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B17-2021 039-520-028
BUTTE COUNTY AREA DEPARTMENT OF DEVELOPMENT SERVICES 5 INSPECTION CARD MUST BE ON JOB SITE 24 Hour Inspection Line (IVR) : 530.538.4365 (Cut off time for inspections is 3pm) Development Services cannot guarantee inspections on the date requested Office: 530.538.7601 Fax: 530 Permit No: B 17-2021 Issued: 9/5/2017 APN: 039-520-028 Address: 9665 DUCKLING DR, DURHAM Owner: CRAVEN ROGER & KAREN Permit Type: SOLAR ROOF -RES Description: INSTALL 27 SOLAR PANELS. 7.425 KW. Asa. i ia� www.ijuuet-ounty.net/aus Flood Zone: None SRA Area: No Front: Centerline of Road: Rear: SRA: Street: AG: Interior Total Setback from Centerline of Road: ALL PLAN REVISIONS MUST BE APPROVED BY THE COUNTY BEFORE PROCEEDING ns ection TVDe JVR INSP DATE Setbacks 131 Foundations / Footings 111 Pier/Column Footings 122 Eufer Ground 216 Masonry Grout 120 Setbacks 131 Do Not Pour Concrete Until Above are Sign d Pre -Slab 124 Gas Test Underground/floor 404 Gas Piping Underground/floor 403 Underfloor Framing 149 Underfloor Ducts 319 Shear Transfer 136 Under Floor Plumbing 412 Under Slab Plumbing 411 BlockingfUnderpining 612 Tiedown/Soft Set System 611 Do Not Install Floor Sheathing or Slab Until Above Signed Shearwall/B.W.P.-Interior 134 Shearwall/B.W.P.-Exterior 135 Roof Nail/Drag Trusses 129 Manometer Test 605 Do Not Install Sidin Stucco or Roofing Until Above Signed Rough Framing 153 Rough Plumbing 406 Rough Mechanical 316 Rough Electrical 208 4 -Way Rough Framing 128 Gas Piping House 403 Gas Test House 404 Shower Pan/Tub Test 408 Do Not Insulate Until Above Signed Inspection Type IVR INSP DATE T -Bar Ceiling 145 Stucco Lath 142 Plumbing Final 813 Fire Sprinkler Test or Final 702 Swimmina Pools Setbacks 131 Pool Plumbing Test 504 Gas Test 404 Pre-Gunite 506 Pre -Deck 505 - Pool Fencing/Alarms/Barriers 503 Pre -Plaster 507 Manufactured Homes Setbacks . 131 . BlockingfUnderpining 612 Tiedown/Soft Set System 611 Permanent Foundation System 613 Underground Electric 218 Sewer 407 Underground Water 417 Manometer Test 605 Continuity Test 602 Ski rting/Steps/Lan dins 1 610 Coach Info Manufactures Name: Date of Manufacture: Model Name/Number: Serial Numbers: Length x Width: Insignia: - - - Finals..: Permit Final 802 Electrical Final 803 Mechanical Final 809 Plumbing Final 813 Fire Sprinkler Test or Final 702 Public Works Final 538.7681 Fire De artment/CDF 538.6226 Env. Health Final 538.7281 Sewer District Final "PROJECT FINAL -rrolect anal is a cermicate of occupancy for lttesiaennai umyl PERMITS BECOME NULL AND VOID 1 YEAR FROM THE DATE OF ISSUANCE. IF WORK HAS COMMENCED, YOU MAY PAY FOR A 1 YEAR RENEWAL 30 DAYS PRIOR TO EXPIRATION F Carbon monoxide alarms required by Sections R_315.1 and R315.2 shall be installed in the, following locations: ` 1. Outside of each separate dwelling unit sleeping area in the immediate vicinity of the' bedroom(;). 2. On every level of a dwelling unit including basements. R315.1.5 Multiple -purpose alarms: Carbon monoxide alarms combined with smoke alarms shall comply with Section R315, all applicable standards, and 'requirements for listing and approval by the Office of the State Fire Marshal, for smoke alarms. Butte County's Interpretation of 20.13 CRC, Sections 314 & 315 for Smoke Alarms & Carbon Monoxide Alarms: Where alterations, repairs or additions exceeding $1,000 in valuation, existing dwellings shall be retrofitted with smoke alarms and those that have attached garages or fuel -burning appliances shall have carbon monoxide alarms installed. Existing smoke alarms can be replaced with dual function alarms for Smoke and Carbon Monoxide and in most cases will comply with the aforementioned cod_ a requirements for Carbon Monoxide Alarms. DECLARATION OF INSTALLATION UNDER THE PENALTY OF PERJURY As Owner/Contractor, I/we affirm and declare under the penalty of,perjury, under the laws of the State of California, by our signatures.below as Owner/Contractor, that 1/we will comply prior to final inspection with Items A $ B as specified herein: A. Both Owner/Contractor have read and clearly understand the aforementioned 2010 California Residential Code (CRC) Carbon Monoxide Alarm requirements. B. Both Owner/Contractor are responsible for installing Carbon Monoxide Alarms prior to. final inspection as per the aforementioned building code and. maintaining such installation. Smoke Alarms will also be installed prior tQ final inspection as per the 2010 CRC. ..1-.. ......J /�..:.L...... A/...