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HomeMy WebLinkAboutB16-1230 000-000-000i CUSTOMER INFORMATION CLIENT NAME Justin Adrian ADDRESS: 4171 Denver Ln. CITY: Chico; CA 95973 PHONE: 530-680-6352 AHJ: Butte County APN # 047-200-014 �Q:� Z�O APPLICABLE CODES • 2011 NATIONAL ELECTRICAL CODE (NEC) • 2013 CALIFORNIA. ELECTRICAL CODE (CEC) • 2013 CALIFORNIA BUIDLING CODE (CBC) • 2012 INTERNATIONAL BUIDLING CODE (IBC) SCOPE OF WORK 11.12kW Roof Mount with 39 SolarWorld SW 285 Mono Black modules and SMA inverters SYSTEM INFORMATION SYSTEM SIZE: 11.12kW PV MODULE: SolarWorld SW 285 Mono Black RACKING: IronRidge INVERTER(S): SMA AZIMUTH: 2470 TILT: a MODULE COUNT: 39 MOUNTING: Roof Mount ROOF: Comp Shingle Roof TYPE: Truss 11.12kW Roof Mount with 39 SolarWorld SW 285 Mono Black modules and SMA inverters SYSTEM INFORMATION SYSTEM SIZE: 11.12kW PV MODULE: SolarWorld SW 285 Mono Black RACKING: IronRidge INVERTER(S): SMA AZIMUTH: 2470 TILT: 30° MODULE COUNT: 39 MOUNTING: Roof Mount ROOF: Comp Shingle Roof TYPE: Truss METER # General Solar Specs • THE PV MODULES ARE CONSIDERED NON-COMBUSTIBLE AND THIS SYSTEM IS AN UTILITY INTERACTIVE SYSTEM WITH NO STORAGE BATTERIES. • PER NEC, GROUNDING ELECTRODE SYSTEM OF EXISTING BUILDING MAY BE USED AND BONDED TO AT THE SERVICE ENTRANCE. IF EXISTING SYSTEM IS INACCESSIBLE, OR INADEQUATE, OR iS ONLY METALLIC WATER PIPING, A SUPPLEMENTAL GROUNDING ELECTRODE WILL BE USED AT THE, INVERTER LOCATION CONSISTING OF A UL LISTED 8FT GROUND 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,. • EACH MODULE WILL BE GROUNDED. USING AN INTEGRATING GROUND SYSTEM. • EXPOSED NON-CURRENT CARRYING METAL PARTS OF MODULE FRAMES, EQUIPMENTS, AND CONDUCTOR ENCLOSURES SHALL BE GROUNDED IN ACCORDANCE WITH 250.134 OR 250.136(A) REGARDLESS.OF VOLTAGE. • PROPER ACCESS AND WORKING CLEARANCE AROUND EXISTING AND PROPOSED ELECTRICAL EQUIPMENT WILL BE PROVIDED AS PER SECTION 110.26 NEC. • ALL PLAQUES AND SIGNAGE WILL BE INSTALLED AS REQUIRED BY 2011 NEC. • 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 INVERTER)IF SMALLER THAN #6 AWG COPPER WIRE PER NEC 250-64(B). THE GROUNDING ELECTRODE CONDUCTOR WILL BE CONTINUOUS, EXCEPT FOR SPLICES OR JOINTS AT. BUSBARS WITHIN LISTED EQUIPMENT PER NEC 250.649(C). M C U m 0 E' j co 0) cU� iii W rn co n c 0 LL 0 N U 8 U 99 , °'fitA¢ �N0go co d 0 p �0 ® l9 C w �w LA Cover Page r N V M p I? O O 00 O N l0 drn n Ln O I✓ Z a, a. V) Cover Page r 0 0 4� 0 t a U N ri C J Ol jLn 0) . v ` S S Cover Page r ;, CR ob U Go mMrn �ONI�N wj X r L n C� 1p�� y OU_ y g 'NU1U co U 0 O e ,7 I` W 7 W N n� w C N M O � O O O 00 N lD O a Ln O E Z a) d 4- Q N. N U_ �fC 0 0 O t a U D Y N rl c J rn r -I rn c Q Q � U u V V k a z Site Plan 00 U d m Go m rn N tD NN M n W C0 LL r C (0 v1 VQOU �UU�U N d t+I Ny U O NA ` w �W A�A . W :� •r N N N M O 1? O O O 00 N. �D O C N O c C Z a a }, N N _U �f0 0 O O L a U N c n C J 0) A N N r1 .l" > m Q C Q � lJ n u v u FFFFM, Project Plan Co 0 C CD U CO a° 00Mm j N 10 w c U M x w ''m C O 1p LL y U O J L � Q � (D N p U tr O O a V CM W .7 W t .'