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047-710-022
CUSTOMER INFORMATION CLIENT NAME Michael Stoner O r� ADDRESS: Lot 55 Sierra Moon Subdivision T ... ri O C H' O CITY: Chico, CA 95973 E 4 PHONE: S10-604-8666 AHJ: City of Chico U APN # 047-710-022: 4, } o" . . 0 0 t a c o U p .. . a c Y N o o m v66 T, M APPLICABLE CODES '° '^ c L Ln U u • 2011 NATIONAL ELECTRICAL CODE (NEC) L � U 2013 CALIFORNIA ELECTRICAL CODE (CEC) a 5 • 2013 CALIFORNIA BUIDLING CODE (CBC) General Solar :Specs • 2012 INTERNATIONAL BUIDLING CODE (IBC) a • THE PV MODULES ARE CONSIDERED NON-COMBUSTIBLE AND THIS; SYSTEM IS AN UTILITY INTERACTIVE SYSTEM WITH NO STORAGE BATTERIES. SCOPE OF WORK.:. • PER NEC, GROUNDING ELECTRODE SYSTEM OF EXISTING BUILDING MAY: BE USED AND BONDED TO AT THE SERVICE ENTRANCE. IF EXISTING SYSTEM IS . 8.32kW Roof Mount with 32 CanadianSolar CS6P-260P modules and SMA INACCESSIBLE, OR INADEQUATE, OR IS ONLY METALLIC WATER' PIPING, A SUPPLEMENTAL GROUNDING ELECTRODE WILL BE USED AT THE INVERTER inverters., " . . LOCATION CONSISTING OF A UL LISTED 8FT GR"OUND ROD WITH ACORN CLAMP. GROUNDING ELECTRODE CONDUCTORS SHALL BE NO LESS THAN #10 AWG AND NO GREATER THAN #6 AWG COPPER AND BONDED TO THE EXISTING GROUNDING ELECTRODE TO PROVIDE FOR A COMPLETE SYSTEM. SYSTEM LNFORMATION • EACH MODULEWILL BE GROUNDED USING AN INTEGRATING GROUND SYSTEM. SYSTEM SIZE: M2kW EXPOSED NON-CURRENT CARRYING METAL PARTS OF MODULE FRAMES, EQUIPMENTS,:AND. CONDUCTOR ENCLOSURES SHALL BE GROUNDED IN PV MODULE: CanadianSolar CS6P-260P ACCORDANCE WITH 250.134 OR 250:136(A) REGARDLESS:OF VOLTAGE. RACKING: IronRidge _ .. ;'PROPER ACCESS:AND. WORKING CLEARANCE AROUND EXISTING AND PROPOSED ELECTRICAL EQUIPMENT WILL BE PROVIDED AS PER SECTION 11.0.26 NEC. INVERTER(S):SMA • ALL` PLAQUES AND SIGNAGE WILL BE INSTALLED AS REQUIRED BY 2011 NEC. AZIMUTH: 158°. • .; HEIGHT OF INTEGRATED AC/DC DISCONNECT SHALL NOT EXCEED 6'-7" PER NEC 240.24 :. • ::THE GROUNDING.ELECTRODE CONDUCTOR SHALL BE PROTECTED FROM PHYSICAL DAMAGE BETWEEN.THE GROUNDING ELECTRODE AND THE PANEL (OR TILT: 27' INVERTER)IF, SMALLER THAN46 AWG COPPER WIRE PER NEC 250-64(B). THE GROUNDING ELECTRODE CONDUCTOR WILL BE CONTINUOUS, EXCEPT FOR MODULE COUNT: 32 SPLICES OR JOINTS AT BUSBARS WITHIN LISTED EQUIPMENT PER NEC 250.649(C). MOUNTING: Roof Mount ROOF: S.Tile TYPE Truss. .. f co 01 CD U o U V% h W 0) 0 U'n000* jU U o 0 p, Q' ll� W W W l0 N ID O � O O r� T ... ri O C H' O Ln 2 E 4 Q Ln N U o" . . 0 0 t a c o U p .. . a c Y N o o m v66 T, M o In v a '@ n u '° '^ c L Ln U u L � U a 5 a Cover Page 1 00 U ID �JN�ttoo fn L) 0 N O �mm U O II• W 7W N v PROPERTY: EASEMENT " j - � Site Plan 180• True SCALE: 1"=30' _1 - ID N 00 V O N n to d a 0. 0 o z N •fC O O O t a QO 3 � Y � N o M p m n00 rn oLn m a, rn ai Q m t � p u u � U PROPERTY: EASEMENT " j - � Site Plan 180• True SCALE: 1"=30' _1 - U To C) Go C), C N N X W : W n C O l0 m UJ y VOU � UU)< vaw > �mm U 0 w 7 W N cea Fcoa COMBINER BOX Fal JUNCTION BOX ' Mea MAIN ELECTRICAL PANEL I�QQIP. GROUND , ---- CONDI .. lectncal P � FIRE CLEARANCE. _. 0' True � .. -:E: Custom. . SCALE: .. .. .. .. '. 1 ,. .. .. .. W O ... .;. — —..— ... ..... .. .. 40Al2P 90A2.* ko o v o 77, ... .. ..I 4... .. 5A Load Center 12 200A Q 4-1 r '. � 20/240V, 1¢ 3 �.. Main N � ....-' I :.120 -I u �: �..... Inverter D C' .. In er vert I -. _. o 10 I • Disconnect 0 _ I+ + + I o — — — — — — — — — — — I a 10 I ? i iJ-Box .. 1 2 3 I .. o o s.v a I 12 —©— —©—c In a0 o L,.. -------------------- m Ln o —a. w. .. .. - .. Single Line Diagram �� ;• •� � � NOTE: SE'E'N EXT SHEET FOR WIRE/ITEM CALLOUTS 1 DESIGN TEMPERATURES Circ. Name: Manufacturer ASHRAE DATA Load(A) Lowest Expected Temperature SB 7000TL-US-22' , -3 7000 °C Average High Temperature 240 41 Number of Phases °C PV MODULE SPECIFICATIONS Manufacturer 29.-20.:.-'- Canadian5olar Model # 40 CS6P-260P PMAX (Nominal Output) 260 W VMP (Voltage at Pmax) 30.4 V IMP ( Current at Pmax) 8.56 A VOC.(Open Circuit Voltage) 37.5 V ISC (Short Circuit Current)9.12 12 - A NOTC 25 °C Temperature Coefficient of Pmax 0.43 % / °C Temperature Coefficient of Voc -0.0034:' % / °C Temperature Coefficient of Isc 0.065 %/ °C MAXIMUM SYSTEM VOLTAGE 1000 VOLTS INVERTER 1 SPECIFICATIONS Circ. Name: Manufacturer SMA Load(A) Model # SB 7000TL-US-22' , Nominal AC Power 7000 W Nominal Output Voltage 240 VAC • Number of Phases 1 PH Nominal Output Current 29.-20.:.-'- A AC OCP Rating 40 A Max. Array Input Voltage, 600 VDC MPPT Min at Full Power 125 .. VDC: MPPT Max at Full Power 500 VDC 2 Strings of 10 on MPPT1 20. Modules 1 Strings of 12 on MPPT2 12 - Modules CONDUCTOR AND CONDUIT SCHEDULE (COPPER) VDROP SCHEDULE ID# Circ. Name: Circ. Conductor Voltage(V) Load(A) Ampacity for. :'OCP (A) (Load x 1.25) lamb . • Raceway Conductor Required Ampacity (A) Conductor Size & Type # of Runs per Phase Conductor Ampacity E.G.C. CONDUIT Voltage(V) Amperage( A) LENGTH 1 WAY Copper Voltage Drop (�o) 1 PV String PV +/-.. 