��..: Owner's name (print): Owner's signature: Contractor's name (print): Contractor's signature: l Project Address: Revised 7.20.2015 CSL_ B License: Date: /71�9 bf►+ Permit #: 23 ! — o 6oQ MOM 1.NDG)ABDRAISAREREQUIEDAMNSTALED MLARENEIV IAEWRAB RR&IANf70 LANG N.,DI3b• . 1 ALLw SM EM CCIPCIFM SHML EE LW®SY A MOMU TESTI AOEHCY(LL 1A IMI, M L*RN0 MATERUL SHALL BE SIATAME FORTIS NN E)OOBRS ANDIETT LMATIOIN. FEW APM PRDTECTNE ODA710 ARE NOT ACM"MLE CALLwMODUFBANOAS =TEDMWMEMAIDWMMATUMt BULLffiPROTECTEDRDEIAMPIRYBIGLLOMNME AN**AIO7WGPAMLYDIRLNO,LIVEMMNw80URCEOR M 'AND wOUTPUTCFWMOYER 15DVOLTB TOORCND SMALL NOT BE ACBE TOOTER TKAN Q MFERSON9 WHILE DORM IALL FIELD INSTALLED AACIDIA RAL NO OUTLET BOXES LOCATED BENZO NODULES OR PANELS "L L BE ADLiSN3lE OREMY OR BY DISPLACEMENT OF A M=AE(B)OR PATELLOSECUIEDBYREMOVASU PA87F M T. R DNB eNru ee PoeEEo AwAc>ixr m exN w as�Ecr,wO NVERTER TO INDICATE. THOTOYOLrAICmw I BACKM BPFNSMUST BE AT THEOPPoMTE ETDOFSUS BAR FROM 74 MAIN SERAIS OR MAN LUD SIFPLYND CLARBIT FRDM TIE URUIES NDTE: ... WHENA SACIM BREAKER G TIE MEM OF U16RY ORERCONNECTIOK BREAIER SHALL NOT REM LIVE AND LOAD. ALL CDID .FnTWGB,SOXES LYDIFLYNO WIUI TEC I1{.%h ALLTEONONALCONIECrOd SWLLL BE RATEDAT LEAST - or O. TOUNWBY'DRO BNBEPNABB� ni POI EC711AL UTuTyAFu YW '�OAMP aPolt —� - wATIAD�f iAC.O�seAnet(ci cuaAARn+B WR LIRRHNTCARRYPGOONOUCIORS M RFAUiED 001DUCTORAWACRY (OWAII+QI+E51 ° M A AWO IIP. DOUSED NiAp,Y: (EDIIDNI(0°nsA 2ry1 A f IA. nEREFORe M wRI eQB G VMlO B NOTES: CONTRACTOR RESPONSIBLE FOR CaFLYWO WITH ALL LOCAL°NEC ODE REQUIRE ENTSNO MANUALS FOR fWALIDIO A PYSYSTEi. 00.0EROIIG MOLES: ALL COMfOENTS NAST BEGROUNDED PER NEC RISMREI&M - EACH MMULE MUST BE GROINDEDACCORONO TO INSTALLATION REQUREIISM -- EACH MODULE SHALL BE GROUNDED USNO ALL USTED. SLAL%LI R®1211714I7EUTRJLL OREHAOROIAO BONDING LOCATED AT THE MANUFACTURES SPE"IED ALL EQUIPU M WALL PE LISTED PER NEC LOCATION ON THE MOOLAE N ACCORDANCE WITH AWUUFACCTIREIRS NOTIFY SERVICE UTROYSUM ACTIVATION OF w SYMEML .. NSTRUC110NS AND N A M WITH DEC WITH A CONUp1S 1 WHEN BAGOLD MUM ISTVE METHODOF URIIYHiERCOMEC ION, SREN®t WALL NOT READ LINE AND LOAD. OEINGMODEfDR SERVICE SWILL • NOTE nEIRRI TGR UNON OFRIS NOT BIIER18if GROLACOl00F RBAANOIG MODULES. ALL MM APPURTENANCES OWL BE PANTED ACOLOR SIMILAR TO THE COLOR OF THE SURFACE LFONW OM TIEYAIE NOUOED, NOTE EYOR1MO"A4ESARDMTIIEE1WMN3FCTRCAIEMA M - ASWELL ASTHE NEW HECWALEQUIPMENT WILL BE MAINTAINED IN AOMFONCE VM CECIIQA NOTE WILL PROVIDE I/SELTOMUTE POMM AC SENORS N MAN PANEL - - TOTE., rBOX ONROOF IML 00 NOT RELOCATE PVSOLM BREAKERS . - reamAvaaCAPa N MAN PA/EL A' - - - OFMNATORCABE OFA N6BARECOPFERWIE THERE SNML NOT BE ANY NAIIONO WKS MDOIhES�RACID108�TEN aIOUDBG . u �l :PA/�S.•BRAMN tlR UDEREATH THE PVPANELS. (I1012DELy T ELECTRICAL ED~ BLALL BE LISTED BYACITY RECOaREDELECTRICAL TESTING LABORATORY. r — I . 0 aasr– (7)W12U)AWGTEMMQTYK 9VC WETA DRY :PAN9S•BRAN C ODH80R SM• EMT I I ' CONDUIT, Ir W ABOW . ROOF (I) W CU AWG TIAYN@ TYPE NYC WET& DRY m 00 MOA 2 P0EE MAKER I I I AC DL4000ECT (7 I I . N o #I2CUAWOTHIMQ YPE i I. On WET I DRY II If II IDLRITB MD eOUPMENr I (li OCUAm VC IOAY 2 TO OROUNO I Y I (ryP) 7E)LTM3W ENT AC COW II I — — — — L=====_= JJ I 1 I � ( N � �IXE>• (E) GROUNDING ELECTRODE \so -Ne (EJJ`"' MAXIMUMOUTPUT POWER = 215 WATTS AC 215W 1240V = 0.9 AMPS 0.9 AFH. INVERTERS= 0 BRANCH °gR13 II+tI�R'f�=11.'16raE+DaE 2 PTC RATING IS 242A W IIW 5 VA242A' 0.9811000 =0 kW AC PANELS RATINGS: ISC = 8.80 ADC IMP= 8.42 ADC NTSPV-P3 THREE LINE ELECTRICAL �3CNE9tCUIL / Tmw#I2ERTEAIMIIECASL - iNYAA WII AWG, 9IMER P V, WETA U TMRY. i WIIII AOCRDWAHRER PPIiBISTALLID ODNIFL'TONG SLAL%LI R®1211714I7EUTRJLL OREHAOROIAO w ULITAI; UA Tb CFI, LEC OM POEM) MrQ1 I V/ a S.. MAIN PANEL MBC Siff = 20 A ' 4mrodk (ROYAL AIRE I 3 „m QUARTECH' CS6K-270 1 275 M Ao _r CanadianSolar "al l i 7 I '• i i 'c NEW 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 !' !i .'Long-term system reliability with IP67 �-� - junction box Enhanced system reliability in