.. 13 Cu T� N a Ln N m 0 t0 m m � . 2 41. N U O O O t a V Y N r-1 J m l" 0 j Ln Oat Qa s �o '-1 L V U 5 a i Electrical Plan I- 00 m U °D Trndw�m jN�tO C�u,Xf` W m LL r C D 0 W US y000 CS a J. j 'Coi 1 NO (h �yy U O Pw V CM W f7 W 4 T (V M T O 00N O O O T O m n a O z d Q N... �+ H N U s a U Y N C c n J O1. rl rte', LA Q C w U � 7 L Q V y5 tl 5 i Single Line Diagram DC SOURCE INFORMATION Circ. Name MODULES CONNECTED TO INVERTER 1 39 MODULES SMA Lowest Expected Temperature SB 770OTL-US-22 -3 °C 1-C Average High Temperature Nominal Output Voltage 41 VAC PV MODULE SPECIFICATIONS Total number of PV Modules 39 MODULES SolarWorld . Model # Number of modules in largest string 13 MODULES 285 W MAXIMUM NUMBER OF MODULES PER STRING VMAX = VOC + ((T_low-TREF) x aVOC) V VOC 39.7 V T_low (ASHRAE Low Design Temp.) -3 °C TREF (Cell Temperature at STC) 25 'C aVOC (Temp. Coeffecient of Voc) -0.0031 F %/'C VMAX Per Module 43.15 V Number of modules in largest string 13 MODULES VSTRING MAX = NMAX x VMAX -0.44 Voltage of Maximum String Size 560.9 V DESIGN TEMPERATURES Circ. Name Manufacturer ASHRAE DATA SMA Lowest Expected Temperature SB 770OTL-US-22 -3 °C 1-C Average High Temperature Nominal Output Voltage 41 VAC PV MODULE SPECIFICATIONS 1 Manufacturer SolarWorld . Model # SW 285 Mono Black PMAX (Nominal Output) 285 W VMP (Voltage at Pmax) 31.3 V IMP ( Current at Pmax) 9.2 A VOC (Open Circuit Voltage) 39.7 V ISC (Short Circuit Current) 9.84 A NOTC 25 °C Temperature Coefficient of Pmax -0.44 % / °C Temperature Coefficient of Voc -0.0031 % / °C Temperature Coefficient of Isc 0.044 % / °C MAXIMUM SYSTEM VOLTAGE 1000 VOLTS CONDUCTOR AND CONDUIT SCHEDULE (COPPER) INVERTER 1 SPECIFICATIONS Circ. Name Manufacturer Voltage(V) SMA Model # SB 770OTL-US-22 Nominal AC Power 7680 W Nominal Output Voltage 240 VAC Number of Phases 1 PH Nominal Output Current 32.08 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 A) Number of Modules Connected to Inverter 39 MODULES ID# Circ. Name Circ. • Voltage(V) Load(A) Ampacity for OCP (A) (Load Tamb Raceway Conductor Required Conductor Size & Type # of Runs Conductor Copper CONDUIT Voltage(V) Amperage( LENGTH Voltage Drop Kit, 2pcs, Grounding Strap RS-GDST-001 Conductor Kit, 2pcs, Grounding Lug T -Bolt RS-GDLG-002 x 1.25) Quick Mount Bronze N Ampacity (A) per Phase Ampacity E.G.0 A) 1 WAY (%) 1 PV String PV +/- 560.9 12.30 15.38 0.82 1.0 15.38 #10 PV Wire 1 35 #10 N/A 406.9 9.20 100 approx 0.56 2 PV -1 PV -1 +/- 560.9 12.30 15.38 0.82 1.0 15.38 #10 THWN-2 1 35 #10 MC Cable 406.9 9.20 100 approx 0.56 3 INV 1 L1,L2,N 240.0 32.08 40.10 0.82 1.0 40.10 #8 THWN-2 1 50 #10 3/4" EMT 240.0 32.08 15 approx 0.28 Description Part Number Quantity. XR100, Rail 168" (14 Feet) Black XR-100-168B 26 Kit, 4pcs, Grounding Mid Clamp For SOLARWORLD 16 4 -pack, End Clamp (C) 1.57", Black 29-7000-157B 8 Kit, 4pcs, Slotted L -Foot, Black