1 11.10.2.2.2.2) Conductor, Conduit, and 0CP0 Sizing Validation 1. Maximum System Voltage Test 1.1. Solar Edge Inverter w/41 Axitec AC-285MN56-M (2&W4s Array Propertles NEC Code Validation Tests Array Type Distributed MPPT System Inverter Arta System Description Solar Edge inverter w141 Axitec AC- 285MN56-6OS (28SMs Module AC-285WI56.605 28 Highest number of modules in series Ina PV Source Circuit 1 Design Low Temp. Module Vac 390'C66V Temp. Coefficient Voc -0m9VIC NEC Code Calculatlons A. Maximum Voltage of PV Source Circuit 42.54V NEC Article 6903 requires that 8 the PV module manufacturer provides a temperature coefficient of open -circuit voltage, it must be used to calculate the PV arrays maximum system voltage. It includes an Information note recommending the use of the ASHR4E'Extreme Annual Mean Minimum Design Dry Bulb Temperature' as the design law temperature. Using these values, the module Voc (39.56V) will increase to 42.54V at the design tow temperature (0°C). (0°C - 25°C) X -0.119VIC+ 39.56V=42.54V The module Voc at the design low temperature is 42.54V. 42.54V X 1= 42.54V B. Maximum Voltage of DC Output Circuit 350V NEC Article 690.7(B) requires that all PV circuits have a voltage that does not exceed 600V. This system's DC Output Circuits are fed by Solar Edge P300 DC-toDC converter optimization devices. Each device is connected to a single AC•265WI56-60S (285W) PV Module. The voltage of this circuit is regulated by the inverter at a constant 350V. PV Source Circuit maximum Voc must not exceed PASS 600V 42.54V < 600V = true DC Output Circuit voltage must not exceed 600V PASS 350V < 600V = true (V'edmero. Inc..Its subskWes, offim, duetore, employees and its suppliers spedficaly d¢dam arty Implied warrantles or n prewntatlons diet the infonnadon cwtayjed in this d=mwt ITe potent�'al Ipurdiem eor mstatlellon ofepV ��Nnatpmvtled asap ercpneenng sendce end Verdarmo,Ixtsgnnot an er�g�ereheyriig fum.Th's DoameM's prou'�ded es en eid to those lrwlved'm WarmatlonbNly mpresentesystem d�eessgqnnslroudn the re0edpedorm amen hsladatla�i you Lulea Deat•llas been producedm� .T�by aocumentdonw e�9h adNsed dratyou will need to hlreepuafifiedengmeerNproduce aarpove rim needed nesgn and related doarmenis. Please referNd�eTemrsand page al sdardedgrdml.com roc theM Terms and Canditlars agreement 2. Wire, Conduit, and OCPD Code Compliance Validation 2.1. #1: DC Circuit Clreult: Seder String Output to String Combiner Ch= t Seetlon Pmpertles Conductor 10AWGPVWire,GoPper Equipment Ground Conductor EGC 6 AWG Bare Copper OCPD s NIA Raceway Free Air Lowest Terminal Temperature Rahn 75°C Maximum Wire Temperature 55°C Power Source Description String of 15 Solar Edge P300 power optimizers, each connected to a AC- 285MH56.605 28 PV module Current 15A Voltage 350V Module Series Fuse Rating 15A Total Number of Series Strips 3 NEC Code Caleulatlons A. Continuous Current 15A The continuous current of this series string of power optimizers Is equal to the rated maximum output anent of the optimizer. Rated Max. Output Current of optimizer is 15A B. Base Ampacity 55A Base ampacity (30°C) fora copper conductor with 90°C Insulation In free air is 55A. C. Conditions of Use Ampacity 41.8A The temperature factor for 90°C insulation at 55°C is 0.76. The fill factor for conductors in free air is 1. The ampacity derated for Conditions of Use is the product of the Base Ampacity (55A) multiplied by the temperature factor (0.76) and by the conduit91 factor (1). 55AX0.76X1=41.8A D. Ampacity at Terminal Rating 50A The lowest terminal temperature rating for this segment is 75°C. The base ampacity of this conductor at 75°C is 50A. E. Minimum Required EGC Size 12 AWG The smallest EGC size allowed by Table 250.122 is 12 AWG. According to Article 690A5(A), it is not necessary to increase EGC when conductors are oversized for voltage drop considerations if the circuits are PV source circuits. NEC Code VsAdatlon Tests System must meet requirements for not having PASS series fuse Conditions of Use ampadty, must be greater than PASS or equal to the Continuous Current 41.8A>=15A= We Base Ampadty must be at least 125% of PASS Continuous Current 55A> 18.75A=true Base conductor ampacity at the terminal PASS temperature rating must exceed 125% of the Continuous CurrenL 50A >= 15A X 1.26 =true EGC must meet NEC requirements for minimum PASS size 6 AWG >=12 AWG =true EGC must meet NEC requirements for physical PASS protection 6 AWG >= 6 AWG = true 2.2 #2: DC Circuit Circug: Series String Output to String Combiner Circuit Section Properties , NEC Code Validation Tests Conductor 10AWGPVWre,Copper Equipment Ground Conductor GC 6 AWG Bare Copper OCPD s WA Raceway Free Air Lowest Terminal Temperature Rating 75'C Maximum WiireTem ture 55°C Power Source Description String of 11 Soler Edge P3D0 power 2pUrn rs as toa 05M1156-60S 285no PV module Current 15A Voltage 350V Module Series Fuse Rating 15A Total Number of Series Shins 13 NEC Code Calculations A. Continuous Current 15A The continuous current of this series string of power optimizers is equal to the rated maximum output current of the optimizer. Rated Max. Output Current of optimizer is 15A B. Base Ampacity 55A Base ampacity (30°C) fora copper conductor with 90°C Insulation in free air is 55A C. Conditions of Use Ampacity 41.8A The temperature factor for 90`C insulation at 55'C is 0.76. The filliectorfor conductorsin free air is 1. The ampacity, derated for Conditions of Use is the product of the Base Ampacity (55A) multiplied by the temperature factor (0.76) and by the conduit fill factor (1). 