extreme temperature environment with special cell level stress release technology "L.. tiillt;k t.. + gill .Tors Positive power tolerance up to 5 W . Stronger 40 mm robust frame to hold ..snow load up to 5400 Pa and wind load up to 2400 Pa Anti -glare project evaluation Salt mist, and ammonia resistance, apply to seaside, and farm environments It 10 product warranty on materials q. yea- and workmanship MANAGEMENT SYSTEM CERTIFICATES* ISO 9001:2008 / Quality management system ISO/TS 16949:2009 / The automotive industry quality management system ISO 14001:2004 /Standards for environmental management system oHSAS 18001:2007 / International standards for occupational health & safety PRODUCT CERTIFICATES* IEC 61215 / IEC 61730: VDE / CE / MCS / CEC AU UL 1703 / IEC 61215 performance: CEC listed (us) UL 1703: CSA / IEC 61701 Eb2: VDE / IEC 62716: VDE / PV CYCLE (EU) DVE us ��N✓ /'IS GYCbE. �'rA�; CERT • As there are different certification requirements in different markets, please contact your local Canadian Solar sales representative for the specific certificates applicable to the products in the region in which the products are to be used. CANADIAN SOLAR INC. is committed to providing high quality solar products, solar system solutions and services to customers around the world. As a leading manufacturer of solar modules and PV project developer with about 10 GW of premium quality . modules deployed around the world since 2001, Canadian Solar Inc. (NASDAQ: CSIQ) is one of the most bankable solar companies worldwide. CANADIAN SOLAR (USA) INC. . 2420 Camino Ramon, Suite 125 San Ramon, CA, USA 94583-4385, www.canadiansolar.com, sales.us@canadiansolar.com 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 ' *Black frame higher power output and higher system reliability. product can be Worldwide, our'customers have embraced this next '_-.` provided upon generation of modules for their excellent performance, request. —.--superior-reliability and-enhanced'value: —'— - _ - insurance -backed warranty 25 non -cancelable, immediate warranty insurance NEW TECHNOLOGY. „, linear power output warranty 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 !' !i .'Long-term system reliability with IP67 �-� - junction box Enhanced system reliability in extreme temperature environment with special cell level stress release technology "L.. tiillt;k t.. + gill .Tors Positive power tolerance up to 5 W . Stronger 40 mm robust frame to hold ..snow load up to 5400 Pa and wind load up to 2400 Pa Anti -glare project evaluation Salt mist, and ammonia resistance, apply to seaside, and farm environments It 10 product warranty on materials q. yea- and workmanship MANAGEMENT SYSTEM CERTIFICATES* ISO 9001:2008 / Quality management system ISO/TS 16949:2009 / The automotive industry quality management system ISO 14001:2004 /Standards for environmental management system oHSAS 18001:2007 / International standards for occupational health & safety PRODUCT CERTIFICATES* IEC 61215 / IEC 61730: VDE / CE / MCS / CEC AU UL 1703 / IEC 61215 performance: CEC listed (us) UL 1703: CSA / IEC 61701 Eb2: VDE / IEC 62716: VDE / PV CYCLE (EU) DVE us ��N✓ /'IS GYCbE. �'rA�; CERT • As there are different certification requirements in different markets, please contact your local Canadian Solar sales representative for the specific certificates applicable to the products in the region in which the products are to be used. CANADIAN SOLAR INC. is committed to providing high quality solar products, solar system solutions and services to customers around the world. As a leading manufacturer of solar modules and PV project developer with about 10 GW of premium quality . modules deployed around the world since 2001, Canadian Solar Inc. (NASDAQ: CSIQ) is one of the most bankable solar companies worldwide. CANADIAN SOLAR (USA) INC. . 2420 Camino Ramon, Suite 125 San Ramon, CA, USA 94583-4385, www.canadiansolar.com, sales.us@canadiansolar.com 0 MODULE / ENGINEERING DRAWING (mm) 7 R ELECTRICAL DATA / STC* -1-(pit 2700 ZMlle Nominal Max. Power (Pmax) 270 W 275_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 ------ -_---1t----- •- -- — --- 50% 16.80% Operating Temperature -40*C - +850C Max. System Voltage_ !