RS -LFT -001B 13 Kit, Splice XR100, Mill (1) XR-100-SPLC 17 Kit, 2pcs, Grounding Strap RS-GDST-001 5 Kit, 2pcs, Grounding Lug T -Bolt RS-GDLG-002 4 Quick Mount Bronze N 52 N Ln en O 1? O 00 N O O1= Z a) a a +, N N U O O O t a U N i-1 C J Lncp l" .o a o o V � a U E a i Bill Of Materials ,. t ` t x W I i il GmTm amm Umff N Pr ROO Rd Mr, 1 I /dly one All interior and exterior conduit, raceways, enclosures, and cable assemblies at turns *� • i • s ' e=.w+ aoove anaior Deiow penetrations to be iaoeiea every iu . MAIN SERVICE PANEL-, NEC 690.53 DC DISCONNECT/ INVERTER Y` •' x N ',ryf ,� - . �: .. �_ �:: , t •, . •r�. ,'. � tic - i. � V VV WW VYiV ® 'r a R; r' ..Sir it < +/' a .,•�., ' F 4/ , _ D 0 , . _ ' _: p D ' D , < r' :. a.x r �. r "�• 't _ QY 1A1r � D ® , . - .. - - ? ° ' ' ''`},- r a ►►►•JJJ ►►►III - .- i NEC 690.64, 705:12(4) o D ; _ .sk �,_ t r r:~ w+ jtit t� t•. } " - .. D D � � • i ya,+r , MAIN SERVICE PANEL PHOTOVOLTAIC SYSTEM AC DISC*ONNECT OPERATING CURRENT�32 AMPS OPERATING VOLTAGE:24oVOLTS NEC 690.14(2) DO 0( 'DD O`D SOLAR LOAD CENTER NEC 690.35 r LOCATED ON J -BOX 1 COMBINER BOX. 0) W -. U 6 �. co 'S CV% U) X n W • rn `0 C 0il. ALL CD fA Ui U OU' SC40 N � 0 cW. ZZ N M O 19 O 000 eq m 'o c an C . a .N t V 'ro -o 0 4. 0 a V Y N i--1 - r -i �.> c r $ G t U V U t k a a Placards ' F . . .. ty L. , ti' Y • ••y 1} � fir' � 1�+�. }. a � tik y ,. a , 0 � D � • 1 i a��� , ►/LL7JIW/W }-xs , ' # - :;:Y .+-, _ ,' .,_ 1 ,;. , NEC 690.17(4) r7 y•'{..n DO 0( 'DD O`D SOLAR LOAD CENTER NEC 690.35 r LOCATED ON J -BOX 1 COMBINER BOX. 0) W -. U 6 �. co 'S CV% U) X n W • rn `0 C 0il. ALL CD fA Ui U OU' SC40 N � 0 cW. ZZ N M O 19 O 000 eq m 'o c an C . a .N t V 'ro -o 0 4. 0 a V Y N i--1 - r -i �.> c r $ G t U V U t k a a Placards ' Sunmodule% Plus i SOLARWORLD SW 275-290 MONO BLACKREALVALUE TUV Power controlled: - + rovanaer a Lowest measuring tolerance in industry 4; I'h Every component is tested to meet 3 times IEC requirements Y aDesigned to withstand heavy accumulations of snow and ice Sunmodule Plus: Positive performance tolerance °, :,•, ' ' r 25 -year linear performance warranty and 10 -year product warranty J Glass with anti -reflective coating Wodd-claSs quality • I a ,Rn.e ucsms faletytnte41EC 6tTfe ��® Fully -automated production lines and ' seamless monitoring of the process and DVE •ew.me ,oer.1.,"...IFF�.�.:. • Nnmoni..eYetanae, IFC 6Fne •fen Mie wroYon IF[61101 material ensure the quality that the company sets as its benchmark_ for its sites us worldwide. UL 1703 SolarWorld Plus -Sorting Plus -Sorting guarantees highest system efficiency. SolarWorld only delivers modules that have greater than or equal to the nameplate rated power. (E H°: ..... .......... � d 2S -year linear performance guarantee and extension of product warranty to 10 years ie SolarWorld guarantees a maximum performance digression of 0.7% p.a. in the course -0G� of25years,a significant added value compared to the two-phase