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GODWIN ENGINEERING AND DESIGN, LLC 8378 Foxtail Loop, Pensacola, FL 32526 1 (850)712-4219 1 chad(@godwineng.com December 31, 2019 To: St. Lucie County Building Division RECetvev 2300 Virginia Avenue N lnl� Ft. Pierce, FL 34982 22 Qe SC��U Degas 4e�t Re: Mosley — Residential PV Roof Mount Installation 7750 Gullotti Pl. Port Saint Lucie, FL 34952 Plan Reviewer, This letter is regarding the installation of a new roof mounted Solar PV System on the existing residential structure at the address above. I have reviewed the attachment plan and have determined that the roof mounted PV system is in compliance with the applicable sections of the following Codes as amended and adopted by the jurisdiction: 2017 Florida Building Code 6th Edition, FBC ASCE 7 Min. Design Loads for Buildings & Other Structures Per 2017 FBC, the Roof Mounted PV system will be subject to the following design criteria: Design Wind Speed(V it) - 160mph 3sec gust, Exposure Category— C The PV System consist of the modules, railing, and connection hardware. The system will add a dead load of approximately 3 psf to the roof. There are two existing roof coverings; one is metal with 2" x 6" purlins 36" O.C. The other is shingle roof with min.1/2" plywood decking and 2" x 4" roof trusses 24" O.C. The roofing, decking, and roof trusses are in good condition. The existing structure will be adequate for supporting the additional PV dead load and wind loads. The securement method of the PV system is to be flush mounted to the metal roof with the Ironridge railing and flashings/attachments. The attachments can be attached up to 36" apart. The mounts should be staggered, where possible, to allow distribution of the design loads evenly to the structure. The mounts shall be installed with 2 x M5 x 60mm stainless lag screws directly to the purlin. The attachment method to the shingle roof and can be attached up to 48" apart. The mounts should be staggered, where possible, to allow distribution of the design loads evenly to the structure. The mounts shall be installed with a min. 5/16" lag screw with minimum 2-5/16" thread length. Please see attached documents and contact me should you have any questions����\�l��� IC!r'O�///// Sincerely, _ * ' 0 360 D. Chad Godwin, PE 81360 OF ; ,� Exp.02/28/2021 <ORIDP. GQZ'\N IVA1 BUILDING DESIGN PROPERTIES BASIC WIND SPEED ROOF PITCH MEAN ROOF HEIGHT ROOF SETBACK ADJUSTMENT FACTOR FOR BUILDING HEIGHT AND EXPOSURE TOPIGRAPHICAL FACTOR EXPOSURE EFFECTIVE WIND AREA UNIT mph Figure 26.5-1C, page 249a degrees It it sf Figure 30.5-1, pg 347 Figure 26.8-1, pg 252 ZONE1 ZONES ZONES VARIABLE DESCRIPTION SYMBOL VALUE VALUE VALUE UNIT REFERENCE: ASCE 7.20 NET DESIGN WIND PRESSURE(UPUFT) P-na psf Figure 30.5-1, Fig 346 NET DESIGN WIND PRESSURE (DOWN) PMw psf Figure 30.5-1, pg ME NET DESIGN WIND PRESSURE (UP) PM"r psf Calculation: P,=r, ,Xx Kr x P„nap NET DESIGN WIND PRESSURE (DOWN) P., dwn psf Calculation: P,,,r d°n,=Xx Kex P_,. DESCRIPTION DEAD LOAD SNOW LOAD DESIGN WIND LOAD ASO DESIGN LOAD (UPLIFT) DOWNFORCE CASE I DOWNFORCECASE2 DOWNFORCE CASE 3 -53.3 A2.9 -137.3 20.3 20.3 20.3 -fi4.49 -112.91 -166.13 24.56 24.56 24.56 SYMBOL VALUE VALUE VALUE 0 S W Pd.aa. Pderm Pdwm Pd-u, m30-166.13-12636327.5621.42 DESIGN FACTORS & CALCULATIONS FOR THE USE OF L-FOOT TO ROOF TRUSS DESCRIPTION SYMBOL VALUE VALUE VALUE MODULEWIDTH B TOTAL DESIGN LOAD (UPLIFT) P TOTAL DESIGN LOAD(DOWNFORCE) P DISTRIBUTED LOAD (UPLIFT) w DISTRIBUTED LOAD(DOWNFORCE) w RAIL SPAN BETWEEN ANCHORS POINTS L POINT LOAD (UPLIFT) R POINTLOAD(DOWNFORCE) R L-FOOT