492.8 11.40 14.25: 0.82 1.0 14.25 #10 PV Wire 1 35 .; #10 N/A 364.8 8.56 80 approx 0.47 2 PV -1 PV -1 +/- 492.8 11.40: 14.25 0.82 0.7 19.86 410 ' THWN-2 1 35 #10 MC Cable :364.8 8.56 75 approx.' 0.44 3 INV 1 L1,L2,N 240.0 29.20 36.50 0.82 1.0 36.50 #8 THWN-2 1 50 #10 3/4" EMT 240.0 29.20 15 approx 0.26 NOTES:Strings #1 and #2 are to be combined in the junction box of the roof. u_ Zn . L v e' 5 tl a b Bill Of Materials ID . .fV i0 O 00 O' o n d v Ln z E � a v7 U co O O O t a C 0 .N Q. � Y N C. o M o m `w n rn c Ln rn L O u_ Zn . L v e' 5 tl a b Bill Of Materials T FOR ILLUSTRATION ONLY r (NOT ACTUAL HOUSE) - 1 4 k + i�. C LL Solar System Installed by- t .a' t' - �. • r T . 2,,,i. • . S. i ; r FMC in Atti r s' J=Box 0Le f (530) 345-0400 r f Exterior EMT 7, - ' F'!A . 4 www.unitedsunenergy.com A •. '� t license g 977269 PV Sub Panel/ ap. r , .• �' Load Center Main Service Panel' r�r, ^.' -}• - �. � ,• ;,2 -�: ..fes_ .. . , � O O O � �. �*�. rig'. 4 '�.• ', ... � es • .. .. .AOL D o ` D D o D �r, .•• " FOR ILLUSTRATION ONLY +Stickers �. ..4• O 3 (NOT ACTUAL MSP) - - ir.Next to Main Breaker - LL �_--.--------- 0 soler system Installed by , 0 Sticker 'On Inside of (53o)3 0 ,. METER _ MSP Breaker Cover .. t LL .. i 0ry1i�0v� 1LT1111 .,y. ,n 'I.t'a. •f c' _J� - _ • - I ,r .• .. - ... .. ... 0 ! W/wl►m1�u�1�l:JG11'J 'y. - '" *. , . _ -Cover of Main Service. Panel ~ f ' • ... n ' ••Sri �.�^ •-} la S • ' '� �'• �I .. ie<.4 �,+ - � .•}�J. ' ' - .. •fit .. .. - :• i 1 '^ a � '!tF .. .. I . .. r,. .. • .- o p Sticker ' y Next to s. Breakers for } F' ' All interior and exterior conduit, raceways, enclosures• and cable assemblies at turns y 5 'r Solar _ above and/or below penetrations to be labeled every 10'. + r `. •� , L --`---------- 1Y N OD m U o �m-0 � 0) ID cUo' W O LL n CO. OI V, NU OU N � J C U U N, M a O 0 V. CW to W 6... N W V Ln d E: Ln .0 o' O O. t CL C Q0 .N � Y N N o m o6 Ln c m m w v) V m ,n , o cV_ _ G o U y§ B b z Placards • •1 _r uanaaia MODULE I CNGINEEii NCS Gfutwlivt; (mm) "J, "t CS60-255P / I-V CURVES Rear View Frame Cross' Section A -A ,o -. 10 35 31 . r• •1 8 _-..--.... _ 8. _ . ... i•• - ❑ t 5 i 6 - _._ _ 6. ...- _...__._•_. _ hole 4 T i �y n+ • ' 11' : z I v- 'Mounting Hole s 10 15 20 25 30 35 40 5 10 15 20 25 30 35 40 1211 •) I At JA _ _ . Mounting : - a ) r • We I R ... ■ 100ow/ ; 5-c ■ f«• ■ 800 W/m'. .. 25•C ■ . _ 40 _ ■ 600 W/rN �.. 45-C ■ _• 982 • ■ 400 W/m' . L �,s•-' 65•C ■ ELECTRICAL DATA./ STC* ' ' MODULE / MECHANICAL DATA Electrical Data CS6P: 250P• 255P 260P Specification Data Nominal Max Power (Pmax) 250 W 255 W 266W. Cell Type �� Poly -crystalline 6 inch ' .., Opt. Operating Voltage (Vmp) 30:1 V-� 30.2 V • 30.4 V . Cell Arrangement 60 (6 x 10) - Opt. Operating Current (Imp) 8.30A • 8.43 A . 8.56 A Dimensions 1638x982 x 40 mm (64.5_ x 38.7x 1.57 in) Open Circuit Voltage (Voc) 37.2 V 37:4 V 37.5 V weight.. 18 kg (39.7 lbs) Short Circuit Current (Isc) , 8.87 A . 9.00 A 1.•9.12 A Front Cover 3.2 mm tempered glass' Module Efficiency, ; 15.54% 15:85% 16:16% Frame Material Anodized aluminium alloy' . Operating Temperature -406C -+85°C J -BOX _IP67, 3 diodes Max. System Voltage 1000 V (IEC) or 1 OOOV (UL) Cable 4 mm2 (IEC) 9r4 mm2 & 12 AWG 1000 or 600 V (UL) ? - . `. V (UL 1000 V)or9.2 AWG (UL.600 V), Module Fire Performance TYPE 1 (UL:1703) or ' : .1000 mm (650 mm is optional) CLASS C (IEC61730) Connectors MC4 or MC4 comparable ` Max. Series Fuse Rating .15 A _:: _ Stand. Packaging 24 pcs, 480 kg Application Classification , :_ Class A; , (quantity & weight per pallet) Power Tolerance .' 0-+5W Module Pieces 672 pcs (40'HQ) per Container * Under Standard Test Conditions .(STC) of irradiance of 1600 W/m2, ` spectrum AM 1.5 and cell temperature of 25°C. • . ' ,. TEMPERATURE CHARACTERISTICS • ELECTRICAL DATA / NOCT* ' : Specification • Data Electrical Data CS6P 250P 255P. r 260P Temperature Coefficient (Pmax) -0.43%76c - F Nominal Max. Power (Pmax) 181 W 185. W '149W Temperature Coefficient (Voc) '-0.34% / °C Opt. Operating Voltage (Vmp) 27.5.V 27.5 V 27.7 V Temperature Coefficient (Isc) . 0.065%/ "C Opt. Operating Current (Imp) 6.60 A . . 6.71 A 6.80 V. Nominal Operating Cell Temperature 45±2°C Open Ciri:uit Voltage (Voc) 34.2 V 34.4 V. 34.5 V Short Circuit Current (Isc) 7.19 A 7.29 A :.7.39 A PARTNER SECTION • Under Nominal Operating Cell Temperature (NOCT), irradiance of .................................................................................................. 