� 1000 V (IEC) or 1000 V_(UL_) Module Fire Performance TYPE 1 (UL' 1703) or Front Cover_ CLASS C (IEC 61730) Max. Series Fuse Rating 15A Application Classification Class A Power Tolerance 0-+5W * Under Standard Test Conditions (STC) of irradiance of 1000 W/m2, spectrum AM 1.5 and cell temperature of 25'C. Friends PV2a (IEC), 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.S4 A * Under Nominal Operating Cell Temperature (NOCT), irradiance of 800 W/m2, spectrum AM 1.5, ambient temperature 20°C, wind speed 1 m/s. PERFORMANCE AT LOW IRRADIANCE Industry leading performance at low irradiation, average 96.5% relative efficiency from an irradiance of 1000 W/m2 to 200 W/m2 (AM 1.5, 25°C). The specification and key features described in this datasheet may deviate slightly and are not guaranteed. Due to on-going innovation, research and product enhancement, 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 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 modules requires professional skills and should only be performed by qualified professionals. Please read the safety and installation instructions before using the modules. CS6K-270M / I-V CURVES A v 5 10 15 20 25 30 35 40 5 10 15 20 25 30 35 40 ■ 1000 ww 5°C 0 800 W/m2 25-C ■ _'. 600 W/m2 45°C ■ 400 W/m2 65-C ■ MODULE / MECHANICAL DATA Specificati©n Data Cell Type Mono -crystalline, 6 inch Cell Arrangement 60 (6x 10) Dimensions — -_- -__ 1650x992x4O mm (65.0X39.1 x 1.S7 in) _._ ._.._. .-__—_-- Weight 18.2 kg (40.1 lbs) Front Cover_ _3.2 mm tempered glass Frame Material Anodized aluminium alloy J- Box IP67, 3 diodes Cable 4 mm2 (IEC)or4 mm2 & 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%/°C Temperature Coefficient (Isc) 0.053% /°C Nominal Operating Cell Temperature 45±20C PARTNER SECTION CANADIAN SOLAR (USA) INC. Sep. 2015. All rights reserved, PV Module Product Datasheet V5.3 -NA SSOLAR RMW MOUNT O ::• U N IRAC f 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. Afto- " SOLARMOUNT INTEGRATED BONDING ADVANTAGE, LosftE ALL THE R ----a r • - Pi UL270nu BONDING & GROUNDING q) INELHANICAL LOADING SYSTEM flRf CiASS BCA.flo Tum"' L I S T E D -SY a . r..� 41 iii : a.� � as 'OFF o t' THE ROOFERS, TERK THAW EVER IBIEFORE �BII� ..................... ......................................................................_....._.._.... - OPTIMIZED COMPONENTS VERSATILITY AVAILABILITY DESIGN' TOOLS 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 1.703 -with revisions through`October 25, 2013 and the 5_m&gency Rulemaking that delayed the effective date to January 1, 2015 of the adoption were intended to focus on the areas that,requird, 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. For more in.fonnation. please visit our website http://osfm.fire.ca.goy TECHNICAL BRIEF NEC 2014 — Enphase System Code Compliance Ll enphase- JENERGY Overview - This technical brief discusses new NEC 2014 requirements that apply to Enphase Microinverter Systems. It is useful for installers, electricians, and electrical inspectors or authorities having jurisdiction (AHJs) in understanding how code -compliance is handled where NEC 2014 is adopted. Main topics discussed in this document are: + • NEC 2014 Section 690.12 Rapid Shutdown of PV Systems on Buildings • NEC 2014 Section 705.12 Point of. Connection • NEC 2014 Section 690.11 DC Arc -Fault Circuit Protection NEC 2014 Section 690.12 Rapid Shutdown of PV Systems on Buildings jhase,Microin ev rter Systems fully meet.the raped -shutdown requir ent-withoutahe need to in -stall dttlonalYelectrical equipment.;Propedy labeling the PV system power,source and rapid`shutdown ability �equlred`per*NEC Sectiort690:56 (B) anda(C),v, { ; Solar electric PV systems with Enphase Microinverters have one utility -interactive inverter directly underneath each solar module, converting low voltage DC.to utility grid -compliant AC.. When the utility grid is available and ttie sun is shining, each microinverter verifies that the utility grid is operating within the IEEE 1547 requirements. Only .then does it export AC power into the electric service for use by loads onsite or export power to the utility grid for others to use. When the utility grid has a failure, or the PV system AC circuits are disconnected from the utility service via an AC breaker, AC disconnect, or