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HomeMy WebLinkAboutPLANS - 20-00345 - 741 S 2275 W - Solar PanelsBRO W E R R E S I D E N C E NEW PH O T O V O L T A I C S Y S T E M PROJ E C T - 1 . 2 0 0 k W D C / 1 . 0 7 2 k W A C S H E E T # T - 1 T - 2 P V - 1 P V - 2 P V - 3 E - 1 E - 2 S - 1 S - 2 S - 3 S - 4 S - 5 S - 6 S H E E T N A M E C O V E R S H E E T P L A N N O T E S S I T E P L A N L A Y O U T A T T A C H M E N T D E T A I L S M O U N T I N G D E T A I L S E L E C T R I C A L D I A G R A M W A R N I N G L A B E L S S P E C S H E E T S P E C S H E E T S P E C S H E E T S P E C S H E E T S P E C S H E E T S P E C S H E E T T - 1 ( S H E E T 1 ) 7 4 1 S 2 2 7 5 W R e x b u r g , I D 8 3 4 4 0 B R O W E R R E S I D E N C E A P N : R P R 4 S F 4 0 0 9 0 1 2 0 D A T E : 5 / 1 8 / 2 0 S H E E T D E S I G N E R : J . D . L i c e n s e # : E L E - J - 1 3 6 4 3 SCOPE OF WORKSYSTEM SIZE: STC: 4 X 300W = 1.200kWPTC: 4 X 270.6W = 1.082(4)TRINA SOLAR TSM-300 DD05A.08(II)(4)ENPHASE IQ7-60-2-USADDING 4 MODULES TO AN EXISTING SYSTEMOF 10 MODULES. THE MODULE TYPE AND MODEL A R E T H E S A M E AS WELL AS THE MICRO-INVERTERS ARE THE SAM E . MSP UPGRADE: NORacking & MountingATTACHMENT TYPE: IRONRIDGE FLASHFOOT-2FOR COMP. SHINGLERACKING TYPE: IRONRIDGE XR-100- ROOF MOUNT RACKING HARDWARE PROJECT INFORMATIONPROPERTY OWNERNAME:LANCE BROWERPROJECT MANAGERNAME:SARAH CISNEROSPHONE:(801) 633-5724CONTRACTORNAME:GL EDWARDS ELECTRICPHONE:(208) 656-0469DESIGN SPECIFICATIONSOCCUPANCY:R-3CONSTRUCTION TYPE: SINGLE FAMILY RESIDENCEZONING:RESIDENTIALGROUND SNOW LOAD: 50 PSFWIND EXPOSURE: CWIND SPEED:90 MPHAPPLICABLE CODES & STANDARDSBUILDING:IDAHO BUILDING CODE 2019ELECTRICAL:NEC 2017FIRE:IFC 2019 C O N T R A C T O R G L E D W A R D S E L E C T R I C A D D R E S S : 1 1 3 2 C r e s c e n t D r . R e x b u r g I D , 8 3 4 4 0 (The e x i s t i n g s y s t e m s i z e i s 3 . 0 k W D C ) 1.1.PROJECT NOTES:1.2.THIS PHOTOVOLTAIC (PV) SYSTEM SHALL COMPLY WITH THE NATIONALELECTRIC CODE (NEC) ARTICLE 690, ALL MANUFACTURERS’S LISTING ANDINSTALLATION INSTRUCTIONS, AND THE RELEVANT CODES AS SPECIFIEDBY THE AUTHORITY HAVING JURISDICTION’S (AHJ) APPLICABLE CODES.1.3.THE UTILITY INTERCONNECTION APPLICATION MUST BE APPROVED ANDPV SYSTEM INSPECTED PRIOR TO PARALLEL OPERATION1.4.GROUND FAULT DETECTION AND INTERRUPTION (GFDI) DEVICE ISINTEGRATED WITH THE MICROINVERTER IN ACCORDANCE WITH NEC690.5(A)1.5.ALL PV SYSTEM COMPONENTS; MODULES, UTILITY-INTERACTIVEINVERTERS, AND SOURCE CIRCUIT COMBINER BOXES ARE IDENTIFIED ANDLISTED FOR USE IN PHOTOVOLTAIC SYSTEMS AS REQUIRED BY NEC 690.4& NEC 690.60: PV MODULES: UL1703, IEC61730, AND IEC61215, AND NFPA 70CLASS C FIRE INVERTERS: UL 1741 CERTIFIED, IEEE 1547, 929, 519COMBINER BOX(ES): UL 1703 OR UL 1741 ACCESSORY1.6.MAX DC VOLTAGE CALCULATED USING MANUFACTURER PROVIDED TEMPCOEFFICIENT FOR VOC. IF UNAVAILABLE, MAX DC VOLTAGE CALCULATEDACCORDING TO NEC 690.7.1.7.ALL INVERTERS, PHOTOVOLTAIC MODULES, PHOTOVOLTAIC PANELS, ANDSOURCE CIRCUIT COMBINERS INTENDED FOR USE IN A PHOTOVOLTAICPOWER SYSTEM WILL BE IDENTIFIED AND LISTED FOR THE APPLICATIONPER 690.4 (D). SHALL BE INSTALLED ACCORDING TO ANY INSTRUCTIONSFROM LISTING OR LABELING [NEC 110.3].1.8.ALL SIGNAGE TO BE PLACED IN ACCORDANCE WITH LOCAL BUILDINGCODE. IF EXPOSED TO SUNLIGHT, IT SHALL BE UV RESISTANT. ALLPLAQUES AND SIGNAGE WILL BE INSTALLED AS REQUIRED BY THE NECAND AHJ.1.9.SCOPE OF WORK:1.10.PRIME CONTRACTOR IS RESPONSIBLE FOR THE DESIGN ANDSPECIFICATIONS OF THE GRID-TIED PHOTOVOLTAIC SYSTEM RETROFIT.PRIME CONTRACTOR WILL BE RESPONSIBLE FOR COLLECTING EXISTINGONSITE