800 W/m',_spectrum AM I.S. ambient temperature 20°C, wind speed. ,1 m/s. PERFORMANCE AT LOW IRRADIANCE Industry leading performance at low irradiation, +96.5 %. - module efficiency from an irradiance of 1000 W/m2 to 200 W/m? (AM 1.5, 25-C). As there are different certification requirements In different markets, please contact your sales representative for the specific cendfiatei zpplitable to your products The sPecifitatinn and key features described in Na Datasheet may cley4te slightly and are not guaranteed. Due to ongoing Innovation. research and product enhancemenL Canadian solar Inc. reserves the right, to make any adjustment to the Information described herein at any time without notice. Please - .. always obtain the most recent version of the datasheet which shall be duly incorporated Into the - t, hiridirhg contiea made by the partks governing a0 transalloris related to the purchase and sale -. - �. t ;'� -• of products described herein ... -' ,.� •............. ......:...:.....................................................--. .................. r• ................... ............:. r.................................:...:.::...............................................:..:.::..........::...................................:....................-................... a .: CANADIAN. SOLAR INC. December 2014. All rights reserved, PV Module Product Datasheet I V5.0 EN Caution: Please read safety and installation instructions before using the product. 01 U a Zo m in this W tOt22 m LLo m�k N NUO(� to Eu -)a N U 4 U to N 1 Cl) O C® Y a } tJ C W W o' N 1Oo .. o 0? 6 T o' e EZ rl a� tN V) U a� O O -W O L _ V o p N v j Y fV "o M o m o6 Ch c m o `f1 m s a in n2 Ln - p u_ an u L U r I! ' 3 Module Datasheet QuARTECH C.S6P-250 255 1 260P' Canadian Solars new Quartech modules have signi- ficantly raised the standard of module efficiency in the solar industry. TheV introduced innovative four busbar cell technology, which demonstrates higher - power output and higher system reliability. *Black frame , Worldwide', our customers have embraced this r , product can be ' `` next generation of modules.for theirexce'llent provided upon performance, superior reliability and enhanced 3' request. NEW TECHNOLOGY insurance -backed waanty; 25rr Reduces cell series resistance years non -cancellable; Immediate wty arraninsurance Reduces stress between cell interconnectors •, linear power output warranty r Improves. module conversion efficiency Improves:produl t reliability 10 product warranty on materials years and workmanship KEY FEATURES ...... Higher energy yield MANAGEMENT SYSTEM CERTIFICATES O/w Outstanding performance at low irradiance ISO 9001: 2008 / Quality management system Maximum energy yield at low NOCT - I50/r516949:2009/The automotive Industry quality managementsystem ' Improved energy production through 15014001:2004/Standards for erivironmentalmanagement system reduced cell series resistance OHSAS 180012007 / international standards for occupational health & safety Increased system reliability PRODUCT CERTIFICATES' Long term system reliability withIP67 IEC6iiiS/IEC61730:VDE/MCS/CE/JET/SII/CECAU/INMETRO/CQC _ - ... junction box -' UL 1703 / IEC 61215 performance: CEC listed (US) / FSEC (US Florida) Enhanced system reliability in extreme UL 1703: CSA / IEC 61701'ED2: VDE / IEC 62716: TUV / IEC 60068-2-68: SGS' - .temperature environment With special PV CYCLE (EU) / UNI 9177 Reaction to Fire: Class 1. • - - cell level stress release technology . d`e V R- BBA1f vvv a a 1 xEnz- 1 Extra value to customers c Positive power tolerance up to S W :..................+....................:_.... ............. :.......... r ,Stronger 40 mm robust frame to hold ' J snow load up to 5400 Pa and CANADIAN SOLAR INCJ.s committed to providing high'quality. , wind load up to 2460 Pa solar products, solar system solutions and services to customers Anti -glare project evaluation around the world. As a leading manufacturer.of solar modules and ., Salt mist; ammonia and blowing sand ' Pv project developer. with about 8 GW of.premium quality modules •Canadian resistance apply to seaside, farm and deployed around the world since 2011, Solar Inc. desert environments (NASDAQ: CSIQ) is one of the most bankable solar companies ` CANADIAN SOLAR INC. - 545 Speedbale Avenue West, Guelph, Ontario N1 K 1 E6, Canada, www.canadiansolar.com, support@canadiansolar.com MODULE I CNGINEEii NCS Gfutwlivt; (mm) "J, "t CS60-255P / I-V CURVES Rear View Frame Cross' Section A -A ,o -. 10 35 31 . r• •1 8 _-..--.... _ 8. _ . ... i•• - ❑ t 5 i 6 - _._ _ 6. ...- _...__._•_. _ hole 4 T i �y n+ • ' 11' : z I v- 'Mounting Hole s 10 15 20 25 30 35 40 5 10 15 20 25 30 35 40 1211 •) I At JA _ _ . Mounting : - a ) r • We I R ... ■ 100ow/ ; 5-c ■ f«• ■ 800 W/m'. .. 25•C ■ . _ 40 _ ■ 600 W/rN �.. 45-C ■ _• 982 • ■ 400 W/m' . L �,s•-' 65•C ■ ELECTRICAL DATA./ STC* ' ' MODULE / MECHANICAL DATA Electrical Data CS6P: 250P• 255P 260P Specification Data Nominal Max Power (Pmax) 250 W 255 W 266W. Cell Type �� Poly -crystalline 6 inch ' .., Opt. Operating Voltage (Vmp) 30:1 V-� 30.2 V • 30.4 V . Cell Arrangement 60 (6 x 10) - Opt. Operating Current (Imp) 8.30A • 8.43 A . 8.56 A Dimensions 1638x982 x 40 mm (64.5_ x 38.7x 1.57 in) Open Circuit Voltage (Voc) 37.2 V 37:4 V 37.5 V weight.. 18 kg (39.7 lbs) Short Circuit Current (Isc) , 8.87 A . 9.00 A 1.