CONNECTED BY LAG SCREW TO ROOF TRUSS/RAFTER Specific Gravity, Rafter G Min. Dia. of Lag Screw, 5/16 D Pullout Value of W IF of Lag screws Thread Length Td Design Pullout Value per Mount Wr SAFTEY FACTOR SF 3.28 3.28 3.28 47.63 -84.75 -126.36 27.56 27.56 27.56 -78.12 -138.99 -207.23 45.20 45.20 45.20 4 4 2 -31ZA7 -555.95 -414.47 280.82 180.81 90.41 eN it Dnwlrer/furrler.no.er Dia x.IlrAYvl Ym.l..hansln a.wlm rrm•�ewew r-+m..rt+.we �- LLdan'rmmYvnrN� >orPT•nulrr�Ntw F4wa rwswrws,Dx �erw.F, sj}m RaeC N 1 ..r GrII. FIerF(ezry Grl4 RrMje'�BS UNIT psf PO psf Psf PA PSI Did UNIT It psf psf PH PH U lb, Ibs Calculation: Pdam=D+SORT(D.G)W (asd) Calculation: Pd.,=1.OD+1.05 Calculation: Pd.q°= I.OD.S.OW Calculation: Pd,=1.OD+0.75S 0.75W Ceiculatlon: w= PB/2 jAnY1e$in°•1O'" Calculation: w =P8/2 •"""""s"N °"'°'" Calculation: R=PLB/2 ••iuine QiN°"'°' Calulation: R=PLB/2 ••M11015r'�a0"'O' Table 11.2A, NOS 2005, page 68 (Southern Pine) W=1800 G"P Dal" Table L2, ND52005 Wr = W • P of Lags •Td Calculation: SF=WyR (Uplift) Oanwtr2d�r � F.J �t ■ Co-.�7v�r sauawra..�w,r.rr f s,rs.rsr. r.v...a....s r.r. UNR mph Figure 26.5-1C, page 2A9a degrees It it Figure 30.54, pg 347 Figure 26.8-1, pg 252 a sf UNIT REPERENCE:ASCE7.10 psf Figure 30.5.1, pg Me psf Figure 30.5.1, pg US psf Calculation: PM"p A Kux P, psf Calculation: P„u a".n=Ax K.x P.w UNIT psf psf psf psi Calculation: P.Ien= DKQRT(O.61W(asd) psf Calculation: P., = 1.0D.1.05 psf Calculation: P11n=1.0D.1.OW -. psf Calculation: Py ,,1.0D.UJ55a075W UNIT 0 psf psf plf Calculation, w=PB/2'2�Minizihpi'"' plf Calculation: w=PB/2•'="""'2'a` it Ibs Calculation R=PIB/2 •u U-IDup„u. Ibs Calculation: R=PL13/2•"iiiis 2,.,- Table 11.2A, NDS 3005, page Ea(southern Pine) n Ibs/in W=1800G' Dv' In Table L; NOS 2005 W, W - 4 of lags'Ta Caicvtation: SF=WVR(Uplif) BUILDING DEIGN PROPERTIES BASIC WIND SPEED ROOFPOCH MEAN ROOF HEIGHT ROOF SETBACK ADJUSTMENT FACTOR FOR BUILDING HEIGHTAND EXPOSURE TOPIGRAPHICALFACTOR EXPOSURE EFFECTIVE WINDAREA VARIABLE DESCRIPTION NET DESIGN WIND PRESSURE (UPUFT) NET DESIGN WIND PRESSURE (DOWN) NET DESIGN WIND PRESSURE (UP) NET DESIGN WIND PRESSURE (DOWN) DESCRIPTION DEAD LOAD SNOW LOAD DESIGN WIND LOAD ASD DESIGN LOAD (UPLIFT) DOWNFORCE CASE 1 DOWNFORCE CASE 2 DOWNFORCE ME DESCRIPTION MODULE WIDTH TOTAL DESIGN LOAD (UPLIFT) TOTAL DESIGN LOAD (DOWNFORCE) DISTRIBUTED LOAD (UPLIFT) DISTRIBUTED LOAD (DOWNFORCE) RAIL SPAN BETWEEN ANCHORS POINTS POINT WAD (UPLIFT) POINT WAD(DOWNFORCE) L-FOOT CONNECTED BY LAG SCREW TO Pullin Specific Gravity, Min. Dia. of Lag Screw,1/4" Pullout Value of 4 of lag screws Thread Length Design Pullout Value per Mount SAFEEY FACTOR SYMBOL VALUE V 180 I. BN-L-i haAK C I- SO ZONE1 ZONE2 SYMBOL VALUE VALUE PPn m. veins ZONE -53.3 92.9 -137.3 20.3 20.3 20.3 -64.49 -112.4 -166.13 24.56 24. SYMBOL VALUE VALUE VALUE D 5 W P.x Py,b, Pa„b, Pa yn m30-166.13.126.36327.5621.4 SYMBOL VALUE VALUE VALUE B P P w w L R R G D W Ta W2 SF 3.28 3.28 3.28 -47.63 - 1.75 -126.36 27.56 27.56 27.56 -78.12 -138.99 -207.23 45.20 45.20 45.20 3 3 0 -234.35 416.96 0.00 135.61 135.61 0.00 0.55 0.55 0.55 0.25 0.25 0.25 259.58 259.58 259.58 2 2 2 1.5 1.5 1.5 778.74 778.741 778.741 3.32 1.87 4DIV/01 EIE a, F4T W Iayian rn nlvO �9 =�a�a..aYgA 48vbvarWm 4v,NvwMYab[wN ip nYler�.6�ta".P 11>lumJ.NetrMi Ey,w1 F�L,a♦,�♦T •�I�/,�,/, E4t \pof ♦ y GNM R♦•r14a T) / ( `\ �.���ENSF•.�w��i *; 13 ; �V ST OF 'Q�♦ N RIDI P.