REQUIREMENTS TO DESIGN, SPECIFY, AND INSTALL THEEXTERIOR ROOF-MOUNTED PORTION OF THE PHOTOVOLTAIC SYSTEMSDETAILED IN THIS DOCUMENT.1.11.WORK INCLUDES:1.12.PV ROOF ATTACHMENTS - FLASHFOOT-2 COMP. MOUNT1.13.PV RACKING SYSTEM INSTALLATION - IRONRIDGE XR-1001.14.PV MODULE AND INVERTER INSTALLATION - TRINA SOLAR TSM-300DD05A.08(II) / ENPHASE IQ7-60-2-US1.15.PV EQUIPMENT GROUNDING1.16.PV SYSTEM WIRING TO A ROOF-MOUNTED JUNCTION BOX1.17.PV LOAD CENTERS (IF INCLUDED)1.18.PV METERING/MONITORING (IF INCLUDED)1.19.PV DISCONNECTS1.20.PV GROUNDING ELECTRODE & BONDING TO (E) GEC1.21.PV FINAL COMMISSIONING1.22.(E) ELECTRICAL EQUIPMENT RETROFIT FOR PV1.23.SIGNAGE PLACED IN ACCORDANCE WITH LOCAL BUILDING CODE1.24.SITE NOTES:1.25.A LADDER WILL BE IN PLACE FOR INSPECTION IN COMPLIANCE WITH OSHAREGULATIONS.1.26.THE PV MODULES ARE CONSIDERED NON-COMBUSTIBLE AND THISSYSTEM IS A UTILITY INTERACTIVE SYSTEM WITH NO STORAGEBATTERIES.1.27.THE SOLAR PV INSTALLATION WILL NOT OBSTRUCT ANY PLUMBING,MECHANICAL, OR BUILDING ROOF VENTS.1.28.PROPER ACCESS AND WORKING CLEARANCE AROUND EXISTING ANDPROPOSED ELECTRICAL EQUIPMENT WILL BE PROVIDED AS PER SECTIONNEC 110.26.1.29.ROOF COVERINGS SHALL BE DESIGNED, INSTALLED, AND MAINTAINED INACCORDANCE WITH THIS CODE AND THE APPROVED MANUFACTURER'SINSTRUCTIONS SUCH THAT THE ROOF COVERING SERVES TO PROTECTTHE BUILDING OR STRUCTURE.1.30.EQUIPME N T L O C A T I O N S : 1.31.ALL EQUI P M E N T S H A L L M E E T M I N I M U M S E T B A C K S A S R E Q U I R E D B Y N E C 110.26.1.32.WIRING S Y S T E M S I N S T A L L E D I N D I R E C T S U N L I G H T M U S T B E R A T E D F O R EXPECTE D O P E R A T I N G T E M P E R A T U R E A S S P E C I F I E D B Y N E C 6 9 0 . 3 1 ( A ) , ( C ) AND NEC T A B L E S 3 1 0 . 1 5 ( B ) ( 2 ) ( A ) A N D 3 1 0 . 1 5 ( B ) ( 3 ) ( C ) 1.33.JUNCTIO N A N D P U L L B O X E S P E R M I T T E D I N S T A L L E D U N D E R P V M O D U L E S ACCORDI N G T O N E C 6 9 0 . 3 4 . 1.34.ADDITIO N A L A C D I S C O N N E C T ( S ) S H A L L B E P R O V I D E D W H E R E T H E INVERTE R I S N O T W I T H I N S I G H T O F T H E A C S E R V I C I N G D I S C O N N E C T . 1.35.ALL EQUI P M E N T S H A L L B E I N S T A L L E D A C C E S S I B L E T O Q U A L I F I E D PERSON N E L A C C O R D I N G T O N E C A P P L I C A B L E C O D E S . 1.36.ALL COM P O N E N T S A R E L I S T E D F O R T H E I R P U R P O S E A N D R A T E D F O R OUTDOO R U S A G E W H E N A P P R O P R I A T E . 1.37.STRUCT U R A L N O T E S : 1.38.RACKING S Y S T E M 1.39.PV ARRA Y W I L L B E I N S T A L L E D A C C O R D I N G T O C O D E - C O M P L I A N T INSTALLA T I O N M A N U A L . T O P C L A M P S R E Q U I R E 1.40.A DESIG N A T E D S P A C E B E T W E E N M O D U L E S , A N D R A I L S M U S T A L S O EXTEND1.41.A MINIMU M D I S T A N C E B E Y O N D E I T H E R E D G E O F T H E ARRAY/S U B A R R A Y , A C C O R D I N G T O R A I M A N U F A C T U R E R ’ S I N S T R U C T I O N S . 1.42.JUNCTIO N B O X W I L L B E I N S T A L L E D P E R M A N U F A C T U R E R S ' SPECIFIC A T I O N S . I F R O O F - P E N E T R A T I N G T Y P E , I T S H A L L B E F L A S H E D 1.43.SEALED P E R L O C A L R E Q U I R E M E N T S . 1.44.ROOFTO P P E N E T R A T I O N S F O R P V R A C E W A Y W I L L B E C O M P L E T E D A N D SEALED W / A P P R O V E D C H E M I C A L S E A L A N T P E R C O D E B Y 1.45.A LICENS E D C O N T R A C T O R . 1.46.ALL PV R E L A T E D R O O F A T T A C H M E N T S T O B E S P A C E D N O G R E A T E R T H A N THE SPA N D I S T A N C E S P E C I F I E D B Y T H E R A C K I N G M A N U F A C T U R E R . 