•9.12 A Front Cover 3.2 mm tempered glass' Module Efficiency, ; 15.54% 15:85% 16:16% Frame Material Anodized aluminium alloy' . Operating Temperature -406C -+85°C J -BOX _IP67, 3 diodes Max. System Voltage 1000 V (IEC) or 1 OOOV (UL) Cable 4 mm2 (IEC) 9r4 mm2 & 12 AWG 1000 or 600 V (UL) ? - . `. V (UL 1000 V)or9.2 AWG (UL.600 V), Module Fire Performance TYPE 1 (UL:1703) or ' : .1000 mm (650 mm is optional) CLASS C (IEC61730) Connectors MC4 or MC4 comparable ` Max. Series Fuse Rating .15 A _:: _ Stand. Packaging 24 pcs, 480 kg Application Classification , :_ Class A; , (quantity & weight per pallet) Power Tolerance .' 0-+5W Module Pieces 672 pcs (40'HQ) per Container * Under Standard Test Conditions .(STC) of irradiance of 1600 W/m2, ` spectrum AM 1.5 and cell temperature of 25°C. • . ' ,. TEMPERATURE CHARACTERISTICS • ELECTRICAL DATA / NOCT* ' : Specification • Data Electrical Data CS6P 250P 255P. r 260P Temperature Coefficient (Pmax) -0.43%76c - F Nominal Max. Power (Pmax) 181 W 185. W '149W Temperature Coefficient (Voc) '-0.34% / °C Opt. Operating Voltage (Vmp) 27.5.V 27.5 V 27.7 V Temperature Coefficient (Isc) . 0.065%/ "C Opt. Operating Current (Imp) 6.60 A . . 6.71 A 6.80 V. Nominal Operating Cell Temperature 45±2°C Open Ciri:uit Voltage (Voc) 34.2 V 34.4 V. 34.5 V Short Circuit Current (Isc) 7.19 A 7.29 A :.7.39 A PARTNER SECTION • Under Nominal Operating Cell Temperature (NOCT), irradiance of .................................................................................................. 800 W/m',_spectrum AM I.S. ambient temperature 20°C, wind speed. ,1 m/s. PERFORMANCE AT LOW IRRADIANCE Industry leading performance at low irradiation, +96.5 %. - module efficiency from an irradiance of 1000 W/m2 to 200 W/m? (AM 1.5, 25-C). As there are different certification requirements In different markets, please contact your sales representative for the specific cendfiatei zpplitable to your products The sPecifitatinn and key features described in Na Datasheet may cley4te slightly and are not guaranteed. Due to ongoing Innovation. research and product enhancemenL Canadian solar Inc. reserves the right, to make any adjustment to the Information described herein at any time without notice. Please - .. always obtain the most recent version of the datasheet which shall be duly incorporated Into the - t, hiridirhg contiea made by the partks governing a0 transalloris related to the purchase and sale -. - �. t ;'� -• of products described herein ... -' ,.� •............. ......:...:.....................................................--. .................. r• ................... ............:. r.................................:...:.::...............................................:..:.::..........::...................................:....................-................... a .: CANADIAN. SOLAR INC. December 2014. All rights reserved, PV Module Product Datasheet I V5.0 EN Caution: Please read safety and installation instructions before using the product. 01 U a Zo m in this W tOt22 m LLo m�k N NUO(� to Eu -)a N U 4 U to N 1 Cl) O C® Y a } tJ C W W o' N 1Oo .. o 0? 6 T o' e EZ rl a� tN V) U a� O O -W O L _ V o p N v j Y fV "o M o m o6 Ch c m o `f1 m s a in n2 Ln - p u_ an u L U r I! ' 3 Module Datasheet r7-' -- -- - .. _ - _: , ame SUNNY BOY SOOOTL-0523 2dOVac l..__._______.�:. ;1 _ Sunny Boy 3000TL-US t h Sunny B_oy 3800TL•Us f Svnny Boy 40007 --US_ Technical data - - i - _ " 208 V AC 240 V AC 1 -208 V AC 240 V AC 208 V AC 240 V AE - - ---- ' ----.---- ----- -' ' - -- Input (DCI •- - S Max. usable, DC power ( 0 cos .p 1) 4200 W - -----,f2—OO-w----- i Rated MPPf 'voltage targe 175-480V _ r- MPPT o-roti—volto a Min. DC vette e^ stan'volta_1-125 - V % 150 V'-� - Max.- roti i_n ulcurrent rMPP tracker 18A/15 A_,_. „ -- 24A/1$.A '-- . r .__ 24A/15A _ Number of MPP__hpckers,/_s It p9s per MPP_gacker _-_- — _� :_. _ __ _. _ . " .2./ Output (AC) - I AC nomnwl power -„_ )' 3000 W __-,-, Maz. AC apparent po_es__. _. _ _-__-1 3000 VA - i �.^3330 VA_ __ L 3840 VA �_ — 4000 VA _ Nominal AC alta a ad usroble _ ''�'~ 208 V • 240 V • t r 208 V • 240 V,/_A 208 • F 20 V4 _ _ ___. _V . _ . . 183. ..229 V 21 1.- 264 V ) ` 183 _ _229-V 21 1 264 V 183_ _ 229-VJ 211 _264 V-; AC -grid fregueocy;range .____60;5 H.- _ ,- 60 Hz / 59 3 60,5 Hz ___N60 Hz / 59.3 w60"5 Hz_ -Mo.20A__,'_ DMuslo Output phases Baine connections .• Efficiency effloen 97 2X,- • f 97,6Y I 2 ^ 97 t --- -- - -- --- - �� - --'X::-- AES% _ _- _T_-. _ ,)��965%_" tom. _96.5%_ _-_965 Protection devices DC:d sconnection deyice _ _. _ • - t - ......_--'-- s Groundfouh monnonng,/ Grid I AC'shon orwit prolecyon - � ` -__- _ -�.._ _-_-•�!� __ ._ - � -- - - _! _ • AI le sensnrie'residual current inonitodn un t " _ _____ __ • Arc fault circuit interrupter JMFCIJ Compliant ______ ... 