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PLANS STAMPED - 21-00707 - 85 Oak Ave - Solar Panels
Author Name Author Email Author Phone No.: Larry Beesley Larry.Beesley@rexburg.org 208-372-2176 Description : 85 Oak Ave - Solar PanelsAddress : 85 Oak AveRecord Type : Solar PanelsDocument Filename : John Michelsen Permit Packet SS.pdf Comment Author Contact Information: Corrections in the following table need to be applied before a permit can be issued Review Report Approved # 21-00707 Page Reference AnnotationType Author : Department Status Page Review Comments Applicant Response Comments PV-1 Stamp Larry Beesley : Building Open 1 Approved - Building Inspector PV-2 Line Larry Beesley : Building Open 2 PV-2 Line Larry Beesley : Building Open 2 PV-2 Stamp Larry Beesley : Building Open 2 Approved - Building Inspector Pg 11 Rectangle Larry Beesley : Building Open 11 Pg 11 Free text Larry Beesley : Building Open 11 Install with flashings Pg 11 Line Larry Beesley : Building Open 11 Pg 11 Stamp Larry Beesley : Building Open 11 Approved - Building Inspector Solar Panels Approval of plans does not constitute approval of variance from code Powered by TCPDF (www.tcpdf.org) CONTRACTOR INFORMATIONDESIGNED BYSOLAR PHOTOVOLTAIC SYSTEMDATEISSUED FOR: PERMIT PROJECT INFORMATION, VICINITY MAP www.bigdogenergy.com P V - 1 8/30/2021 MSPSUBACDCSLCMINVJBCBFMC M A I N S E R V I C E P A N E L S U B S E R V I C E P A N E L A C D I S C O N N E C T D C D I S C O N N E C T S O L A R L O A D C E N T E R M O N I T O R I N G M E T E R I N V E R T E R J U N C T I O N B O X C O M B I N E R B O X F L E X I B L E M E T A L L I C C O N D U I T ( E ) ( N ) E X T I N T E M T R M T V O C V M P I S C N T S E X I S T I N G N E W E X T E R I O R I N T E R I O R E L E C T R I C A L M E T A L L I C T U B I N G R I G I D M E T A L L I C T U B I N G V O L T A G E O P E N C I R C U I T V O L T A G E A T M A X . P O W E R S H O R T C I R C U I T C U R R E N T N O T T O S C A L E I M P C U R R E N T A T M A X . P O W E R A L L W O R K T O C O M P L Y W I T H T H E F O L L O W I N G C O D E : N E C 2 0 1 7 C O D E I B C 2 0 1 8 C O D E P V - 1 P R O J E C T I N F O R M A T I O N , V I C I N I T Y M A P P V - 2 S I T E P L A N , A E R I A L V I E W P V - 3 E L E C T R I C A L L I N E D I A G R A M A N D N O T E S P V - 4 R E Q U I R E D S I G N A G E ADDITIONAL NOTES P L A N S E T L E G E N D A B B R E V I A T I O N S P R O J E C T I N F O R M A T I O N V I C I N I T Y M A P A P P L I C A B L E C O D E S S H E E T I N D E X 3 0 - 3 4 0 W P A N A S O N I C P H O T O V O L T A I C M O D U L E S 1 - 1 0 0 0 0 W S O L A R E D G E S Y S T E M S I Z E : 1 0 . 2 K W D C S T C A R R A Y A R E A : 2 1 0 S F J O H N M I C H E L S E N 8 5 O A K A V E R E X B U R G , I D 8 3 4 4 0 2 0 8 - 5 1 6 - 6 2 7 3 JOHN MICHELSEN 85 OAK AVE REXBURG, ID 83440 208-516-6273 Big Dog Renewable Energy Contractor Lic #017916 620 Pheasant Ridge Dr Chubbuck, ID 83202 208-242-3352 T 208-232-5935 F X____________________ SCALE: NTS JOB NO.: 12140 ALL CONDUIT TO RUN ON EXTERIOROF HOUSE UNLESS OTHERWISE NOTEDOCCUPANCY: R-3CONSTRUCTION TYPE: VBUNSPRINKLERED1. ALL MODULES WILL BE GROUNDED IN ACCORDANCE WITHTHE CODE AND THE MANUFACTURES INSTALLATIONINSTRUCTIONS.2. ALL PLACARDS REQUIRED BY NEC 2017 CODE MACHINEPRINTED LETTERS IN A CONTRASTING COLOR TO THEPLACARD.3. LIQUID TIGHT FLEXIBLE CONDUIT SHALL BE SUNLIGHTRESISTANT.4. ELECTRICAL INSTALLATION WILL COMPLY WITH NEC 2017CODE.5. ALL SOLAR MODULES EQUIPMENT AND METALLICCOMPONENTS ARE TO BE BONDED.6. ALL PLUMBING AND MECHANICAL ROOF VENTS TO CLEARFROM PHOTOVOLTAIC ARRAY, OR EXTEND ABOVE SOLARPANELS.7. SOLAR PHOTOVOLTAIC SYSTEM TO BE INSTALLED ONRESIDENTIAL STRUCTURE.8. DESIGN COMPLYING WITH THE IBC 2018 CODE AND ALLLOCAL ORDINANCES AND POLICIES.9. THE PROJECT HAS BEEN DESIGNED TO WITHSTAND AMINIMUM 110 MPH WIND LOAD.10. THE SYSTEM WILL NOT BE INTERCONNECTED UNTILAPPROVAL FROM THE LOCAL JURISDICTION AND A UTILITYIS OBTAINED.11. IF THE MAIN SERVICE PANEL DOES NOT HAVE VERIFIABLEGROUNDING ELECTRODE, IT IS THE CONTRACTORSRESPONSIBILITY TO INSTALL SUPPLEMENTAL GROUNDINGELECTRODE.12. EACH MODULE WILL BE GROUNDED USING THE SUPPLIEDCONNECTION POINTS IDENTIFIED ON THE MODULE ANDTHE MANUFACTURERS INSTALLATION INSTRUCTIONS.13. A LADDER SHALL BE IN PLACE FOR INSPECTION INCOMPLIANCE WITH OSHA REGULATIONS.14. PROPER ACCESS AND WORKING CLEARANCE WILL BEPROVIDED "WARNING: PV POWER SOURCE" TO BE PLACEDEVERY 10 FT.15. GFCI PROTECTION IN INVERTER.9/1/2021 W I T H I N 3 ' O F M E T E R CONTRACTOR INFORMATIONDESIGNED BYSOLAR PHOTOVOLTAIC SYSTEMDATEISSUED FOR: PERMIT SITE PLAN, AERIAL VIEW www.bigdogenergy.com P V - 2 SITE PLAN A E R I A L V I E W S C A L E : N T S S C A L E : N T S TOTAL # OF PANELS30 A B B R E V I A T I O N S I N V M S P A C I N V E R T E R M A I N S E R V I C E P A N E L A C D I S C O N N E C T M T R M E T E R Big Dog Renewable Energy Contractor Lic #017916 620 Pheasant Ridge Dr Chubbuck, ID 83202 208-242-3352 T 208-232-5935 