warrantiescommon ' in the industry, along with our industry -first 10 -year product warranty." Solar cells manufactured in U.S.A. or Germany. Modules assembled in U.S.A. ...in accordance with the applicable SolarWorld Limited Warranty at purchase. www.solarworld.com/warranty - 'r' •' MADE IN USA solarworld.com , - OF US 6 IMPORTED PARTS• " _ - m m m U+ m a° w,C5o3 , cUD, LU 'DOLLn c ro N 4))UppoU Cl U J U7, U U N 6 � U 0 .o om W W W :$ N V1 Sunmodule -Plus '. as7i r , O DO 'SW 27S-290 MONO`BLACKREALVALUE to d c m o PERFORMANCE UNDERSTANDARD TESTCONDITIONS(STC)' 0 �t -. '4, E,"t ' SW 275 SW 280� , �: SW 285 SW 290 • • s •L' z Maximumpower' ,s Pm„'• - 275 Wp 280 Wp 28SWp-. 290 Wp N [Open circuit voltage Va .. 39.4 V - 39.5 V . -._'393V 39.9 V - s , Maximum power point voltage • ; Vmr,ti - - - r 31.0 V 31.2 V . 31.3 V - 31.4 V ._ Short circuit current 9.58 A - 9.71 A 9.84_ A 9.97 A y :� y Maximum power point current Imp `; v ' 8.94 A 9.07 A 9.20 A''"' ` 9.33 A - Module efficieecy Y " - n ' 16.40% - 16.70% _ }, 17.00% '_ ' 17.30 % 1I • 'STC: l000w/m; 25•C. AM 1.5 ,. ' ,PERFORMANCE AT 800 W/M', NOCT, AM 1.5 ' ' • I w1 SW 275 SW 280 'SW 285 SW 290 - Maximum power P 203] Wp 207.2 Wp 211.1 Wp 215 Wp , ,• L Open circuit voltage ¢ �' V _ - 35.7 V 35.8 V ",t 36.0 V' ' 36.2 V ., - Maximum power paint voltage • , ` VmPp' - - ' 28.1 V 28.3 V - • ' 28,4V 28.5V " Short circuit current i ti T75 A 7.85 A - _ 7.96 A -i . 8.06 A - ' Maximum power point current 3: s- , h;,. , ' • • - 7.22 A • • 7.33 A - T43 A " - • 7.54 A + t E � • Minor reduction in efficiency under partial load cond tions at 25' C: at 200 W/m', 300%ofthe STC efficiency 0000 w/mr) is achieved',*. t ^ry �Y COMPONENT MATERIALS loonw/m• - v 800 w/mr s' - - - Cells permodule 60 Front Low, iron empered glass 4 + with ARC (EN 12150) w Cell type Monocrystalline• Frame' Black anodized aluminum 600 w/m .. e 6.1I- IS lin Cell dimensions Weight = 39.7 lbs (18.0 kg)' 400 W/mt _ 'k (156.75 x 156.75 mm) < ' 200 W/mE _ THERMAL CHARACTERISTICS + ADDITIONAL DATA .. Ql - 100 w/w TO . ._ NOCT f :48 -6 t Pa, ertorting _ -0 Wp/+5 Wp • . - TCIa ;0.044%/-C baox - IP65 '- c H � o L - r - TC a -0.31 %/'C PV wire per UL4703 V • - 37.8(961)- . - Connector, , oecor - with H4/UTX connectors TCV -0.44 % C wP /• 4.20Module .T fire performance (UL 17 3) Type 1 006.65). OO w Operating temp -40 to+85-C - 7.12 00.26(6.6) - i•' ., " Lh. ' . •. (180.85) PARAMETERS FOR OPTIMAL SYSTEM INTEGRATION p _ 00.35(9) 'e Datasheet - • 1 f' Maximum system voltage SC 11/NEC ' i, '- 7000 V _• ; Maximum reverse current - - • .. 25A - . m - Number of bypass diodes r 3 - c s N e' Design loads* Two rail system • 113:psf downward, 64 psf upward al Design loads' Three roil system, 178 psf downward, 64 psf upward - Design loads' Edge mounting 178 psf downward, 41, psf upward • - 'Please refer to the Sunmodule installation Instructions for the details associated with these load cases. •Compatible with both "Top -Down' ' I • 00.35(9) ' r 11.32'Grounding - (287.50) •, _ and "Bottom" mounting methods Locations: ,1 -4 locations alongthe lengthofthe " 1.30(33) module in the extended flange. s r . 