1.47.WHEN P O S S I B L E , A L L P V R E L A T E D R A C K I N G A T T A C H M E N T S W I L L B E STAGGE R E D A M O N G S T T H E R O O F F R A M I N G M E M B E R S . 1.48.WIRING & C O N D U I T N O T E S : 1.49.ALL CON D U I T A N D W I R E W I L L B E L I S T E D A N D A P P R O V E D F O R T H E I R PURPOS E . C O N D U I T A N D W I R E S P E C I F I C A T I O N S A R E B A S E D O N M I N I M U M CODE RE Q U I R E M E N T S A N D A R E N O T M E A N T T O L I M I T U P - S I Z I N G . 1.50.CONDUC T O R S S I Z E D A C C O R D I N G T O N E C 6 9 0 . 8 , N E C 6 9 0 . 7 . 1.51.VOLTAG E D R O P L I M I T E D T O 1 . 5 % . 1.52.DC WIRIN G L I M I T E D T O M O D U L E F O O T P R I N T . M I C R O I N V E R T E R W I R I N G SYSTEM S S H A L L B E L O C A T E D A N D S E C U R E D U N D E R T H E A R R A Y W / SUITABL E W I R I N G C L I P S . 1.53.AC COND U C T O R S C O L O R E D O R M A R K E D A S F O L L O W S : P H A S E A O R L 1 - BLACK P H A S E B O R L 2 - R E D , O R O T H E R C O N V E N T I O N I F T H R E E P H A S E PHASE C O R L 3 - B L U E , Y E L L O W , O R A N G E * * , O R O T H E R C O N V E N T I O N NEUTRAL - W H I T E O R G R E Y I N 4 - W I R E D E L T A C O N N E C T E D S Y S T E M S T H E PHASE W I T H H I G H E R V O L T A G E T O B E M A R K E D O R A N G E [ N E C 1 1 0 . 1 5 1.54.GROUNDI N G N O T E S : 1.55.GROUNDI N G S Y S T E M C O M P O N E N T S S H A L L B E L I S T E D F O R T H E I R PURPOS E , A N D G R O U N D I N G D E V I S E S E X P O S E D T O T H E E L E M E N T S S H A L L BE RATE D F O R S U C H U S E . 1.56.PV EQUIP M E N T S H A L L B E G R O U N D E D A C C O R D I N G T O N E C 6 9 0 . 4 3 A N D MINIMUM N E C T A B L E 2 5 0 . 1 2 2 . 1.57.METAL P A R T S O F M O D U L E F R A M E S , M O D U L E R A C K I N G , A N D E N C L O S U R E S CONSIDE R E D G R O U N D E D I N A C C O R D W I T H 2 5 0 . 1 3 4 A N D 2 5 0 . 1 3 6 ( A ) . 1.58.EQUIPME N T G R O U N D I N G C O N D U C T O R S S H A L L B E S I Z E D A C C O R D I N G T O NEC 690. 4 5 A N D M I C R O I N V E R T E R M A N U F A C T O R E R S ’ I N S T R U C T I O N S . 1 . 5 9 . E A C H M O D U L E W I L L B E G R O U N D E D U S I N G W E E B G R O U N D I N G C L I P S A S S H O W N I N M A N U F A C T U R E R D O C U M E N T A T I O N A N D A P P R O V E D B Y T H E A H J . I F W E E B S A R E N O T U S E D , M O D U L E G R O U N D I N G L U G S M U S T B E I N S T A L L E D A T T H E S P E C I F I E D G R O U N D I N G L U G H O L E S P E R T H E M A N U F A C T U R E R S ' I N S T A L L A T I O N R E Q U I R E M E N T S . 1 . 6 0 . T H E G R O U N D I N G C O N N E C T I O N T O A M O D U L E S H A L L B E A R R A N G E D S U C H T H A T T H E R E M O V A L O F A M O D U L E D O E S N O T I N T E R R U P T A G R O U N D I N G C O N D U C T O R T O A N O T H E R M O D U L E . 1 . 6 1 . G R O U N D I N G A N D B O N D I N G C O N D U C T O R S , I F I N S U L A T E D , S H A L L B E C O L O R E D G R E E N O R M A R K E D G R E E N I F # 4 A W G O R L A R G E R [ N E C 2 5 0 . 1 1 9 ] 1 . 6 2 . T H E G R O U N D I N G E L E C T R O D E S Y S T E M C O M P L I E S W I T H N E C 6 9 0 . 4 7 A N D N E C 2 5 0 . 5 0 T H R O U G H 2 5 0 . 1 0 6 . I F E X I S T I N G S Y S T E M I S I N A C C E S S I B L E , O R I N A D E Q U A T E , A G R O U N D I N G E L E C T R O D E S Y S T E M P R O V I D E D A C C O R D I N G T O N E C 2 5 0 , N E C 6 9 0 . 4 7 A N D A H J . 1 . 6 3 . G R O U N D - F A U L T D E T E C T I O N S H A L L C O M P L Y W I T H N E C 6 9 0 . 5 I N G E N E R A L A N D N E C 6 9 0 . 