F X____________________ ROOF TYPE:4/12 SHINGLE 8/30/2021 N 3 ' - 0 W A L K W A Y 1 8 " C L E A R JOHN MICHELSEN 85 OAK AVE REXBURG, ID 83440 208-516-6273 SCALE: NTS JOB NO.: 12140 9/1/2021 10,200W TOTAL SOLAR ARRAY30 PANASONIC 340W PANELSARRAY 12 STRINGS OF 15 MODULES CONNECTED IN SERIES @ INVERTERNN G D200ACNGNNGL1L134L2L2_~B 2 1 5 M O D U L E S I N S E R I E S E MPP T 2 S T R I N G 1 - 2 T I L T : 2 8 ° A Z I M U T H : 2 0 0 ° O N E P E R P A N E L A ELECTRIC A L E Q U I P M E N T C A L L O U T S SOLADE C K M O D E L 0 7 8 3 - 4 1 J U N C T I O N BOX/RO O F P E N E T R A T I O N , 6 0 0 V 10.0kW IN V E R T E R U N G R O U N D E D SOLARE D G E S E 1 0 0 0 0 H - U S (240V) IN V E R T E R 240VAC, 4 2 A , N E M A 3 R , U L L I S T E D , (W/ INTE G R A T E D D C D I S C O N N E C T ) WITH INT E G R A T E D G F P , W / I N T E G R A T E D A F P SQUARE D S A F E T Y S W I T C H , # H 2 2 2 N R B P/N 3112 6 0 0 V D C , 6 0 A , N E M A 3 R , F U S I B L E , 10,000 AI C , U L , N E M A , C S A , N O M C E R T I F I E D W/60A F U S E S 200A MAI N S E R V I C E P A N E L (W/ BIDIR E C T I O N A L U T I L I T Y M E T E R ) SOLARE D G E O P T I M I Z E R P 3 7 0 O N E P E R P A N E L BD A123WIRE AND CONDUIT CALLOUTS(2) #10 AWG PV/RHW-2 IN FREE AIR(1) #6 AWG BARE COPPER GND IN FREE AIR(2) #10 AWG THWN-2(1) #10 AWG THWN-2 GND IN 34" EMT/FMC(2) #6 AWG THWN-2(1) #10 AWG THWN-2 GND IN 34" EMT(2)#6 AWG THWN-2(1)#8 AWG THWN-2 GND IN 34" EMT CE 1 MPP T 1 MPP T 3 M O D U L E : P A N A S O N I C 3 4 0 W V o c = 7 1 . 3 V I s c = 6 . 1 3 A V m p = 5 9 . 7 V I m p = 5 . 7 A A L L M O D U L E S W I L L B E G R O U N D E D I N A C C O R D A N C E W I T H C O D E A N D 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 I N S T R U C T I O N S . TAP 27 4 1 5 M O D U L E S I N S E R I E S A 1 2 E O N E P E R P A N E L ELECTRICAL SINGLE LINE DIAGRAM CONTRACTOR INFORMATIONDESIGNED BYSOLAR PHOTOVOLTAIC SYSTEMDATEISSUED FOR: PERMIT SINGLE LINE DIAGRAM www.bigdogenergy.com P V - 3 S C A L E : N T S E L E C T R I C A L N O T E S R A C K I N G & M O D U L E S A R E G R O U N D E D V I A A C O N T I N U O U S # 6 A W G C O P P E R C O N D U C T O R C O N N E C T E D W / W E E B S - M O D U L E S A R E F A C T O R Y P R O V I D E D W / 2 T H R E A D E D H O L E S T O F A C I L I T A T E L A N D I N G O F T H E L U G S A L L E Q U I P M E N T S H A L L B E P R O P E R L Y G R O U N D E D A N D B O N D E D I N A C C O R D A N C E W I T H A R T I C L E 2 5 0 . A L L C I R C U I T S C O N N E C T E D T O M O R E T H A N O N E S O U R C E S H A L L H A V E O V E R C U R R E N T D E V I C E S L O C A T E D S O A S T O P R O V I D E O V E R C U R R E N T P R O T E C T I O N F R O M A L L S O U R C E S 6 9 0 . 9 ( A ) Big Dog Renewable Energy Contractor Lic #017916 620 Pheasant Ridge Dr Chubbuck, ID 83202 208-242-3352 T 208-232-5935 F X____________________ 8/30/2021 1 . P V A R R A Y S A R E P E R S I N G L E L I N E . 2 . P V A R R A Y W I R I N G T O J U N C T I O N I S # 1 0 A W G U S E 2 W / F I E L D I N S T A L L E D M C C O N N E C T O R S T O I N T E R F A C E W / M O D U L E S . 3 . P V A R R A Y C O M B I N E R / J U N C T I O N B O X P R O V I D E S T R A N S I T I O N F R O M A R R A Y W I R I N G T O C O N D U I T W I R I N G . 4 . U S E U F E R G R O U N D E L E C T R O D E S Y S T E M F R O M I N V E R T E R T O E X I S T I N G M A I N S E R V I C E G R O U N D E L E C T R O D E P E R N . E . C . 2 5 0 . 5 8 . 5 . G R O U N D E L E C T R O D E C O N D U C T O R F R O M I N V E R T E R T O G R O U N D E L E C T R O D E T O B E M I N I M U M P R O T E C T I O N O F B A R E A R M O R S H E A T H E D C A B L E F O R A L L C O N D U C T O R S I Z E S . 6 . A L L G R O U N D C O N N E C T E D T O M A I N S E R V I C E G R O U N D I N M A I N S E R V I C E P A N E L . 7 . C O N N E C T O R S S H A L L B E P O L A R I S O R E U R O S T R I P I T C O N N E C T O R S . 8 . I N V E R T E R S H A L L B E P E R S I N G L E L I N E , S E E A T T A C H E D C U T S H E E T . 9 . I N V E R T E R I S P E R S I N G L E L I N E . 1 0 . A C D I S C O N N E C T S H A L L B E P E R S I N G L E L I N E . 1 1 . E Q U I P M E N T G R O U N D I N G C O N D U C T O R S O N A C A N D D C S I D E S I Z E D A C C O R D I N G T O N . E . C . 6 9 0 . 1 2 . P O L E O F P V A R R A Y R E F E R E N C E D T O G R O U N D A T T H E I N V E R T E R I N S I N G L E L I N E . 1 3 . A L L C O N D U C T O R S S H A L L B E 6 0 0 V , 9 0 C S T A N D A R D C O P P E R . A L L C O N D U C T O R S I N C O N D U I T S H A L L B E T H W N - 2 . 1 4 . M A X I M U M D C V O L T A G E D R O P S H A L L B E 2 . 5 % 1 5 . A L L C O N D U C T O R S S H A L L B E I N C O N D U I T U N L E S S O T H E R W I S E N O T E D . 1 6 . A L L W O R K T O C O M P L Y W I T H N E C 2 0 1 7 C O D E . 1 7 . D C A R R A Y C O N D U C T O R S A R E T O R E M A I N O U T S I D E O F B U I L D I N G P R I O R T O F U S I B L E C O M B I N E R B O X O R F U S I B L E D C D I S C O N N E C T M E A N S . 