55A X 0.76 X 1= 41.8A D. Ampacity at Terminal Rafng 50A The lowest terminal temperature rating for this segment is 75"C. The base ampacity of this conductor at 75°C is 50A E. Minimum Required EGC Size 12 AWG The smallest EGC size allowed by Table 250.122 is 12 AWG. According to Article 690.45(A), it is not necessary to increase EGC when conductors are oversized for voltage drop considerations if the arcuits are PV source circuits. System must meet requirements for not having PASS series fuse Conditions of Use ampacity must be greater than PASS or equal to the Continuous Current 41.8A>=15A = true Base Ampacity must be at least 125% of PASS Continuous Current 55A> 1 B.75A = tnre Base conductor ampacity at the terminal PASS temperature rating must exceed 125% of the Continuous Current 50A>=15AX 1.25 =true Eff EGC must meet NEC requirements for minimum PASS size 6 AWG >=12 AWG = true EGC must meet NEC requirements for physical PASS protection 6 AWG >= 6 AWG = true 2.3. 03: String Combiner Output: String Combiner to Inverter Cimino Section Propertlea Conductor 3AWG THWN-2 Copper Equipment Ground Conductor EGC 10 AWG THWN•2Copper OCPD s NIA Raceway V dia. EMT Lowest Terminal Temperature Rating 75°C Maximum Wire Temperature 53°C Power Source Description Army of 3 stings, with 15,16. and 11 Solar Edge P300 power optimizers and Axitec AG285056- 60S PV modules Current 45A Voltage 350V NEC Code Calculations A. Continuous Current 45A The continuous current of the array is equal to the rated maximum output curem of the optimizer multiplied by the number of paralleled strings. 15AX3=45A B. Base Ampacity 115A Base ampacity (30'C) fora copper conductorwith 90°C Insulation in conduit Is 115A C. Conditions of Use Ampacity 87A The temperature factor for 90°C insulation at 53'C is 0.76. The fill factor for a conduit that has 2 wires is 1. The ampacity derated for Conditions of Use is the product of the Base Ampacily (115A) multiplied by the temperature factor (0.76) and by iha conduit fill factor (1). 115A X 0.76 X I = 87AA D. Ampacity at Terminal Rating 100A The lowest terminal temperature rating for this segment is 75'C. The base ampacity of this conductor at 75'C is 100A. E. Minimum Required EGC Size 10 AWG The smallest EGC size allowed by Table 250.122 is 10 AWG. According to Article 690.45(A), it Is not necessary to increase EGC when conductors are oversized for voltage drop considerations if the circuits are PV source circuits. F. Minimum Recommended Conduit Size 1" d(a. The total area of all conductors is 0.2157in'. With a maximum fill rate of 0.4, the recommended conduit diameter is 1. OW Descri lion IV. IT. IA. ITtW Ala 2 Conductor 3 AWG THW2 10.0973110 0.1946in' 1 EqulmwtGround I10AWG TIVIN•2 10.0211W 10.0211frO 3 1 OY15Tm' 0.2157in' 10.4 = 0.5393in' (Corresponding to a diameter of 11 NEC Code Validation Tests Conditions of Use ampacity must be greater than PASS or equal to the Continuous Current I 87.4A >= 45A = true Base Ampacity must be at least 125% of PASS Continuous Current I 116A> 5625A=true Base conductor ampacity at the terminal PASS temperature rating must exceed 125% of the Continuous Current 100A>=45AX1.25 =true EGC must meet NEC requirements for minimum PASS 11 she 10 AWG >=10 AWG = we Conduit must meet NEC recommendation for PASS minimum size tin. >=11n. = he 2A" #4: Inverter Output: Inverter to AC Disconnect Chwh section Pmperlles Conductor 6AWG THWN-2 Copper Equipment Ground Conductor EGC 10 AWG THWN-2 Copper OCPD s NIA Raceway 0.75" dia. EMT Lowest Terminal Temperature Ratio 75"C Maximum Wire Temperature 531C Power Source Description Solar Edge SE114BOA-US 1140OW Inverter Current 47.5A VoOa a 240V Inverter Max OCPD rating 60A NEC Code Calculations A, Continuous Current 47.5A Equipment maximum rated output current Is 1 X 45A = 47.5A B. Base Ampacity 75A Base ampadty, (30"C) for a copper conductor with 90"C insulation in conduit is 7% C. Conditions of Use Ampacity 57A The temperature factor for 90"C insulation at 53"C is 0.76. The fill factor for a conduit that has 2 wires is 1. The ampadty derated for Conditions of Use is the product of the Base Ampacity (75A) multiplied by the temperature factor (0.76) and by the conduit fill factor (1), 75A X 0.76 X 1= 57A D. Ampacity at Terminal Rating 65A The lowest temdnal temperature rating for this segment is 75°C. The base ampadty of this conductor at 75"C is 65A. E. Minimum Allowed OCPD Rating 59A NEC Code requires that the OCPD be rated for no less than 1.25 times the Continuous Current of the circuit 47.5A X 1.25 = 59.37A rounded down to 59A F. Minimum Required EGC Size 10 AWG The smallest EGC size allowed by Table 250.122 is 10 AWG. G. Minimum Recommended Conduit Size 0.75" dia. The total area of all conductors is 0.1732W. With a maldmum fill rate of 0.4, the recommended conduit diameter is 0.75. Desai tion Size TVDe Area Total Area 2 Conductor 6AWG THWN-2 0.050Tm' 0.1014in' 1 Neutral 6AWG THWN-2 0.060Tin' 0.06071n' 1 E ui ment Ground to AWG THWN-2 0.0211162 0.0211in' 4 0.1732le 0.1732in' / 0.4 = 0.433in' (Corresponding to a diameter of 0.75") NEC Code ValWaflon Tesfs OCPD rating must be at least 125% of Continuous PASS Current 60A >= 47.5A X 1.25 = tree Conditions of Use ampadty, must be greater than PASS OCPD rating, or rating of next smaller OCPD 57A >= 50A (Next Smaller OCPD Rating) = true Conditions of Use ampadty must be greater than PASS or equal to the Continuous Current 57A5=47.5A= We Base Ampacity must be at least 125% of PASS Continuous Current 75A> 59.37A - W e Base conductor ampalxtyatthe terminal PASS temperature rating must exceed 125% of the Continuous Current 65A >= 47.5A X 1.25 = true EGC must meet NEC requirements for minimum PASS size 10AWG >=10AWG=true Conduit must meet NEC recommendation for PASS minimum size 0.75in. >= 0.751n. = true 2.5" #5: AC Disconnect Output: AC Disconnect to Utility Disconnect Cb=ft section Pmperdes Conductor 6AWG THWN-2 Copper Equipment Ground Conductor EGC 10AWGTHWN-2 Copper OCPD s NIA Raceway 0.75' dia. EMT Lowest Terminal Temperature Ratio 75"C Ma)dmum Wire Temperature 53°C Power Source Description Solar Edge SE11400A-US 1140OW Inverter Current 47.5A Volta a 1240V NEC Code Callwlagons A Continuous Current 47.5A Equipment maximum rated output current is 1 X 45A =47.5A B. Base Ampacity 75A Base ampadty (30"C) for a copper conductor with 90"C insulation in conduit is 75A. C. Conditions of Use Ampacity 57A The temperature factor for 90"C insulation at 63"C is 0.76. The fill factor for a conduit that has 2 wires is 1. The ampadty dereted for Conditions of Use is the product of the Base Ampacity V5A) multiplied by the temperature factor (0.76) and by the conduit fill factor (1). 75A X 0.76 X 1 = 67A D. Ampacity at Terminal Rating 65A The lowest terminal temperature rating for this segment is 75"C. The base ampadty of this conductor at 75"C is 65A. E. Minimum Allowed OCPD Rating 59A NEC Code requires that the OCPD be rated for no less than 1.25 times the Continuous Current ofthe circuit 47.5A X 1.25 = 59.37A rounded down to 59A F. Minimum Required EGC Size 10 AWG The smallest EGC sae allowed by Table 250.122Is 10 AWG. G. Minimum Recommended Conduit Size 0.75" dia. The total area of all conductors is 0.1732in'. With a maximum fill rate of 0.4, the recommended conduit diameter Is 0.75. l escd don Sae TVDe Area Total Area 2 Conductor 6AWG THWN-2 0.050Tin' o.1oww 1 Neutral 6AWG THWN-2 0.050TuP 0.050Tm' 1 E ui tGround 10 AWG THWN-2 10.0211W 0.021110 4 0.1732in' 0.17321n' / CA = 0.433in' (Corresponding to a diameter of 0.75) NEC Code Valldaft Tab OCPD rating must be at least 125% of Continuous PASS Current 60A>= 47.5A X 1.25 = We Conditions of Use ampadty must be greater than PASS OCPD rating, or rating of next smaller OCPD 57A>= 50A (Ne)d Smaller OCPD Rating) = true itions of Use ampaaty must be greater than PASSual to the Continuous Current U = 47.5A = We Base Ampacity must be at least 125% of PASS Continuous Current 75A> 59.37A= We Base conductor ampadty at the terminal PASS temperature rating must exceed 125% of the Continuous Current 65A>= 47.5A X 1.25 = We must meet NEC requirements for minimum PASS 1EGC size 10AWG>= 10AWG= true Conduit must meet NEC recommendation for PASS minimum size 0.75in. 7 0.751n. = true 2.6. 66: Why Disconnect NIP& Utility Disconnect to Point of Connection Wcult Section Properd a Conductor 6 AWG THWN-2 Copper Equipment Ground Conductor EGC 10 AWG THWN-2 Copper OCPD s 60AX2 Raceway 0.75' dia. EMT Lowest Terminal Temperature Rating 75°C Maximum Wire Temperature 53°C Power Source Description solar Edge SO140OA-US 1140OW Inverter Current 147.5A Voltane 1240V NEC Code Calculadom A. Continuous Current 47.5A Equipment maximum rated output current is 1 X 45A = 47.5A B. Base Ampacity 75A Base ampacity (30"C) for a copper conductor with 90°C insulation in conduit H 75A. C. Conditions of Use Ampacity 57A The temperature factor for 90°C insulation at 53'C is 0.76. The fill factor for a conduit that has 2 wires is 1. The ampacity derated for Conditions of Use is the product of the Base Ampacity (75A) multiplied by the temperature factor (0.76) and by the conduit fill factor (1). 75A X 0.76 X 1= 57A D. Ampacity at Terminal Rating 65A The lowest terminal temperature rating for this segment is 75°C. The base ampacity of this conductor at 75°C is 65A. E. Minimum Allowed OCPD Rating 597A NEC Coda requires that the OCPD be rated for no less than 1.25 times the Continuous Current of the circuit 47.5A X 1.25 = 59.37A rounded down to 59A F. Minimum Required EGC Size 10 AWG The smallest EGC size allowed by Table 250.122 is 10 AWG. G. Minimum Recommended Conduit Size 0.75' dia. The total area of all conductors is 0.1732in'. With a maximum fill rate of 0.4, the recommended conduit diameter is 0.75, Desai lion Sae T. Area Total Area 2 Conductor 6 AWG THNM-2 0.0507W 0.101410 1 Neutral 6AWG THWN-2 0.0507W 0.0507in' 1 Equipment Ground 10AWG THWN-2 0.02111n' 0.0211in' 4 0.1732in' 0.1732W 10.4 = 0.433in' (Corresponding to a diameter of 0.75') NEC Code Validetlon Tesb OCPD rating must be at least 125% of Continuous PASS Current 60A>=47.5A X 1.25 = true Conditions of Use ampacity must be greater than PASS OCPD rating, or rating of next smaller OCPD 57A >= 50A (Next Smaller OCPD Rating) =true Conditions of Use ampacity must be greater than PASS or equal to the Continuous Current 57A>= 47.5A = true Base Ampacity must be at least 125% of PASS Continuous Current 75A> 59.37A = true Base conductor ampadty at the terminal PASS temperature rating must exceed 125°% of the Continuous Current 65A >= 47.5A X 1.25 =true must meet NEC requirements for minimum PASS JEGC sae 10 AWG >=10 AWG = true Conduit must meet NEC recommendation for PASS minimum sae 0.75in.> 0.751n.