5 ( A ) ( 1 ) S P E C I F I C A L L Y . 1 . 6 4 . D I S C O N N E C T I O N A N D O V E R - C U R R E N T P R O T E C T I O N N O T E S : 1 . 6 5 . D I S C O N N E C T I N G S W I T C H E S S H A L L B E W I R E D S U C H T H A T W H E N T H E S W I T C H I S O P E N E D T H E C O N D U C T O R S R E M A I N I N G E N E R G I Z E D A R E C O N N E C T E D T O T H E T E R M I N A L S M A R K E D “ L I N E S I D E ” ( T Y P I C A L L Y T H E U P P E R T E R M I N A L S ) . 1 . 6 6 . D I S C O N N E C T S T O B E A C C E S S I B L E T O Q U A L I F I E D U T I L I T Y P E R S O N N E L , B E L O C K A B L E , A N D B E A V I S I B L E - B R E A K S W I T C H 1 . 6 7 . R A P I D S H U T D O W N O F E N E R G I Z E D C O N D U C T O R S B E Y O N D 1 0 F T O F P V A R R A Y O R 5 F T I N S I D E A B U I L D I N G W I T H I N 1 0 S E C O N D S . C O N T R O L L E D C O N D U C T O R S ≤ 3 0 V A N D ≤ 2 4 0 V A [ N E C 6 9 0 . 1 2 ] . L O C A T I O N O F L A B E L A C C O R D I N G T O A H J 1 . 6 8 . A L L O C P D R A T I N G S A N D T Y P E S S P E C I F I E D A C C O R D I N G T O N E C 6 9 0 . 8 , 6 9 0 . 9 , A N D 2 4 0 . 1 . 6 9 . M I C R O I N V E R T E R B R A N C H E S C O N N E C T E D T O A S I N G L E B R E A K E R O R G R O U P E D F U S E S I N A C C O R D A N C E W I T H N E C 1 1 0 . 3 ( B ) . 1 . 7 0 . I F R E Q U I R E D B Y A H J , S Y S T E M W I L L I N C L U D E A R C - F A U L T C I R C U I T P R O T E C T I O N A C C O R D I N G T O N E C 6 9 0 . 1 1 A N D U L 1 6 9 9 B . 1 . 7 1 . I N T E R C O N N E C T I O N N O T E S : 1 . 7 2 . L O A D - S I D E I N T E R C O N N E C T I O N S H A L L B E I N A C C O R D A N C E W I T H [ N E C 6 9 0 . 6 4 ( B ) ] 1 . 7 3 . T H E S U M O F T H E U T I L I T Y O C P D A N D I N V E R T E R C O N T I N U O U S I N P U T M A Y N O T E X C E E D 1 2 0 % O F B U S B A R R A T I N G [ N E C 7 0 5 . 1 2 ( D ) ( 2 ) ( 3 ) ] . 1 . 7 4 . W H E N S U M O F T H E P V S O U R C E S E Q U A L S > 1 0 0 % O F B U S B A R R A T I N G , P V D E D I C A T E D B A C K F F E D B R E A K E R S M U S T B E L O C A T E D O P P O S I T E E N D O F T H E B U S F R O M T H E U T I L I T Y S O U R C E O C P D [ N E C 7 0 5 . 1 2 ( D ) ( 2 ) ( 3 ) ] . 1 . 7 5 . A T M U L T I P L E P V O U T P U T C O M B I N E R P A N E L , T O T A L R A T I N G O F A L L O V E R C U R R E N T D E V I C E S S H A L L N O T E X C E E D A M P A C I T Y O F B U S B A R . H O W E V E R , T H E C O M B I N E D O V E R C U R R E N T D E V I C E M A Y B E E X C L U D E D A C C O R D I N G T O N E C 7 0 5 . 1 2 ( D ) ( 2 ) ( 3 ) ( C ) . 1 . 7 6 . F E E D E R T A P I N T E R C O N E C T I O N ( L O A D S I D E ) A C C O R D I N G T O N E C 7 0 5 . 1 2 ( D ) ( 2 ) ( 1 ) 1 . 7 7 . S U P P L Y S I D E T A P I N T E R C O N N E C T I O N A C C O R D I N G T O N E C 7 0 5 . 1 2 ( A ) W I T H S E R V I C E E N T R A N C E C O N D U C T O R S I N A C C O R D A N C E W I T H N E C 2 3 0 . 4 2 1 . 7 8 . B A C K F E E D I N G B R E A K E R F O R U T I L I T Y - I N T E R A C T I V E I N V E R T E R O U T P U T I S E X E M P T F R O M A D D I T I O N A L F A S T E N I N G [ N E C 7 0 5 . 