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B17-2223 033-010-086 (2)
� - ov arm ISM FIRE' SINCE 1885 California State Fire Marshal Information Bulletin 14-011 Issued: November 25, 2014 FIRE CLASSIFICATION FOR ROOF MOUNTED SOLAR PHOTOVOLTAIC SYSTEMS AND/OR PANEL MODULES — 2013 CALIFORNIA BUILDING STANDARDS CODE SUPPLEMENT EFFECTIVE JANUARY 1, 2015 The Office of the State Fire Marshal is issuing this Information Bulletin to address the use of photovoltaic solar systems and/or panel modules in areas outside the State Responsibility Areas (SRA) and Very High Fire Hazard Severity Zones. The adoption of UL 1703 with revisions through October 25, 2013 and the Emergency Rulemaking that delayed the effective date to January 1, 2015 of the adoption were intended to focus on the areas that require Class A or Class B roofing (SRA and Very High Fire Hazard Severity Zones). Where Class A or Class B roofing is required, the photovoltaic solar system (photovoltaic panels with the rack support system) shall have a Class A or Class B rating, respectively. Areas in California that only require a minimum Class C roofing due to statutory provision contained in Health and Safety Code 13132.7 should not be impacted by the early adoption of UL 1703. Those buildings and structures requiring Class C roofing should be able to have installed one of the following and meet the intent of the 2013 California Building Standards Code: 1. Photovoltaic panels and modules having a Class C rating under the previous version of UL 1703 (2002 edition with revisions through April 2008), or 2. Photovoltaic panels and modules having a Class C rating complying with UL 790 (2004 edition with revisions through October 2008), or 3. Photovoltaic systems having a minimum Class C rating under the most recent version of UL 1703 (2002 edition with revisions through October 2013). Fire classification of photovoltaic solar systems and panels shall be marked with their fire classification rating, Class A, B, or C. Questions or comments regarding this Information Bulletin should be directed to Division Chief Kevin Reinertson, Code Development and Analysis at (916) 327-4998, or by electronic mail to kevin.reinertson@fire.ca.gov. PERMIT # BUTTE C UNTY DEVELOPMENTSERVICES REVIEWED FOR CODE COMPLI CE DATEfl • S' 1 %fl • s 1 % BY http: //osfm.fi re.c6.gov 1117-2223 hIL E 033-010-086 SOLAR CRN1) HINT (15.12 'k� NN') 9/20/2017 PC FILE COPY PUARTECH CS6Km2701275 M Canadian Solar's new Quartech modules have significantly raised the standard of module efficiency in the solar industry. They introduced innovative four busbar cell technology, which demonstrates higher power output and higher system reliability. Worldwide, our customers have embraced this next generation of modules for their excellent performance. superior reliability and enhanced value. NEW TECHNOLOGY Reduces cell series resistance Reduces stress between cell interconnectors Improves module conversion efficiency Improves product reliability KEY FEATURES Outstanding performance at low irradiance Maximum energy yield at low NOCT Improved energy.production through reduced cell series resistance Long-term system reliability with IP67 junction box Enhanced system reliability in extreme temperature environment with special cell level stress release technology ..�!r CanadianSolar lack frame )duct can be ivided upon iuest. ZrJ insurance -backed warranty years non -cancelable, immediate warranty insurance \ s linear power output warranty ( product warranty on materials \ years and workmanship MANAGEMENT SYSTEM CERTIFICATES* ISO 9061:2008 /Quality management system ISO/TS 16949:2009 / The automotive industry quality management system ISO 14001:2004 / Standards for environmental management system OHSAS 18001:2007 / Internatlonal standards for occupational health & safety PRODUCT CERTIFICATES`` IEC 61215 / IEC 61730: VDE / CE / MCS / CEC AU UL 1703 / IEC 61215 performance: CFC listed (us) UL 1703: CSA / IEC 61701 ED2: VDE / IEC 62716: VDE i PV CYCLE (EU) 7E zz As there are different certincadon requirements Indifferent market% please contact your local Canadian Solar sales representative for the spedfic cerullcales applicable to the products in the region in which the products are to be used Positive power tolerance up to 5 W CANADIAN SOLAR INC. is committed to providing high quality Stronger 40 mm robust frame to hold solar products, solar system solutions and services to customers snow load up to 5400 Pa and around the world. As a leading manufacturer of solar modules wind load up to 2400 Pa and PV project developer with about 10 GW of premium quality Anti -glare project evaluation modules deployed around the world since 2001, Canadian Salt mist, and ammonia resistance, Solar Inc. (NASDAQ: CSIQ) is one of the most bankable solar apply to seaside, and farm environments companies worldwide. CANADIAN SOLAR (L'SA) fNC. 2420 Camino Ramon, Suite 125 San Ramon, CA, USA 94583-4385, www.canadiansolar.com, salessus@canadiahsolar.com PERMIT# �Z2 BUTTE rnLl SIT/ OFVFLOPMENTSERVICES R A/I VVED FOR CJI..-PCE DATE 1 D-5-• i f Z aY MODULE / ENGINEERING DRAWING (mm) —: vjt Rw Fr--mt'Cr0F5 5<CL07 F 3 m❑ 1 I I - ivinunzino Holt ) i I R ELECTRICAL DATA /STC* 199 W Electrical Date CSGK :lit hr_r'51i4 P- Nominal Max_.Power ('m 270 W 27S W Opt. Operating Voltage (Vmp) 31.1 V 31.3 V Opt. Operating Current (Imp) 8.67 A 8:80.A Open Circuit Voltage (Voc) 38.2 V 38.3 V Short Circuit Current (Isc) 9.19 A 9.31 A Module Efficiency 16.50% 16.80% Operating Temperature -40°C -+85<C --_...._—sie' -V, ---.....- Max. System_ Voltage -----..-E--- - 1000 V (IEq or 1_000 V (UL) Module Fire Performance TYPE 1 (UL 1703) or __ _ _ _ _ CLAS_S_C_ (IEC 61730)__ Max. Series Fuse Rating 15A Application Classification ~0-+5W Power Tolerance ` Under Standard Tea Conditions (STQ of irradiance of 10M W.Trr, spectrumAM 1.5 and cell temperature of 25-C 7 ELECTRICAL DATA / NOCT* Nominal Max. Power (Pmax) 195 W 199 W Opt. Operating Voltage (Vmp) 28.4 V 28.5 V Opt. Operating Current (Imp) 6.87 A 6.95 A Open Circuit Voltage (Voc) 35.0 V 35.1 V Short Circuit Current (Isc) 7.44 A 7.54 A * under Nominal Operating Cell'Temperature (NOCK Irradiance of 80D W/rtr'; spectrum AM 1.5, ambient temperature 20°C, wind speed 1 mfs. PERFORMANCE AT LOW IRRL.DIANCE Industry leading performance at low irradiation, average 96.5% relative efficiency from an Irradiance of 1000 W/mz to 200 W/m2 (AM 1.5, 25<C). CS6K-270M ! I-V CURVES 1650x992x40mm(65.0x39.1=1.57 in) Weight 18.2 kg (40.1 lbs) A for to A Anodized aluminium alloy_ el 61 Cable tY \ 1 1000 V (UL), 1000 mm (39.4 in) Connectors ` _Friends PV2b (IEC / UL) Standard 26 pieces, 520 kg (1146.4 lbs) - Packaging (quantity & weight per pallet) 31 21 1'; 7 5 10 15 2D 25 X30 3 m 5 10 15 20 25 so 35 40 M 100011*11f s -c V f,5 (imlvm' - E'C a faDwini 4°c 0 400wmi - e5`c Ci MODULE / MECHANICAL DATA 5pe�ifirat;cst Data Cell Type Mono -crystalline_, 6 Inch Cell Arrangement 60 (6x 10) Dimensions 1650x992x40mm(65.0x39.1=1.57 in) Weight 18.2 kg (40.1 lbs) Front Cover 3.2 mm tempered glass Frame Material Anodized aluminium alloy_ J -Box_ 1P67,3 diodes Cable _ 4 mm2 (IEor mmz & 12 AWG 1000 V (UL), 1000 mm (39.4 in) Connectors _ Friends PV2a (IEC)_ _Friends PV2b (IEC / UL) Standard 26 pieces, 520 kg (1146.4 lbs) - Packaging (quantity & weight per pallet) Module Pieces per Container 