=true AXlblackpremium 60 cell monocrystaliine High performance photovoltaic module im German engineered - made for America 12 years manufacturer's warranty � Two more years than industry standard Highest performance due to specifically selected technologies and materials ® Positive power tolerance from 0-5 Wp Higher guaranteed yield Snow load of up to 113 psf Stable module for a long life in extreme conditions © 100 % electroluminescence inspection titer Micro crack and hotspot free modules Axitec-Soft-Grip-Seam aluminum frame t= Higher stability and easier handling High quality junction box and connector system for a longer life time Exclusive linear AXITEC high performance guarantee! • 15 years manufacturer's guarantee on 90% of the nominal perform@ • 25 years manufacturer's guarantee on 85 % of the nominal perform@ u c m m 90% EC WarrarttY Add d Vafuel 7 gay O E eo% , $ ; commercial level warranty , m � 3 1 s 10 is 20 www.axitecsolar.us -A- XI-T[C® high quality german solar brand 85% 1-8%more power 6o•,c after 25 years is Years c &us LISTED Eta us intertek Module Fire Performance: TYPE t (UL 1703) CLASS C (IEC61730) www.axftecsolar.us -A-XITCC® high quality german solar brand Distributed by: Electrical data (at standard conditions (STC) irradiance 1000 watt/mx, spectrum AM 1.5 at a cell temperature of 25°C) Type Nominal output Nominal voltage Nominal current Short circuit anent Open circuit voltage Module conversion Pmpp Umpp Impp [so Ucc efficiency AC-260M/156fi0S 260 Wp 30.42 V a.60 A 9.06 A 38.30 V 15.98 % AC-265M/156.60S 265 Wp 30.85 V 8.65 A 9.20 A 38.42 V 16.29 % AC-270M/166-60S 270 Wp 30.94 V 8.80 A 9.41 A 39,26 V 16.6046 AC-275M/156-60S 275 Wp 31.20 V 8.86 A 9.60 A 39.32 V 16.90 % AC-280M/156-60S 290 Wp 31.50 V 8.95 A 9.55 A 39.45 V 17.21 % AC-285MI756-60S 295 Wp 31.59 V 9.09 A 9.68 A 39.56 V 17.62 % AC-290MI156-605 290 Wp 31.71 V 9.16 A 9.70 A 39.70 V 17.83 % Design Frontaide 0.13Inch (3.2 mm) hardened, low-refiactlon white glass cells 60 moncaystallme high efficiency cells 61nch (156 x 156 mm) Backside Composite film Frame 1.38 inch (35 mm) black anodized aluminium frame Mechanical data Lx WxH 64.57x 39.06 x 1.38 inch(1640 x 992 x 35 mm) Weight 39.68 Ibs (18.0 kg) with frame Power connection Socket Protection Clans IP67 (3 bypass diodes) wire 43.3 Inch, AWG 11 Plug -hi system Plug/socket IP67 All crmensfons In Inch Llmlt values System voltage 1000 VDC (UL)1000 VOC (IEC) NOCT(nominel operating cell temperature)' 451C+I-2K Max. load -carrying capacity 113 PSF Reverse current feed IR 15.0 A Permissible operating - temperature -401C to 851C /-40F to 185F (No external voltages greater Than Vo may be applied to the module) • NOCT, Irradiance 800 WW; AM 1,5; wind speed 1 m/s; Temperature 20°C Temperature eoefffciems Voltage Uoc -0.so WX Current Isc 0.04 %/K -Output Pmpp-0.40%IK Low -light performance (Example for AC.280M/156.60S). I-U characteristic curve Current Ipp Voltage Upp 200 Winn' P-06 A 29.55 V 400 WW 3.55 A 30.56 v 600 WIM2 5.08 A 31.15 V swwtm' 7.26A 31.44V 1000WW 8.95 A 31.50 V Packaging Module pieces per pallet 30 Module pieces per HC-container 640 Tedmlcal data are wbied to change without prior notice, enom excepted The messukemea tolermeas arc +/•3% solar -•. SolarEdge Power Optimizer Module Add -On For North America P300 / P320 / P370 / P400 / P405 solar=@@ SolarEdge Power Optimizer Module Add -On for North America P300 / P320 / P370 / P400 / P405 P300 P320 ; P370 P400 P405 for 60-cell mod- g p (for higher -power ( (for hi h- ower for 72&96-cell (tor thin film 60 and 72-cel1 ules) 60-cell modules) ( _- „ e modules) modules) Rated Input•DC Powet•'I 300320 370 400 405 W Absolute Maximum Input Voltage 48 60 80 I 125 Vdc (Voc at lowest temperature)............................................................................................................................................ .................... MPPTO eratln Ran a P.......g....g................................ 8-48 ...................................................................... -6 S 0 8-80 ........ ..... 125-105 .... Vdc .......... Maxlmum Short Circuit Current (Isc) 10 I Il 10.1 ...:............. Adc Maximum DC Input Current 12.5 13.75 . 12.63 Adc ............................................... Maximum Ef .clency .. 99.5 % Weighted Efficiency 98.8 . °6 . ......................................................................................................................................... Overvoltaee Cateeory II Maximum Output Current 15 I Adc Maximum Outout Voltage 6D 85 Vdc Safety Output Voltage per Power I 1 Vdc STANDARD COMPLIANCE _ EMC........................................ �............................... FCC Part15 Oass B, IEC61000-6-2,, IEC61000.6-3............................................. Safety IEC62109-1(class II safe , UL3741 —... .... Maximum Allowed System Volta e_ _-.. �. I ......3000........ _ _ Vdc Compatible inverters All SolarEdge Single Phase and Three Phase inverters ,.-. •.- •... 128x152x 35/ 128x 152 x 50 j... Dimensions (W x L x H) 128 x 152 x 27.5 / 5 x 5.97 x 108 mm % in .............•,,,,..,.,., Sx5.97x1.37 Sx5.97x1.96 Weight itnduding obles) I _ •.630/14 750/1.7 S45/19 gr/Ib Input Connector MC4 Compatible Am M," H4 M04 Compatible :® ......... ......... .......... ...................... I. ....... ... .. n4 ... ........... ...................... ........... I P. Double Insulated; L Output Wire Typ / nnector Double Insulated, MCA Compatible MCA/ Double Insulated; C4 Compatible e Coted� M ......................... I................... ............. ..... .. ............ AmphenolAH4..... .................... Output Wire Length ............. 0.95/3.0.... .. .....1:2�3:9........ ...............�....�ft.... 0 erann a e..r.a.t................&......................IIL.....................0 a Range 40 ......................... ......................-.P.+........................ 805/1-0400..+P. .............................. Relative Humidity................................ .........{......�.�...%/... �F............. p1 RauM 5TCpower of the module. Module otupto K%power LW —flowed. i 6 PV SYSTEM DESIGN USING SINGLE PHASE - - ^� A SOLAREDGE INVERTERum HD WAVE SINGLE PHASE THREE PHASE 208V THREE PHASE 480V Minimum String Length -. -^ .. ..Power Optimlzers)........................................................... I 10 .......... .......... 