removal of the solar or. main utility service meter, the microinverters stop producing AC power in fewer than six AC cycles. Enphase Microinverters are not capable of operating as an AC voltage,source. This means that without an AC utility source, Enphase Microinverters are not able to energize connected wiring and no AC voltage or current can be injected into the inverter output circuits or the grid. When the AC utility source is removed from the inverter output circuits via any means, such as an AC breaker, AC disconnect or removal of the solar or main utility service meter, this equipment performs the rapid shutdown function per 690.12. With an Enphase Microinverter System this shutdown occurs well within the 690.12 required 10 seconds, and there are no other conductors energized more than 1.5 m (5 ft) in length inside a building or more than 3 m (10 ft) from a PV array. Code Reference -- 690.12 Rapid Shutdown of PV Systems on Buildings. PV system circuits installed on or in buildings shall include a rapid shutdown function that controls specific conductors inaccordance with,690.12(1) through (5) as follows. (1) Requirements for controlled conductors shall apply only to PV system conductors of more than 1.5 m (5 ft) in length inside a building, or more than 3 m (10 ft) from a PV array. (2) Controlled conductors shall be limited to not more than 30 volts and 240 volt-amperes_ within 10 seconds of rapid shutdown initiation. (3) Voltage and power shall be measured between any two conductors and between any conductor and ground. - (4) The rapid shutdown initiation methods shall be labeled in accordance with 690.56(B). (5) Equipment that performs the rapid shutdown shall be listed and identified. 1 © 2015 Enphase Energy Inc. All rights reserved. January 2015 sys ssc rve cx' aLu d Y WYO. ¢� �,► a o a� Q Z UWP Z Vaw ow z Z-1 �z O O w Z w�Y Z w�Y ' Q= -JDW, 9 :.1 m w U cc W c o� m W U w aD V j oC 0 O GHQ I—Q }..ww Z W Z = O g JU�• JUS Z0 CL 0 ow CO Oct) s -_ >! ..m 1 � J � f, ~~ I LLJ ui Lr) W W . W, LL .01 W r., ., p p Cl) Q 4f LL s U OCA z z - >�0 wo,D Cl)' r O �. L -Z 0,>; ; ,� w i ... _.0 �► a ., . D tL. p' Classic Composition Mount I QMSC Elevated Water Seal Technology - 12.00 TOWARDS GE 12.00 1 AVAILABLE IN MILL, CLEAR ANODIZED, AND BRONZE ANODIZED FINISHES. reorRmuR AxR CONEOENIILL AiION COMA MORA6MEOE OOfO NOMw, M RHWOOCgNWRAOOR A AwHOLEwwTITN relrW w3 PRwrz. 5 4 RACKING COMPONENTS NOT INCLUDED Sources: American Wood Council, NDS 2005, Table 11.2 A, 11.3.2 A Notes: 1) Thread must be embedded In a rafter or other structural roof member. 2) See NDS Table 11.5.1C for required edge distances. BI 7.2.3-7 Quick Mount P" A"D RESPECT THE ROOF Jan -2017, Rev 8 SCALE 1:3 ITEM DESCRIPTION QTY. 1 FLASHING, 12" X 12" X .050", 5052, MILL 1 5/16" shaft per 1" thread depth 2 QBLOCK, CLASSIC, A360 CAST AL, MILL 1 266 3 HANGER BOLT, PLAIN CENTER, 5/16" x 6", 18-8 SS 1' -- --4-- WASHER; -SEALING -5/16" ID -X 3/4"OD,-EPDM-BONDED-SS --1- .46 705 — 5 NUT, HEX, 5/16-18, UNC -2B, 18-8 SS 2 .43 636 6 WASHER, FLAT, 19/64" ID x 7/8" OD x 1 /8" EPDM 1 .46 - 705 7 WASHER, FENDER, 5/16" ID X 1" OD, 18-8 SS 1 .55 921 8 WASHER, SPLIT -LOCK, 5/16" ID, 18-8 SS 1 .42 615 205 (wick Mount PV TITLE: AMSC: CLASSIC COMPOSITION MOUNT UNLESS OTHERWISE SPECIRED: DIMENSIONS SIZE DRAWN BY: RAD REV ARE IN INCHES TOLERANCES: FRACTIONAL 1/8 TWOPLACEDECIMAL !,Is THREE PLACE DECIMAL 2.125 A DATE: 11/9/2015 7 DO NO7 SCALE DRAWwG SCALE: 1:4 1 WEGH7:1.19 SHEET l OF l 3 2 1 Sources: American Wood Council, NDS 2005, Table 11.2 A, 11.3.2 A Notes: 1) Thread must be embedded In a rafter or other structural roof member. 2) See NDS Table 11.5.1C for required edge distances. BI 7.2.3-7 Quick Mount P" A"D RESPECT THE ROOF Jan -2017, Rev 8 Lag • • • •. •s) in typical lumber: Lag Bolt Specifications Specific Gravity 5/16" shaft per 3" thread depth 5/16" shaft per 1" thread depth Douglas Fir, Larch .50 798 266 Douglas Fir, South .46 705 235 Engelmann Spruce, Lodgepole Pine (MSR 1650 f& higher) .46 705 — 235 Hem, Fir .43 636 212 Hem, Fir (North) .46 - 705 235 Southern Pine .55 921 307 Spruce, Pine, Fir .42 615 205 Spruce, Pine, Fir (E of 2 million psi and higher grades of MSR and MEL) .50 798 266 Sources: American Wood Council, NDS 2005, Table 11.2 A, 11.3.2 A Notes: 1) Thread must be embedded In a rafter or other structural roof member. 