728 pieces (40' HQ) TEMPERATURE CHARACTERISTICS Temperature Coefficient(Pmax) -0.41%/*C Temperature Coefficient(Voc) -0.31%/eC Temperature Coefficient(lsc) 0.053%/°C Nominal Operating Cell Temperature 45±2°C PARTNER SE.CTIbN, The specification and key features described In chls datasheet may deviate sligh%, and are not guaranteed. Due to o"aing inno•/ation, research and product enhancement, Canadian Solar Inc. reserves the right to make any adjustment to the information described herein at any dot without notice. Please always obtain the most recent version of the datasheet which shall be duly incorporated into the binding contract made by the parties governing all transactions related to the purchase and sale of the products described herein ' Caution: For professional use only. The installation and handling of PV nodules ' __requires orotessional skills and shmtld onF/btperformed bvqualitied.prolessiwutt. PIe25E readtne Safel}Tand'Iniialiatlbn-lnslractions'beforeTi5ir6-IIY mpdi11:5. CANADIAN SOLER ;USA) INC. Sep. 2015. All rights reserved, PV Module Product Datasheet V5.3 NA • ` ,� f .. '.I1 ',•.4�` •� ,CSA+ ', ! ''-' a..• '. Group _ Certificate of Com hence Certificate: 2284121 Master Contract: 249143 Project: 70095478' Date Issued:- 2017-01-09 Issued to: Canadian Solar Inc ± y , r 545 Speedvale Ave West ', •. , - Guelph, Ontario N1K 1E6 .. r }. CANADA ' Attention: Wenda Zheng, The products listed below are eligible to bear'the CSA Mark shown with adjacent indicators 'C' and 'US' for Canada and US (indicating that ; products have been manufactured to the requirements of both Canadian r and US Standards) -or with adjacent indicator j'US' for US only or, without ._:either. indicatorfor Canadd*only.. • �_� �. .- r Issned hy: 4'�''�' iSea w) Ji a� t • , Qiang (Sean) Jiang. CUSCP -� PRODUCTS CLASS - C5311 10 - POWER SUPPLIES -Photovoltaic Modules and Panels c CLASS - C531190 POWER SUPPLIES -Photovoltaic Modules and Panels - Certified to US Stddanls ` r Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type 1 and Type 2 module , fire performance; Model Series CS6X-XXXP, CS6X-XXXPX where 'XXX' is the power output from 250 W to 360 W with the following electrical ratings typical at 360 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 46.5 V ' Short Circuit Current (Ise): 9.92 A Operating Voltage (Vpmax): 38.3 V ' Current at Operating Voltage (Ipmax): 9.40 A Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type 1 and Type 2 module fire performance, Model Series CS6X-XXXM where'X_XX' is the power output from 260 W to 360 W with the following electrical ratings typical at 360 W @ Standard Test Condition (STC):-= • �, -z - _..:_ �_.a, ,,.� . ' Open Circuit Voltage (Voc): 46.9 V p' , D507Rev. 201G -02 -IR Page 1 (/ t - BUTT'�COUNTY DEV L � - -'REVI WED FOR ` f^ CODE OMPLI •^-•� --• •- — - w`�----^.e'er'--a'+'�"'• �.-,,.r...�...,.._ .:.y.R.._..-.; ...;y. - .. �. _ _a.1��1Yr� , � • - - - �-• � .._,., «... CU GSA r Group Certificate: 2284121 Master Contract: 249143 Project: 70095478 Date Issued: 2017-01-09 Short Circuit Current (Ise): 9.78 A Operating Voltage (Vpmax): 38.7 V Current at Operating Voltage (Ipmax): 9.31 A Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type 1 and Type 2 module fire performance, Model Series CS6P-XXXP, CS6P-X3M-S, CS6P-XXXPX where'XXX' is the power output from 200 W to 300 W with the following electrical ratings typical at 300 W for CS6P-XXXP/ CS6P-XXXP-S, and CS6P-XXXPX series respectively @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 38.8 V Short Circuit Current (Isc): 9.92 A Operating Voltage (Vpmax): 32.0 V Current at Operating Voltage (Ipmax): 9.38 A Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type 1 and Type 2 module fire performance, Model Series CS6P-XXXM and CS6P-X)C>BdX where 'XXX' is the power output from 200 W to 300 W with the following electrical ratings typical at 300 W for CS6P-XXXM and CS6P-XNXMX series respectively @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 39.1 V Short Circuit Current (Ise): 9.78 A Operating Voltage (Vpmax): 32.4 V Current at Operating Voltage (Ipmax): 9.25 A Photovoltaic Modules with maximum system voltage of 600 V do and Type I and. Type 2 module fire performance, Model Series CS6A-XXXP, where'XXXis the power output from 160 W to 210 W with the . following ele--H6a-rratings typical of 2I-O'W @-Standard Test Condition (STC): Open Circuit Voltage (Voc): 30.0 V Short Circuit Current (Isc): 9.19 A Operating Voltage (Vpmax): 24.4 V Current at Operating Voltage (Ipmax): 8.63 A Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model Series CS6F-XXXM, where'JL-XX' is the power output from 30W to 40W with the following electrical ratings typical at 40W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.8 V Short Circuit Current (Tsc): 2.28 A Operating Voltage (Vpmax): 18.6 V Current at Operating Voltage (Ipmax): 2.15 A Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model Series CS6F-XXXP, where'XXX' is the power output from 3OW to 40W with the following electrical ratings typical at 40W @ Standard Test Condition -(STC): Open Circuit Voltage (Voc): 22.6 V Cp CSA Certificate: 2284121 Project: 70095478 Short Circuit Current (Ise): 2.32 A Operating Voltage (Vpmax): 18.4 V Current at Operating Voltage (Ipmax): 2.17 A Master Contract: 249143 Date ]Issued: 2017-01-09 Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model Series CS6H-XXXM, where 'XXX' is the power output from 20W to 26W with the following electrical ratings typical at 26W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.7 V Short Circuit Current (Ise): 1.5 A Operating Voltage (Vpmax): 18.4. V Current at Operating Voltage (Ipmax): 1.41 A Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model Series CS6H-X=, where'XXX' is the power output from 20 W to 26 W with the following electrical ratings typical at 26 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.5 V Short Circuit Current (Ise): 1.52 A Operating Voltage (Vpmax): 18.2 V Current at Operating Voltage (Ipmax): 1.43 A Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model Series CS6E-XXXM, where'XXX' is the power output from 45 W to 60 W with the following electrical ratings typical at 60 W @ Standard Test Condition (STC): Short Circuit Current (Tse): 3.42 A Operating Voltage (Vpmax): 18.6V Current at Operating Voltage (Tpmax): 3.23 A Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model Series CS6E-XXX2i where 'XXX'is the power output from 45 W to 60 W with the following electrical ratings typical at 60 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.6V Short Circuit Current (Tsc): 3.47 A Operating Voltage (Vpmax): 18AV Current at Operating Voltage (Ipmax): 3.26 A Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model Series CS6D-XXXM, where'XXX is the power output from 60 W to 75 W with the following electrical ratings typical at 75 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.5V Short Circuit Current (lsc): 437 A CSA ical)- Grotlp Certificate: 2284121 Project: 70095478 Operating Voltage (Vpmax): 18.3V Current at Operating Voltage (Ipmax): 4.11 A Master Contract: 249143 Date Issued: 2017-01-09 Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model Series CS6D-XXXP, where DC' is the power output from 60 W to 75 W with the following electrical ratings typical at 75 