9° General data - Omenvons-- _._._._...OA/ T. ' DC Discognect dimensions IW [ H / D).m mm lin) _ 1 - 187 / 297./9V Po�king:dimeroio s (VJ / H:% on mm lin) _ l _ _ _- _ _.. __ - 617 / 597 / 266_ (24 3 / DC Dks[onnect P°ck4n9 mersions (V✓/ H / D) m mm lin). �l',... _ _ ___ 70 / 2d0 / 280_ (14 6 / 9 d / 11,0 --------- ' Weight/ -DC D sconnad _ l -- -'�- _ 24 kg (53 Ib) /-1- .5 s Packing weightDsswnnect paakmg woight _ . __ =- ._ _ -- __ _ 27.kg (60 IbJ / 3 5 kg le IbJ _. ,�.-Opemhng temperature range . _ `�. �_. i :.- -__ -.`40 'C +60 °C l 40 -IF., ±140 _F) --5:25 .. '---T -- A - - d --25d Imemalconwm tion at ni ht _ - -- �' - -1-- < Topology---Tronsformedess Transfonnedesi _.__TransformerL Convection :_ ' ._-., [._ -_Y - -� �Convechon Features '0.8 1 O Secure Power Su ^-. _ .- _ t -. 1 ._ ! t " _. -• _ - - � -�. • _-_. ., 1-....-.. _.. _OidPu .'.r_ ..., L _ P Interfaces: R5485 / Speedy+ire/We6conned •_ .".- �_.. ' L.�- -___-Q/O �_� -._.-_ k,_ ___ _ ._C/0 _. _ _:.._ - _� _ Warranty l0 / 15 / 20 ears i ____ •/O/O .___ � -... _ •%O/O/O .^.^ } .. .. - t Ceiti(imtes and nous mora wettable on re vest UL 1741 UL 1998 UL 16998 IEEE1547 FCC Pan 15 Closs A 8: B CAN- CSA'C22:2 107.1-1 - _ -_- .- _ _- NOTE. US inverters ship vnih g ay hds 1 _ 5300 W --'600V r7-' -- -- - .. _ - _: , ame SUNNY BOY SOOOTL-0523 2dOVac l..__._______.�:. ;1 Accessories ' . 96 •- - <dva-b -` i .. S�peedwiro/W abmnrroa M485 intcrrun c - - - <.1W 1 96 _i ..._- ....... ......«....-_... ,� _ - ' IerFbm' DrM85CBi) I SIO _ _ DMuslo j'.--. 9d .• -. 90 r I. �, SB000/3800/ dvvv/5000I= FANKR07.10 j ... 9° K 175 VI C °pr r-:-.- 88. - L JEE..47 CPa741U998U1998 - .7_1..1, U1 6 -._..i 5°p'„-400 v1 .. rs ro _. .. 7700T4US22_ — -•rely,-deovl . .. -0.0 0.2 O ... 0.6 i• - ,A '0.8 1 O - c • Standord feature O Opfionol Feature - Not available 1-....-.. _.. _OidPu .'.r_ ..., : _..._. _---- I Daio at fnominplconditions to o ----- d ' f Sunny Boy SOOOTL�Is - Sunny Boy 6000TL•Us -- _ = Sunny.Boy 7000T4U5 Sunny Boy 7700TtLs I 208VAC�, _ 240VAC .,-.�_ 208VAC �� 240VAC_- I�._208VAC_-_I� _240VAC 'fi_ 208V.AC ter" 240VAC I 1 _ 5300 W --'600V 600 V - .S .� __ - 600 V �....._ 600 V --- i 175 - 480 V '_ __-210' _ 480 t - -- L25 �- 500 V 1� 125 500 V 1 - - 12S - 500 V -! - ._ 125 _500\j _� ._ _ 125V/150V__-� _ _. _ _ 30A/15A --_--._-1:25V/ 0A/ISA i 3 -._..-..3205AV//15` 8At _ — - -, -- - --------- r-__ov s r-- - oz.n --. - 6A.hw ow ria S ow ria . .. max 1 I IV 490%519/185-1193./205/73) _, -_ 7-,266 24 _ - _. '_--��•-Z7r1./7An./7Gf1 ICA /.%OA % 17 fll.._ 00 T ODOn U �Jco o' WH u) r C� mLLen 0) m U o U U U N M m 0 O CN lin N ID o v o o n 1O n o v ..o Ln E CLZ < 4v L/1 U O O 4✓ O .0 d C U o � 2 a N Y C N g n o6 OC A un v1 v < y n U m vs . L V1 0 u_ U 6 a 3 Inverter Datasheet 1 -- —_ _, <dva-b -` _dk.___ -- - <PW__1L.:� - - - <.1W •_Trgnsf0nnerless ,� _ Tmnsfoo!kd _ _ �[ r-:-.- - L JEE..47 CPa741U998U1998 - .7_1..1, U1 6 -._..i - :. _.. ,. .. 1___V__SB 7700T4US22_ — 00 T ODOn U �Jco o' WH u) r C� mLLen 0) m U o U U U N M m 0 O CN lin N ID o v o o n 1O n o v ..o Ln E CLZ < 4v L/1 U O O 4✓ O .0 d C U o � 2 a N Y C N g n o6 OC A un v1 v < y n U m vs . L V1 0 u_ U 6 a 3 Inverter Datasheet 1 AN& IRONRIDGE Integrated Grounding System w* Simplified Grounding For Greater Safety & Lower Cost IT. Traditionally, solar modules are grounded by attaching lugs, bolts or clips to the module frame, then connecting these to a copper conductor that runs throughout the array. This process adds time and cost to the installation, . and often results in improper grounding, creating significant long-term safety risks. The IronRidge Integrated Grounding System solves these challenges by bonding modules directly to the mounting rails. This approach eliminates separate module grounding hardware, and it creates many parallel } grounding paths throughout the array, providing greater safety for system owners. - . Grounding Mid Clamp'. � Each Grounding Mid Clamp pierces through the anodized coatings of both the module frame and the mounting rail to form secure electrical bonds, which are repeated throughout the array. Irk /ham ,.i�.-rye -. 'W ` - �I' ,a •' 4 n „ 2 1 Bonding Strap if Bonding Straps are used to bond rail -to -rail connections. 1 / Grounding Lug They are only required on the s rail with the grounding lug. A single Grounding Lug � "`Y •' � connects an entire row of PV modules to the grounding conductor. • , _ � ' . . �, ..J 4- •iii. .. � ._ - it w Installation Overview ,4 n ® Install Roof Attachments ', y • Install appropriate roof flashing and/or standoff for roof type. h . •' • Attach L -Feet to flashing or standoff. ® Prepare Rail Connections Insert splice into first rail, then secure with Bonding Strap and ' yr self -drilling screw. • Slide second rail over splice, then secure with opposite end of ` Grounding Strap and self -drilling screw. y .. s. Mount & Ground Rails • Attach rails to L -Feet and level rails. s \ • Install one Grounding Lug per row of modules. • Connect Grounding Lug to grounding conductor: • .' Install Modules $ Clamps t :' — • Install first module using End Clamps and Grounding Mid Clamps.. �- r ' • Install additional modules using