1 2 ( D ) ( 5 ) ] . T - 2 ( S H E E T 2 ) 7 4 1 S 2 2 7 5 W R e x b u r g , I D 8 3 4 4 0 B R O W E R R E S I D E N C E A P N : R P R 4 S F 4 0 0 9 0 1 2 0 D A T E : 5 / 1 8 / 2 0 S H E E T D E S I G N E R : J . D . L i c e n s e # : E L E - J - 1 3 6 4 3 C O N T R A C T O R G L E D W A R D S E L E C T R I C A D D R E S S : 1 1 3 2 C r e s c e n t D r . R e x b u r g I D , 8 3 4 4 0 N 3 ' 3' 3 ' CIRCUIT 1EXISTINGSOLAR S C A L E : 3 / 3 2 " = 1 ' P V S Y S T E M S I T E P L A N (4) TRINA SOLAR TSM-300 DD05A.08(II)ON THE BOTTOM ROWWITH AN ENPHASEIQ7-60-2-US MICRO INVERTER MOUNTEDTO THE BACK OF EACH MODULEMOUNTED ON COMP. SHINGLE PV SYSTEM SIZE:1.2 kW DCRoof Azimuth: 269Roof Tilt: 20 Roof Section 1 741 S 2275 W Rexburg, ID 83440 LEGENDMMETER 7 4 1 S 2 2 7 5 W R e x b u r g , I D 8 3 4 4 0 B R O W E R R E S I D E N C E A P N : R P R 4 S F 4 0 0 9 0 1 2 0 D A T E : 5 / 1 8 / 2 0 S H E E T C O N S T R U C T I O N N O T E S 1 . S O L A R P H O T O V O L T A I C S Y S T E M T O B E I N S T A L L E D O N R E S I D E N T I A L S T R U C T U R E . 2 . T H I S P R O J E C T H A S B E E N D E S I G N E D I N C O M P L I A N C E W I T H T H E C B C S E C T I O N 1 6 0 9 T O W I T H S T A N D A B A S I C W I N D S P E E D O F 9 0 M P H ( 3 S E C O N D G U S T ) , W I N D E X P O S U R E B . 3 . T H E R O O F M E M B E R S A R E 2 X 4 T R U S S E S A T 2 4 " O N C E N T E R . C O N N E C T I O N T O S T R U C T U R E S H A L L N O T B E W I T H I N 1 1 " O F N A I L I N G P L A T E S . 4 . T H E S O L A R P H O T O V O L T A I C I N S T A L L A T I O N S H A L L N O T O B S T R U C T A N Y P L U M B I N G , M E C H A N I C A L , O R B U I L D I N G R O O F V E N T S . 5 . A L L C O N D U C T O R S A N D C O N D U I T S M O U N T E D O N R O O F S H A L L B E M I N I M U M 1 / 2 " A B O V E R O O F S U R F A C E ( I N C L U D I N G C A B L E S U N D E R N E A T H M O D U L E S A N D R A C K I N G ) . 6 . R O O F A C C E S S P O I N T S S H A L L B E P R O V I D E D P E R T H E F O L L O W I N G ( C R C R 3 2 4 . 7 . 1 , C B C 3 1 1 1 . 2 . 1 ) 6 . 1 . L O C A T E D I N A R E A S N O T R E Q U I R I N G P L A C E M E N T O F G R O U N D L A D D E R S O V E R O P E N I N G S S U C H A S D O O R S O R W I N D O W S . 6 . 2 . L O C A T E D A T S T R O N G P O I N T S O F C O N S T R U C T I O N I N L O C A T I O N S W H E R E A C C E S S P O I N T D O E S N O T C O N F L I C T W I T H O V E R H E A D O B S T R U C T I O N S S U C H A S : T R E E S , W I R E S , O R S I G N S . P V - 1 ( S H E E T 3 ) M PHOTO V O L T A I C S Y S T E M E Q U I P P E D W I T H RA P I D S H U T D O W N P E R 6 9 0 . 1 1 , 6 9 0 . 1 2 , N E C CBCOMBINER BOX D E S I G N E R : J . D . J U N C T I O N B O X A T T A C H E D T O A R R A Y P V I N T E R C O N N E C T I O N P O I N T . L O C A T I O N O F M A I N S E R V I C E P A N E L & C O M B I N E R B O X L O C A T E D O N E X T E R I O R W A L L O F A S I N G L E F A M I L Y R E S I D E N C E . R O O F O B S T R U C T I O N S C B 1 0 M O D U L E S O N T H E T W O T O P R O W S A R E E X I S T I N G S O L A R M O D U L E S . U S I N G T H E S A M E E Q U I P M E N T O N T H E N E W A N D E X I S T I N G S Y S T E M S . A C L i c e n s e # : E L E - J - 1 3 6 4 3 C O N T R A C T O R G L E D W A R D S E L E C T R I C A D D R E S S : 1 1 3 2 C r e s c e n t D r . R e x b u r g I D , 8 3 4 4 0 4' 4 ' 4 ' 4 ' 4 ' 4 ' 2 ' Roof Azimuth: 269Roof Tilt: 20 Roof Section 1 S C A L E : 3 / 1 6 " = 1 ' - 0 " P V S Y S T E M M O U N T I N G D E T A I L S PROPOSEDIRONRIDGE XR-100ALUMINUM RAILS PROPOSED TRINA SOLAR TSM-300DD05A.08(II)PV SOLAR MODULES E X I S T I N G 2 X 4 " R O O F T R U S S E S @ 2 4 " O . C . E X I S T I N G C O M P . S H I N G L E R O O F P V - 2 ( S H E E T 4 ) I R O N R I D G E F L A S H F O O T - 2 C O M P . M O U N T @ 4 8 " O . C . M A X 7 4 1 S 2 2 7 5 W R e x b u r g , I D 8 3 4 4 0 B R O W E R R E S I D E N C E A P N : R P R 4 S F 4 0 0 9 0 1 2 0 D A T E : 5 / 1 8 / 2 0 S H E E T D E S I G N E R : J . D . L i c e n s e # : E L E - J - 1 3 6 4 3 C O N T R A C T O R G L E D W A R D S E L E C T R I C A D D R E S S : 1 1 3 2 C r e s c e n t D r . R e x b u r g I D , 8 3 4 4 0 1 . R O O F M A T E R I A L : C O M P . S H I N G L E 2 . R O O F S T R U C T U R E : T R U S S E S 3 . A T T A C H M E N T T Y P E : F L A S H F O O T - 2 4 . M O D U L E M A N U F A C T U R E R : T R I N A 5 . M O D U L E M O D E L : T R I N A S O L A R T S M - 3 0 0 D D 0 5 A . 