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.3V Short Circuit Current (Ise): 4.43 A Operating Voltage (Vpmax): 18.1V Current at Operating Voltage (Ipmax): 4.15 A Photovoltaic Modules with maximum system voltage of 600 V do and Type l and Type 2 module fire performance, Model Series CS6C-XXXM, CS6C-XXXMS, where LXX' is the power output from 120 W to 180 W with the following electrical ratings typical at 145 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.4V Short Circuit Current (Tse): 8.52 A Operating Voltage (Vpmax): 18.1V Current at Operating Voltage (Ipmax): 8.01 A Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 and Type 2 module fire performance, Model Series CS6C-XXXP, where'XXX' is the power output from 120 W to 180 W with the following electrical ratings typical at 150 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.3V Short Circuit Current (Ise): 8.87 A Operating Voltage (Vpmax): 18.1V Current at Operating Voltage (Ipmax): 8.30 A Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do or 1500V do and Type 1 and Type 2 module fire performance, Model Series CS6K-XXXP, where 'XXX' is the power output from 220 W to 300 W with the following electrical ratings typical at 300 W for CS6K-XXXP series @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 38.8 V Short Circuit Current (Tsc): 9.92 A Operating Voltage (Vpmax): 32.0 V Current at Operating Voltage (Ipmax): 9.38 A Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 and Type 2 module fire performance, Model Series CS6A-XXXM, CS6A-XXXMS, where 'XXX' is the power output from 160 W to 245 W with the following electrical ratings typical at 245 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 32.1V Short Circuit Current (Ise): 9.84 A a. y •,� r �.� CSS- Group Certificate: 2284121 Master Contract: 249143 ' Project: 70095478 - »' t ] Date 2017-0]-09 • x Operating Voltage (Vpmax):, 26.2V Current at Operating Voltage (Ipmax):' 9.36 A - Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type land Type 2 module • ' fire performance, Model Series CS6FA-XXXP, where = is the power output from 40 W to 45 W with the ` following electrical ratings typical at 45 W for CS6FA-XXXP series @ Standard Test Condition (STC): ` Open Circuit Voltage (Voc): 22:SV r , Short Circuit Current (Isc): 2.36 A Operating Voltage (Vpmax): 18.2V Current at Operating Voltage (Ipmak): 2.47 A , Photovoltaic Modules with maximum system voltage of 660V door 1000 V do and Type land Type 2 module ' fire performance, Model Series CS6DA-XXXP, where'= is the power output from 60 W to 70 W with the , following electrical ratings typical at 65 W for CS6DA-XXXP series @ Standard Test Condition (STC): T. Open Circuit Voltage (Voc): 22.3V Short Circuit Current (Isc): 3.85 A Operating Voltage (Vpmax): 18.OV Current at Operating Voltage (Ipmax): 3.60 A - Photovoltaic Modules with maximum systeni voltage of 600 V do or 1000V do and Typed and Type 2 module , + fire performance, Model Series CS6DB-XXXP, where 'XXX' is the power output from 75 W to 90 W vAritb the following electrical ratings typical at 85 W for CS6DB-XXXP series @ Standard Test Condition (STC):' _ Open Circuit Voltage (Voc): 22.3V Short Circuit'Current (Isc):- 5.02A. Operating Voltage.(Vpmax): -18.1 V Current at Operating Voltage (Ipmax): 4.70 A.. -Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type l and.Type 2 module fire performance: Model Series CS6DC-XXXP, where'XXX' is the power output from 90 W to 100 W with the ' following electrical ratings t}pical at 100 W for CS6DC-XXXP kries @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.5V -Short Circuit Current (Isc): 5.85A Operating Voltage (Vpmax): 18.2V f • Current at Operating Voltage (Ipmax): 5.49 A Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type I and Type 2 module • fire performance, Model Series CS6N-XXXP, where 'XXX' is the power'output from 90 W to 115 W with the ' following electrical ratings typical at.l 1.5 W for CS6N-XXXP series @ Standard Test Condition (STC): ~ �- Open Circuit Voltage (Voc): • 22 4V - -- Short Circuit Current (Isc): 6.76A Operating Voltage (Vpmax): 18.1V DOD S07 Rev. 2016-02-11 Page 5 t ' « .,..�.yw .3.,. ... �+.•+-.mow..... .,.-.• y - «.. ,. .. _ _ » s _ F � •� .` . ' ' . r -. . CSA Group Certificate: 2284121 Master Contract: 249143 Project: 70095478 Date Issued: 2017-01-09 Current at Operating Voltage (ipmax): 6.34 A Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type land Type 2 module fire performance, Model Series CS6NA-XXXP, where= is the power output from 115 W to 130W with the following electrical ratings typical at 130 W for CS6NA-XXXP series @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.4V Short Circuit Current (Isc): 7.58A Operating Voltage (Vpmax): 18.4V Current at Operating Voltage (Ipmax): 7.07 A (pen CrrcuitVoltagew(VOB) W. V% NEOR Circuit Ctirrrern (Is'c� (9;75;A1 (operating Voltagew(Vpmax)] M3X n^t at Operating'�Voltage.(I,pm (9:L2I:AI Photovoltaic Modules with maximum system voltage of 1000V do or 1500 V do and Type 1 module fire - performance, Model Series CS6U-XXXM, where'XXX' is the power output from 260 W to 360 W with the - following electrical ratings typical at 360 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 46.9 V `—`Short`Cir�cuit'Cuirent(Isc).- (1§c-).-9'78 -`- -9'78A Operating Voltage (Vpmax): • 38.7 V Current at Operating Voltage (Ipmax): 9.31 A Photovoltaic Modules with maximum system voltage of 1000V do or 1500 V do and Type 1 fire performance, Model Series CS6U-XXXP, where'XXX' is the power output from 250 W to 360 W with the following electrical ratings typical at 360 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 46.5 V Short Circuit Current (Isc): 9.92 A , Operating Voltage (Vpmax): 38.3 V Current at Operating Voltage (Ipmax): 9.40 A Photovoltaic Modules with maximum system voltage of 600V do or 1000 V do and Type I and Type 2 module fire performance, Model Series CS6P-XXXP-SD, and CS6K-XXXP-SD where'XXX' is the power output from 240 W to 300 W with the following electrical ratings typical at 250 W @ Standard Test Condition (STC): Output Voltage Range (Vout): - 5 – 60V Maximum Output Current (Imax): 15A f '• �- r '_�• •� � • '�M` CSA • Group Certificate: 2284121 Master Contract: 249143 �. Project: .70095478 Date Issued: 2017-01-09 . Photovoltaic Modules with maximum system voltage -of 600V do or 1000 V do and Type 1 and Type 2 module fire performance, Model Series CS6P-XXXM-SD, CS6K-XXXMS-SD, and CS6K-XXXM-SD where Dm' is ` the power output from 240 W to 305 W with the following electrical ratings typical at 250 W @ Standard Test Condition (STC): , Output Voltage Range (Vout): 5=60V , _ Maximum Output Current (Imax): 15A 1 " Photovoltaic Modules with maximum system voltage of 600V or 1000 V do and Type 1 and Type 2 module fire . performance, Model Series CS6P-XXXP-TD, where'XXX' is the power output from 240_ W to 300 W with the' following electrical ratings typical at 250 W @ Standard Test Condition (STC): Output Voltage Range (Vout): • 16 - 32 V (Voc*) A Maximum Output Current (Imax): 9.5 A *For modules with Smart Curve function the Voc is adjustable and is programmed only at the factory based on the PV module voltage.: Notes: ; l Rated electrical characteristics are within +/-10% of measured values at Standard Test Conditions'of ' _ 100 mW/cm2 irradiance, AM 1.5 spectrum, and cell temperature of 2YC. , 2. A maximum series fuse rating of 20A is only for.module Model Se_ nes CS6P-XXXP-SD,. CS6K-XXXP-SD, CS6P-XXXM-SD, CS6K-XXXMS-SD and CS6K-XXXM-SD APPLICABLE REQUIREMENTS ULC/ORD: C1703-61 - Flat -Plate Photovoltaic Modules and Panels." ` UL 1703-3° Edition Flat -Plate Photovoltaic Modules and Panels • ' .' A•u: DOD 507 Rev. 2016-02-1 R P,ee 7 . + . • " —,T. •. ,�y .. _ � • a 1:11' y�, � {.r• .:fe• .