Grounding Mid Clamps. `= •.Finish row with a second pair of End Clamps. Testing & Certification The IronRidge Integrated Grounding System has been tested and certified to UL 2703 by Intertek Group plc. UL 2703 is a proposed UL standard for evaluating solar module mounting and clamping devices. It ensures these devices will maintain strong electrical and mechanical connections over an extended period of time in extreme outdoor environments. ' The testing process closely mirrors that of UL 1703, the solar module testing standard, including temperature and humidity cycling, electrical and mechanical load testing, and manufacturing quality reviews. I RON RI DGE Background.. All roofing products are tested and classified for their ability to resist fire.- Recently, ire: Recently, these fire resistance standards were expanded to include.solar equipment. as part of the roof system. Specifically, this requires the:modules, mountinghardware and roof covering to be tested together as.. a system to ensure they achieve the same fire rating as the'original roof covering., - Adoption of these new:requirements will begin in California in 2015 and extend to the rest of the country in 2016. :. IronRidge Certification In August 2014, 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 Roof Mount products were tested on flat and sloped roofs in accordance with I 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. ...... mai ClassA:F.ire'Rating Fire Testing Process Test Setup Solar' Modules Solar modules are given a Type classification based on their materials and construction. 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 -4 1 __ - - Mail . ..... . . ..... A burning wooden block is placed on module. as_a fan blows at 12 mph Flame cannot be seen on underside of roof within 90 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. �.. ..- •r •• Gam'• • Steep Slope oFlush ' , Type 1, 2, & 3 - Class A (a 9.5 degrees). - ; Tilt Type 1 & 2 Class Aa :. .. Flush .; Type 1, 2, & 3 , Class A: Low Slope (< 9.5 degrees) Tilt Type 1, 2; &.3 Class A - .. . ,. , . ,. •Class A rated P.V systArns ran ha installed nn Class A .R and C rnnts Frequently Asked Questions What is'a "module type"? = What attachments and flashings are deemed: compatible with Class A? The new UL1703:standard introduces the concept of a PV module type, based on 4 construction parameters Attachments and their respective flashings are.not, and2 fire performance parameters. The purpose of constituents of the rating'at this time. All code -compliant this classification is to certify mounting systems without flashing methods are acceptable frons afire rating needing to test it with every module: :. standpoint. What roofing materials are covered? What mounting height is acceptable? ' All fire rated roofing materials are covered within this .. UL fire testing wa`s performed with a gap of 5'.which, is certification including composition shingle, clay and considered worst case in the'standard. Therefore,,the cement tile, metal, and membrane. roofs. :rating is applicableto:any module to roof gap. What if I have a Class C.roof, but the jurisdiction Am (:required to install skirting to meet the fire. now requires Class A or:B? : ' code? Generally, older 'roofs will typically be "grandfathered No, IronRidge achieved a Class A fire rating without any: in", and will not require re -roofing. However, if 50% or additional racking components. more of the roofing material is'replaced for the solar ' installation the coderequirement will be enforced. •What determines Fire Classification? Where is the new fire rating requirement code listed? Fire Classification refers to afire -resistance rating: system for roof covering materials based on their ability 2012 IBC: 1509 7.2 Fire classification: Rooftop : -"to withstand fire exposure. mounted photovoltaic systems shall have the same fire classification as the roof assembly required by Section Class A - effective against severe fire exposure:: . 1505. Class' 8 effective agairist moderate fire exposure 'Class C - effective -against light fire exposure Where is a Class A Fire Rating required? _. What if the roof, covering: isnot Class A rated? The general requirement for roofing systems in the IBC refers to a Class C fire rating. Class* X& B is required for The Iron Ridge Class A rating, will not diminish the. fire , areas'such as Wildland.Urban:lnterface areas (WUI) and rating of the roof,,whether.Class"A, B, or C. for very high,fire. severity`areas. Many of these areas are ..... found throughout the western United States. California- What tilts is the tilt mount system fire rated for,7 has the mostClass A and B roof -fire rating requirements, - due to wild fire concerns..: ; The tilt "mount system is:rated for 1 degrees and up.and zany roof to module gap, or mounting" height." Are standard -mid clamps covered? . Mid clamps and end clamps are considered part of the PV "system",, and are:covered in the.certification. .. MoreResources. Fire Rating Certificate r Engineering.Certification Letters MU5Visit our website to download the official UL We offer complete engineering -resources `. 