1 8 . E X A C T C O N D U I T R U N L O C A T I O N S S U B J E C T T O C H A N G E . 1 9 . 3 . 0 P S F M A X ( . 5 P S F F R O M R A C K I N G , 2 . 5 P S F F R O M M O D U L E S ) D E A D L O A D C O N T R I B U T E D F R O M S O L A R A R R A Y . 2 0 . A R C F A U L T I N S T A L L E D A T I N V E R T E R O R I N C O M B I N E R B O X . 2 1 . D C G R O U N D F A U L T P R O T E C T I O N I N T E G R A T E D I N I N V E R T E R . 2 2 . P O I N T O F C O N N E C T I O N B R E A K E R T O B E L O C A T E D O P P O S I T E E N D O F B U S B A R F R O M M A I N U N L E S S O T H E R W I S E N O T E D . 2 3 . A N Y U N D E R G R O U N D W I R I N G M E T H O D S W I L L C O M P L Y W I T H N E C 3 0 0 . 5 ( J ) , 3 0 0 . 7 ( B ) , 3 5 2 . 4 4 , A N D O T H E R S E C T I O N S O F C H A P T E R 3 A S A P P L I C A B L E . 2 4 . A N Y E X P O S E D P V C C O N D U I T S H A L L C O M P L Y W I T H N E C 3 5 2 . 1 0 2 5 . A L L P V S Y S T E M D C C I R C U I T S R U N I N S I D E A B U I L D I N G S H A L L B E C O N T A I N E D I N A M E T A L R A C E W A Y I N A C C O R D A N C E T O N E C 6 9 0 . 3 1 ( G ) 2 6 . C O M P L I E S W I T H 7 0 5 . 1 2 ( B ) ( 2 ) ( 3 ) ( B ) 2 7 . S U P P L Y S I D E C O N N E C T I O N W I T H L I S T E D I N S U L A T I O N P I E R C I N G C O N N E C T O R S I N A C C O R D A N C E W I T H 7 0 5 . 1 2 ( A ) A N D 2 3 0 . 8 2 2 8 . C O N N E C T I O N A T P A N E L S E C O N D A R Y S E R V I C E L O C A T I O N JOHN MICHELSEN 85 OAK AVE REXBURG, ID 83440 208-516-6273 SCALE: NTS JOB NO.: 12140 CONTRACTOR INFORMATIONDESIGNED BYSOLAR PHOTOVOLTAIC SYSTEMDATEISSUED FOR: PERMIT REQUIRED SIGNAGE www.bigdogenergy.com P V - 4 REQUIRED SIGNAGE 8/30/2021 Big Dog Renewable Energy Contractor Lic #017916 620 Pheasant Ridge Dr Chubbuck, ID 83202 208-242-3352 T 208-232-5935 F X____________________ 1. PROVIDE A PLACARD WITH THE FOLLOWING WORKING IN 14" HIGHLETTERING PER NEC 690-17.2. LABEL FOR SOLAR AC DISCONNECT:FIRE DEPARTMENT REQUIRED SIGNAGE3. THE FOLLOWING SIGNAGE MUST HAVE A MINIMUM OF 38" HIGHLETTERING, IN ARIAL FONT (NON-BOLD), WITH CAPITAL LETTERS,WHITE ON RED BACKGROUND AND A REFLECTIVE, WEATHER RESISTANTMATERIAL.AT THE MAIN SERVICE DISCONNECT PROVIDE A SIGN WITH THEFOLLOWING WORDING:WARNING:ELECTRICAL SHOCK HAZARD.DO NOT TOUCH TERMINALS. TERMINALS ON BOTHTHE LINE AND LOAD SIDES MAY BE ENERGIZED INTHE OPEN POSITION."SOLAR AC DISCONNECT"WARNINGDUAL POWER SUPPLYSOURCES: UTILITY GRIDAND PV SOLAR ELECTRIC SYSTEMTHE SIGN SHOULD BE PLACED ON THE OUTSIDE COVER IF THE MAINSERVICE DISCONNECT IS OPERABLE WITH THE SERVICE PANEL CLOSED.4. LABELS TO BE INSTALLED ON FACE OF THE UTILITY AC DISCONNECT:CUSTOMER OWNEDONSITE POWER GENERATIONSYSTEM DISCONNECT5. LABEL INSTALLATION AT INTERCONNECT BREAKER:WARNING:INVERTER CONNECTION.DO NOT RELOCATE THISOVERCURRENT DEVICE. A L L S I G N A G E M U S T B E P E R M A N E N T L Y A T T A C H E D A N D B E W E A T H E R R E S I S T A N T / S U N L I G H T R E S I S T A N T A N D C A N N O T B E H A N D - W R I T T E N . N E C 1 1 0 . 2 1 ( B ) 6. REFLE C T I V E P L A C A R D A T S E R V I C E S T A T I N G : 7. AT PV D I S C O N N E C T S W I T C H A S R E Q U I R E D P E R N E C 6 9 0 . 5 6 ( C ) ( 3 ) : 8. THE F O L L O W I N G S I G N M U S T B E P R O V I D E D ON THE O U T S I D E ( O R W I T H I N 3 ' O F ) T H E S E R V I C E PANELB O A R D , A S R E Q U I R E D P E R N E C 6 9 0 . 5 6 ( C ) ( 1 ) : 9 SIGNA G E R E Q U I R E D A T S E R V I C E P A N E L B O A R D P E R N E C 6 9 0 . 5 4 : 10 SIGN A G E R E Q U I R E D A T S T R I N G I N V E R T E R P E R N E C 6 9 0 . 5 3 : 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 R A P I D S H U T D O W N S W I T C H F O R S O L A R P V S Y S T E M T O T A L R A T E D A C A M P S : 6 0 A S Y S T E M A C V O L T A G E : 2 4 0 V DI R E C T C U R R E N T P H O T O V O L T A I C S O U R C E S Y S T E M D C V O L T A G E : 2 4 0 V M A X D C C I R C U I T C U R R E N T : 4 2 A M A X D C C U R R E N T P E R O P T I M I Z E R : 1 5 A JOHN MICHELSEN 85 OAK AVE REXBURG, ID 83440 208-516-6273 SCALE: NTS JOB NO.: 12140 N340/N335 Quality and Reliability Panasonic’s vertical integration, 21 years of experience manufacturing HIT® and 20 internal tests beyond those mandated by current standards provides extreme quality assurance. Higher Efficiency 20.3% Enables higher power output and greater energy yields. HIT® provides maximum production for your limited roof space. Enhanced Frame Design A new 40mm frame increases durability and strength, being able to handle loads of up to 5400Pa. Also, the water drainage system gives rain water and snow melt a place to go, reducing water stains and soiling. Less dirt on the module means more sunlight getting through to generate power. Low Degradation HIT “N-type” cells result in extremely Low Light Induced Degradation (LID) and zero Potential Induced Degradation (PID) which supports reliability and longevity. This technology reduces annual