%�2 � Inverter Type: Enphase PV Panel: (53) S-Energy 305W Racking: Iron Ridge Total Wattage: 16,165W Roof Type: Comp Shingles & Metal Wind Load: 7 to 27 Deg Fastener Type: Use 5/16" Dia 4" Lags & Roof Tech Mini's Sheet Index S-1 Cover Sheet / Site Plan S-2 Detail E-1 One - Line S-lA Mounting Plan General Notes: -Enphase IQ7 Micro Inverter are located on roof behind each module. -First responder access maintained and from adjacent roof. -Wire run from array to connection is 40 feet. a�E C= G0O o. 1160' ST F : W� F,Pt ORIDP��\? /Mill Godwin Engineering and Design, LLC 8378 Foxtail Loop Pensacola, FL 32526 D. Chad Godwin, PE Chad@godwineng.com Legend ® First responder access Utility Meter EJJ PV Disconnect F R O N T I H O U S R-3 # Modules (10) Pitch: 18° Azimuth:269 ° 3' Access Pathway Ground Access Point R-2 # Modules (13) Pitch: 18° Azimuth: 179° P] -COGEN Disconnect Located adjacent to Utility meter Utility Meter System meets the requirements of NFPA 1 2015 Edition, Chapter 11.12 Meets All Editions of Florida Fire Prevention Code 6th Edition ® Chimney Satellite o Vent Pipe Represents all Fire Clearance Ist Responder Access including Alternative methods minimum of 36" unobstructed as per Section R324 of the 2015 IRC 2017 FL Residential Code & FBC ,6th Edition (2015 International Residential Code - 2nd Printing modified by the FL Building Standards and Codes 2017 Uniform Code Supplement), 2015 International Energy Conservation Code, City of Port St. Lucie Code, 2014 National Electric Code. ST L *NECOUNW FtEVIew BLoc•�— DATE: ELE WgW DATE FLUMB:� DATE:_� MECH: RECEIVED JAN 2 2 2020 Permitting Department st3k°Xccess Pathway R1 # Modules (30) Pitch: 18° Azimuth: 180° 150' Trench at least l8" deep Dimension not to scale Customer Info: Mathew Mosley 7750 Gullotti Pl, Port Saint Lucie, FL 34952 719-213-6175 FILE COPY -Non-Fused AC Disconnect Located at barn M1E Layout Subject to Change Based on Site Conditions �EH S ■ Efficient Home Services 9416 International Ct, St. Petersburg, FL 33716 844-778-8810 Date: 12.31.19 Drawn bv: CW I Rev Date: I Iwo General Notes: Rl - Roof Tech Mini's are secured to rafters @ 36" O.C. using (2) M5 x 60mm stainless steel Lag bolts. - Subject roof has One layer. - All penetrations are sealed. Roof Section I Pitch R1 1 4/12 R2-R3 1 4/12 r2 General Notes: R2-R3 - L Feet are secured to roof rafters. @ 48" O.C. using 5/16" x 4" stainless steel Lag bolts. - Subject roof has One layer. - All penetrations are sealed and flashed. Roof Rafter and Spacing I Overhang I Notes: 211x6" @ 36 O.C. 211x4" @ 24 O.C. Designed as per ASCE7-10 Modules mounted flush to roof no higher than 6" above surface. 2" 22" Inverter Type: PV Panel: Racking: Total Wattage: Roof Type: Wind Load: Fastener Type: Horizontal Purlins Truss Enphase (53) S-Energy 305W Iron Ridge 16,165W Comp Shingles & Metal 7 to 27 Deg Use 5/16" Dia 4" Lags & Roof Tech Mini's Customer Info: Mathew Mosley solffi Module 3/8-16 X 3/4 HEX HEAD BOLT S/B-1B FLANGE NUT Godwin Engineering an Design, LLC 8378 Foxtail Loop Pensacola, FL 32526 D. Chad Godwin, PE Chad@godwineng.com 3-5/8" V1. EH S Efficient Horne Services 7750 Gullotti P1, Date: Port Saint Lucie, FL Drawn by 34952 Checked 1 Rev #: 00 719-213-6175 Rev Date: 9416 International Ct, St. Petersburg, FL 33716 844-778-8810 12.31.19 S-2 Barn Photovoltaics: (30) SN305M- I OT/15T Inverters: (30) Enphase IQ7 Micro Inverters Circuits: (2) circuits of (15) Modules Maximum Inverters Per 20A Circuit (16) En a e Cable NEMA3R Junction Box Black - LI Red - L2 Green - Ground Roof #12 AWG THWN for Home runs under IW #10 AWG THWN for Home runs over IW (1) Line 1 (1) Line 2 Per Circuit 98 AWG THWN (1) EGC Inside Q lewt 3/4" Conduit (tbd on site) Voltage Drop Calculations 2(12.9ohm-cm/ft)*150ft*30A =4.5V 26251cm 4.5 #6 V ✓ Located at House NEMA M Junction