-.. ?.i�:••—iy J• .�..+'.r 11^' �'� y Classic Composition Mount I ,AMSC • ; —THIS EDGE TOWARDS--.:r-�— --��---RACKING COMPONENTS ` • ` 4 # 2.50 ROOF RIDGE .1 V, NOT INCUJDED 6 t 7 � ,,•'~ •s• ,, � ..', 4 12.00_ 3 - r 0.50 o I 2 + 3.00 i 1 . i. .. 6.00 - � - jiir L r 1 -.M LA,- - 1.30 ITEM 1 DESCRIPTION I. Qr. I FLASHING. 17 X 17 X .050". 5052. MILL 1 2 QBLOCK. CLASSIC, A360.1 CAST P.L. MRL 1 3 HANGER BOLT, PLAIN CENTER. 5/ I6" x 6•. 18-8 SS T 4 WASHER, SEALING, 5116" m X 3/4' OD, EPDM BONDED SS I •' 5 NUT. HEX 5/16-18, UNC -2B. 18.8 SS 2 6 WASHER, FLAT, 19/64'[D x 718" OD x I/8• EPDM I 7 WASHER, FENDER, 5/16' ID X I" OD, 18-8SS 1 8 WASHER, SPLIT -LOCK, 5116 ID. 18.8 SS 1 TITLE: r ho : , ^''AMSC: CLASSIC COMPOSITION i MOUNT , 1 AVAILABLE IN MILL, CLEAR ANODIZED, AND BRONZE ANODIZED FINISHES. F • iI elanY�4rLY3 .1 D.4AN'N 6 D _ REV memos aw.n A `TE: 'i 7rainis b IImtmun uncongm4. ��•••• ae..w,«o-�..ww w..�n.,.,o..<.ae�wmc..ws...ew�•...:rm*�r:..�.:.,n.: oeiwire�uow..tro frnov�atsue ire —___-,-._._ .___—_� . -...�.Armon,.,u.u.su,c.aw,m.a..�.n«am. � ..' I ...--- Incen�cecuvur:.r:� isa.c:ta �a:'+cro:rs. �srtttrcir • i 1 �Lag 1 pull-out (withdrawal) capacities (Ibs) in E'ypical lumber: Lag Bolt Spedficalions l - 1 Spetf.0—ly S• •' l6ehaft per 3tMnd depth - P -. i - SIt6"Elvlt Pw t' Nreed der h , I �Lag pull-out (withdrawal) capacities (Ibs) in E'ypical lumber: Lag Bolt Spedficalions l - 1 Spetf.0—ly S• •' l6ehaft per 3tMnd depth - P -. i - SIt6"Elvlt Pw t' Nreed der h , I Couylaz Fir. ! arh .50 798 .. 266- 66- R. Fic Sown • - .46 705. 235 Engelmann Spruce, 10doepole Pine (MSP. 1650f a Right:) _-- — .46 — - 705 - 23S Hein• Fh -43 em 212 Hem.: tr (Nwh) — --_— .46 - 705 ' _ 235 1 Sourhem Pine' ,55 927 307 - Sa_r, Pine. Fit - - .. -- .42 I 615 !� _ 205 - f SprucoPine. Flr (E of 2 miTon ;sl and Rghei grades of feSF ane Rtd) I � 798 - I 263 - I r •' Sources: Arnedcan Arood Council, NDS 2005, Table 11.2 A 11.32 A r *: Notes 1) Thread must be embedded in a rafter or other structural roof member. 4 _ 2) See NDSTable 115.1Cfor required edge distances. - Q�'uick Mount PV, • •�.. ~- f^'• • RESPECT,.THE—SROOF r. BI 7.2.3-7 ` r Apr -2014; Rev 6 ._V'^.•r+.,.-a• .�.'..;•!,i!. •w ' +r•.+• ..IM' -r,. • rr r .._ r X..... .. • • . _rw f• ,. • ,W -i. �.r. r - r^.. •• r --� , Classic Composition Mounting Instructions Installation Tools Required: tape measure, roofing bar, chalk line, stud finder, caulking gun, sealant compatible with roofing materials, drill with 7/32" long -style bit, drill or impact gun with i/2' deep socket. urk.Mirut• •• • •- • -• n • • • • •- -• • • • • • -• • - Locate, choose, and mark centers of rafters to be Carefully lift composition roofshingle with roofing Insert flashing between 1st and 2nd course• Slide mounted. Select the courses of shingles where bar, just above placement of mount Remove nails up so top edge of flashing is at least 3/4' higher - mounts will be placed. as required. See "Proper Flashing Placement" on than the drip edge of the 3rd course and lower next page. flashing edge is above the drip edge of 1 st course. r Mark center for drilling. Using drill with 7/32" bit, drill pilot hole into roof Clean off any sawdust, and fill hole with sealant Slide flashing into position. Prepare hanger bolt and rafter, taking care to drill square to the roof. compatible with roofing materials. with hex nut and sealing washer. Insert into hole Do not use mount as a drill guide. Drill should be and drive hanger bolt until QBlock stops rotating 'long style bit' aka 'aircraft extension bit'to drill a easily. Do NOT over torque. 3" deep hole into rafter. I +I Y�Ir ale ROVV r�0t1y.filr'tltix; rl9tit of yoyr c>iobna�fo�umr�ffiIjYt�s�_�__dlre`�fottsTof the fad: m� as rreeU as th8 mtldule mgnar(aGttuugr. All cm3i'mg rnaat�f vrtitten ingtrtrcttons mustelso foiitbaed byL@Y?ne� _. _ la�roa#`sYstttt Plal�con��tit�itmtttriatx�r$ s a ��ic�trurtiens to Insert EPDM rubber washer over hanger bolt into -Using the rack kit hardware, secure the racking _ - block. (L -foot) to the mount using torque specs from racking manufacturer. If racking manufacturer does BI 7.2.3-7 not specify torque setting, tighten to 13 ft. -lbs. Apr -2014, Rev 6 Reference and Tips Additional tips and information for installing mounts: ~ j� a See Classic Composition Mount install and Quick Tips videos on nail removal, bolt prep, and more at: i www.quickmouiitpv.com/support/videos.htinl B It is not necessary or advisable to use nails or other fasteners to secure the perimeter of, the flashing. The Classic Composition iV:ounc is made io wcrl ith standaiidandIii gh=definifion composition/ asphalt and wood shingle roofs iivitih 5" to 5-5/8" courses. If the exposed surface of the course �• exceeds this measurement you may need to use our Classic Shake hllount instead. i Depending on the season and dir?ate, size and location of seal tabs, and quality of the shingles, the seal tabs that adhere the shingle courses together may not effectively seal the shingles to the flashings. 11 this is the case, sin-iply add several quarter -sized dabs of manufacturer accepted sealant or asphalt roofing cement, meeting zSTA(i D 4586Type li, between the flashing and the shingle above. t Moun'i:5 Should not be inst'- led in Ereas of the roof susceptible to ice daniminc;. Vilater ponding � L'ndEP i:he sl?II?g125 can reach the bslt.pelletrailon. f - Take care ihot to 6Ernage the roofing matei'ici while wci kilt oeh the roof. Re;novino stone granules ' an6t deforming the shingles in any way can shcrien t{ic lilespcn of the roofing, The vZlue ofthe Solar I array is directly "Tf ected Lythe condi-Jon of the roct it is=i-tZ d' 1. 81 7.2.3-7 Apr -2014, Rev 6 wick M o u n t RESPECT THE noon= 925-478-8269 'o www.quickniountpv.com e info@quickmountpv.com 2700 Mitchell Dr., Bldg 2 o Walnut Creek, CA 94598 Q 2013 by Quick Mount K All right` resemed. Data Sheet Enphase Microinverters Enphase IQ 6 and IQ 6+ Microinverters The high-powered, smart grid -ready Enphase IQ 6 Micro- and Enphase IQ 6+ Micro''' dramatically simplify the installation process while achieving the highest efficiency for module -level power electronics. Part of the Enphase IQ System, the IQ 6 and IQ 6+ Micro integrate seamlessly with the Enphase IQ Envoy'", Enphase Q Aggregator'",,Enphase IQ Battery'", and the Enphase Enlighten' monitoring and analysis software. The IQ 6 and IQ 6+ Micro 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 two -wire cabling Buih=in-rapid-shutdow compliant -(NEC -209-t)- ---- — roductive and Reliable Optimized for high powered 60 -cell and 72 - cell' modules More than a million hours of testing Class If double -insulated enclosure mart Grid Ready ' Complies with fixed power factor, voltage and frequency ride -through requirements Remotely updates to respond to changing grid requirements Configurable for varying grid profiles. UL `The IQ 6.1• Micro is required to support 72 -cell modules ®� To learn more about Enphase offerings, visit en' t'F,� ENPNASEenmf17# OEVELOPMENTSERVICES 'i - VI VVE® FOR CEOMPLi CE - - �!