39.4 (100Q� Iw 1 ., 1.30(33) , All units provided are imperial. 51 units provided in parentheses.- -SolarWorld AG the right to make specification without ' ``" * SW-01-7520US160324 reserves changes notice. l.u(29)-� ,,, _ - m m m U+ m a° w,C5o3 , cUD, LU 'DOLLn c ro N 4))UppoU Cl U J U7, U U N 6 � U 0 .o om W W W :$ N V1 m O DO O N to d c m o Eun z y OL a N L , S n 1 O w1 O O _ - m m m U+ m a° w,C5o3 , cUD, LU 'DOLLn c ro N 4))UppoU Cl U J U7, U U N 6 � U 0 .o om W W W :$ N V1 m O DO O N to d c m o Eun z y OL a N U O O O t'V J TO Ql CJI TO rn 45 c Q v Q U c H � o L V U tl a Module Datasheet - • 1 f' i Technical data Accessories Sunny Boy 30007E US :. _: .: Boy 3 _:. _ Sunny Boy 380071 US S o . _.>: - Sunny Boy 4000TL US j _ . __. .._. - 617 / 597 %266 208 V AC , 240 V AC 208 V AC 240 V AC 208 V AC 240 V AC - _- _. Input (DC) - -- Spoedw'oo/W o ries .Max. usable DC_ _, wer 40 cos W. l) _ -_ ,- _--'- -. - - 3200. W - _ _ ; _ _ 4200 W ................. Max DC voltage _ _ 600 V _ 600 V < 29 48(A) - Rated MPPT Yalta a ran e -- _-__.._-..__9 __9 -.- - - --_ __ - - _ -- - - --- 175 - 480 V ------� --- 175 - 480 V - _._ _.. 175 - 480 V _ - Mmo- --sting vohoge ran98 _ _ 125_-500 V _ T (__ __ 125 - 506 V _. __ 125 - 500 V Min. DC voltage / start voltage - Convection -___ 125 V % 150 V 125V/ 150 V 125 V / 1,50 V _Max. operating input current /per MPP tracker -.. 18 A / 15 A _ _ _-.' _ 24A/ 15 A _ _ - ., 24A/ 15A ,. Number o(MPP trackers./strings per MPP tracker' Output (AC) ojo _ -_ AC nominal power - - - 3000 W -, - ._. - - _3330 W- . - 3840 W - _ _ 4000 W Max. AC apparent power, _ _ . _ _... '- __- 3000 VA _ _ _ , L _.-333011 _., -_ 3840 VA p ___- 4000 VA Nominal AC voltage,/ adjustable _ - -208V/ ;_ 240 V / -,_ ! + _208 V / • 240 V / • 208 V [ �- - 240 _ / • - AC volts a range 183 229 V 211 - 264 V : 183 - 229 V 211 - -264 V 183_- 229 V r „ 21 I - 264 V - AC g d frequency range _ _ _60 Hz / 59.3 60.5 Hz- 60 Hz / 59,3 - 60 5 Hz 60 Hz / 59-3-60.5 Hz . _Max. output current _ . _ _ 15-A _ _ _ - -, � __. - ,1.6As _ 20 A- r Power Factor (cos @)- O ut .hoses line connections - 1/2 1 2 1 Y- ' " Harmonia... _ .... _ __ ..-._ _ _ _ -_ ..___ <4% _ - _----- - _ ,r- <4% . - <4% - Efficiency IV v,..M Max efficiency_ 972% 97.6% 97.2% - ; �- _ 97.5% 972% -;' 97.5% _. CECefficiency , _ 96.5% 96.5% 96.5% 97.0% 96.5% 97.0% _ Protection devices • Standard feature O Optional feature - Not available Output power / Rated power ... ........ ---.................... _---------'------..__--------......-.-............ Data at nominal conditions Sunny Boy 5000TL-US Sunny Boy 60007E -US Sunny Boy 7000TL-US Sunny Boy 77007E -US . DC reverse-polonty protection .- -_ - 208 V AC 240 V AC • -- .._ 6300 W_., _ . Ground fault monitoring / Grid monitoring 8000 W 66,01V 600 V - 6.00 V- A4; hgrtcircui1wgtection 175-480 V 175-480 210 480 V -__!