degradation to 0.26% compare to 0.70% in conventional panels, guaranteeing more power for the long haul. Our competitive advantages High Efficiency at High Temperatures As temperature increases, HIT® continues to perform at high levels due to the industry leading temperature coefficient of -0.258% /C. No other module even comes close to our temperature characteristics. That means more energy throughout the day. 25 Year Product and Performance Warranty** Industry leading 25 year product workmanship and performance warranty is backed by a century old company- Panasonic. Power output is guaranteed to 90.76% after 25 years, far greater than other companies. Panasonic’s unique heterojunction technology uses ultra-thinamorphous silicon layers. These thin dual layers reduce losses,resulting in higher energy output than conventional panels. Advanced bifacial cell designed for increased energy output.The cell utilizes sunlight reflected back from the rear sidematerial which captures more light and converted into energy. n-type crystalline siliconDouble-sided textured surface i-type amorphous layer Amorphous layer Transparent electrode (TCO) Lattice-type electrodes Finger Tab These amorphous silicon layersreduces the recombination ofelectrons to minimum level. Electrodes Ultra-thin amorphous silicon layer HIT® is a registered trademark of Panasonic Group + CAUTION! Please read the installation manual carefully before using the products. Used electrical and electronic products must not be mixed with general household waste. For proper treatment, recovery and recycling of old products, please take them to applicable collection points in accordance with your national legislation. Panasonic Eco Solutions of North America Two Riverfront Plaza, 5th Floor, Newark, NJ 07102panasonicHIT@us.panasonic.com business.panasonic.com/solarpanels All Rights Reserved © 2018 COPYRIGHT Panasonic Corporation Specifications are subject to change without notice 08/2018 RS181058DS_1.19 DEPENDENCE ON IRRADIANCE Reference data for model: VBHN330SA17(Cell temperature: 25°C) PERFORMANCE WARRANTY 97% 90.76% 80% More powerover 25 years N340/N335 ELECTRICAL SPECIFICATIONS Model VBHN340SA17 VBHN335SA17 Rated Maximum Power (Pmax)¹340W 335W Maximum Power Voltage (Vpm) 59.7V 59.4V Maximum Power Current (lpm)5.7A 5.65A Open Circuit Voltage (Voc) 71.3V 71V Short Circuit Current (lsc) 6.13A 6.08 Temperature Coefficient (Pmax) -0.258%/°C -0.258%/°C Temperature Coefficient (Voc) -0.17V/°C -0.17V/°C Temperature Coefficient (lsc) 3.37mA/°C 3.34mA/°C NOCT 44.0°C 44.0°C CEC PTC Rating 321.3 316.5 Cell Efficiency 22.85%22.52% Module Efficiency 20.3%20% Watts per Ft.²18.9W 18.6W Maximum System Voltage 600V 600V Maximum Series Fuse 15A 15A Warranted Tolerance (-/+)+10%/-0%*+10%/-0%* MECHANICAL SPECIFICATIONS Model VBHN340SA17 Internal Bypass Diodes 4 Bypass Diodes Module Area 18.02 Ft.² (1.67m²) Weight 41.89 Lbs (19kg) Dimensions LxWxH 62.6x41.5x1.6 in. (1590x1053x40 mm) Cable Length +Male/-Female 40.2/40.2 in. (1020/1020 mm) Cable Size / Type No. 12 AWG / PV Cable Connector Type2 Multi-Contact® Type IV (MC4™) Static Wind / Snow Load 112 PSF (5400Pa) Pallet Dimensions LxWxH 63.7x42.2x46.4 (Malaysia) 65.3x43.7x48.5 in. (USA) Quantity per Pallet / Pallet Weight 24 pcs./1049 Lbs. (476 kg) Quantity per 40' Container 672 pcs. Quantity per 20' Container 288 pcs. OPERATING CONDITIONS & SAFETY RATINGS Model VBHN340SA17 Operating Temperature -40°F to 185°F (-40°C to 85°C) Hail Safety Impact Velocity 1" hailstone (25mm) at 52 mph (23m/s) Safety & Rating Certifications UL 1703, cUL Certified by UL LLC.CEC, FSEC, ISO9001 UL 1703 Fire Classification Type 2 Limited Warranty 25** Yrs Workmanship and Power Output (Linear)*** Manufacturing Locations USA and Malaysia NOTE: Standard Test Conditions: Air mass 1.5; irradiance = 1000W/m²; cell temp. 25°C * Maximum power at delivery. For guarantee conditions, please check our guarantee document. ** Installation need to be registered through our website www.panasonicusahitwarranty.com within 60 days in order to receive twenty-five (25) year Product workmanship. Otherwise, Product Workmanship will be only fifteen (15) years. *** 1st year 97%, after 2nd year 0.26% annual degradation to year 25. 1 STC: Cell temp. 25°C, AM1.5, 1000W/m²2 Safety locking clip (PV-SSH4) is not supplied with the module. NOTE: Specifications and information above may change without notice. DIMENSIONS Unit: inches (mm) 13.514.9 *Please refer to the Installation Manual for different loads + IN V E R T E R S www.solaredge.us 12-25 Single Phase Inverter with HD-Wave Technology for North America SE3000H-US / SE3800H-US / SE5000H-US / SE6000H-US / SE7600H-US / SE10000H-US / SE11400H-US Optimized installation with HD-Wave technology Specifically designed to work with power optimizers Record-breaking efficiency Fixed voltage inverter for longer strings Integrated arc fault protection and rapid shutdown for NEC 2014 and 2017, per article 690.11 and 690.12 UL1741 SA certified, for CPUC Rule 21 grid compliance Extremely small High reliability without any electrolytic capacitors Built-in module-level monitoring Outdoor and indoor installation Optional: Revenue grade data, ANSI C12.20 Class 0.5 (0.5% accuracy) SE3000H-US SE3800H-US SE5000H-US SE6000H-US SE7600H-US SE10000H-US SE11400H-US OUTPUT Rated AC Power Output 3000 3800 @ 240V 3300 @ 208V 5000 6000 @ 240V 5000 @ 208V 7600 10000 11400 VA Max. AC Power Output 3000 3800 @ 240V 3300 @ 208V 5000 6000 @ 240V 5000 @ 208V 7600 10000 11400 VA AC Output Voltage Min.