0 8 ( I I ) 6 . M O D U L E L E N G T H : 6 4 . 9 6 ' ' 7 . M O D U L E W I D T H : 3 9 . 0 4 ' ' 8 . M O D U L E W E I G H T : 4 0 . 3 L B S . 9 . S E E S H E E T S - 1 F O R D I M E N S I O N ( S ) 1 0 . M I N . F I R E O F F S E T : 3 ' F R O M R I D G E / R A K E , 1 8 " F R O M H I P S / V A L L E Y S 1 1 . T R U S S S P A C I N G : 2 4 I N . O . C . 1 2 . T R U S S S I Z E : 2 X 4 N O M I N A L 1 3 . L A G B O L T D I A M E T E R : 5 / 1 6 I N . 1 4 . L A G B O L T E M B E D M E N T : 3 I N . 1 5 . T O T A L # O F A T T A C H M E N T S : 4 5 1 6 . T O T A L A R E A : 7 2 . 5 6 S Q . F T . 1 7 . T O T A L W E I G H T : 2 6 9 . 4 7 L B S . 1 8 . W E I G H T P E R A T T A C H M E N T : 2 8 . 0 L B S . 1 9 . D I S T R I B U T E D L O A D : 2 . 4 3 P S F 2 0 . M A X . H O R I Z O N T A L S T A N D O F F : 7 2 I N . 2 1 . M A X . V E R T I C A L S T A N D O F F : L A N D S C A P E : 2 6 I N . , P O R T R A I T : 3 9 I N . 2 2 . S T A N D O F F S T A G G E R I N G : Y E S 2 3 . R A I L M A N U F A C T U R E R ( O R E Q U I V . ) : I R O N R I D G E 2 4 . R A I L M O D E L ( O R E Q U I V A L E N T ) : X R - 1 0 0 2 5 . R A I L W E I G H T : 0 . 4 3 6 P L F . 2 6 . M A X . T R U S S S P A N : 1 2 F T . 2 7 . M O D U L E C L E A R A N C E : 3 I N . M I N . , 6 I N . M A X . S-5 D431542524238272 S - 5 D 5 2 0 1 1 1 2 1 4 1 3 1 5 1 8 2 2 ROOF SLOPE 910106217 S H E E T P V - 3 ( S H E E T 5 ) 7 4 1 S 2 2 7 5 W R e x b u r g , I D 8 3 4 4 0 B R O W E R R E S I D E N C E A P N : R P R 4 S F 4 0 0 9 0 1 2 0 D A T E : 5 / 1 8 / 2 0 D E S I G N E R : J . D . L i c e n s e # : E L E - J - 1 3 6 4 3 C O N T R A C T O R G L E D W A R D S E L E C T R I C A D D R E S S : 1 1 3 2 C r e s c e n t D r . R e x b u r g I D , 8 3 4 4 0 4 PV CIRCUIT 1: 4 MODULES/PARALLEL M P O I N T O F D E L I V E R Y A N D I N T E R C O N N E C T I O N 2 0 A 2 0 0 A ROOFT O P GR O U N D L E V E L - HOUSE E X T E R I O R 2 0 A 2 0 A N 1 0 A N 2 E 1 . 0 10 PV CIRCUIT 2: 10 MODULES/PARALLEL12121E 1.0 E 1 . 0 E 1 . 0 1E 1.0JUNCTION BOXWITH IRREVERSIBLEGROUND SPLICE 3 3 ( E ) V I S I B L E L O C K A B L E 2 P O L E 3 0 A ' K N I F E ' A / C D I S C O N N E C T E X I S T I N G 2 4 0 V / 2 0 0 A L O A D - C E N T E R S I N G L E P H A S E A C D I S C O N N E C T T O B E L O C A T E D W I T H I N 3 ' O F M E T E R ( E ) 1 2 5 A / 2 4 0 V A C C O M B I N E R B O X W I T H E N P H A S E I Q E N V O Y C O M M . G A T E W A Y 4 NEW TRINA SOLAR TSM-300DD05A.08(II) MODULES WITH AN ENPHASE IQ7-60-2-USMICRO-INVERTER AND 10 EXISTINGMODULES WITH ENPHASE MICROINVERTERSATTACHED TO THE BACK OF EVERYMODULE. ( E ) G R O U N D R O D O R U F E R Conduit and Conductor ScheduleTagDescriptionWire Gauge# of ConductorsConduit TypeConduit Size1Enphase Q Cable - THWN-212 AWG2N/A - Free Air N/A - Free Air1Bare Copper Ground (EGC/GEC)6 AWG1N/A - Free Air N/A - Free Air2 THWN-210 AWG4EMT3/4"2 THWN-2 - Ground8 AWG1EMT3/4"3THWN-210 AWG3EMT3/4"3THWN-2 - Ground8 AWG1EMT3/4" S H E E T PV Module Ratings @ STCModel Make/Model TRINA SOLARTSM-300DD05A.08(II)Max Power-Point Current (Imp)9.19AMax Power-Point Voltage (Vmp)32.6VOpen-Circuit Voltage (Voc)39.8VShort-Circuit Current (Isc)9.77AMax Series Fuse (OCPD)20ANominal Maximum Power at STC (Pmax)300WMaximum System Voltage1000VVoc Temperature Coefficient-.29 I n v e r t e r R a t i n g s I n v e r t e r M a k e / M o d e l E N P H A S E I Q 7 - 6 0 - 2 - U S M a x D C V o l t R a t i n g 4 8 V P e a k O u t p u t P o w e r 2 5 0 W M a x N o m i n a l V o l t a g e 2 6 4 V M a x A C C u r r e n t 1 . 