_. _ 270 - 480 V Ali -pole send residual current monitoring unit 125 566v __ 125 - 500 V _ _ c ir-cuit interrupter [AK!)compliant to Arc fault a 16998 _ 125 V / 150 V 125V%150V 30A/15A ------ --`�-- ,_ Protection clan / overvoItoge category ! _ .... _ - _. - -I PV General data--- 4550 W 5000 W 5200 W -. - 6000 W _ 6000 W _ 7000 W. 6650 W _. _ : - 7680 W sionslW/H/I in mm(in) _ i�. _.. .__.. _" 490/519/185_(193/20.5/7,31. _ _ DC Oisrnnnect dimensions IV✓ / H / D) in mm (int - -'._- _ _ 08/•208V/• -_ 240V/�P - _ _ _ _187 / 297 / 190.17 4 / 117,/ 7.5)_ - _ -- - _ Packing dimensions (W / H / D) m mm lin) ___ _ _- _ 183 ; 229 V 211 - 264 V_,_ - . -_ 617 / 597 / 266 (24 3 / 4-A/ / 105)DC 60 Hz / 54 3 60.5 Hz Dixonnect packing dimensions (W./ H / D). in mm (in) _ - - •I -� _ _ _ _- - _ . _ 370 /-?40_j 280 114_6 / 0.4/- 1 L0) - - - -, _ 32 A Weight / D_ C Dixonnec weight _ 24 kg (531.b) / 3;5 kg (81b) Packing weight / DC Disconnect pock ng weight - 27 kg 160 Ib) / 3 5 k 8 Ib <4% ;� -- - Operating temperature range -..------ '---. _-__ -- ----- --- 40 °C .+60 °C (-40 F...+140 °F1 _'- _-' - -- -.___.. _. _- -- - Nose eminion (typical) -- - - _ 5 25 dB19) _ _-c25 -clB1AJ _ _ _ < 25 dBIA) Internal cansumphon a1 night _..-._. .. _-. ' Topology_Transformedeu =, Tronsfarmerless�, Transfo_rmedeu._-___,' Convection Convection - _ Convection_ - - _ . Elecionicsprotectionrating - ;A NEMA,3R NEMA_3R NEMA3R _.'• Features Secure Power So ' ly . _ ._ _ _ _. " �. �- Y Display. graphic - -� 0 • - - - - Interfaces: RS485 / Speedwrre/We, protect.._._ - _ _ 1 - _ ...0 _ _.. Wa rarity -10 / 15 / 20 Years, - - - x/4/9 _�/o/a _ - 0/9/0 _ _ Cert ficates and permits f more avo0able on reques) ___ , _ ___ _ ___UL 1741, UL 1998, UL 16998, IEEE 1547, KC Part 15 19ass A & 8), CAN/CSA 022.2 107_1-1 NOTE: US invenen ship withgray lids _- Type designation_ SB 300071LS22 SB 3800711JS22_ SB 4606TWS22. ---------? Efficiency verve SUNNY BOY5000TLAJS22 240Vaci--------,---1 Accessories ! 98 617 / 597 %266 - 370/240/280 114:6/9.4/1i_.0) - Spoedw'oo/W o ries RS485 hwfoco 96 - _ .� ................. ... ......_.....: -40*(;.,+69 °C 1-40 "F...+140 `F) ( < 29 48(A) - s-< 29 dB(A) < 29 dBIA)_ ._- interface - < 29, d81A1 D Md85C&US10 ;. - _ Trans(ormedess - _ _-'- _- Trm •........ Convection -___ _mmsfoerleu.._. ..` .._Fan =-_--_ �!' __. SWOMUSIO NEMA 3RD NEMA 3R NEMA 3R 1� 94.x: NEMA 3R ojo 47 KC Pan 15 Clou A 7 UL 1741, UL 1998 Ul_I699B IEEE15_,_ _ -_I. 8 B), CAN%CSA C22 2 10 .1 1__-__ i 92 SB 59WTL-US22 SB 6000TLUS-22 SB 7000TL-US-22 SB 7700TLJJS22 80/ , T02 I 90 ••• Ero 88 - FlaFm D8.0 iss .ao IV v,..M I 0.0 0.2 0.4 0.6 0.8 1.0 i • Standard feature O Optional feature - Not available Output power / Rated power ... ........ ---.................... _---------'------..__--------......-.-............ Data at nominal conditions Sunny Boy 5000TL-US Sunny Boy 60007E -US Sunny Boy 7000TL-US Sunny Boy 77007E -US 208 V AC 240 V AC _ 208 V AC 240 V AC 208 V AC 240 V AC 208 V AC 240 V AC 5300 W -- .._ 6300 W_., - - 7300 W 8000 W 66,01V 600 V - 6.00 V- 175-480 V 175-480 210 480 V 245 486 V 270 - 480 V 125 - 500 V - r. 125 566v _- 125 500 V_ - - 125 - 500 V 125V/ 150-V _ 125 V / 150 V 125V%150V 30A/15A ------ --`�-- --_.- 30A/i5A--.30A/18A- - --- --_--- 30A/ 18A - -- - -- - - -- 2/2- /2-4550 4550 W 5000 W 5200 W -. - 6000 W _ 6000 W _ 7000 W. 6650 W _. _ : - 7680 W 4550 VA 1 5000 VA 5200. VA 6000 VA P __6000 VA_ _ _ 7000 VA " -,_ _ - , 6650 VA _ _ ,' 7680 VA ; 08V/2 20V/-� 08/•208V/• -_ 240V/�P 208-V/• 240V/• _ >v 183 X229 V -!' 21 1 - 264 V _ �,. _183 - 229 V _ _ .: 211 - 264_ V _ - _I83 - 229 V_ _ 21 1 - 264 V _ 183 ; 229 V 211 - 264 V_,_ - . 60 Hz / 59_3 - 60.5 Hz - _ 60 Hz / 59.3 -60.5 Hz _ -__ 60 Hz / 54 3 60.5 Hz _ 60 Hz / 59,3 -60.5 Hz - --,- ' A _22 A J `-- -25 A,._29 - -- 2A . - - - - -, _ 32 A - <4%' <4% ;� -- - a4% v +' <4% 1/N 490'%519%185 (--�205/7.3� Go ah CD U d J N Ln ((aa W -CD N c U x n W U1 a,LLt� C O ca rn to iri�i U � V y Q F- L6 < DNU 1U N U 0 O rN a m o (a O 00 N T 0 M C on Z Q1 a. 4� < N N U O O O t a U 0 Y N r -I _187/297/190.17.4/117/751__ _ 617 / 597 %266 370/240/280 114:6/9.4/1i_.0) 24 kg (53 Ib) /1.5 k9 18 lb)- 27kg (6016)/35kg 1816) _ _ -40*(;.,+69 °C 1-40 "F...+140 `F) < 29 48(A) - s-< 29 dB(A) < 29 dBIA)_ ._- _ .J - < 29, d81A1 - _ Trans(ormedess - _ _-'- _- Trm Convection -___ _mmsfoerleu.._. ..` .._Fan =-_--_ �!' __. _Fan ----- - , NEMA 3RD NEMA 3R NEMA 3R NEMA 3R ojo 47 KC Pan 15 Clou A 7 UL 1741, UL 1998 Ul_I699B IEEE15_,_ _ -_I. 8 B), CAN%CSA C22 2 10 .1 1__-__ _ SB 59WTL-US22 SB 6000TLUS-22 SB 7000TL-US-22 SB 7700TLJJS22 Go ah CD U d J N Ln ((aa W -CD N c U x n W U1 a,LLt� C O ca rn to iri�i U � V y Q F- L6 < DNU 1U N U 0 O rN a m o (a O 00 N T 0 M C on Z Q1 a. 4� < N N U O O O t a U 0 Y N r -I • C, Lt C:, ` t • 8431 Murphy Drive Middleton, WI 53562 USA Telephone: 608.836.4400 Facsimile: 608.831:9279 www.intertek.com - . + Test Verification ofConformity . In_the basis of the tests -undertaken, the sample(s) of the below product hede.been found to comply with the requirements of, the referenced specifications at the Lime t tests were cirritsd'out - „'C Applicant Name & Address: IronRidge; sm_Starling Madison Lofquist, Inc. Consulting Structural and Forensic Engineers ��— 5224 South 39" Street, Phoenix, Arizona 85040 tel: (602) 438-2500 fox: (602) 438-2505 ROC#291316 www.smleng.com IronRidge December 18; 2014 1 1495 Zephyr Ave Page 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 0-6 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 psf . 