2703 certification document. _ ` ® 3 and pre -stamped certification letters. c .. 1 Go to IronRidge.com ` ` Go to IronRidge.com _- 8431 Murphy Drive Middleton, WI 53562 USA Telephone: 608.836.4400 Facsimile: 608.831.9279 www.intertek.com Test Verification of Conformity In the basis of the tests undertaken, the sample(s) of the below product have been found to comply with the requirements of the referenced specifications at the time the tests were carried out. 10 Name & Address: Product Description: Ratings & Principle Characteristics: Models: Brand Name: Relevant Standards: Verification Issuing Office: Date of Tests: Test Report Nu IronRidge, Inc. 1495 Zephyr Ave. Hayward, CA 94544 USA XR Rails with Integrated Grounding. Fire Class Resistance Rating: -Flush Mount (Symmetrical). Class A Fire Rated for Low Slope applications when using Type 1, 2 and 3, listed photovoltaic modules. Class A Fire Rated for Steep Slope applications with Type1, 2 and 3, listed photovoltaic modules. Tested with a 5" gap (distance between the bottom the module frame and the roof covering), per the standard this system can be installed at any gap allowed by the manufacturers installation instructions. No perimeter guarding is required. 51-61GD-005, 51-61GD-0058, 51-5000-001 and 51-65-001 IronRidge Roof Mount UL 2703 (Section 15.2 and 15.3) Standard for Safety Mounting Systems, Mounting Devices, Clamping/Retention Devices, and Ground Lugs for Use with Flat -Plate Photovoltaic Modules and Panels, First Edition dated Jan. 28, 2015 Referencing UL1703 Third Edition dated Nov. 18, 2014, (Section 31.2) Standard for Safety for Flat -Plate Photovoltaic Modules and Panels. Intertek Testing Services NA, Inc. 8431 Murphy Drive Middleton, WI 53562 08/27/2014 to 03/17/2015 101769343MID-OOlrl, 101769343MID-001a, 101915978MID-001 & 101999492MID-001ar1-crl. This verification is part of the full test report(s) and should be read in conjunction with them. This report does not automatically imply,product certification. Completed by: Chad Naggs Title:. Tech nicianjI Fire Resistance Signature: Date: 03/30/2015 Reviewed by: Gregory Allen Title: Engineering Team Lead, Fire Resistance Signature: " d` 1 Date: 03/30/2615 This Verification is for the exclusive use of Intertek's client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility and liability are limited to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement for any loss, expense or damage occasioned by the use of this Verification. Only the Client is authorized to permit copying or distribution of this Verification. Any use of the Intertek name or one of its marks for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. The observations and tesVinspection results referenced in this Verification are relevant only to the sample tested/inspected. This Verification by itself does not imply that the material, product or service is or has ever been under an Intertek certification program. GFT -OP -11a (24 -MAR -2014) SM—Starling .Madison Lofquist; Inc. Consulting Structural and Forensic E,ngineers 5224 South 39' Street, Phoenix, Arizona 85040 tel: (602) 438-2500 fax: (602) 438-2505 ROC#291316 www.smleng.com ; IronRidge December 18, 2014 1495 Zephyr Ave Page 1 of 20 Hayward, CA 94544 Attn: Mr. David F. Taggart, Vice President Products Subject: IronRidge XR100 Rail, Roof Flush Mounting System - Structural Analysis Dear Sir: { We have analyzed the IronRidge XR100 Rail for the subject solar module support system and determined that, for the configurations and criteria described below, it is in compliance with the applicable sections of the following Reference Documents: Codes: ASCE/SEI 7-10 Min. Design Loads for Buildings & Other Structures International Building Code 2012 Edition Other: AC428, Acceptance Criteria for Modular Framing Systems Used to Support,PV Modules, dated Effective November 1; 2012 by ICC -ES Aluminum Design Manual, 2010 Edition The IronRidge XR100 Rail is an extruded aluminum section with'an overall depth of 2.438 in. and a net area of 0.583 sq.in. The rails are used to support solar modules, typically, on the roof of a building. See Exhibit A —attached. The rails .are clamped to aluminum angle brackets that are either attached directly to the roof framing or attached to a stand that is screwed to the roof framing. The rails are mounted across the slope with a small clearance (flush mounting) to the underlying. roof structure. The installed solar modules are at the same slope as the underlying roof structure. All loads are transferred to the roof framing through the angle brackets by simple bi-axial, flexure of the rails. The_ maximum span of the rails is governed by either the mid -span ,flexural stresses .or the deflection