1............ ............ B E Maximum String Length 25 25 50 PV power optimization at the module -level (Poweroptimizers)........... ............. ........................................ ...... L........................... ........ .................................. E _ - 5700 (6000 wRh —Up to 25%more energy _ ° Maximum Power per String ............ HrUS).. ................ 52.50 ., '• ..... 6000........... ...............12750• ., ... W...... —'$UperiOr efficiency (99.5%) ` Parallel Strings of Different Lengths Yes .... SE7600 _ - - or Orientations Mt, atesall.......................................................................................................................................................... g types of module mismatch losses, from manufacturing tolerance to partial shading WForde ailed smglxingmomanon referto: httpj/wwwsoW edge.mMpks dehul file Jtrng 9xing napAG t of It is not snowed to W. P405 wiw P3oo/P370/P40WGX/P700mm�e srring. —'Flexible system design for maximum space utilization i — Fast installation with a single bolt - °Next generation maintenance with module -level monitoring Module -level voltage' shutdown for installer and firefighter safety US4-CANADA-GERMANY-ITALY-FR.ANCE-IAPAN-CHINA -AUSTRALIA-THE NETHERLANDS-UK-ISRAEL-TURKEY - SOUTH AFRICA-BULGARIA -INDIA www.solaredge.us i solar=@@ SolarEdge Single Phase Inverters For North America SE3000A-US / SE3800A-US/ SE500OA-US / SE6000A-US / SE760OA-US / SE10000A-US / SE1140OA-US The i f r of rE' P { e best choice o S o d e enabled systems ! i .g Y ' ,Integrated arc fault protection for NEC 2011690.11 compliance }Rapid shutdown for NEC 2014 690:12 Superior efficiency (98%) - Small, lightweight and,eas to install on provided bracket Y Built-in module -level monitoring I Internet connection through Ethernet or Wireless 'Outdoor and indoor installation t Fixed voltage inverter, DC/AC conversion only . ;Pre -assembled. Safety Switch for faster installation - - Optional — revenue grade data, ANSI C12.1 USA - GERMANY- ITALY-FRANCE- JAPAN - CHINA -AUSTRALIA-THE NETHERLANDS- UK-ISRAEL www.solaredge.us solar=es Single Phase Inverters for North America SE3000A-US / SE3800A-US / SE5000A-US / SE6000A-US / SE760OA-US ! SE10000A-US / SE1140OA-US Nominal AC Power Output 3000 3800 5000 6000 7600 9990 @ 208v 11400 VA 5400 @ 209V ....6 835010800 @ 208V -.......... •......... ... - Max. AC Power Output 3300 4150 000 8350 12000 VA .. sas0.@Zaov.............. I.. ....... .......... io9so-@za0y...........-............. ..... AC Output Voltage Min.-Nom.-Max.t`I 183-208-229 Vac - - - - - .................................................... AC Output Voltage Min: Nom: Max.01 211- 240 - 264 Vac ........................................... ................ I............... ................. .....-....-.-.................., ...... AC Frequency Mfn.:Nom.Max.l`t. - 59.3-60-60.5 - ,.. -,- Hz j Max. Continuous Output Current 12.. I ........ .,I--21 (an 240y-,f .--,.--ss....... ...... 3......-,I, 42�.....V,,,(--,--,.47; r',-„-{,-„A,,,,, GFDI Threshold 1 .................................................................................................................................................................... ........... Utility Monitoring, Islanding Protection, Country Configurable Thresholds — Yes --- Yes Maximum DC Power STC) -Transformer-less, Un rounded Max- Input voltage -.No* m: DC Input Voltage Max. Input Currentm ......................................... _ Max. Input Short Circult Current Reverse•Polarl Protection Ground -Fault Isolation Detection .-Maximum Inverter Effictenry- - CEC Weighted Efficiency Supported -...4050..... I...- 5300.- ... I...... 6750..... ,I ..... 8100.... -I .... 30250-.... I..-.. 13500,-.-,- I..... 15350-..... 1... W--... ...Vdc ... ..........................................................0.-..-.............................................-...... .......................................................... 50-..............................................-...........�..........- .. 325 @ 208V / 350@ 240V Vdc ................. 1fi5 @ 208V 95 13 18 23 33 @ 208V 34S Adc ................... 155.{�l°.240V.........8 .....1................. 30S @ 240V....-.....--.........-......... .......................................................... 4`'........... ...................... I ........................... ...Adc.... ........................................................ Yes 1-...-...... ....... 6001m Sensitivi .................................................. ............... .. 975 97 97.5 I.,... I1 }. 97 @ 206V 5 .... ....... 240 98 .....98 .. ..... �.. ........... 9a97.s@- ....... , .@�4o!..i......9......... '...%. ............ <2.5 <4 1. W R5485, RS232, Ethernet, ZigBee (optional) ; ............................ OpHonilm ..... ............................................................--.............7...... Safety I UL1741, UL3699B, UL3998, CSA 22.2 Grid Connection Standards Emissions FCC oart15 class B , AC output conduit sire / AWG range 3/4" minimum / 16-6 AWG 3/4"minimum / 8-3 AWG DC input conduit size/p of strings 3/4"minimum/1-2 strings AWG 3/4"minimum/1-3 strings/ - AWG rang?............................. .............................. ........ ...................,..........................14 ;6 AWG...-.-.................. Dimensions with Safety Switch 30.Sx12.5x7-2/775x315x184 30.5 x 12.5 x 105 / In / ..(HxWxD)................. ....... . ........ ......................................... .. ........-..... x 315 x 260......