Box Black - LI Red - L2 Green - Ground soladxk T)P Locatedat Barn I(n-2pgart,N.v Pe Cirtwt 96AWGTHWN (1) Line I (1) Line 2 #8 (1) EGC in Q least 3/4" Conduit Typically 125A (1)-40A Breaker) (2)-20A Breaker 1150' Trench at least 18" deep WAR NING INVERTER OUTPUT CONNECTION: DUAL POWER SUPPLY Disconnect DO NOT RELOCATE THIS SOURCES: UnUTY GRID AND OVERCURRENT DEVICE PV SOLAR ELECTRIC SYSTEM r 9D11f1 •YSRip l�IrD/!D'IrrN IYPID f11IrrDOfY :uw form suiaanrr srtnotm,� wtoscrlarD sxocr; ItivAw I ]YIIffAiYM1C Figure 690.56(C)(1)(a) Label for PV Systems that Shut down the array and the conductors leaving the array meets the requirements ofNFPA 1 2015 In Case of Emergency Call Efficient Home Services at 844-778-8810 EC 13008759 11.12 1, House Photovoltaics: En a eCable (23) SN305M-10T/15T Inverters: (23) Enphase IQ7 Micro Inverters Circuits: (1) circuit of (12) Modules (1) circuit of (11) Modules Roof Maximum Inverters Per 20A Circuit (16) #12 AWG THWN for Home runs under IW NEC LABEL NOTES: 410 AWG THWN for Home ram over IW 1. THE WARNING SIGN(S) OR LABELS) SHALL COMPLY (1) Line I WITH NEC 110.21(B) (1) Line 2 2. LABELS SHALL BE SUITABLE FOR THE ENVIRONMENT Per Circuit WHERE THEY ARE INSTALLED. Meter 3. LABELS TO BE A MIN LETTER HEIGHT OF 3/8"AND (I)) PERMANENTLY AFFIXED. Inside de®leazt 3/4•Conduit (tbd on sire) 4- LABELS SHALL ALSO COMPLY WITH THE SPECIFIC REQUIREMENTS OF THE AUTHORITY HAVING O JURISDICTION. Line Side Tap Manual Disconnect I00A Service Rated Fused Disconnect Neutral to Ground Bond AC Disconnect 70A Fuse (I) Line I (1) Line 2 #4 AWG THWN (I) Line 1 (1) Neutral (1) Line 2 48 (1) EGC (1) Neutral in Q least I" Conduit Typically in Qa least 1" Conduit Typically •... 1 s+' ,'i •,ywi 30 (I)il8AWG EGC&GEC Refer to NEC"""Or p���fr{1��tr�rr} ��p�� n 8ACWIf Y�IWrrr1Gf A' Conditions on taps in sw and ever NRe bait Vaee9 �p ,MMACIMSE 1: Enclosures. Ifthe Nnditumarenot met a tap box will need to be installed. Note: -All wiring to meet the 2014 NEC and Florida electric codes. 100A Disconnect -Type of conduit to be determined on site by contractor. GEC NOTES Provide a grounding electrode system for an ungrounded system per 690.47(C)(3). GEC must be installed per 250.64 - GEC must be continuous un-spliced or irreversibly spliced from inverter to existing service ground system or continuous from the arrays to the existing service ground system. - If GEC is not continuous from the away to the existing service ground an additional ground system must be provided from the arrays to a grounding electrode per 690.47(D) - GEC must be min #8 AWG and installed in conduit Enph Output Ckt Per String (Barn) To Overcurrent Protection Device AC Max Output Current 15 AC Max Output Current * 1.25% 18.8 Overcurrent Protection A 20 No. of Current Carrying Cond <4 Conductor Gauge AWG 10 Enphase Output Ckt Per String (House) To Overcurrent Protection Device AC Max Output Current 12 AC Max Output Current * 1.25% 15 Overcurrent Protection A 20 No. of Current Carrying Cond <4 Conductor Gauge AWG 10 Enphase Total Output Ckt AC Max Output Current 53 AC Max Output Current * 1.25% 66.3 Overcurcent Protection A 70 No. of Current Carrying Cond <4 Conductor Gauge (AWG) 4 Main Distribution Panel 200A Main Godwin Engineering an �� o�'���ENSF Design, LLC �' N , o 8378 Foxtail Loop Pensacola, FL 32526 ° oa. ST E'OF D. Chad Godwin, PE �. �` .FCORIOtt, Chad@godwineng.com iiss/pNAL `���u1nlu�rai3dn Customer Info: Mathew Mosley Date: 7750 Gullotti Pl, Draw EH S Efficient Home Services 9416 International Ct, St. Petersburg, FL 33716 844-778-8810 Port Saint Lucie, FL checked by: 34952 Rev #: 00 Rev Date: 719-213-6175 pa"a. 12.31.19 Cw E-1 7'-2 -511 R-1 # Modules (30) Pitch: 18° Azimuth: 180° 1 R-3 17' 16 # Modules (10) Pitch: 18° 14' 7 Azimuth:269 ° 7' 4' _ Splice Bar 4 Flashings 51 UFO's 126 Sleeves/End Caps 40 Solardecks 2 Ground Lugs 10 Mounts 72 11 R-2 # Modules (13) Pitch: 18° Azimuth: 179° Max cantilever is 12" as per manufacturer spec. Max Cantilever = Max Span * (3)=36*(3)=12" Max cantilever is 16" as per manufacturer spec. Max Cantilever = Max Span * (11)=48*(1)=16" iverter Type: Enphase V Panel: (53) S-Energy 305W .acking: Iron Ridge otal Wattage: 16,165W .00f Type: Comp Shingles & Metal And Load: 7 to 27 Deg astener Type: Use 5/16" Dia 4" Lags & Roof Tech Mini's Customer Info: Mathew Mosley 7750 Gullotti Pl, Port Saint Lucie, FL 34952 719-213-6175 7" Godwin Engineering an Design, LLC 8378 Foxtail Loop Pensacola, FL 32526 D. Chad Godwin, PE Chad@godwineng.com Date: Rev #: 00 Rev Date: C. Goo//x l Q v\GENS4P ' S TE OF All RIDP: "��N EH S Efficient Home Services 9416 International Ct, St. Petersburg, FL 33716 844-778-8810 12.31.19 CW S-lA 290 #w 305 Watt ............................................................ Continuously manufacturing PV modules since 1992, S-Energy Is one of the most experienced module makers In the Industry. More than 25 years of operating data support S-Energy's reputation as the hest overall quality, performance, and value for solar Investors. The exdtingedge SN-series leads the Industry again in advanced design, construction, and performance. The SN-sedes Is the Ideal module for any system size in any given environment With the quality to last the lifetime of the PV system, S-Energy's SN-series provides the confidence and assurance to each and every one of our customers. Features ENHANCED EXTERNAL LOAD / IMPACT Snow Load : 5,400 Pa (311T) / 8,400 Pa (40T) Wind Load : 2,400 Pa (30T) / 5,400 Pa (40T) Hall Impact: 30.71n/s (speed ball) + POWER ADVANTAGE 25-year, linear power warranty >97.5% nominal power during tat year Positive tolerance up to+5W PID RESISTANCE Enhanced potential Induced degradation FIRE SAFETY UL1703 Fire Classification : Type 1, Type 2 �!I► ENVIRONMENT RESISTANCE Suitable for extreme conditions Resistant to hit salt mist and ammonia (certified by Tg Rheinland) AVAILABLE IN TWO THICKNESSES Standard (30T) and 40T for more durability Qualifications & Certifications IEC 61215 & 61730, UL 1703, ISO 9001, ISO 14001, OHSAS 18001, WEEE Mechanical Characteristics Solar Celts Monocrystalline 156 x 156mm IS Inches) Number a1 Cells 60 Cells (6x10 Matrix) Dimensions 1,650 x 990 x3Omm (30T) /1,650 x 990 x40mm(40T) Weight 17kg (37.48 Ibs) Front Glass High-Transmlffance Low Iron Tempered Glass Frame Anodized Aluminum Black Frame Output Cables PV Wim (PV1-F), 12AWO (4mrn% Cable Length: 1,000mm Connectors MC4 Connectable ProductProducl Warranty 110-year Limited Product Warranty -year Limited Product Warranty Performance Warranty Minimum Power Output for Year 1 : 97.5% Maximum Power Decline from Year 2 to 24: 0.7% Power Output at year 25: 80.7% SN 60-Cell Monnocrystalllne PV Module SN290M-10 SN295M-10 SN30OM-10 SN305M-10 -•-•--------------------------------------------------------. Electrical Characteristics * S-Energy STC p;.avw tonouw+,luam.relloemm�a•eixir.rst SN28SM-10 =5N2B5M-10" SN300M-70 'I SN305M•10 Rated Pawer(femsx) 290W 295W 300W 305W Voltage at Penn (Vmp) 32.8V 32AV 32.8V 33.2V Current at Pan (Imp) 9.115A 9.10A 9.14A 9.18A Warranted Minimum Penn 29OW 295W 30OW 305W Short -Circuit Current (Ise) 9.63A 9.66A 9.68A 9.71A Open -Circuit Voltage (Vet) 39.6V 39.7V 39.9V 40AV Module Efficiency 