-Nom.-Max. (183 - 208 - 229)-3 -3 ---Vac AC Output Voltage Min.-Nom.-Max. (211 - 240 - 264) 3 3 3 3 3 3 3 Vac AC Frequency (Nominal)59.3 - 60 - 60.5(1)Hz Maximum Continuous Output Current 208V -16 -24 ---A Maximum Continuous Output Current @240V 12.5 16 21 25 32 42 47.5 A GFDI Threshold 1 AUtility Monitoring, Islanding Protection, C o u nt r y C o nfi g u ra b l e T h re s h o l d s Yes INPUT Maximum DC Power @240V 4650 5900 7750 9300 11800 15500 17650 W Maximum DC Power @208V -5100 -7750 --- Transformer-less, Ungrounded Yes Maximum Input Voltage 480 Vdc Nominal DC Input Voltage 380 400 Vdc Maximum Input Current 208V -9 -13.5 --- Maximum Input Current @240V 8.5 10.5 13.5 16.5 20 27 30.5 Adc Max. Input Short Circuit Current 45 Adc Reverse-Polarity Protection Yes Ground-Fault Isolation Detection 600k Sensitivity Maximum Inverter Efficiency 99 99.2 % CEC Weighted Efficiency 99 % Nighttime Power Consumption < 2.5 WADDITIONAL FEATURES Supported Communication Interfaces RS485, Ethernet, ZigBee (optional), Cellular (optional)Revenue Grade Data, ANSI C12.20 Optional(2) Rapid Shutdown - NEC 2014 and 2017 690.12 Automatic Rapid Shutdown upon AC Grid Disconnect STANDARD COMPLIANCE Safety UL1741, UL1741 SA, UL1699B, CSA C22.2, Canadian AFCI according to T.I.L. M-07 Grid Connection Standards IEEE1547, Rule 21, Rule 14 (HI) Emissions FCC Part 15 Class B INSTALLATION SPECIFICATIONS AC Output Conduit Size / AWG Range 3/4” minimum / 14-6 AWG 3/4” minimum /14-4 AWG DC Input Conduit Size / # of Strings / AWG Range 3/4” minimum / 1-2 strings / 14-6 AWG 3/4” minimum / 1-3 strings / 14-6 AWG Dimensions with Safety Switch (HxWxD) 17.7 x 14.6 x 6.8 / 450 x 370 x 174 21.3 x 14.6 x 7.3 / 540 x 370 x 185 in / mm Weight with Safety Switch 22 / 10 25.1 / 11.4 26.2 / 11.9 38.8 / 17.6 lb / kg Noise < 25 <50 dBA Cooling Natural Convection Natural convection Operating Temperature Range -13 to +140 / -25 to +60(3) (-40˚F / -40˚C option)(4)˚F / ˚C Protection Rating NEMA 3R (Inverter with Safety Switch) Single Phase Inverter with HD-Wave Technology for North America SE3000H-US / SE3800H-US / SE5000H-US / SE6000H-US/ SE7600H-US / SE10000H-US / SE11400H-US (1) For other regional settings please contact SolarEdge support (2) Revenue grade inverter P/N: SExxxxH-US000NNC2(3) For power de-rating information refer to: https://www.solaredge.com/sites/default/files/se-temperature-derating-note-na.pdf(4) -40 version P/N: SExxxxH-US000NNU4 © SolarEdge Technologies, Inc. All rights reserved. SOLAREDGE, the SolarEdge logo, OPTIMIZED BY SOLAREDGE are trademarks or registered trademarks of SolarEdge Technologies, Inc. All other trademarks mentioned herein are trademarks of their respective owners. Date: 07/2018/V01/ENG NAM. Subject to change without notice. PO W E R O P T I M I Z E R SolarEdge Power Optimizer Module Add-On For North America P320 / P370 / P400 / P405 / P505 Specifically designed to work with SolarEdge inverters Up to 25% more energy Superior efficiency (99.5%) Mitigates all types of module mismatch losses, from manufacturing tolerance to partial shading Flexible system design for maximum space utilization Fast installation with a single bolt Next generation maintenance with module-level monitoring Compliant with arc fault protection and rapid shutdown NEC requirements (when installed as part of the SolarEdge system) Module-level voltage shutdown for installer and firefighter safety PV power optimization at the module-level www.solaredge.usUSA-CANADA-GERMANY-UK-ITALY-THE NETHERLANDS-JAPAN-CHINA-AUSTRALIA-ISRAEL-FRANCE-BELGIUM-TURKEY-INDIA-BULGARIA-ROMANIA-HUNGARY- SWEDEN-SOUTH AFRICA-POLAND-CZECH REPUBLIC OPTIMIZER MODEL (typical module compatibility) P320 (for high-power 60-cell modules) P370 (for higher-power 60 and 72-cell modules) P400 (for 72 & 96-cell modules) P405 (for thin film modules) P505 (for highercurrent modules) INPUT Rated Input DC Power(1)320 370 400 405 505 W Absolute Maximum Input Voltage (Voc at lowest temperature) 48 60 80 125 83 Vdc MPPT Operating Range 8 - 48 8 - 60 8 - 80 12.5 - 105 12.5 - 83 Vdc Maximum Short Circuit Current (Isc) 11 10.1 14 Adc Maximum DC Input Current 13.75 12.63 17.5 Adc Maximum Efficiency 99.5 % Weighted Efficiency 98.8 98.6 % Overvoltage Category II OUTPUT DURING OPERATION (POWER OPTIMIZER CONNECTED TO OPERATING SOLAREDGE INVERTER) Maximum Output Current 15 Adc Maximum Output Voltage 60 85 Vdc OUTPUT DURING STANDBY (POWER OPTIMIZER DISCONNECTED FROM SOLAREDGE INVERTER OR SOLAREDGE INVERTER OFF) Safety Output Voltage per Power Optimizer 1 ± 0.1 Vdc STANDARD COMPLIANCE EMC FCC Part15 Class B, IEC61000-6-2, IEC61000-6-3 Safety IEC62109-1 (class II safety), UL1741 RoHS Yes INSTALLATION SPECIFICATIONS Maximum Allowed System Voltage 1000 Vdc Compatible inverters All SolarEdge Single Phase and Three Phase inverters Dimensions (W x L x H)128 x 152 x 28 / 5 x 5.97 x 1.1 128 x 152 x 36 / 5 x 5.97 x 1.42 128 x 152 x 50 / 5 x 5.97 x 1.96 128 x 152 x 59 / 5 x 5.97 x 2.32 mm / in Weight (including cables)630 / 1.4 750 / 1.7 845 / 1.9 1064 / 2.3 gr / lb Input Connector MC4(2) Output Wire Type / Connector Double Insulated; MC4 Output Wire Length 0.95 / 3.0 1.2 / 3.9 m / ft Operating Temperature Range -40 - +85 / -40 - +185 ˚C / ˚F Protection Rating IP68 / NEMA6P Relative Humidity 0 - 100 % (1) Rated STC power of the module. Module of up to +5% power tolerance allowed. (2) For other connector types please contact SolarEdge SolarEdge Power Optimizer Module Add-On for North America P320 / P370 / P400 / P405 / P505 PV SYSTEM DESIGN USING A SOLAREDGE INVERTER(3)(4) SINGLE PHASE HD-WAVE SINGLE PHASE THREE PHASE 208V THREE PHASE 480V Minimum String Length (Power Optimizers) P320, P370, P400 8 10 18 P405 / P505 6 8 14 Maximum String Length (Power Optimizers)25 25 50(5) Maximum Power per String 5700 (6000 with SE7600H-US, SE10000H-US) 5250 6000 12750 W Parallel Strings of Different Lengths or Orientations Yes © SolarEdge Technologies, Inc. All rights reserved. SOLAREDGE, the SolarEdge logo, OPTIMIZED BY SOLAREDGE are trademarks or registered trademarks of SolarEdge Technologies, Inc. All other trademarks mentioned herein are trademarks of their respective owners. Date: 03/2018/V01/ENG NAM. Subject to change without notice. (3) For detailed string sizing information refer to: http://www.solaredge.com/sites/default/files/string_sizing_na.pdf.(4) It is not allowed to mix P405/P505 with P320/P370/P400/P600/P700/P800 in one string.(5) A string with more than 30 optimizers does not meet NEC rapid shutdown requirements; safety voltage will be above the 30V requirement sn a p n r a c k . c o m Ul t r a R a i l In d u s t r y l e a d i n g W i r e Ma n a g e m e n t S o l u t i o n s Si n g l e T o o l I n s t a l l a t i o n Mo u n t s a v a i l a b l e f o r a l l ro o f t y p e s Al l S n a p N r a c k M o d u l e Cl a m p s & A c c e s s o r i e s ar e c o m p a t i b l e w i t h bo t h r a i i l p r o fi l e s St a r t I n s t a l l i n g U l t r a R a i l T o d a y UR - 4 0 UR - 6 0 Th e U l t i m a t e V a l u e i n R o o f t o p S o l a r So l a r M o u n t i n g S o l u t i o n s © 2 0 1 6 b y S n a p N r a c k S o l a r M o u n t i n g S o l u t i o n s . A l l r i g h t s r e s e r v e d 8 7 7 - 7 3 2 - 2 8 6 0 ww w . s n a p n r a c k . c o m contact@snapnrack.com SnapNrack_Ultra Rail Sales Brochure_v.1.4 Sn a p N r a c k S o l a r M o u n t i n g S o l u t i o n s a r e e n g i n e e r e d t o o p t i m i z e m a t e r i a l u s e a n d la b o r r e s o u r c e s a n d i m p r o v e o v e r a l l i n s t a l l a t i o n q u a l i t y a n d s a f e t y . Qu a l i t y . I n n o v a t i v e . S u p e r i o r . Unparalleled Wire Management • Open rail channel provides room for running wires resulting in a long-lasting quality install • Industry best wire management o ering includes Junction Boxes, Universal Wire Clamps, MLPE Attachment Kits, and Conduit Clamps • System is fully bonded and listed to UL 2703 Standard © 2 0 1 9 b y S n a p N r a c k S o l a r M o u n t i n g S o l u t i o n s . A l l r i g h t s r e s e r v e d 8 7 7 - 7 3 2 - 2 8 6 0 ww w . s n a p n r a c k . c o m c o n t a c t @ s n a p n r a c k . c o m Sn a p N r a c k U l t r a R a i l S y s t e m A s l e e k , s t r a i g h t f o r w a r d r a i l s o l u t i o n f o r m o u n t i n g s o l a r m o d u l e s o n a l l r o o f t y p e s . U l t r a R a i l fe a t u r e s t w o r a i l p r o fi l e s ; U R - 4 0 i s a l i g h t w e i g h t r a i l p r o fi l e t h a t i s s u i t a b l e f o r m o s t g e o g r a p h i c re g i o n s a n d m a i n t a i n s a l l t h e g r e a t f e a t u r e s o f S n a p N r a c k r a i l , w h i l e U R - 6 0 i s a h e a v i e r d u t y r a i l pr o fi l e t h a t p r o v i d e s a l a r g e r r a i l c h a n n e l a n d i n c r e a s e d s p a n c a p a b i l i t i e s . B o t h a r e c o m p a t i b l e wi t h a l l e x i s t i n g m o u n t s , m o d u l e c l a m p s , a n d a c c e s s o r i e s f o r e a s e o f i n s t a l l . Th e E n t i r e S y s t e m i s a S n a p t o I n s t a l l • Ne w U l t r a R a i l M o u n t s i n c l u d e s n a p - i n b r a c k e t s fo r a t t a c h i n g r a i l • Co m p a t i b l e w i t h a l l t h e S n a p N r a c k M i d C l a m p s an d E n d C l a m p s c u s t o m e r s l o v e • Un i v e r s a l E n d C l a m p s a n d s n a p - i n E n d C a p s pr o v i d e a c l