-......rn!m.... Weipht,with Sa(ety Switch----------------------- .......................... SI.2/23,2 i---..,-.,, 54.7/24;7- ....................... ..............--.. . .........776 . .--.,.,.-,.88;4/401 ............ 1,kg-,- Natural WnvZ. Cooling Natural Convection and internal Fans (user replaceable) j i fan (suer ................ .............. ............. ................ .............. ........... .............................P...... re laceable .1......................... ........... ..;.-.-....... Noise - <25 <50 .......................... dBA ......... I ...... ................ ------ -------- Min. -Max. Operating Temperature --------,...-- ..-.....-...............-.............................. -13 to+140/-25to +60(40to +60 version av 'F/-C Ran a ......... . Protection Rating NEMA 3R { ( ywr aver redonal semngzpteau,nntaasola Ease ppoR. al A higherwrrent source maybe used; me Inverters Ihnit its ( pl Revenue Bnde Inverter PM:SEmoA-UfioWNNR2(tomSE Input gerentip mU values V). (mart S02NNUUE00]NNPZI. r`I-60veislon PM: SE�A�USWONNU6 (tar ]600W 4rverte SE76WA-USOOLNNUII. ®—•,.,, sunsl�c RoHS /ir IRONRIDGE Built for solar's toughest roofs. Datasheet 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 flashings, and is also why our products are fully certified, code compliant and backed by a 20-year warranty. IA7 �I (FB Strength Tested All components evaluated for superior structural performance. Class A Fire Rating Certified to maintain the fire resistance rating of the existing roof. UL 2703 Listed System Entire system and components meet newest effective UL 2703 standard. ® PE Certified Pre -stamped engineering letters available in most states. - Design Assistant ® Online software makes it simple to create, share, and price projects. — XR Rails E) XR10 Rail 1 A low -profile mounting rail for regions with light snow. • 6'spanningcapability • Moderate load capability • Clear & black anod. finish Clamps & Grounding O UFOs Universal Fastening Objects bond modules to rails. • Fully assembled & lubed • Single, universal size • Clear & black finish — Attachments O FlashFoot2 Flash and mount XR Rails with superior waterproofing. • Twist -on Cap eases install • Wind -driven rain tested • Mill & black finish Resources XR100 Rail The ultimate residential solar mounting rail. • 8' spanning capability • Heavy load capability • Clear & black anod. finish XR1000 Rail A heavyweight mounting rail for commercial projects. • 12'spanning capability • Extreme load capability • Clear anodized finish Datasheet Bonded Splices All rails use internal splices for seamless connections. • Self -drilling screws • Varying versions for rails • Forms secure bonding Stopper Sleeves Grounding Lugs Microinverter Kits Snap onto the UFO to turn into a bonded end clamp. • Bonds modules to rails • 6 different sizes • Clear & black anod. finish Connect arrays to equipment ground. • Low profile • Single tool installation Mounts in any direction Mount Mls or POs to XR Rails. • Bonds devices to rails • Kit comes assembled • Listed to UL 2703 Slotted L-Feet Bonding Hardware Flush Standoffs Drop -in design for rapid rail attachment. • Secure rail connections • Slot for vertical adjusting • Clear & black anod. finish Bond and attach XR Rails to certified attachments. • T & Square Bolt options • Nut uses 7/16• socket • Assembled & lubricated Raise Flush Mount System to various heights. • Works with vent flashing • 4" and 7' lengths • Ships assembled s -- - _ Design Assistant NABCEP Certified Training ' 20-Year Warranty __ Go from rough layout to fully Earn free coritinuing education credits, NABCEP' i Twice the protection offered by engineered system. For free. ,; while teaming more about our systems. 1 Go to fronRidge.com/design Go to IronRidge.com/training competitors. ® 2018.IronRidge, In..All rights reserved. Visit www.ironridge.com or call 1-800-227.9523 for more Information. Version 1.20 ' 1495 Zephyr 1495 phyr enue AQ& IRONRIDGE Hayward, 544 A06 IRONRIDGE Hayward, 544 Hayward, CA 94544 Hayward, CA 94544 1-800-227-9523 1-800-227-9523 IronRidge.com IronRidge.com Attn: David F. Taggart, VP Products, IronRidge Inc. Date: March 28'h, 2017 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 Mont System is a proprietary rooftop mounting system used to support photovoltaic (PV) modules Installed in portrait or landscape orientation and set parallel to the underlying roof surface. PV modules are supported by extruded aluminum XR Rails and secured to the rails with IronRidge mounting 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 atypical Flush Mount installation and its core components are shown in Exhibit EX-0015. The IronRidge Flush Mount System is designed and certified to the structural requirements of the following reference standards for the load conditions and configurations tabulated in the attached span tables: • ASCE/SEI 7-10 Minimum Design Loads for Buildings and Other Structures (ASCE 7-10) • 2012 International Building Code (IBC-2012) • Florida Building Code 5th Edition (2014) Building • 2010 Aluminum Design Manual (ADM-2010) Thetables Included in this letter provide the maximum allowable spans of XR Rails in the Flush Mount System for the respective loads and configurations listed, covering wind exposure categories B, C, & D, roof zones 1, 2 & 3, and roof slopes from 01 to 450. The span tables are applicable provided that the following conditions are met: 1. Span is the distance between two adjacent roof attachment points (measured at the center of the attachment fastener) 2. The underlying roof pitch, measured between roof surface and horizontal plane, is 45° or less. 3. The mean roof height, defined as the average of the roof eave height and the roof ridge height measured from grade, does not exceed 30 feet. 4. Module length shall not exceed the listed maximum dimension provided for the respective span table and module width shall not exceed 40". 