17.8% 18.1% 18.4% 18.701 Operating Module Temperature -40°C to+ 85°C Maximum System Voltage 1,000v(IEC) / 1,000V(UL) Maximum Series Fuse Rating 20A Maximum Reverse Current 20.25A Power Tolerance 0 -+5 W box i1 ,.' GNd(ekoi I ,i , i tss p- I L• j ! ( 1 Pil i !'r I ,. I � I _,I i. Y Temperature Characteristics Temperature coefficent of In 0.046 %/ °C Temperature coefficient of Vas -0.282%/°C Temperature coefficient at power -0.394%/°C NOCT (To 20°C ; Irradlance B00WAoe; Wind 1m/s) 45+2 °C Packing Configuration - - — - - - -I- - .30T' _. j _ .- Container 40 WC 40' H/C Modules Per Pallet 25pns 25pcs Pallets Per Container 28pailets 28pallets Modules Per Container 700pts 700pes Remarks: Pmex measurement Mamma:22.5% 8•Energy uses triple AAA Class simulator. SptlfipBm{a�6lerlia ch nje mnx tgorrefice. S aemyreseresMe rights of red blerpreta5on. Oacumeot: BB Dag{2MML40UIL&TI -IMO-BUIBlacLM7.11 ............................................................................................................................... S-Energy Co., Ltd. 3rd FI., Mirseasset Tower, 20, Pangyoyeok-m 241beongil, Bundang-gu, Seongnam-sl, GyeonggWo, KORFA, 13494 Tel.+82-70-4339-7100 Fax.+82-70-4339-7199 E-mail. InqulryQsenergy.cem SEA] America, Inc. 20 Corporate Park, Suite 190. Irvine, CA 92606. U.SA teL. erntmw",srm1 Tel.+1-949-281-7897 Fax.+1-949-281-7893 E-mall.sales.us®senergy.00m S-Energy Japan Co., Ltd. 148-9, Koujimachi, Chiyoda-ku, Tokyo, DIK Kojimachi building 3F-A, Japan Tel.+81-3-6261-3759 F=+81-3-6261-3769 E-mail. tom.yasuda@senergy.com Data Sheet Enphase Microinverters Region: AMERICAS Enphase IQ7and IQ7+ Microinverters The high-powered smart grid -ready Enphase IQ 7 Micro'" and Enphase IQ 7+ Micron' dramatically simplify the installation process while achieving the highest system efficiency. Part of the Enphase IQ System, the IQ 7 and IQ 7+ Microinverters integrate with the Enphase IQ Envoy"', Enphase IQ Battery'", and the Enphase Enlighten'" monitoring and analysis software. IQ Series Microinverters extend the reliability standards set forth by previous generations and undergo over a million hours of power -on testing, enabling Enphase to provide an industry -leading warranty of up to 25 years. Easy to Install Lightweight and simple Faster Installation with Improved, lighter two -wire cabling Built-in rapid shutdown compliant (NEC 2014 & 2017) Productive and Reliable • Optimized for high powered 60-cell and 72-cell* modules • More than a million hours of testing • Class II double -Insulated enclosure • UL listed Smart Grid Ready • Complies with advanced grid support, voltage and frequency ride -through requirements • Remotely updates to respond to changing grid requirements • Configurable forvarying grid profiles • Meets CA Rule 21 (UL 1741-SA) *The IQ 7+ Micro is required to support 72-cell modules. Enphase IQ 7 and IQ i+ Microinverters +Cbmmanly;u'sedino'dulejlairingst;' 835W 350W+.N "�_"__" b235,W.'440',W+� Module compatibility 60 cell PV modules anly _ _^ _ __ 60-cell and 72 cell PV modules Maxlmum'mputDCsoitage_ N 46V _ 60V - -,I Peak power tracking voltage 27 V 37 V 27 V 45 V Min/Max start voltage. 22 V / 48 V 22 V / 60 V ..Max.DCsbortcu It— . --I current.(rnodille`IsC)'_}--- overvoltageclass DC port II II IDGpoit6sbkfeeuiian d'c PV array configuration Tx ungrounded array; Noat(dit(onal OC:side.protechon required; Acside protection requires max 20A,perbranch ci[cult OUTPUTDATA.(AC). - IQ;7Micrcimerter - 1137+Microloverler i295 Maximum continuous output power 240 VA 290 VA *O—Ph'al(L-L)9oltage/mange _240UP 208V% 240V-/ _ 21,1 264 VI 183 229 V 211 264 V? 183 229.V ,- Maximum:conlmuousoutput :current . �10A(240V) 1.1.5k(208V)• 121,A(240�V) 139A.