►TE�i �-� =1=ter-BY Enphase IQ 6 and IQ 6+ Microinverters INPUT DATA (DC) IQ6-60-2-US AND IQ6-60-5-US IQ6PLUS-72-2-US AND IQ6PLUS-72-5-US Commonly used module pairings' 195 W - 330 W + 235W -400W+ ; Module compatibility T _ -'60-- cell PV modules only ^ 60_ -cell and 72 cell PV modules — rt Maximum input DC voltage _ r 48V - _ _ - -62 V Peak power tracking voltage Y 27 V - 37 V Y 27 V - 45 V - Operating range " _ w __ 16 V -'48 V _ - " 16V -62V —) Min/Max start voltage 22V/48V. • 22V/62V i Max DC short circuit current (modulelsc)_ 15 A Overvoltage class DC port 11 t D-6ackfeed under single fault - 0 A y ` "y W p q f PV array configuration _-� 1 x 1 ungrounded array; No additional DC side protection required; AC side protection requires max 20A per branch circuit OUTPUT DATA (AC) IQ6-60-2-US AND IQ6-60-5-US IQ6PLUS-72-2-US AND IQ6PLUS-72-5-US Peak output power 240 VA 290 VA t Maximum continuous output power 230 VA 280 VA I Nominal'vol{age/range�1 R� 240V_72_1_1 -26__4_V_ + 208 V (1 m) % 183-229 V 240 V / 211-264 V 208 V —(10) % 183-229 V Nominal oucurrent tput 0.96 A 1.11 A 1.17 A 1.35 A Nominal frequency - + - y 60 Hz • _ i _ 60 Hi Extended frequency range 47 - 68 Hz 47 - 68 Hz Power factor at rated power 1.0 1.0 ` Maximum units per 20 A branch circuit 16 (240 VAC) 13 (240 VAC) 14 (single-phase 208 VAC) 11 (single=phase 208 VAC) Overvoltage class AC pori III III ' AC port backfeed under single fault 0 A 0 A Power factor (adjustable) 0.7 leading ... 0.7 lagging 0.7 leading ..+0.7 lagging EFFICIENCY �1u240 V @208 V (10) r7a240 V @x208 V (10) CEC weighted efficiency. 97.0% 96.5% 97.0 96.5% MECHANICAL DATA Ambient temperature range -40°C to +65°C Relative humidity range 4% to 100% (condensing) Connector type MC4 or A_mphenol H4 UTX Dimensions (WxHxD) 219 mm x 191 mm x 37.9 mm (without bracket) - Weight _ 1.5 kg (3.31bs) ' Cooling Natural convection- No fans Approved for wet locations Yes Pollution degree PD3 -Environmental category / UV exposure rating Outdoor- NEMA 250, type 6 (IP67) FEATURES Communication Power line Monitoring " Enlighten Manager and My[nlighten monitoring options, Compatible with Enphase IQ Envoy Compliance UL 62109-1, UL1741,'IEEE1547, FCC Part 15 Class B, ICES -0003 Class B, CAN/CSA-022.2 NO. 107.1-01 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 en�has m n-us/support/module-compatibility. 2. -Nominal voltage range can be extended beyond nominal if required by the utility. - -- - To learn more about Enphase offerings, visil enphase.com - ' zI 20 i 7 Enphsve Energy, All rigins : csei ved.A,11 trademarks o' brands used 5r?the properly of l rpnas? energy, Ire. Cl 2017-05-01 E N P H A S E . `� LViJ'fIi �Llw]s ��U NIRA oSM VI MOULT ` ��, A HILTI GROUP COMPANY SOLARMOUNT defined the standard in solar racking. New enhancements are designed to get installers 'off the roof faster than ever before. Components are pre -assembled and optimized to reduce installation steps and save labor time. Our new grounding & bonding process eliminates copper wire and grounding straps to reduce costs. Utilize the microinverter mount with a wire management clip for an easier installation. of . UL210BONDING & GROUNDING 3 MECHANICAL LOADING L I S T E D SYSTENI FIRE CLASSIFICATION P w ' GET OFF THE ROOF FASTER THAN EVER BEFORE . Iw.. ' � . .. -} = •.ya,, :.;s,a. .a„ .s.r.:- sra �..;c�=.ss� - s-.--r=�.:r}�.a....-.�..r=-.'rw--+=�.�-..c=sr.-«-Y�w:�-..atrl...W. a*•-;....?++.>, � . ,--. - .. OPTIMIZED COMPONENTS VERSATILITY AVAILABILITY DESIGN TOOLS �. �► , . w-« . ' . � ... � r• ..i. n � ..a.-...i.�_ •- ' " � � . - y, .--� t. 1. - . _ter t`^e....�..... � - .. a xs 5UA. 7 i� N SOLI R. � -. �1 1 �t.. � .S '"MANtem :- , 1. , use UN! 4,M �1- �A i+ criotsa co6�aati�r . ` PLTIMIZEDUMP'DNENTS, r'< INTEGRATED BON©ING'& P.R&ASSEMBLED PARTS f am agtWitzw to Fnagi . ann��etali t]ecoe+. a pmmm eou;tec :/ a lN1F_GKA'1'i:D BOA:Dit1r pt 'aan ra g $crates ar bMtM ramtgrszo imxe oswthae.me MIDCtAivtP ra�nsr�jjmoarsrmnaKYemaaiage�r�tteraisessl�hatdttrtJm' ,i r -'��E I�SRT'I'LITr 1 ONE PRO�I�+UC/i.=�.M� ANYrAPPLIICATtOt35 .�t�rR yw+rJ $2� I Iii t� tib mat Q of a Stitrya y— � .r • t - 4 �. x' ygy��' Y- A S odeaiadcii"m vola ar tz�asra� white &! iA 4 f* var"ty oc tram .. , INTEGRATE) BONDING morbtescaGatirrwstotigims�eaosit�. aysleleipu7Ldt$ianduark SPUCE RAR {! 0A011i2ECfmish..�•rt0o:'mY�titG�Ci2Cua!`a3!?CS".tkilt'dSS�tk�. .. -_ �} ' •i.� �' � , . 3¢' 8` U 1 jr� j/y� �� Y 1 i ` tAVAIiftrlBILITI 4�44'iG �t1r�•r �t .,t -'!'�" }�; �7�",i(,�` -f- '^ `NATIONWIDE NETWORK �.. _ww �a U6 � 0rg m park m �.� -2 i iN1BGRATEd.BONDING ' Loyd W. Martin Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com Structural Calculations for a Ground Mounted Solar Electric System for: oQROFEss/pN9 C, l Faulkner Residence 9! No. C58724 33 Long Bar Ct., * Exp. 3-31-19 Oroville, CA 95966 `P C V1 �s TF OF CAL\FAQ` Applicable Codes: 2016 California Building Code, 2016 California Electric Code, 2016 California Mechanical Code, American Society of Civil.. Engineers Standard ASCE 7-10 Minimum Design Loads for Buildings and Other Structures, Local Municipal Code, and all other codes which are adopted by reference or enacted by law. rERMIT#_l t j Assumed Design Parameters: BUTTE COUNTY DEVELOPMFN?-5ERU�5ES REVIEWED FOR . CODE COMPLI. P CE D � DATE S-• BY Soil is Sand, Silty Sand, Clayey Sand, Silty Gravel or Clayey Gravel. ( SW, SP, SM, SC, GM or'GC ) or better. Presumptive Load -Bearing Values per Table 18.02 of 2016 CBC Contractor, Building Official or Project Engineer shall verify on-site soil parameters. Wind Design Speed is 110 mph Exposure C Tilt Angle = 18 degrees +/- Flat to Slightly Sloping Terrain 2017- 3591 Join Solar Faulkner Residence `1.317-2223 --�_ F'Il,l" 033-010-086 I S0L.AR G1tVl.) Alf 05.12 0N) 9;20/20:17 PC Sht # 1 of 10. Date: September 19, 2017 Loyd W. Martin Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com 15-0" DRILLED FOUNDATION MODULE CLAMP PV MODULE (4) CIRCUITS OF (14) PIER (TVP) Solar PV Array Layout Plan View QROF ESS/pN C No. C58724 3" CROSS PIPE 1 T-11" Exp. 3-31-19 D 3" PIER PIPE 1 MAX F VARIES �T9rF pF'C AL F\P H y AS NE DED AL RACING, . ENGINEERED FOUNDATION 2'-6" MAX. EXPOSED* r 7..6„ ABOVE GRADE NOTE: There shall be no splice on the rails. Rails must be continuous on its entire length. 2017- 3591 Join Solar Faulkner Residence Solar PV Array Section View Sht # 2 of 10 Date: September 19, 2017 Loyd W. Martin Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com Loads and Load Combinations for Ground Mount System Critical Load Combinations per Section 2.4.1 Basic Combinations ASCE 7-10: Load Case 5: D + (0.6W or 0.7E) (Wind Governs) Note: D = Dead Load = 3 psf max W = Wind Load = See Analysis for Exposure C 110 MPH S = Snow Load 0 psf �oQROF ESS/ON9l W. � m No.. C58724 * Exp. 3-31-19 cPJ ClV 1\ 9TF OF t Sht # 3 of 10 2017- 3591 Join Solar Faulkner Residence Date: September 19, 2017 -Loyd W. Martin. Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 TelA .310.464..1804 Email:- loydwmartin@gmail.com www.loydwmartin.com Determine Wind Load per Section 6.5.13.2 ASCE 7-05: oeR°FEss/p F = qh G CTASty?No. C58724 Exp. 3-31-19 Where Civic. s 9TF OF C Al\F��� F design force qh = velocity pressure evaluated at mean roof height h as determined in accordance with Section 29.3.2 G = gust effect factor from. Section .26.9 Cf = net pressure coefficient determined from Figs. 29.4-1 AS = gross area of solar array therefore determine qZ per Section 29.3.2': qZ = ..0.00256 KZ KZT Kd V2 psf z = h = 5ft. Exposure c Wind 110 mph KZ = 0.85 Velocity Pressure Exposure Coefficient ASCE 7-10 Section 29.3.1 and per Table 29.3=1 KZT = 1.0 Topographic Factor ASCE 7-10 Section 26.8.2 Kd = 0.85. Wind directionality factor as defined by ASCE 7-10 Section 26.6 and per Table 26.6-1 V = 110 mph Basic Wind Speed per Section 26.5 and Fig. 26.5-1- Sht#4 of 10 2017- 3591 Join Solar Faulkner Residence Date: September 19, 2017 Loyd W. Martin Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com therefore determine qZ per Section 29.3.2: �oQ�oFEss/O q W. hf qZ = 0.00256 KZ KZT Kd V2 psf No. C58724 wqZ� 0.00256 x 0.85 x 1.0 x 0.85 x (110)1 * Exp. 3-31-19 T civi\ 9rF OF C ALF qZ.. _ 22.4 psf . G = 0.85 Gust Effect Factor ASCE 7-10 Section 26.9 CN = 1.3 +/ Entire Roof Area (conservative over entire roof area) net force coefficient per Fig. 29.44 therefore determine F per Section. 29.4-1 ASCE 7-10 F _ ghGCfA, F = 22.4 psf x 0.85 x 1.3 x AS p = +/-' 24.8 psf x AS Note: Load Combinations for Allowable Stress Design per Section 24.1: 0.6 x F = 0.6 x (+/- 24.8 psf) x AS 0.6 x F = (+/- 14.9 psf) x AS J 2017- 3591 Join Solar Faulkner Residence Sht # 5 of 10 Date: September 19, 2017 Loyd W: Martin Professional Engineer, .Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com Loading Diagram for Solar PV Array �oQROF ESS/pN�l � m No. C58724 * Exp. 3-31-19 cPj C/V1� 9TF OF CA - CV CO - N R1y R1x I 1'- 8" Equivalent Component Force Diagram Analyze 18° Condition: N R1 .I R1x 11-811 1-811 2017- 3591 Join Solar Faulkner Residence D=3psf W = 14.9 psf .p R2y I R2x 91-011 1'- 8" R2y P R2x 91-01, 8" Sht ## 6 of 10 Date: September 19, 2017 Loyd W.Martin Professional .Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel:.1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com Determine Applied Equivalent Loads for '18° Condition: F y / Tributary Area = 3 psf + 14.9 psf x cos 18 = 17.17 psf Tributary Area' = 13.2 ft x 15 ft.x 1/2 = 99 sq ft F y = 17.17-psf x 99 sq. ft. = 1,700 lbs F x /.Tributary Area = 14.9 psf x sin 18 = 4.60 psf Tributary Area = 13.2 ft x 15 ft x 1/2' = 99 sq ft F x = 4.60 psf x 99 sq. ft. = 456 lbs �OQROF ESS/pNgl WN Force Analysis in Member Elements LU No. C58724 Exp. 3-31-19 cPJ CIVIC 1,700 # 9TF OF C AQF 456 # 6 R 1 I R1x. I I 1'- 8" 2017-3591 Join Solar Faulkner Residence R2y P Rex 91-01, 1'- 8" Sht #-7 of 10 Date: September 19, 2017 } Loyd W. Martin Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com Force Analysis in Member Elements Continued Max Downward Vertical Load to Footing 1,700 lbs Max Uplift Vertical Load to Footing = 1,403 lbs Lateral Load to Footing = 456 lbs �OQROF ESS/pN9l W. No. C58724 * Exp. 3-31-19 Allowable Loads for 16" Diameter x 52" Deep Pier s�qT CIV�� F OF C AQ Uplift Capacity Weight of Foundation = Area x Depth x 150 pcf 3.14 x (0.67 ft)^2 x 4.33 ft. x 150 pcf 903 lbs Soil Friction = Surface Area x Cohesion 2016 CBC Table 1806.2 = 3.14 x 1.33 ft. x 4.33 ft. x 130 psf = 2,353 lbs > 600 lbs (CBC Sec. 1806.3.2). Array Dead Load = (3 psf x 99 sq ft) = 297 lbs Uplift Capacity = 903 lbs + 600 lbs + 297 lbs = 1,799 lbs > 1,403 lbs OK Use (N) 16" Diameter x 52" Deep Pier as per plans at Supports of Array Sht # 8 of 10 2017- 3591 Join Solar Faulkner Residence Date: September 19, 2017 Loyd W. Martin Professional Engineer, Inc. .2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com Compression Capacity Compression Capacity Area x Bearing Pressure = 3.14 x (0.67 ft)^2 x 1500 psf �OQROF ESS/04/ Compression Capacity = 2,084 lbs > 1,700 lbs OK W No. C58724 Check Soil Pressures of Pole Footing SUDoort * Exp. 3-31-19 V �rF OF C AIE Check Soil Pressures per 2016 CBC Sec. 1807.3.2.1 Eq'n 18-1 d=0.5A( 1 +(1 +(4.36 h/A))"'') A=2.34P/Slb S,=217psf x1.33x2=576 psf h = 5.1' b = diameter of footing = 1.33 ft. A = 2.34 x 456 lbs / (576 x 1.33) = 1.39 dRegV 0.5x1.39(1+(1+(4.36x5.1'/1.39))°5) =3.56 ft. < 4.33 ft. Use (N) 16" Diameter x 52" Deep Pier as per plans at Supports of Array Note to Building Official: Based upon a review of the proposed plans I am confident that the proposed ground mounted solar PV array is capable of supporting all, code required loads with the above mentioned footing. If you have any questions or additional concerns feel free to contact me at loydwmartin@gmail.com, skype id loydwmaritn, or .tel: 1-310-464-1804. Thanks. End of Calculations Sht # 9 of 10 2017- 3591 Join Solar Faulkner Residence Date: September 19, 2017 } Loyd W. •Martin Professi1onal .Engineer, r <� 2510`W. 237th St. #206 Torrance, CA 90505 Te1:1.310:464.1804. r Email: loydwmartin@gmail.com www.loydwmartin.com • ., ' „" "Ire" },. - �e r .. � . • ... :� S , , SUPPORT PER PLANS '' 4 ti • 1 ! - NATURAL GRADE. • . 16" -DIAMETER -X 4`33�FT. DEEP - CONCRETE PIER; FC 2500 PSI ' • n s OR BETTER CWRAP-(2)-LAYERS-OF 14— GAUGE w = f/1 GALVANIZED -STEEL WELDED` coco WIRE 3" .` �OQ9,OFESS/p4,gl No. C58724. M Ik Exp. 3-31-19 • F T-. J�q L6�_J. TF OFCA\0 ' DRAWN BY: LWM .:PV ARRAY FOUNDATION PIER DETAIL DATE: 9-19-17 D1 SECTION VIEW' J06: 2017-3591 r • r Join Solar 1' LOCATION • ' �• FAULKNER J Pv ED 15.120 kW NET METIER f j QROF� ESS/p\ �ql VNo. C58724 Exp. 3-31-19 �pF C AOF September 19, 2017 www. Loyd W Martin .com Solar Structures Engineering #2017-3591 Structural Only DATE: 9/18/2017 LONG BAR CT 307' 395' IQVky/��i%\'1 510' APPLICABLE CODES / NOTES: THIS SOLAR PHOTOVOLTAIC SYSTEM SHALL BE INSTALLED IN ACCORDANCE WITH THE REQUIREMENTS SPECIFIED IN THE 2016 PERMIT# 2 CBC, 2016 CRC, 2016 CFC, 2016 CALIFORNIA GREEN BUILDING STANDARDS CODES, AND ARTICLE 690 OF THE 2016 CEC, AND ALL — - - --- - ---- -- - j 11.1'.7-2223I'I I.,1; i BUTTECOUNTY EVELOPMENTSERVICE REVIEWED FOR ADDITIONAL APPLICABLE BUILDING CODES. (REFER TO PAGE 6) I 033-010-086 795 n - COM PLI CE NO WELL tif)1: AR GK;\D VIN (155.12 Iw\1') DATE ���`J • L� BY 1/21I2111% SYSTEM SPECIFICATIONS: o 33 LONG BAR CT OROVILLE, CA 95966 CLIENT PHONE # TABLE OF CONTENTS DRAWN BY: MODULE: STRING - INVERTER: CANADIAN SOLAR CS6K-270P (56 MODULES) ENPHASE IQ6+ P.1 COVER SHEET I l J Bu P.2 SITE PLAN AZIMUTH(S) : TILT(S): BUSBAR RATING: MAIN BREAKER: ATTACHMENT TYPE: 180° 180 200A 175A UNIRAC PV COMP SHINGLE MOUNT � 380 ORANGE ST. CHICO, CA 95928 1(855)360 -JOIN 530-533-6891 JURISDICTION: CITY OF OROVILLE UTILITY: P.3 MODULE LAYOUT REV. P.4 MOUNTING DETAILS P.5 ELETRICAL SCHEMATIC P.6 ELETRICAL NOTES LIC #: 1021484 PG&E P.7 STICKER / PLACECARDS k. _ CcpY (E) UTILITY METER/PANELBOARD • ' - & INTERCONNECTION (E)"SEPTIC SYSTEM (N) UNDERGROUND CONDUIT ` -180 FT (E) SHOP PERMIT BUTTE COUNTY DEVELOPMENT BERM(.' REVIEWED FOR - CODE COMPLI CE pAT.�_t�!