0 A M a x O C P D R a t i n g 2 0 A S Y S T E M S U M M A R Y B R A N C H # 1 INVER T E R S P E R B R A N C H 4 MAX A C C U R R E N T 4 . 0 A MAX A C O U T P U T P O W E R 1 0 0 0 W ARRA Y S T C P O W E R 1 2 0 0 W ARRA Y P T C P O W E R 1 0 8 2 . 4 W MAX A C C U R R E N T 4 . 0 A MAX A C P O W E R 1 0 0 0 A DERA T E D ( C E C ) A C POWE R 1 0 0 0 A D E S I G N T E M P E R A T U R E S A S H R A E E X T R E M E L O W - 2 . 0 ° C A S H R A E 2 % H I G H 3 9 . 0 ° C M E T E R # 7 6 5 6 5 3 6 5 E - 1 ( S H E E T 6 ) 7 4 1 S 2 2 7 5 W R e x b u r g , I D 8 3 4 4 0 B R O W E R R E S I D E N C E A P N : R P R 4 S F 4 0 0 9 0 1 2 0 D A T E : 5 / 1 8 / 2 0 M A I N S E R V I C E P A N E L 2 4 0 / 1 2 0 V 1 Ø , 3 W M A I N B U S S : 2 0 0 M A X B R E A K E R S I Z E : ( 2 0 0 A X 1 . 2 ) - 2 0 0 = 4 0 . 0 D E S I G N E R : J . D . L i c e n s e # : E L E - J - 1 3 6 4 3 C O N T R A C T O R G L E D W A R D S E L E C T R I C A D D R E S S : 1 1 3 2 C r e s c e n t D r . R e x b u r g I D , 8 3 4 4 0 ! WARNING !ELECTRIC SHOCK HAZARDIF A GROUND FAULT IS INDICATED, NORMALLYGROUNDED CONDUCTORS MAY BEUNGROUNDED AND ENERGIZED.LABEL 1AT EACH INVERTER[NEC 690.5]!WARNING !DUAL POWER SOURCES.SECOND SOURCE IS PV SYSTEMLABEL 5 PHOTO V O L T A I C AC DISC O N N E C T OPERATING CURRENT: 1 1 1 4 A A C OPERATING VOLTAGE: # # # 2 4 0 V A C LABEL 4AT POINT OF INTER C O N N E C T I O N , MARKED AT DISCON N E C T I N G M E A N S [NEC 690.54]! WARNING !ELECTRIC SHOCK HAZARDDO NOT TOUCH TERMINALS.TERMINALS ON BOTH LINE AND LOAD SIDESMAY BE ENERGIZED IN THE OPEN POSITION.LABEL 2AT EACH DISCONNECTING MEANS FORPHOTOVOLTAIC EQUIPMENT[NEC 690.17]PHOTOVOLTAICAC DISCONNECTLABEL 10AT EXPOSED RACEWAYS, CABLE TRAYS, AND OTHER WIRINGMETHODS; SPACED AT MAXIMUM 10 FT SECTION OR WHERESEPARATED BY ENCLOSURES, WALLS, PARTITIONS, CEILINGS,OR FLOORS.[NEC 690.31(G)]LETTERS AT LEAST 3/8 INCH; WHITE ON RED BACKGROUND;REFLECTIVE[IFC 605.11.1.1]LABEL 11AT EACH AC DISCONNECTING MEANS[NEC 690.13(B)]!CAUTION !PHOTOVOLTAIC SYSTEMCIRCUIT IS BACKFED ! W A R N I N G ! I N V E R T E R O U T P U T C O N N E C T I O N . D O N O T R E L O C A T E T H I S O V E R C U R R E N T D E V I C E L A B E L 1 2 A T P O I N T O F I N T E R C O N N E C T I O N O V E R C U R R E N T D E V I C E [ N E C 7 0 5 . 1 2 ( D ) ( 7 ) ] INTERAC T I V E P H O T O V O L T A I C S Y S T E M C O N N E C T E D LABEL 7AT UTILITY METER[NEC 690.56(B)]LABEL 6LABELING NOTES:1.1 LABELING REQUIREMENTS BASED ON T H E 2 0 1 4 N A T I O N A L E L E C T R I C A L C O D E , INTERNATIONAL FIRE CODE 605.11, OSHA S T A N D A R D 1 9 1 0 . 1 4 5 , A N S I Z 5 3 5 1.2 MATERIAL BASED ON THE REQUIREME N T S O F T H E A U T H O R I T Y H A V I N G J U R I S D I C T I O N . 1.3 LABELS TO BE OF SUFFICIENT DURABI L I T Y T O W I T H S T A N D T H E E N V I R O N M E N T INVOLVED.1.4 LABELS TO BE A MINIMUM LETTER HEI G H T O F 3 / 8 ” A N D P E R M A N E N T L Y A F F I X E D . 1.5 ALERTING WORDS TO BE COLOR CODE D . “ D A N G E R ” W I L L H A V E R E D BACKGROUND; “WARNING” WILL HAVE OR A N G E B A C K G R O U N D ; “ C A U T I O N ” W I L L H A V E YELLOW BACKGROUND. [ANSI Z535] P E R M A N E N T P L A Q U E O R D I R E C T O R Y P R O V I D I N G T H E L O C A T I O N O F T H E S E R V I C E D I S C O N N E C T I N G M E A N S A N D T H E P H O T O V O L T A I C S Y S T E M D I S C O N N E C T I N G M E A N S I F N O T I N T H E S A M E L O C A T I O N [ N E C 6 9 0 . 