(20aV) iNomi al;(mquenc,::..T---, " - ..4^"._•6011� Extended frequency range _ _.-_�...-.-_....�, y47-68Hi� 47-Wz ACshort_,crcunfaultcurreritov�.e[;3�:cycles-.'^�SBArrils%_""""--`SyBArms.. Maximum units per 20 A (L.L) branch ctrowN 15 (240 VAC) 13 (208VAG)J _ 13 (2g0VAC) 11 208'VAC) OvervoltageclassACpo�rl AC port backfeed current 0 A O A +POWel �aatol'settin9, _ __,_•.=__..ISO PoWerfaWor(adjustablej _ 0,7-leadloq ,.. 0.7lagginy t0,Veading „.0,71agging EFFICIENCY @240 V. @208,-V •@240,V, @208.V I PyeakOEG,effi�crenc - -- - 97i6.%? 976;°a ' ;97;8 °: '97;3t%, CEC'weighted efficiency _ 97.0 %. 97:0,%�97.G% _ 97SIA 1 MECHANICAL DATA -; Anlbfent;lemPerature{tinge- 40°Gto+65@C: _..- ;„_," _.. - _, " _ �„_ . _ . _ __ e- ; ..' .. '.. -- ._ .�_ _,.' Relative humidity range _ 4% to 100%(condensing) ,Connector.type(IQ7,60;2US&(Q7PLUS+�22.GSj�„•„�N)C4;(or/%{rip(�janolN4t1jX�W(th;ddltlona(O�CGSaiiaplef)` Connedtoktype(1Q7,-50-B-US&IQ7PLUS72-6-US) Friends PV2(MC414'tefmateable)„ Adaptors for madules with jvlC4 a UTX cannectors: - PY2 to MC4:arder ECA-520is22 - PV2 to UTX: order ECAS20-S25 sionst(WxNxDS•t , _ _� `212mm,x 17Smm� 3x 0 2 mnq f u_tyaacget)._�_ Weight 1.08 kg.(2 30Ibs) Approyed for Wet locations A Yes Enclosure Class lldoubleinsulated corrosion resistant polymericenclosure gEOVltanfilenlal-category%UV exposureratibg:-vNEMA:rype_6Ji.6Utdooc:• •_ _ - ; ;FEATURES I -Communicaticri- I,AnmrnrinA Fnlinhecn hAnnaner anA M°Fnhnhr°n mrinirnrinn nnNnhe s s-means: ..-- connect(ng means: Compliance in of an Enphase IQ Em useas;llie,lo'ad=�ak', ;I FCC Part 15 Class B, ICES-0003 Class S. This product is UL Listed as PV Rapid Shut Down Equipment and conforms with NEC-2014 and NEC-2017 section 690.12 and C22.1-2015 Rule 64-218 Rapid Shutdown of PV Systems, for AC and DC conductors, when installed according manufacturer's instructions. 1. No enforced DC/AC ratio. See the compatibility calculator at httpsc�phase com/en-ue/anpnort/module-comoatihil'ty. 2. Nominal voltage range can be extended beyond nominal if required by the utility. 3. Limbs may vary. Refer to local requirements to define the number of microinverters per branch in your area. E N P H AS E. To learn more about Enphase offerings, visit enphase.com E N P H AS E. To learn more about Enphase offerings, visit enphase.com `� © 2018 Enphase Energy. All rights reserved. All trademarks or brands used are the property of Enphase Energy. Inc. 2018OS24 ®-- IRON RIDGE XR Rail Family I XR Rail Family Solar Is Not Always Sunny Over their lifetime, solar panels experience countless extreme weather levents. Not just the worst storms in years, but the worst storms in 40 years. High winds capable of ripping panels fro a roof, and snowfalls weighing enough to buckle(a panel frame. .A XR Rails are the structural backbone preventing these results. They resist uplift, protect against buckling and safely and efficiently transfer loads intd the building structure. Their superior spanning capability t requires fewer roof attachments, reducing the number of roof ` penetrations and �11e amount of installation time.