requirement that the rail not come into contact with the roof. , The effect of seismic loads (for all design categories A -F) have been determined to be less than the effect due to wind loads in all load conditions and combinations. Therefore, the maximum allowable spans for common load cases are shown in Tables 1, 2 & 3 below for 076 degree slopes, Tables 4, 5, & 6 below for 7-27 degree slopes, and Tables 7, 8 & 9 below for 28-45 degree slopes. Starling Madison Lofquist, Inc. Consulting Structural and Forensic Engineers IronRidge Mr. David F. Taggart IronRidge XR100 Rail, Roof Flush Mounting System — Structural Analysis December 18, 2014 Page 5 of 20 Table 4A - MAXIMUM SPANS (in) - Roof Slope 7° to 27° - Wind Zone 1 (67.5" Max Module Length) XR100 Rail Wind Speed Ground Snow Load Exposure mph 0 psf 10 sf 20 psf 30 psf 40 psf .50 psf 60 sf 70 psf 80 Psf 90 psf 100 112 97 83 72 64 58 53 49 46 43 105 112 97 83 72 64 58 53 49 46 43 110 112 97 83 72 64 58 53 49 46 43 120 112 97 83 72 64 58 53 49 46 43 Category B 130 112 97 83 72 64 58 53 49 46 43 140 105 97 83 72 64 58 53 49 46 43 150 98 96 82 72 64 58 53 49 46 43 160 92 92 81 72 64 58 53 49 46 43 170 87 87 79 71 64 58 53 49 46 43 100 112 97 83 72 64 58 53 49 46 43 105 112 97 83' 72 64 58 ' 53 49 46 43 110 (112) 97 83 72 64 58 53 49 46 43 120 103 97 83 72 64 58 53 49 46 43 Category C 130 96 95 82 72 64 58 53 49 46 43 140 89 89 80: 71 64 58 53 49 46 43 150 84 84 78 70 64 58 53 49 46 . 43 160 79 79 76 69 63 58.: 53 49 46 43 170 74 74 74 67 62 57 53 49 46 43 100 112 97 83 72 64 58 53 49 .46. 43 105 108 97 83 72 64 58 53 49 46 43 Category D 110 103 97 83 72 64 58 53 49 46 43 120 95 95 82 72 64 .58 53 49 46 43 130 88 88 80 71 64 58 53. 49 46 . 43 140 82 82 78 70 63 .58 53 49 46 43 150 77 77 76 68 62 X58 53 49 46 43 . 160 1 3 73 73 67 61 57 53 49 46 43 170 1 68. 68 68 65 60 56 53 49 46 43 Notes — see page 20 Starling Madison Lofquist, Inc. Consulting Structural and Forensic Engineers IronRidge December 18, 2014 Mr. David F. Taggart Page 6 of 20 IronRidge XR100 Rail, Roof Flush Mounting System - Structural Analysis Table SA - MAXIMUM SPANS (in) - Roof Slope 7° to 276 - Wind Zone 2 (67.5" Max Module Length) XR100 Rail Wind Speed Ground Snow Load Exposure mph 0 psf 10 sf 20 Psf 30 psf 40 sfsf 50 60 psf 70 psf 80 psf 90 . Psf 100 106 97 83 72 64 58. 53 49 46 43 Category B 105 102 97 83 72 64, 58 53 49 46 43. 110 97 97 83 72 64 58 53 49 46 43 120 90 90 83' 72 64 58 53 49 46 43 130 83 83 83 72 64 58 53 49 46 43 140 77 77 77 72 64 .:58 53 49.. 46 43 150 73 73 73 72 64 58 53 49 46 43 160 68 68 68 68 64 58: 53 49 46 43 170 64 64 64 64 64 58 53 49 46 43 100 91 91 83 72 64. 58 53 .49.: 46 43 105 87 87 83 72 64 58. 53 49 46 43 110 83 83 83 72 64 58 53. 49 46 43 120 (76) 76 76. 1 72 64 58 53 .49 46 43 Category C. 130 71 71 71 71 64 'M 53 49 46 43. 140 66 . 66 66 66 64 58: 53. 49 46 43 150 62 62 62 :62 62 58 53 49 46 43 160 58 58 ::. 58:: 58 58. ::58 53 .49 .: 46 43. 170 55 55 55 55 55 55. 53 49 46 . 43 100 84 84 83 72 64 58 53.49 46 43 105 80 80 80 72 64 :58 53 49 46 43 Category D 110 77 77 77. 72 64 58 53 49 46 43: 120 70 70 70 .70 64 58 53: 49 46 43 130 65 65 65 65 64. 58- 53 49 46 43 140 61 61 61 61 61. '58 53 49 46 43. _ 150 57 57 57 57. 57 57:: 53 49 46 43 160 53 53 53 53 -' 53 53 53 49 46 43 170 1 50 50 50 50 50 .50 50 49 46 43 IronRidge.. December 18, 2014 Mr. David F Taggart ..... 'Page 20 of 20 Iron.Ridge XR100 Rail, Roof Flush Mounting System - StidcturalAnalysis Notes — Tabulated values are based on the following: criteria: 1.: Buildingmean roof height: 30 ft 2 Risk Category I 3. Solar maximum module long dimension is 67.5 inches for. Tables IA-9A and 7.8.:5 inches for Tables I B-9B. 4.: Provide 2 in..clear between roof and rail 5. End cantilevers p. an (max) _ 0.40 x maximum span from above tables 6.. No rail splices. in end spans 7-.:. No rail, splices in middle 1/3 of interior spans 8. Single simple span(s). Spans listed in the tables above may be multplied'by 1.08 for continuous rails of:3 or more spans. Our ,analysis: assumes that: the: rails, including the connections and associated hardware; are. installed in a workmanlike. manner in accordance with the "IronRidge Roof Mount Installation Manual by IronRidge and generally acceptedstandards of construction practice. :Additional information is . available at the IronRidge web. site, IroriRidge.com:. Verification. of. PV Module capacity ."to support the loads :associated with :the" given array shall be .the responsibility of Ahe Contractor or Owner and n t'IronRidge or Starling Madison Lofquist. The adequacy of the supporting roof framing is to be determined by others:: Please,* feel free to. contac the at your convenience if you have any;questions: Respectfully, yours, �wA.:�� 1Z.18:� Tres Warner, P.E. 'd C 71973 ' .Design Divisroin Manager EXP.S' ' ; OFCAUF� 4. ... ... Starling Madison L.ofquist,'Inc. Consulting. Structural aiid Forensic Engirie'ets :. . _20- _.