5. All Flush Mount components shall be installed Ina professional workmanlike manner per IronRidge's Flush Mount installation manual and other applicable standards for general roof construction practice. 0 2017 IronRidge, Inc. FL Flush Mount System Certification Letter-1 The span tables provided in this letter are certified based on the structural performance of IronRidge XR Rails only with no consideration of the structural adequacy of the chosen roof attachments, PV modules, or the underlying roof supporting members. It is the responsibility of the installer or system designer to verify the structural capacity and adequacy of the aforementioned system components in regards to the applied or resultant loads of any chosen array configuration. Sincerely, Gang Xuan, PE, LEED AP Senior Structural Engineer ® 2017 IronRidge, Inc. Of/1�/l7. FL Flush Mount System Certification Letter-3 /ik 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 flame 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 Brief Class A Fire Rating Test Setup Solar Modules Solar modules are given a Type classification based on their materials and construction. n Mounting System Mounting is tested as part of a system that Includes type -tested modules and fire -rated roof covering. Roof Covering Roof covering products are given a Fire Class Rating of A, B or C based on their tested fire resistance. Burning Brand Test A burning wooden block is placed on module as a fan blows at 12 mph. Flame cannot be seen on underside of roof within go minutes. Spread of Flame Test Flame at southern edge of roof is aimed up the roof as a fan blows at 12 mph. The flame cannot spread 6 feet or more in 10 minutes. '.. ..Module Flush Mount ^\ Any Slope Type 1, 2, & 3 Class A Tilt Mount s 6 Degrees Type 1, 2, & 3 Class A •Class A rated PV sy —car, be le"-d an Class A.& aad C roots 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 1 have a Class C roof, but the jurisdiction now requires Class A or B? Generally, older roofs will typically be "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? 2012 IBC: 1509.7.2 Fire 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 concems. 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 Tech Brief What attachments and flashings are deemed compatible with Class A? Attachments and their respective flashings are not constituents of the rating at this time. All code -compliant flashing 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 I required to install skirting to meet the fire code? No, IronRidge achieved a Class Afire rating without any additional racking components. What determines Fire Classifiwbon? 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 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 tilts is the lift 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 IronRidge.com 0 2016 IronRidge, Inc. All rights reserved, Vis Yvr Fronridge.com or call 1-600.227-3523 for more information. Version 1.20 /ir IRONRIDGE FlashFoot2 The Strongest Attachment in Solar IronRidge FlashFoot2 raises the bar in solar roof protection. The unique water seal design is both t elevated and encapsulated, delivering redundant layers--^ of protection against water intrusion. In addition, the "A twist -on Cap perfectly aligns the rail attachment with the lag bolt to maximize mechanical strength. (r, , TW Ist-On Cap FlasAFoot2's unique Cap design encapsulates the lag bolt and locks into place with a simple twist The Cap helps FlashFoot2 deliver superior structural strength, by aligning the rail and lag bolt In a concentric loadpath. Single Socket Size A custom -design lag bolt allows you b Install FlashFoot2 with the same 7/16' socket size used on other Flush Mount System components. Three -Tier Water Seal FlashFoot2's seal architecture utilizes three layers of protection. An elevated platform diverts water away, while a stack of rugged components raises the seal an entire Inch. The seal Is then fully-encapuslated by the Cap. FlashFoot2 is the first solar attachment - - to pass the TAs-100 Wind -Driven Rain Test. t ' f r / Water -Shedding Design i An elevated platform diverts water away from the water seal. Installation Features t� r-- c._ c-- •f. F 4. Benefits of Concentric Loading Traditional solar attachments have a horizontal offset between the rail and lag bolt, which introduces leverage on the lag bolt and decreases uplift capacity. FlashFoot2 is the only product to align the rail and lag bolt. This concentric loading design results in a stronger attachment for the system. Testing & Certification Alignment Markers Quickly align the flashing with chalk lines to find pilot holes. Rounded Corners Makes it easier to handle and insert under the roof shingles. l Reinforcement Ribs Help to stiffen the flashing and prevent any bending or crinkling during installation. 1200 loon - e Fu.hF-12 Z,, Soo • FI.shFoot •� �'Lpc�Irig.Compoatar C 600 400 '01. Coat Compotnor CL 200 0 1 2 3 Rail -to -Lag Offset (in) Structural Certification Designed and Certified for Compliance with the International Building Code & ASCE/SEI-7. Water Seal Ratings Water Sealing Tested to UL 441 Section 27 "Rain Test" and TAS 100-95 "Wind Driven Rain Test" by Intertek. Ratings applicable for composition shingle roofs having slopes between 2:12 and 12:12. UL 2703 Conforms to UL 2703 Mechanical and Bonding Requirements. See Flush Mount Install Manual for full ratings. 