_I_. By . CALL FOR BUTTE COUNTY /i • BUILDING INSPECTION BEFORE 188' COVERING TO,VERIFY (E) CUSTOMER RESIDENCE `INSTALLATION a l • - 89' (N) PV MODULE ARRAY. �oQRoVq- ly N9l REFER TO PAGE 3 FOR • :: o T 2 RACKING & STRINGING No. C58724 ' INFORMATION. * Exp. 3-31-19 (N) COMBINER BOX ;;; ; ; i ; ; sr CiVi\, �P (N) PV AC DISCONNECT --- 9lFCF CA��F��� r Remove vegetation and debris from under September 19, 2017 4T and away from stricture. Maintain clearance for. a fire.safe environment www. Loyd W Martin .com N KEEP cALIFORNIA.cREEN. k Solar Structures Engineering PREVENT WILDFIRES IN BUTTE COUNTY J - #2017-3591 Structural Only 1 SITE PLAN - -- PV2 SCALE 1 : 10 ' 33 LONG BAR CT TABLE OF CONTENTS y y y y y # OF MODULES: OROVILLE, CA 95966 P.1 COVER SHEET y y y AZIMUTH(S): CLIENT PHONE # P.2 SITE PLAN y y y 56 (15.120 kW) 'NOTABLE'LANDSCAPE 180° 530-533-6891 P.3 MODULE LAYOUT MODULE TYPE: JURISDICTION: TILTS 380 ORANGE ST. PA MOUNTING DETAILS CANADIAN SOLAR ) CHICO, CA 95928 CITY OF OROVILLE P.5 ELETRICAL SCHEMATIC 18° 1(855)360=JOIN UTILITY:. P.6 ELETRICAL NOTES 10' BRUSH CLEARANCE CS6K-270P LIC #: 1021484, PG&E P.7 STICKER / PLACECARDS o??,OF ESS/ No. C58724 Exp..3-31-19 cPJ CIV 9TF pF C AL�F��� PERMIT#— September 19, 2017 BU ECOUNTY DEVELOPMENT SERVICES www. Loyd W Martin .comREVIEWED FOR Solar Structures Engineering CODLOIVIPLI CE #2017-3591 Structural Only DATE I� BY __ _ 1 MODULE PLAN DRILLED FOUNDATION MODULE CLAMP PV MODULE (4) CIRCUITS OF (14) PV3 SCALE 1 : 1.0 PIER (TYP) ' - VERIFY ALL OBSTRUCTIONS IN THE FIELD - VERIFY ALL DIMENSIONS IN THE FIELD. - WHERE INDICATED ON PLAN MIN. DIMENSIONS ARE REQUIRED PER THE "SOLAR PV INSTALLATION GUIDELINE" - PROVIDE RAIL SPLICES AS REQUIRED BY MANUFACTURE'S GUIDELINES 1 - PV MODULE CANNOT BE INSTALLED OVER, OR BLOCK ATTIC VENTS, PLUMING VENTS, 3 FIRE CODE OFFEST FURNACE OR WATER HEATER VENTS ETC.' , (':� �J1;Jt� � 380 ORANGE ST. CHICO, CA 95928 1 855 360 -JOIN , LIC #: 1021484 33 LONG BAR CT OROVILLE, CA 95966 CLIENT PHONE # 530-533-6891 .JURISDICTION: CITY OF OROVILLE UTILITY: PG&E TABLE OF CONTENTS P.1 COVER SHEET P.2 SITE PLAN P.3 MODULE LAYOUT P.4 MOUNTING DETAILS P.5 ELETRICAL SCHEMATIC P.6 ELETRICAL NOTES P.7 STICKER/ PLACECARDS rAAITII Mir -D AInT r_AMTII FVFR MnT P INNECTOR . �1 PIPE FITTINGS DETAIL A 5 -UP = PV SYSTEM PLAN DETAIL Scale: l/2"=1'-0" 71, • 1T 0" MSC. C .• ; \ !. '� — r 3" CROSS PIPE 1 �EQ• D 3" PIER PIPE 1 - r F — VARIES DIAGONAL BRACING, H AS NEEDED ENGINEERED [- FOUNDATION w w _ I,_ ✓ MODULE, V OTHERS R1000 RAIL tONRIDGE ' RAIL ONNECTOR PV MODULE,. mi 4 BY OTHERS XR1000 RAIL IRONRIDGE w 3" RAIL t CONNECTOR Q . IRONRIDGE O 'PIPE 1 ' 3" TOP CAP 3" PIPE 1 ;ONRIDGE 'MD CAP D P[PE FITTINGS DETAIL IRONRIDGE MID CLAMP PV MODULE FRAME IRONRIDGE RAIL IL 10 10 r A t0 o N N ' i1 DETAIL, MID CLAMP FRONT SUPPORT PER PLANS.a a IRONRIDGE END CLAMP W o Y m w w NATURAL GRADE PV MODULE FRAME o o a a yg o IRONRIDGE RAIL 3 w ti �<f, OQROF ESS/pNq DETAIL END CLAMP FRONT O y No. C58724 16" DIAMETER X 4.33 FT. DEEP PV MODULE FRAME * Exp. 3-31-19 CONCRETE PIER; F'C = 2500 PSI s OR BETTER 4. IRONRIDGE MID CLAMP OF C Q��\P AIRF --- WRAP (2) LAYERS OF 14 -GAUGE GALVANIZED STEEL WELDED September 19.2017 2'-6" MAX. co ' WIRE EXPOSED ABOVE GRADE I 9' f I — ,-- Www. Loyd VV Martin .com E DETAIL MID CLAMP Solar Structures Engineering T / 6'1' 0" 42017-3591 Structural Only 5 -UP - PV SYSTEM SIDE SECTION . B — IRONRIDGE RAIL __ -.Scale: 3/4"=1'-0" PV MODULE FRAME 1. SCHEDULE 40 PIPE OR ALLIED MECHANICAL TUBING (8GA WALL THICKNESS) — IRONRIDGE END CLAMP 3 33 LONG BAR CT ��11■11■ OROVILLE, CA 95966 P.1 COVER SHEET "' CLIENT PHONE # 11� SITE PLAN G DETAIL E,DCLAMP,PLAN �'� i 222 530-533-6891 P.3 MODULE LAYOUT- 16'.-4 F"llivill �u COUNTY DEVELOPMENT SERVICES 380 ORANGE ST. JURISDICTION: PA MOUNTING DETAILS REVIEWED FOR cHlco, CA 95928 CITY OF OROVILLE P.5 ELETRICAL SCHEMATIC PV ARRAY FOUNDATION PIER DETAIL ��11■3" 1(855)360 -JOIN UTILITY: P.6 ELETRICAL NOTES SECTION VIEW Dill■111■ LIC #: 1021484 PG&E P.71 STICKER/ PLACECARDS. J CROSS PIPE LENGTH P INNECTOR . �1 PIPE FITTINGS DETAIL A 5 -UP = PV SYSTEM PLAN DETAIL Scale: l/2"=1'-0" 71, • 1T 0" MSC. C .• ; \ !. '� — r 3" CROSS PIPE 1 �EQ• D 3" PIER PIPE 1 - r F — VARIES DIAGONAL BRACING, H AS NEEDED ENGINEERED [- FOUNDATION w w _ I,_ ✓ MODULE, V OTHERS R1000 RAIL tONRIDGE ' RAIL ONNECTOR PV MODULE,. mi 4 BY OTHERS XR1000 RAIL IRONRIDGE w 3" RAIL t CONNECTOR Q . IRONRIDGE O 'PIPE 1 ' 3" TOP CAP 3" PIPE 1 ;ONRIDGE 'MD CAP D P[PE FITTINGS DETAIL IRONRIDGE MID CLAMP PV MODULE FRAME IRONRIDGE RAIL IL 10 10 r A t0 o N N ' i1 DETAIL, MID CLAMP FRONT SUPPORT PER PLANS.a a IRONRIDGE END CLAMP W o Y m w w NATURAL GRADE PV MODULE FRAME o o a a yg o IRONRIDGE RAIL 3 w ti �<f, OQROF ESS/pNq DETAIL END CLAMP FRONT O y No. C58724 16" DIAMETER X 4.33 FT. DEEP PV MODULE FRAME * Exp. 3-31-19 CONCRETE PIER; F'C = 2500 PSI s OR BETTER 4. IRONRIDGE MID CLAMP OF C Q��\P AIRF --- WRAP (2) LAYERS OF 14 -GAUGE GALVANIZED STEEL WELDED September 19.2017 2'-6" MAX. co ' WIRE EXPOSED ABOVE GRADE I 9' f I — ,-- Www. Loyd VV Martin .com E DETAIL MID CLAMP Solar Structures Engineering T / 6'1' 0" 42017-3591 Structural Only 5 -UP - PV SYSTEM SIDE SECTION . B — IRONRIDGE RAIL __ -.Scale: 3/4"=1'-0" PV MODULE FRAME 1. SCHEDULE 40 PIPE OR ALLIED MECHANICAL TUBING (8GA WALL THICKNESS) — IRONRIDGE END CLAMP 3 33 LONG BAR CT TABLE OF CONTENTS OROVILLE, CA 95966 P.1 COVER SHEET "' CLIENT PHONE # P.2 SITE PLAN G DETAIL E,DCLAMP,PLAN �'� i 222 530-533-6891 P.3 MODULE LAYOUT- 16'.-4 F"llivill �u COUNTY DEVELOPMENT SERVICES 380 ORANGE ST. JURISDICTION: PA MOUNTING DETAILS REVIEWED FOR cHlco, CA 95928 CITY OF OROVILLE P.5 ELETRICAL SCHEMATIC PV ARRAY FOUNDATION PIER DETAIL CODE COIVIPLI CE 1(855)360 -JOIN UTILITY: P.6 ELETRICAL NOTES SECTION VIEW DATES s 5, B LIC #: 1021484 PG&E P.71 STICKER/ PLACECARDS. MANUFACTE�RERL APPROVED CANADIAN SOLAR MODEL CS6K-270M I ELECTRICAL SPECIFICATIONS RATED POWER OUTPUT @ STC 270 I I UNDERGROUND 2" PV AC TO UTILITY GRID) CONDUIT 120/240V1: (3) #4 CU THWN-2 SINGLE PHASE T MAIN RESIDENCE (1) #8 CU GROUND NOT CENTER FED PANEL 90°C WET & DRY BI-DIRECTIONAL UTILITY METER (N) 65A 2 -POLE BREAKER SHALL BE INSTALLED OPPOSITE MAIN BREAKER ELECTRICAL PANEL ;E) 200 AMP 120/240 MOUNTS AND EQUIPMENT ENCLOSURES GROUNDED TO MAIN PANEL GROUND COMPLY WITH CALIFORNIA ELECTRICAL CODE – 690.12(1) THROUGH (5) RAPID SHUTDOWN OF PV SYSTEMS ON BUILDINGS I . www. Loyd W Martin .com Solar Structures Engineering #2017-3591 Structural Only c� EATON 100A AC DISCONNECT ANUFACTURER ODEL RATED AC VOLTAGE CEC EFFICIENCY MAX POWER OUTPUT @ STC MAX INPUT VOLTAGE MAX INPUT CURRENT MPPT VOLTAGE RANGE MAX OUTPUT CURRENT (N) 50A & 20A 2 -POLE BREAKER SHALL BE INSTALLED. OPPOSITE EATON 100A AC DISCONNECT EXTERIOR 1 4" EMT AC CONDUIT Z10 (3) #4 CU THWN-2 N(1) #8 CU GROUND 90°C WET & DRY No. C58724 * Exp. 3-31-19 1 cPJ CIV 1\ qTF OF C Al\F& September 19, 2017 ENPHASE IQ 6+ 240V 97.0% 29OW 62V 15A 211 V - 264V 1.17A (N) 2/4 SUB -PANEL SYSTEM OVERVIEW # OF MODULES IN SERIES (CIRCUIT SIZE) 14 # OF MODULES IN PARALLEL (# CIRCUITS) 4 NUMBER OF MODULES PER INVERTER 1 ARRAY RATED DC POWER OUTPUT , STC 15.120 kW #6 CU AWG BARE WIRE (TYP) BOUNDING MODULES & RAILS OR WEEBS BONDING & GROUNDING WASHERS J- BOX UNDER ARRAY SEALED TIGHT NON-FUSED -NEMA TYPE3 MIN. ENVOY S XAM1-120M COMBINER BOX A COMPLY WITH CALIFORNIA ` ELECTRICAL CODE- ARTICLE 690 REQUIREMENTS FOR SOLAR I PHOTOVOLTAIC SYSTEMS �— EXTERIOR 2" EMT AC CONDUIT (3) #6 CU THWN-2 (1) #8 CU GROUND 90°C WET & DRY J -BOX P.51 PERMIT # BUTTE COONTY DEVELOPMENT SERVICES REVIEWED FOR CODE COMP_ L CE ATE (_V J -. - - BY TERMINATOR CAP ON LAST CABLE CONNECTOR OF AC TRUNK CABLE (TYP) 14 PANELS- BRANCH CIRCUIT I MICROINVERTER III MICRO -INVERTER /? V MICRO - INVERTER P.)) MCRO -INVERTER P.) MICRO) EMR #1 MICRpI EATER /. 