2) See NDS Table 11.5.1C for required edge distances. BI 7.2.3-7 Quick Mount P" A"D RESPECT THE ROOF Jan -2017, Rev 8 Classic Composition Mounting Instructions Installation Tools Required: tape measure, roofing bar, chalk line, stud finder, ce ulking gun, sealant compatible with roofing materials, drill with 7/32" long -style bit, drill or impact gun with 1/2" deep socket. WARNING: Quick Mount PV products are NOT designed for and should MCT be used to anchor fall protection equipment. Locate, choose, and mark centers of rafters to be mounted. Select the courses of shingles where mounts will be placed. _ Carefully lift composition roof Angle wift eoofing bar, just above placement of mount. Ffrr.ove nails. es.required. See "Proper Flashirgplacenent" on r ext page. Insert flashing between 1st and 2nd course. Slide up so top edge of flashing is at least 3/4" higher than the drip,edge of the 3rd course and lower flashing edge is above the drip edge of 1 st course. Mark center for drilling. Using drill with 7/32" bit, drill pilot hole'into roof and rafter, taking care to drill square to the roof. Do not use mount as a drill guide. Drill should be long style bit' aka aircraft extension bit'to drill a 3" deep hole into rafter. (lean off any sawdust, and fill We wtl- sealant Slide flashing into position. Prepare hanger bolt compatible with roofing materals. with hex nut and sealing washer. Insert into hole and drive hanger bolt until QBIock stops rotating easily. Do NOT over torque. 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 manufacturei does not specify torque setting, tighten3to 13 ft.-bs BI 7.2.3-7 Jan -2017, Rev 8 Reference and Tips Proper Flashing -Placement Flashirig`positioned too low. Nails not removed. a Keyway allows water entry. Removetnails.. 3rd course Moisture/debris:,' : 2nd course - accumulation can cause early shingle O` degradation. ` O 13tcouise INCORRECT Position No Correct Position shingle cutting required If shingle gap recommended. Acceptable cutting between block Position r is required, a Yz' and�shingle is Additional tips and information for installing mounts: ■ See Classic Composition Mount install and Quick Tips videos on nail removal, bolt prep; and more at: www.quickm.ountpv.com/support/videos.html ■ It is not necessary or advisable to use nails or other fasteners to secure the perimeter of the flashing. - ■ The Classic Composition Mount is made to work with standard and high-definition composition/ asphalt and wood shingle roofs with 5" to 5-5/8" courses. If the exposed surface of the course exceeds this measurement you may need to use our Classic Shake. Mount instead. ■ Depending on the season and climate, 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. If this is the case, simply add several quarter -sized dabs of manufacturer accepted sealant or asphalt roofing cement, meeting ASTM -D 4586 Type II, between the flashing and the shingle above. ■ Mounts should not be installed in areas of the roof susceptible to ice damming. Water ponding under the shingles can reach the bolt penetration. ■. Take care not to damage the roofing material while working on the roof. Removing stone granules and deforming the shingles in anyway can shorten the lifespan of the roofing. The value of the solar array is directly affected by the condition of the roof it.is attached to. BI 7.2.3-7 Jan -2017, Rev 8 Enphase Microinverters , EI)haseM215.P V 0.! �- - p `, se ti. ._�_ fes_ � _ ♦, __-M215' __ The Enphase M215 Microinverter!T with integrated ground delivers increased energy harvest'and reduces.design and instal lation'complexity with its all -AC approach. With,the advanced M215, the DC circuit is isolated and insulated from,ground, so no Ground Electrode Conductor (GEC) is required' for the microinverter. This further simplifies installation, enhances safety, and saves on labor and materials costs. • - ; The Enphase M215 integrates seamlessly with the Engage CableT"^, the Envoy Communications GatewayTm, and°Enphase EnlightenTM monitoring,and analysis software:. . F - PRODUCTIVE SIMPLE RELIABLE Maximizes energy production• No GEC needed for microinverter More than 1 million hours of