e a n l o o k t o t h e a r r a y e d g e He a v y D u t y U R - 6 0 R a i l • UR - 6 0 r a i l p r o fi l e p r o v i d e s i n c r e a s e d s p a n ca p a b i l i t i e s f o r h i g h w i n d s p e e d s a n d s n o w lo a d s • Ta l l e r , s t r o n g e r r a i l p r o fi l e i n c l u d e s p r o fi l e - sp e c i fi c r a i l s p l i c e a n d e n d c a p • Al l e x i s t i n g m o u n t s , m o d u l e c l a m p s , a n d ac c e s s o r i e s a r e r e t a i n e d f o r t h e s a m e g r e a t in s t a l l e x p e r i e n c e In s t a l l w i t h f l a s h i n g s sn a p n r a c k . c o m Ce r t i f i c a t i o n D e t a i l s Sn a p N r a c k U l t r a R a i l s y s t e m h a s b e e n e v a l u a t e d b y U n d e r w r i t e r s L a b o r a t o r i e s ( U L ) a n d L i s t e d t o U L / A N S I S t a n d a r d 2 7 0 3 fo r G r o u n d i n g / B o n d i n g , M e c h a n i c a l L o a d i n g , a n d F i r e C l a s s i f i c a t i o n . Th e U l t r a R a i l s y s t e m 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 U L S t a n d a r d 2 7 0 3 S e c t i o n 9 . 1 E x c e p t i o n , w h i c h p e r m i t s ac c e s s i b l e c o m p o n e n t s t h a t ar e n o t p a r t of t h e f a u l t c u r r e n t g r o u n d p a t h t o no t b e e l e c t r i c a l l y b o n d e d t o t h e m o u n t i n g sy s t e m ( e . g . r o o f a t t a c h m e n t s , a r r a y s k i r t , e t c . ) . F o r m o r e d e t a i l s o n t h e i n t e g r a t e d g r o u n d i n g f u n c t i o n a l i t y s e e t h e Gr o u n d i n g S p e c i f i c a t i o n s s e c t i o n . Th i s r a c k i n g s y s t e m m a y b e u s e d t o g r o u n d a n d / o r m o u n t a P V m o d u l e c o m p l y i n g w i t h U L 1 7 0 3 o n l y w h e n t h e s p e c i f i c mo d u l e h a s b e e n e v a l u a t e d f o r g r o u n d i n g a n d / o r m o u n t i n g i n c o m p l i a n c e w i t h t h e i n c l u d e d i n s t r u c t i o n s . S e e t h e Gr o u n d i n g Sp e c i f i c a t i o n s f o r t h e l i s t o f m o d u l e s t e s t e d w i t h t h e U l t r a R a i l s y s t e m f o r i n t e g r a t e d g r o u n d i n g . Gr o u n d L u g s h a v e b e e n e v a l u a t e d t o b o t h U L 4 6 7 a n d U L 2 7 0 3 L i s t i n g r e q u i r e m e n t s . Ul t r a R a i l h a s b e e n l i s t e d w i t h a n u m b e r o f M o d u l e L e v e l P o w e r E l e c t r o n i c ( M L P E ) d e v i c e s . A c o m p l e t e l i s t c a n b e f o u n d i n th e Gr o u n d i n g S p e c i f i c a t i o n s s e c t i o n . Th e m o u n t i n g s y s t e m B o n d i n g L i s t i n g i s o n l y v a l i d w h e n i n s t a l l e d w i t h a N o n - S e p a r a t e l y D e r i v e d P V s y s t e m . T h e P V s y s t e m is r e q u i r e d t o h a v e a d i r e c t e l e c t r i c a l c o n n e c t i o n t o a n o t h e r s o u r c e , s u c h a s c o n n e c t i n g t o t h e g r i d v i a a g r i d i n t e r a c t i v e in v e r t e r . Sn a p N r a c k r e c o m m e n d s t h a t b a r e c o p p e r n e v e r c o m e i n t o c o n t a c t w i t h a l u m i n u m . Gr o u n d i n g / B o n d i n g Th e U l t r a R a i l s y s t e m i s L i s t e d f o r m e c h a n i c a l l o a d i n g f o r d i f f e r e n t l o a d r a t i n g s d e p e n d i n g o n t h e m o u n t i n g c o n f i g u r a t i o n an d P V m o d u l e i n s t a l l e d . F o r m o r e d e t a i l s o n t h e m e c h a n i c a l l o a d i n g d e t a i l s s e e t h e Me c h a n i c a l L o a d i n g S p e c i f i c a t i o n s se c t i o n . Sn a p N r a c k e n g i n e e r e d s y s t e m s s h o u l d o n l y b e u s e d w i t h S n a p N r a c k c o m p o n e n t s a n d h a r d w a r e . A n y a p p l i c a t i o n o u t s i d e of t h o s e s p e c i f i e d i n t h i s I n s t a l l a t i o n M a n u a l a n d t h e S t r u c t u r a l E n g i n e e r i n g R e p o r t m a y v o i d t h e w a r r a n t y a n d s t r u c t u r a l ce r t i f i c a t i o n c o u l d b e c o m e i n v a l i d . If t h e m o d u l e c l a m p s h a v e b e e n e n g a g e d a n d n e e d t o b e l o o s e n e d a n d r e e n g a g e d , S n a p N r a c k r e c o m m e n d s m o v i n g t h e mo d u l e f r a m e 3 m m t o e n g a g e t h e b o n d i n g p i n i n a n e w l o c a t i o n . Th e U L L i s t i n g c o v e r s m e c h a n i c a l l o a d r a t i n g s f o r t h e v a r i o u s s p a n l e n g t h s , m o d u l e o r i e n t a t i o n s a n d p o s i t i v e , n e g a t i v e , a n d si d e l o a d r a t i n g s . T h e s e v a l u e s c a n b e f o u n d i n t h e Me c h a n i c a l L o a d i n g S p e c i f i c a t i o n s s e c t i o n . Sn a p N r a c k r e c o m m e n d s a p e r i o d i c r e - i n s p e c t i o n o f t h e c o m p l e t e d i n s t a l l a t i o n f o r l o o s e c o m p o n e n t s , l o o s e f a s t e n e r s , a n d an y c o r r o s i o n , s u c h t h a t i f f o u n d , t h e a f f e c t e d c o m p o n