14 PANELS- BRANCH CIRCUIT #4 MICRO -INVERTER TRUNK CABLE, 1 PHASE 90°c, 600V, WET/DRY, WITH MICRO -INVERTER PRE-INSTALLED CONNECTORS OPEN AIR CONDUCTORS, NOT IN A CONDUIT BLACK -L1 RED-L2,WITH-NEUTRAL GREEN -GROUND UL1741, UL 746 C,F1., IEC 60529 IP67 (TYP) EXTERIOR 4" EMT AC CONDUIT (3) #10 CU THWN-2 (1) #8 CU GROUND 90°C WET & DRY B*USBAR RATING: 200A MAIN BREAKER: 175A .(DE -RATED) # OF MODULES: 56 SYSTEM SIZE: 15.120 kW OPEN CIRCUIT VOLTAGE (Voc) 38.2V TABLE OF CONTENTS MAX POWER VOLTAGE (Vmp) 31.3V P.2 SITE PLAN SHORT CIRCUIT CURRENT (Isc) 9.31A P.5 ELETRICAL SCHEMATIC - MAX POWER CURRENT (Imp) 8.80A Voc CORRECTION FACTOR (%/deg C)'-0.31 % Vmp/Pmp CORRECTION FACTOR -0.41% I I UNDERGROUND 2" PV AC TO UTILITY GRID) CONDUIT 120/240V1: (3) #4 CU THWN-2 SINGLE PHASE T MAIN RESIDENCE (1) #8 CU GROUND NOT CENTER FED PANEL 90°C WET & DRY BI-DIRECTIONAL UTILITY METER (N) 65A 2 -POLE BREAKER SHALL BE INSTALLED OPPOSITE MAIN BREAKER ELECTRICAL PANEL ;E) 200 AMP 120/240 MOUNTS AND EQUIPMENT ENCLOSURES GROUNDED TO MAIN PANEL GROUND COMPLY WITH CALIFORNIA ELECTRICAL CODE – 690.12(1) THROUGH (5) RAPID SHUTDOWN OF PV SYSTEMS ON BUILDINGS I . www. Loyd W Martin .com Solar Structures Engineering #2017-3591 Structural Only c� EATON 100A AC DISCONNECT ANUFACTURER ODEL RATED AC VOLTAGE CEC EFFICIENCY MAX POWER OUTPUT @ STC MAX INPUT VOLTAGE MAX INPUT CURRENT MPPT VOLTAGE RANGE MAX OUTPUT CURRENT (N) 50A & 20A 2 -POLE BREAKER SHALL BE INSTALLED. OPPOSITE EATON 100A AC DISCONNECT EXTERIOR 1 4" EMT AC CONDUIT Z10 (3) #4 CU THWN-2 N(1) #8 CU GROUND 90°C WET & DRY No. C58724 * Exp. 3-31-19 1 cPJ CIV 1\ qTF OF C Al\F& September 19, 2017 ENPHASE IQ 6+ 240V 97.0% 29OW 62V 15A 211 V - 264V 1.17A (N) 2/4 SUB -PANEL SYSTEM OVERVIEW # OF MODULES IN SERIES (CIRCUIT SIZE) 14 # OF MODULES IN PARALLEL (# CIRCUITS) 4 NUMBER OF MODULES PER INVERTER 1 ARRAY RATED DC POWER OUTPUT , STC 15.120 kW #6 CU AWG BARE WIRE (TYP) BOUNDING MODULES & RAILS OR WEEBS BONDING & GROUNDING WASHERS J- BOX UNDER ARRAY SEALED TIGHT NON-FUSED -NEMA TYPE3 MIN. ENVOY S XAM1-120M COMBINER BOX A COMPLY WITH CALIFORNIA ` ELECTRICAL CODE- ARTICLE 690 REQUIREMENTS FOR SOLAR I PHOTOVOLTAIC SYSTEMS �— EXTERIOR 2" EMT AC CONDUIT (3) #6 CU THWN-2 (1) #8 CU GROUND 90°C WET & DRY J -BOX P.51 PERMIT # BUTTE COONTY DEVELOPMENT SERVICES REVIEWED FOR CODE COMP_ L CE ATE (_V J -. - - BY TERMINATOR CAP ON LAST CABLE CONNECTOR OF AC TRUNK CABLE (TYP) 14 PANELS- BRANCH CIRCUIT I MICROINVERTER III MICRO -INVERTER /? V MICRO - INVERTER P.)) MCRO -INVERTER P.) MICRO) EMR #1 MICRpI EATER /. 14 PANELS- BRANCH CIRCUIT #4 MICRO -INVERTER TRUNK CABLE, 1 PHASE 90°c, 600V, WET/DRY, WITH MICRO -INVERTER PRE-INSTALLED CONNECTORS OPEN AIR CONDUCTORS, NOT IN A CONDUIT BLACK -L1 RED-L2,WITH-NEUTRAL GREEN -GROUND UL1741, UL 746 C,F1., IEC 60529 IP67 (TYP) EXTERIOR 4" EMT AC CONDUIT (3) #10 CU THWN-2 (1) #8 CU GROUND 90°C WET & DRY B*USBAR RATING: 200A MAIN BREAKER: 175A .(DE -RATED) # OF MODULES: 56 SYSTEM SIZE: 15.120 kW 0 380 ORANGE ST. CHICO, CA 95928 1(855)360 -JOIN- LIC #: 1021484 33 LONG BAR CT OROVILLE, CA 95966 CLIENT PHONE # 530-533-6891 JURISDICTION: CITY OF OROVILLE UTILITY: PG&E TABLE OF CONTENTS P.1 COVER SHEET P.2 SITE PLAN P.3 MODULE LAYOUT PA MOUNTING DETAILS P.5 ELETRICAL SCHEMATIC - P.6 ELETRICAL NOTES P.7 STICKER/ PLACECARDS - EACH MODULE TO BE GROUNDED USING THE SUPPLIED CONNECTION POINT PER MANUFACTURE'S REQUIREMENTS. ALL SOLAR MODULES EQUIPMENT, AND THE METALLIC COMPONENTS ARE TO BE BONDED. IF THE EXISTING GROUNDING ELECTRODE SYSTEM CAN NOT BE VERIFIED OR IS .ONLY METALLIC WATER PIPING, IT IS THE CONTRACTOR'S RESPONSIBILITY -TO INSTALL -A SUPPLEMENTAL GROUNDING ELECTRODE'. -.-ALL PLAGUES AND SINGAGE REQUIRED BY THE LATESTEDITION OF NATIONAL ELECTRICAL CODE. REFER TO SHEET 7 (STICKERS AND PLACECARDS). LABEL, SHALL BE METALLIC OR PLASTIC, ENGRAVED OR MACHINED PRINTED IN A CONTRASTING COLOR TO THE PLAQUE. PLAQUE SHALL BE UV RESISTANT IF EXPOSED TO SUNLIGHT. - DC CONDUCTORS SHALL BE RUN IN EMT AND/OR MC (METAL CALD CABLE) AND _ SHALL BE LABELED, "CAUTION DC CIRCUIT" OR EQUIV. EVERY 5 FT. - EXPOSED NON-CURRENT CARRYING METAL PARTS OF ELECTRICAL EQUIPMENT SHALL BE GROUNDED IN ACCORDANCE WITH 250.134 OR 250.136 (A) CONFIRM LINE SIDE VOLTAGE AT ELECTRICAL UTILITY SERVICE PRIOR TO CONNECTING INVERTER. VERIFY SERVICE VOLTAGE IS WITHIN INVERTER VOLTAGE OPERATIONAL RANGE. - - OUTDOOR EQUIPMENT SHALL BE NEMA -3R RATED OR BETTER - ELECTRICAL CONTRACTOR TO PROVIDE CONDUIT EXPANSION JOINTS AND ANCHOR CONDUIT RUNS AS REQUIRED PER NEC. - ALL WIRING MUST BE PROPERLY SUPPOTED BY DEVICES OR MECHANICAL MEANS DESIGNED AND LISTED FOR SUCH USE, AND FOR ROOF -MOUNTED SYSTEMS, WIRING MUST BE PERMANENTLY AND COMPLETELY. HELD OFF OF THE ROOF SURFACE. NEC 110.2 - 110.4 / 300.4 - ALL PV METERS TO BE WITHIN 5 FT OF ANOTHER. - PV METERS TO BE INSTALLED CORRECTLY, SUPPLIED FROM THE TOP JAWS. - ALL ROOF PENETRATIONS MUST BE FLASHED. SIMPLY CAULKING DOES NOT SUFFICE. _ THIS SOLAR PHOTOVOLTAIC SYSTEM SHALL BE INSTALLED'IN ACCORDANCE WITH THE,REQUIREMENTS SPECIFIED IN ARTICLE 690 OF THE 2016 CEC AND ALL APPLICABLE BUILDING CODES. - ACCESS TO THE ELECTRICAL WIRE SHALL BE RESTRICTED TO. QUALIFIED PERSONAL,ONLY AS REQUIRED BY ARTICLE 690 OF THE 2016 CEC. - THE PHOTOVOLTAIC ARRAY(S) SHALL BE PROVIDED WITH DC GROUND -FAULT PROTECTION. (CEC 690.5) - ALL CONDUCTORS SHALL BE TYPE 90 DEGREE C RATED. (CEC 690.318) - ALL EXPOSED PHOTOVOLTAIC SYSTEM CONDUCTORS SHALL.BE TYPE USE -2 OR PV WIRE. (CEC 690.31 B) - ALL CONDUCTORS SHALL BE TYPE 90 DEGREE C RATED (CEC 690.318) -THE INSTALLATION OF EQUIPMENT AND ALL ASSOCIATED WIRING AND INTERCONNECTIONS SHALL BE PERFORMED ONLY BY QUALIFIED PERSONS (CEC 690.4) 380 ORANGE ST. CHICO, CA 95928 -1(855)360-JOIN LIC #: 1021484 QROF ESSI O Vy No. C58724 * Exp. 3-31-19 �TgTF VIV �F'C AOFO��\� September 19, 2017 www. Loyd W Martin .com Solar Structures Engineering #2017-3591 Structural Only 33 LONG BAR CT OROVILLE, CA 95966 CLIENT PHONE # 530-533-6891 JURISDICTION: CITY OF OROVILLE UTILITY: PG&E PERMIT # BUTTE COUNTY DEVELOPMENT SERVICES REVIEWED FOR CODE GOMK CE DATE IIS �i� BY TABLE OF CONTENTS P.1 COVER SHEET P.2 SITE PLAN P.3 MODULE LAYOUT PA MOUNTING DETAILS P.51 ELETRICAL SCHEMATIC P.61 ELETRICAL NOTES 411 ' �' "' • '. � � 4.� 4,; P 7 `2 PLACED ON OR ADJACENT TO THE t f PLACED ON THE INVERTER, OR PLACED_ DISCONNECTING MEANS -' NEAR THE GROUND -FAULT INDICATOR 4° AT A VISIBLE LOCATION - . • . 411 • o . o LOCATED ON THE AC DISCONNECT , 4.51' SWITCH FOR DC PHOTOVOLTlIACPLACED NEXT TO THE SOLAR BREAKER SiOLAR PV SYSTEM DISCONNECT i PLACED ON OR ADJACENT TO THE DISCONNECTING MEANS LOCATED ON THE DC DISCONNECT -• PORTION OF THE INVERTER 411 - - 1" �oQROF ESS/pN9l �• 95° 211 211 No. C58724 �^ 0 .. � .511 Exp.3-31-19 s' c': 9rF p�l",�h'# SERVICES 211 - .. '2 CA 11 • BUTTE CO NTY DEVELOPMENT SE C Sep tember19.2017' REVIEWED FOR •DE COM6'LI CE Py1 0 ® _ LOCATED ON MAIN SERVICE PANEL _. www. Loyd WMartin'-E A Solar Structures E�p�ifie-eringL0f15- t BY DO O O 1„ 0 `' 111 .NOTE: STICKERS ARE WHITE LETTERS ON RED BACKGROUND #2017-3591 StructuraOnly 33 LONG BAR CT TABLE OF CONTENTS _ - OROVILLE, CA 95966 P.1 COVER SHEET CLIENT PHONE# P.2 SITE PLAN 530-533-6891 P.3 MODULE LAYOUT STICKERS AND PLACECARDS - - 380 ORANGE ST. JURISDICTION: P.4 MOUNTING DETAILS = - ' CHICO, CA 95928 CITY OF OROVILLE P.5 ELETRICAL SCHEMATIC 1(855)360 -JOIN r { ` UTILITY: P.6 ELETRICAL NOTES `. LIC #: 1021484 PG&E P.7 STICKER/ PLACECARDS