testing and - Minimizes impact of shading, dust, No DC design or string calculation. r millions of units shipped and debris required' -.Industry-leading warranty; up to No single point of system failure Easy installation with Engage Cable 25 years ENPHASE• . • Enphase® M215 Microinverter // DATA INPUT DATA (DC) M215-60-2LL-S22-IG, M215-60-2LL-S25-IG LCommonly used.module pairings' 190 - 270+ W'~ I Maximum input DC voltage 48 V Peak power tracking voltage '27 V - 39 V Operating range 16V -48V Min/Max start'voltage 22 V / 48 V Max DC short circuit current 15 A OUTPUT DATA (AC) @208 VAC @240 VAC L Peak output power 225 W 225 W Rated'(continuous) output power 215 W 215 W. Nominal output current 1:03 A (A rms at riominal duration) 0.9'A (A rms at nominal duration) Nominal voltage/range 208 V / 183-229 V 240 V / 211-264 V Nominal frequency/range 60.0 / 57-61 Hz 60.0 / 57-61 Hz Extended frequency range2 57-62.5 Hz 57-62.5 Hz Power factor >0.95 >0.95 Maximum units per 20 A branch circuit 25 (three phase) .' 17 (single phase) _ Maximum output fault current '850 mA rms.for 6 cycles _ 850 mA rms for 6 cycles EFFICIENCY CEC weighted efficiency,.240 VAC 96.5% •`" - �' j CEC weighted efficiency, 208 VAC 96.5% " -Peak inverter efficiency _ 96.5% Static MPPT efficiency (weighted, reference EN50530) 99.4% Night time power consumption 65 mW max MECHANICAL DATA Ambient temperature range -40°C to +651C Dimensions (WxHxD) 171 mm x 173 mm x 30 mm (without mounting bracket) Weight 1.6 kg (3.4 lbs) Cooling Natural convection - No fans Enclosure environmental rating Outdoor -!NEMA 6 Connector type M215-60-2LL-S22-IG: MC4 M215-60-2LL-S25-IG: Amphenol H4 FEATURES Compatibility Compatible with 60 -cell PV modules. Communication Power line _Integrated ground 'The DC circuit meets the requirements for ungrounded PV arrays in NEC 690.35. Equipment'ground is provided in the Engage Cable. No additional GEC or ground is required. Ground fault protection (GFP) is integrated into the microinverter. Monitoring Enlighten Manager and MyEnlighten monitoring options Compliance " ~' UL1741/IEEE1547, FCC Part 15 Class.B, CAN/CSA-C22.2 NO. 0-M91,' 0.4-04,,and'107.1-01; 1. Suggestion only. Inverter self -limits DC inputs. Visit https://enphase.com/en-us/support/module-compatibility to determine module size compatibility. 2. Frequency ranges can be extended beyond nominal if required by the utility • s To learn more about Enphase Microinverter technology, visit enphase.com 2016-11-210 2016 Enphase Energy. All rights reserved. All trademarks or brands in this document are registered by their respective owner. `/ E N P H A S E. Installing the M215 TM Microinverter (M215-60-230) Read and follow all warnings and instructions in the M215 Installation and Operation Manual at http://www.enphase.corn before using this document. The microinverters will not produce power until the EnvoyTM' Communications Gateway is installed and configured with an appropriate grid profile. For instructions, refer to the Envoy Installation and Operation Manual at http://www.enphase.com. 0 Measure AC'Voltage at the Electricity Network Connection Check all phase conductors: line to neutral and line to line. volt meterr set to ACV Acceptable ranges are shown in Step Details on back. a Electrical distribution board Position the EngageTM Cable a. Lay, out the cabling along the installed mounting rail for the AC branch circuit. b. Install an AC branch circuit junction box at a suitable location on the mounting rail. 0-- :- LIA-- -- L---11 Fnrynrno 0 C -E Microinverter Quick Install Guide Attach the Microinverters.to the Rail. Connect the Microinverters • a. Mark the approximate centers of,each PV a. Remove and discard the temporary module on the mounting rail. See notes in 0, •' shipping cap from the cable connector Step Details on back. ...and connect the microinverter. Listen for _ F two clicks as the connectors engage. b. Mount the microinverters With.the'.silver side facing yup and the black side facing down: ` b: Coverall unused connectors with sealing caps:•Listen for two clicks as the. ,c. If required, bond (earth) the microinverter 1:connectors engage..See notes in`Step. ~ ' ;chassis to the mounting rail: �� Y Details on back. Dress the Cable a. Use tie wraps to