5 6 ( B ) ] W H E R E T H E I N V E R T E R S A R E R E M O T E L Y L O C A T E D F R O M E A C H O T H E R , A D I R E C T O R Y I N A C C O R D A N C E W I T H 7 0 5 . 1 0 S H A L L B E I N S T A L L E D A T E A C H D C P V S Y S T E M D I S C O N N E C T I N G M E A N S , A T E A C H A C D I S C O N N E C T I N G M E A N S , A N D A T T H E M A I N S E R V I C E D I S C O N N E C T I N G M E A N S S H O W I N G T H E L O C A T I O N O F A L L A C A N D D C P V S Y S T E M D I S C O N N E C T I N G M E A N S I N T H E B U I L D I N G . [ N E C 6 9 0 . 4 ( H ) ] PLAQUE AT POINT OF INTERCONNECTION; LABEL, SUCH AS LABEL 5 OR LABEL 6 MUST IDENTIFYPHOTOVOLTAIC SYSTEM[NEC 705.12(D)(4)]WARNING: PHOTOVOLTAICPOWER SOURCEINTERACTIVE PHOTOVOLTAIC SYSTEMCONNECTEDPHOTOVOLTAIC SYSTEM DISCONNECT LOCATEDSOUTH SIDE OF THE HOUSE 1. NOT ALL PLACARDS SHOWN MAY BE REQUIRED BY LOCAL AHJ. CONTRACTOR TO VERIFY PLACARDREQUIREMENTS WITH LOCAL AHJ BEFORE INSTALLATION.2. ALL PLAQUES AND SIGNAGE REQUIRED BY THE LATEST EDITION OF THE CALIFORNIA ELECTRICAL CODEAND THE SAN DIEGO AREA ELECTRICAL NEWSLETTER WILL BE INSTALLED AS REQUIRED.3. ALTERNATE POWER SOURCE PLACARD SHALL BE METALLIC OR PLASTIC, ENGRAVED OR MACHINEPRINTED LETTERS IN A CONTRASTING COLOR TO THE PLAQUE. THIS PLAQUE WILL BE ATTCHED BY POPRIVETS OR SCREWS OR OTHER APPROVED METHOD.4. DIRECTORY PLACARD MARKING CONTENT AND FORMAT: RED BACKGROUND, WHITE LETTERING,MINIMUM 3/8" LETTER HIEGHT, ALL CAPITAL LETTERS, ARIAL OR SIMILAR FONT, NON BOLD, REFLECTIVEWEATHER RESISTANT MATERIAL SUITABLE FOR THE ENVIRONMENT.PERMANENT SIGNAGE NOTES: S H E E T E - 2 ( S H E E T 7 ) 7 4 1 S 2 2 7 5 W R e x b u r g , I D 8 3 4 4 0 B R O W E R R E S I D E N C E A P N : R P R 4 S F 4 0 0 9 0 1 2 0 D A T E : 5 / 1 8 / 2 0 D E S I G N E R : J . D . L i c e n s e # : E L E - J - 1 3 6 4 3 C O N T R A C T O R G L E D W A R D S E L E C T R I C A D D R E S S : 1 1 3 2 C r e s c e n t D r . R e x b u r g I D , 8 3 4 4 0 L A B E L 9 A T R A P I D S H U T D O W N S W I T C H [ N E C 6 9 0 . 5 6 ( B ) ] . L E T T E R S A T L E A S T 3 / 8 I N C H ; W H I T E O N R E D B A C K G R O U N D ; R E F L E C T I V E [ I F C 6 0 5 . 1 1 . 1 . 1 ] P H O T O V O L T A I C S Y S T E M E Q U I P P E D W I T H R A P I D S H U T D O W N . T U R N R A P I D S H U T D O W N S W I T C H T O T H E " O F F " P O S I T I O N T O S H U T D O W N P V S Y S T E M A N D R E D U C E S H O C K H A Z A R D I N A R R A Y D E S I G N B Y : P A P E R S I Z E : 1 1 " x 1 7 " ( A N S I B ) D A T E : C H E C K E D B Y : R E V I S I O N S S - 1 R E S O U R C E D O C U M E N T ( S H E E T 8 ) D E S I G N B Y : P A P E R S I Z E : 1 1 " x 1 7 " ( A N S I B ) D A T E : C H E C K E D B Y : R E V I S I O N S S - 2 R E S O U R C E D O C U M E N T D E S I G N B Y : P A P E R S I Z E : 1 1 " x 1 7 " ( A N S I B ) D A T E : C H E C K E D B Y : R E V I S I O N S S - 3 R E S O U R C E D O C U M E N T D E S I G N B Y : P A P E R S I Z E : 1 1 " x 1 7 " ( A N S I B ) D A T E : C H E C K E D B Y : R E V I S I O N S S - 4 R E S O U R C E D O C U M E N T D E S I G N B Y : P A P E R S I Z E : 1 1 " x 1 7 " ( A N S I B ) D A T E : C H E C K E D B Y : R E V I S I O N S S - 5 R E S O U R C E D O C U M E N T D E S I G N B Y : P A P E R S I Z E : 1 1 " x 1 7 " ( A N S I B ) D A T E : C H E C K E D B Y : R E V I S I O N S S - 6 R E S O U R C E D O C U M E N T