70 .. sf 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 1 53 49 1 46 43 150 84 84 78 70 1 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 43 110 103 97 83 72 64 58 1 53 49 1 46 43 Category 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 58 53 49 46 43 160 73 73 73 67 61 57 53 49 46 43 170 .68 68 68 65 60 1 56 53 1 49 1 46 43 Notes - see page 20 Starting Madison Lofquist, Inc. Consulting Structural and Forensic Engineers -5- C6 U d LM jN N 0, x LL1 y O O J jNU1�U N f N N 0 N L N cn R d o I N d M Ln E Z tv a 4, N U M O O O t a U Y N ei C ^ C J in Ln j (n ¢ o g o u v u i K a z . Racking Engineering IronRidge December 18, 2014 Mr. David F. Taggart Page 6 of 20 IronRidge XR100 Rail, Roof Flush Mounting System - Structural Analysis Table 5A - MAXIMUM SPANS (in) : Roof Slope.7"_ to 27° - Wind: Zone 2 (67.5" Max Module Length) XR300 Rail Wind Speed iO o ID o o 0 N Ground Snow Load v o E Exposure mph 0 psf 10 sf 20 psf 30 psV 40 psf 50 sf 60 psf . 70. psf '80 psf 90 psf 100 106: 97 83 72 64 58 :. 53 49 46 43:' 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 Category B 130 83 83 83 72 64 58 53 49 46 43 1 140 77 77 77 72. 64 58 53 49 46 43'. Racking 150 73 73 73 72 64 58 53 49 46 43 16068 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 72 64 58 53 49 46 43 Category 130 71 71 71 71 64 58 53 49 46 43 C 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 43 110 77 77 77 72 64 58 53 49 46 43 120 70 70 70 70 64 58 53 49 46 43 Category 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 1 57 1 57 1 53 1 49 1 46 43 160 53 53 53 53• 53 53 53 49 46 43 170 50 50 50 50 1 50 50 50 49 46 43 Notes — see page 20 Starling Madison Lofquist, Inc. Consulting Structural and Forensic Engineers -6- IronRidge December 18, 201.4 Mr. David F. Taggart Page 20 of 20 IronRidge XR100 Rail, Roof Flush Mounting System - Structural Analysis. Notes - Tabulated values are based on the following criteria: 1. Building mean roof height= 30 ft 2, Risk.Category I 3. Solar maximum module long dimension is 67.5 inches for Tables I'A=9A and 78.5 inches for Tables 113.913. 4. Provide 2.in. clear between roof and rail 5. End 'cantilever span (Max) -'0.40'x maximum span from above tables 6. No: rail splices in end spans 7. No rail splices in middle I/3 of interior spans 8. Single.simple span(s). Spans listed in the tables above may be multiplied 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 accepted standards of construction practice. Additional information is available at the. IronRidge web site, IronRidge:com. Verification of PV'Module capacity to support the loads associated with the given array shall be the responsibility of:the Contractor'or Owner and' not lrongidge or Starling Madison Lofquist. The adequacy of the supporting roof framing is to .be determined by others. Please feel :free to contact me at your convenience if you have any questions. Respectfiilly yours,/ m Tres Warner, P.E.. - C 71973 Design Division Manager E'• q�_ClVI%. �^ Starling Madison Lofquist, Inc. Consulting Structural and Forensic Engineers 10 co U d coq, C N Ln r, C) W W , n C O p m U) �U�U 8 J � LO N d 0 0 a � C Uzi �C M N A iO o ID o o 0 N o Ln m v o E z a a a +, N N U O O O t a U Y N ri CLn J r -i a j 01 rs .o o j V L a;r U 1 k d d Racking Engineering (2)