attach the cabling to the - mounting rail. • tie wrap release holes - �> t Keep the release holes clear` ' and accessible. b. Dress any excess cabling in loops s_o that 4' it does not contact the roof. Terminate the Unused End of the Cable a. Remove 60mm of the cable sheath from the conductors. Connect the Cable to the AC Junction Box Connect the Engage Cable to the AC branch circuit junction box. See notes in Step Details on back. -b. Slide the hex nut onto the cable. c. Insert the cable end all the way.into the wire organiser (up to .the stop). hex wire cap nut organiser \ - -Complete the Installation Map `Peel the rbmovable,serial number label d. -Attach the cap. from each microinverter and affix it to. the bend wires dowm respective.location on the paper copy of into recesses.of wire the installation map ., , organiser and trim to length place cap over _— the wire organiser affix G hold the.cap with serial the disconnect labels a 1 tool or a -screwdriver rotate the hex nut with your hand or a spanner until the . latching mecha- nism meets the base - do not over -torque e. Use a tie wrap to attach the terminated cable -end to the mounting rail. • ' 0Connect the,PV Modules, : a. Mount the PV modules above the • Step Details. microinverters. , O b. Connect the DC leads of each PV module to the DC input connectors of the a corresponding microinverter. Single -Phase Service Three Phase Service • L1 to N F 207• to 253 Vac: 11 to L2 to L3 - 360 to'440 Vac L1, L2, L3 to N 207 to 253 Vac WARNING: Perform all electrical installations in accordance with all 60 -cell PV., applicable local electrical standards.— , module "T WARNING: Only use electrical system components approved for ` wet locations. i ` verif WARNING: Do NOT exceed the maximum number of microinverters y - in an AC branch circuit as listed in the table below. Each branch polarity on circuit'must be protected with a 20A maximum breaker., ' at least one ' - unit pair ti Service type Max 421 5s per branch Single -Phase Service •' 17 Three -Phase Service r 27. Quick Install Guide for information on Envoy installation,;Enlighten set up, and grid profile configuration. , Single -Phase Service • • WARNING: Size the AC cable/wire size to account for voltage drop. - Blue - Neutral ' °''; Black - L2 Select conductor diameter based on the distance from the beginning Gray -13 ` of the microinverter AC branch circuit to the breaker in the AC mains: Green/yellow - Ground • � Turn Up the System - See voltage Drop Calculations at http://vvww.enphase.com. _ - - a. Turn ON the AC disconnect or circuit breaker - + (e.g., isolation switch) for,each branch circuit. k WARNING: Allow a minimum of 1.9cm between the roof and the --b. Turn-eN-the-main AC=switch:---- - — — —bottom -of -the`microinverter. Also-allow-1-3cm-between-the-back-of' the PV module and the top of the microinverter.' • NOTE: The AC output neutral is not bonded to earth inside the microinverter. NOTE: Torque the microinverter fasteners to these values: ; - status LED , • 6mm mounting hardware - 5 N m minimum -- �. • 8mm mounting hardware" -'9 N m.minimum • -10/32 earthing cleat screw'-. 2 N m minimum." ' • , Using a power screwdriver is not recommended due to the • , _ risk of thread galling.' , Disconnect tool ©NTNG: The'LED'ori4ttie underside of each . Install sealing caps.. M215"will blink green SIX times to on all unused AC'connectors as. ' indicate successful connection,two- t they become live when the system minutes after DC power is applied:. " , is energised. IP67-ratea sealing caps are required to protect , r against moisture ingress. + NOTE: To remove a sealing cap, you must use the Enphase .. ; disconnect tool or a screwdriver. Next -Steps Q Refer to the'Envoy Communications Gateway NOTE: The cabling uses the following wiring scheme' ' Quick Install Guide for information on Envoy installation,;Enlighten set up, and grid profile configuration. , Single -Phase Service • Three -Phase Service Brown - L1 _ Brown - L1 Blue - Neutral ' °''; Black - L2 Green_ /yellow - Ground - ' Gray -13 Blue - Neutral + Green/yellow - Ground Enphase Energy, Inc. 1420 N. McDowell Blvd Petaluma, CA 94954 USA info@enphaseenergy.com http://www.enphase.com 0 2012 Enphase Energy Inc. All rights reserved.' S