2016 Iron Ridgo, Inc. All rights. reserved. Visit Wvnv.imnridge.com or call 1-e00-227.9523'for nioreinformation.'Vorsion 1-.0 k 0 Ca! E Q o LLI U Lj C I-- a Z C: ra w P4 0) U (7 Z 3 0 3 V DI a E 9 8 7 6 5 4 3 2 I CERTIFY THAT THE SHEETING BFRAMING OF THIS STRUCTURE WILL SAFELY �t1LI DESIGNED FOR V -ZOO MPH-, RESIDENTIAL GENERIC STRUCTURAL PLAN. COMMON SOLAR COMPONENT EXAMPLES SHOWN -APPEARANCE MAY VARY. ACCOMMODATE CALCULATED WIND UPLIFT AND LATERAL A AND DEAD LOADS. NRE AND SEAL �: FBC 2017(6TH EDITION) FLORIDA BUILDING CODE 'Z ULT ANO PLANS ON FILE- EACH PERMIT REQUIRES SIGNED B RAISED SEAL PLAN FROM FOR EQUIPMENT DISISATTE THEUPPERRIGHIGNAT ON ,0:, '7y RISK II, EXPOSURE D. IRONRIDGE PV RAIL GENERIC INSTALLATION PLAN 1. THIS IS A SINGLE SHEET GENERIC STRUCTURAL PLAN. ELECTRICAL PLAN IS SEPARATELY SEALED DOCUMENT. 2. THIS PLAN OFFERS THREE INSTALLATION METHODS. a. FRAMING METHOD. SEE DRAWINGS. b. SHEETING METHOD. SEE DRAWINGS. c.STANDING SEAM METAL ROOF. USE CLAMP OF CHOICE; ACE. http://www.pmcind.com/aceclamp/ S-5. http://www.s-5.com/clamps/ TRA. http://trasnowandsun.com/product-category/solar-mounting/ 3. CONTRACTOR SHALL MAKE CLEAR TO AHJ WHICH INSTALLATION DETAILS WILL BE USED. 4. SOLAR EQUIPMENT ADDS LESS THAN 4-PSF GRAVITY LOAD TO STRUCTURE. 5. THERE SHALL BE A PV MODULE TO RAIL MOUNTING CLAMP AT EVERY MODULE/RAIL CROSSING POINT WITH MINIMUM 4 CLAMPS PER MODULE. ADJOINING MODULES SHALL SHARE MID CLAMPS. MODULES MAY BE LANDSCAPE OR PORTRAIT AT CONTRACTOR OPTION. 6. ' PV MOUNTING RAILS SHALL BE INSTALLED PERPENDICULAR TO ROOF FRAMING. SEE ROOF ATTACHMENT SPAN TABLE @ LOWER RIGHT 7. THERE SHALL BE A MINIMUM OF TWO RAILS UNDER EACH PV MODULE. 8. RAILS SHALL NOT CANTILEVER BEYOND OUTSIDE OF END ROOF ATTACHMENT BY MORE THAN V 9. RAILS SHALL ATTACH TO ROOF THRU L-FEET AS SHOWN HEREON. L-FEET REQUIRE FLASHINGS WHICH CAN BE SF -SO (SELF -FLASHING, SHEETING ONLY) SHOWN HEREON OR MIN 4" x 8" x 26 GA. GALV , 0.032 ALUM, OR INDUSTRY STANDARD OEM FLASHINGS OVER ATTACHMENTS LAGGED INTO ROOF FRAMING, E.G. SOLAR MOUNT, IRONRIDGE FLASHFOOT1or2, OTHER ACCEPTABLE TO AHJ. 10. SF -SO ROOF ATTACHMENTS ARE INTENDED TO BE INSTALLED INTO SHEETING ALONE, HAVE BEEN SO TESTED AND ARE RATED AT 900-POUNDS ALLOWABLE PER ROOF ATTACHMENT. 11. ALL FLASHINGS SHALL BE INSTALLED IN A GENEROUS BED OF FLORIDA PRODUCT CONTROL APPROVED (PCA) POLYURETHANE ROOF SEALANT. 12. LONG L-FEET &/OR STANDOFFS ARE PERMITTED AS NEEDED FOR ROOF CLEARANCE. 13. ENGINEER OF RECORD (EOR) PREFERS EMAIL COMMUNICATION: allen@gezelmanpe.com r1 ENGINEERING NOTES. ti � 1 ` y: I FOR L-FOOT. HEIGHTVARIES. a '" 2 I ® FOUR #14 CRS SCREWS 1" BEYOND •-- FOR BOTTOM OF DECK - 7?°' =' GALVANIZED PLATE I 7 - I + � I 1 i 4" EPDM \ GASKET CARRIAGE ._.-. BOLT FOR GALVANIZED SQUARE PLATE SHEETING ONLY, SELF -FLASHING ROOF ATTACHMENT 02 SCALE: N 9 1 8 1 7 GROUNDING PV MODULE GROUNDING MID -CLAMP MID -CLAMP PV RAIL 3/8 - 16 x 3/4 ROOF HEX HEAD BOLT TILE PV RAIL 3/8- 16 \ \ FLANGE NUT \ \ L-FOOT SS METAL PLATE, SQUARE OR ROUND ROOF SHEETING EXIST.ROOF FOAM EXISTING ASPH.SHINGLE FLORIDA PRODUCT ADHESIVE FRAMING 4-MINIMUM APPROVED SEALANT #12 X 2-INCH, EXISTING FOUR # 14 CRS SCREWS SS, SMS UNDERLAYMENT 1" BEYOND BOTTOM OF DECK 03 SHINGLE, TILE, SINGLE PLY SCAIE NT5 T TILE ROOF ATTACHMNET 04 SCALE: NtS MID -CLAMP MID -CLAMP 3/8 - 16 x 3/4 HEX HEAD BOLT PV RAIL 3/8 -16 FLANGE NUT EXIST PV MODULE PV RAIL ROOF TILE ----- -- EXIST. METAL DECKING SERRATED L ON ROOF ROOF MOUNT SHEETING ROOF MEMBRANE WATER OPTIONAL PROOFING TILE ROOF STANDOFF FILL CAVITY WITH EXISTING FRAMING OR LONG DOW FOAM L-FOOT WATER PROOFING MIN. 4 #14 X 2" SMS -SS WITH SONOLASTIC 5/16" CRS. LAG W/ 3" 1" BEYOND BOTTOM OF NP-1 OR EQUAL THREAD EMBEDMENT DECK POLYURETHANE CAULK IN BLOCKING, JOIST, OR TRUSS FRAMING -METAL ROOF ATTACHMENT; 05 BARREL TILE ROOF ATTACHMNET QswE: srs 06 ROOF COVERING COULD BE SHINGLE,TILE, OR SINGLE -PLY. swE: Nn Flat Roof Hip Roof (7° < 0 5 270) Gable Roof (0 5 7°) Gable Roof (7° <0 546°) Q hattor7.e3End ComsrZcnas Aa•m.,ms•ru• ira•w,laa•tar aa•m.s �1 ASCE 7.10 COMPONENT 8 CLADDING V PZ1: ROOF INTERIOR PZ2: ROOF PERIMETER (MIN. 3' & LEAST OF 40% EAVE HEIGHT OR 10% BUILDING LAN. PZ3: OUTSIDE CORNERS L&W= PZ2 a = PZ2 WIDTH., h = EAVE HEIGHT. ZONES. ' 1 6 1 5 1 4 Proper Flashing kacement 41.a II ICAL SHEETINGONLY,SELF-FLASHING, "NMI 111 r SOLAR ROOF ATTACHMENT WITH OPTIONAL, y F I REDUNDANT WATERPROOFINGAPPEARANCE MAY VARY-DIMISQRIRNDlETC. 1 1 15/16" OS SELF FLASHING ATTACHMENT PHOTOS SCALE: NTS TRA MOUNTING CLAMP ACE CLAMP EMBEDMENT ]RONRIDGE FLASHFOOT 2 APPROVED STANDING SEAM CLAMPS 09 sv.G: Nrs 10 srAU: rm AM, IRONRIDGE Roof Mount.System XR10 Rag )f1111100 Rall XR1000 Rail Bonded Splices A low -profile mounting rail The ultimate residential A heavyweight mounting All rolls use Internal splices for regions with light snow. solar mounting rail, rail for commercial projects. for seamless connections. • B'spanning capability • a'spenning capability • 12'spanning capability Self -drilling screws • Moderate load capability • Heavy load capabfifiy, • Extreme load capability • Varying verslons for rolls • Clear and black finish • Clear and black finish • Clear anodized finish Forms secure bonding UFOs Stopper Sleeves Grounding Lugs Mlcrolnvartar IOte ILL��...,,,:�. FlaehFoot2 Slotted L-Feet Bonding Hardware Flush Standoffs � gr LAIL ROOFMOUNT SYSTEM COMPONENTS 3 1 2 1 ENGINEER ALLEN GEZELMAN 16502 HANNA RD. LUTZ, FLORIDA 33549 A PH.813 909 1956 Allen@GezelmanPE.com www.GezelmanPE.com PE 59180 99 Ial RAFTSMAN: LPER ICELI pedceli@mall.usf edu M zz_ 'O Y v W J = D Lu 0 LD O Q 2 a. p CONTRACTOR: APPROPRIATE LICENSE OR OWNER/BUILDER C n E AI-IR-6 19.DEC.17 F 1