— r` A�y` Force -Stabilizing Curve Sloped roofs generate both vertical and'lateral �,, - - >i' `'•-'�" �' forces on mounting rails which can cause them to bend and twist. The curved shape of XR Rails a is special y esigned�to increase strength in both [z directions while resisting the twisting This unique feature ensures greater security during extreme weather and a longer system lifetime. Compatible with Flat &'Pitched Roofs XR Rails are IronRldge offers compatible with + � a range of tilt leg FlashFoot and options 1dr flat other pitched roof EtU■ roof mounting. attachments.. apP Itcatlons. Corrosion -Resistant Materials All XR Rails are made of 6000-series'—. aluminum alloy, then protected with an anodized finish: Anodizing prevents surface and structural corrosion, while also providing t" a more attractive'appearance. The XR Rail Family offers the strength of a curved rail in three targeted sizes. Each size supports specific design loads, while minimizing material costs. Depending on your location, there is an XR Rail to match. I XR10 XR10 is a sleek, low -profile mounting rail, designed for regions with light or no snow. It achieves 6 foot spans, while remaining light and economical. • 6'spanningcapability • Moderate load capability • Clear & black anodized finish • Internal splices available Rail Selection XR100 XR100 is the ultimate residential mounting rail. It supports a range of wind and snow conditions, while also maximizing spans up to 8 feet. • 8'spanning capability • Heavy load capability • Clear & black anodized finish • Internal splices available XR1000 XR1000 is a heavyweight among solar mounting rails. It's built to handle extreme climates and spans up to 12 feet for commercial applications. 12'spanning capability Extreme load capability Clear anodized finish Internal splices available The following table was prepared in compliance with applicable engineering codes and standards. Values are based on the following criteria: ASCE 7-10, Roof Zone 1, Exposure B, Roof Slope of 7 to 27 degrees and Mean Building Height of 30 ft. Visit IronRidge.com for detailed span tables and certifications. s 1 • . 100' 120, None 140. ,XR10i XR700 XR1000:± r• 160'I ,100 12o iJ 140' 16o „ 100 30 i4 160 40 1,00 .....� , 160 50 70 ' 160 { eti=so 160• - other pitched roof EtU■ roof mounting. attachments.. apP Itcatlons. Corrosion -Resistant Materials All XR Rails are made of 6000-series'—. aluminum alloy, then protected with an anodized finish: Anodizing prevents surface and structural corrosion, while also providing t" a more attractive'appearance. The XR Rail Family offers the strength of a curved rail in three targeted sizes. Each size supports specific design loads, while minimizing material costs. Depending on your location, there is an XR Rail to match. I XR10 XR10 is a sleek, low -profile mounting rail, designed for regions with light or no snow. It achieves 6 foot spans, while remaining light and economical. • 6'spanningcapability • Moderate load capability • Clear & black anodized finish • Internal splices available Rail Selection XR100 XR100 is the ultimate residential mounting rail. It supports a range of wind and snow conditions, while also maximizing spans up to 8 feet. • 8'spanning capability • Heavy load capability • Clear & black anodized finish • Internal splices available XR1000 XR1000 is a heavyweight among solar mounting rails. It's built to handle extreme climates and spans up to 12 feet for commercial applications. 12'spanning capability Extreme load capability Clear anodized finish Internal splices available The following table was prepared in compliance with applicable engineering codes and standards. Values are based on the following criteria: ASCE 7-10, Roof Zone 1, Exposure B, Roof Slope of 7 to 27 degrees and Mean Building Height of 30 ft. Visit IronRidge.com for detailed span tables and certifications. s 1 • . 100' 120, None 140. ,XR10i XR700 XR1000:± r• 160'I ,100 12o iJ 140' 16o „ 100 30 i4 160 40 1,00 .....� , 160 50 70 ' 160 { eti=so 160• -