e n t s a r e t o b e i m m e d i a t e l y r e p l a c e d . Me c h a n i c a l L o a d i n g Fi r e Th e U l t r a R a i l s y s t e m h a s b e e n e v a l u a t e d f o r a C l a s s A S y s t e m F i r e C l a s s i f i c a t i o n f o r a S t e e p - S l o p e d R o o f ( ≥ 2 : 1 2 p i t c h ) us i n g T y p e 1 a n d T y p e 2 m o d u l e s . I n o r d e r t o m a i n t a i n t h e S y s t e m C l a s s i f i c a t i o n , m o d u l e s a r e c l a m p e d t o t h e m o u n t i n g r a i l s be t w e e n 0 a n d 1 2 i n c h e s f r o m t h e t o p a n d b o t t o m e d g e s o f t h e m o d u l e . Th e U l t r a R a i l s y s t e m h a s b e e n e v a l u a t e d f o r a C l a s s A S y s t e m F i r e C l a s s i f i c a t i o n f o r a L o w - S l o p e d R o o f ( < 2 : 1 2 p i t c h ) u s i n g Ty p e 1 a n d T y p e 2 m o d u l e s . I n o r d e r t o m a i n t a i n t h e S y s t e m C l a s s i f i c a t i o n , m o d u l e s a r e c l a m p e d t o t h e m o u n t i n g r a i l s b e - tw e e n 0 a n d 1 6 . 3 i n c h e s f r o m t h e t o p a n d b o t t o m e d g e s o f t h e m o d u l e . Th e o p t i o n a l A r r a y S k i r t a c c e s s o r y h a s a l s o b e e n e v a l u a t e d a n d t h e U l t r a R a i l s y s t e m w i l l m a i n t a i n t h e C l a s s A S y s t e m F i r e Cl a s s i f i c a t i o n d e t a i l e d a b o v e i f i n s t a l l e d w i t h t h e S k i r t . Be c a u s e t h e s y s t e m w a s t e s t e d a t 5 i n c h e s a b o v e t h e t e s t r o o f f i x t u r e U l t r a R a i l c a n b e i n s t a l l e d w i t h o u t a n y h e i g h t r e s t r i c - ti o n s a n d w i l l m a i n t a i n t h e C l a s s A S y s t e m F i r e C l a s s i f i c a t i o n . S e e Ra i l I n s t a l l a t i o n s e c t i o n f o r p o t e n t i a l m o d u l e - s p e c i f i c he i g h t r e s t r i c t i o n s d u e t o m o d u l e t e m p e r a t u r e . sn a p n r a c k . c o m 56 Gr o u n d i n g S p e c i f i c a t i o n s Ul t r a R a i l h a s b e e n t e s t e d w i t h t h e f o l l o w i n g U L L i s t e d m o d u l e s : Th e U l t r a R a i l S y s t e m e m p l o y s t o p - d o w n c l a m p s w h i c h h a v e b e e n e v a l u a t e d f o r f r a m e - t o - s y s t e m b o n d i n g , a t s p e c i f i c m o u n t i n g to r q u e s a n d w i t h t h e s p e c i f i c m o d u l e s l i s t e d b e l o w . T h e s y s t e m h a s b e e n a s s e s s e d t o a m a x i m u m O v e r - C u r r e n t D e v i c e ( O C D ) pr o t e c t i o n l e v e l o f 2 0 a m p s . T h e U L f i l e n u m b e r i s i n c l u d e d i n p a r e n t h e s e s b e l o w . Hy u n d a i H e a v y I n d u s t r i e s C o L t d ( E 3 2 5 0 0 5 ) - H i S - M X X X R G S e r i e s w h e r e X X X i s 2 3 5 t o 2 7 5 ; H i S - S X X X R G w h e r e X X X i s 2 4 5 t o 29 5 ; H i S - S X X X R W w h e r e X X X i s 2 5 0 t o 2 6 5 ; H i S - M X X X M G w h e r e X X X i s 2 1 0 t o 2 7 0 ; H i S - S X X X M G w h e r e X X X i s 2 2 0 t o 2 7 5 . A l l ma y b e f o l l o w e d b y t h e s u f f i x B K o r b l a n k . Ji n k o S o l a r ( E 3 6 2 4 7 9 ) - J K M X X X P - 6 0 , J K M X X X P P - 6 0 , J K M X X X P - 6 0 - V , J K M X X X P - 6 0 - J 4 , J K M X X X P - 6 0 B - J 4 w h e r e X X X i s 2 0 0 to 2 9 0 ; J K M X X X P - 7 2 , J K M X X X P P - 7 2 , J K M X X X P - 7 2 - V , J K M X X X P P - 7 2 - V w h e r e X X X i s 2 5 0 t o 3 6 0 ; J K M X X X M - 6 0 w h e r e X X X is 2 0 0 t o 3 0 5 ; J K M X X X M - 7 2 w h e r e X X X i s 2 5 0 t o 3 6 5 ; J K M X X X M - 6 0 L w h e r e X X X i s 3 0 5 - 3 2 5 ; J K M X X X M - 6 0 H B L ( 3 1 0 - 3 3 0 ) ; JK M X X X M - 7 2 L - V ( 3 7 0 - 3 9 0 ) ; J K M X X X M - 7 2 H L - V ( 3 8 0 - 4 0 0 ) . Ky o c e r a ( E 4 6 7 1 5 0 ) - K U - 6 0 1 0 0 0 V S e r i e s - K U X X X , w h e r e X X X i s 2 5 0 t o 2 7 5 , f o l l o w e d - 6 B C A , - 6 B F A , - 6 B P A , - 6 D C A , - 6 D F A , -6 D P A , - 6 M C A , - 6 M P A , - 6 X C A , - 6 X P A , - 6 Z C A , - 6 Z P A , - 6 Z P B , - 6 Z C B , - 6 Z P C , - 6 Z C C , - 6 Z P D , - 6 Z C D , - 6 Z P E , 6 Z C E , - 6 M P C , - 6 M C C , -6 M P B o r - 6 M C B ; K U - 8 0 1 0 0 0 V S e r i e s - K U X X X , w h e r e X X X i s 3 1 5 t o 3 3 5 , f o l l o w e d b y - 8 B C A , - 8 B F A o r - 8 B P A . LG ( E 3 2 9 7 2 5 ) – L G X X X Q 1 C - A 5 w h e r e X X X i s 3 4 0 t o 3 8 5 ; L G X X X Q 1 K - A 5 w h e r e X X X i s 3 1 5 t o 3 7 5 ; L G X X X N 1 C - V 5 w h e r e X X X i s 32 0 t o 3 5 0 ; L G X X X N 1 K - V 5 w h e r e X X X i s 3 2 0 t o 3 4 0 ; L G X X X Q 1 C - V 5 w h e r e X X X i s 3 4 0 t o 3 7 5 ; L G X X X Q 1 K w h e r e X X X i s 3 5 0 t o 36 5 . Pa n a s o n i c ( E 1 8 1 5 4 0 ) – V B H N X X X S A 1 6 w h e r e X X X i s 3 2 0 t o 3 3 5 ; V B H N X X X K A 0 1 a n d V B H N X X X K A 0 2 w h e r e X X X i s 3 1 0 t o 3 2 5 , VB H N X X X K A 0 3 a n d V B H N X X X K A 0 4 w h e r e X X X i s 3 1 0 t o 3 2 5 ; V B H N X X X S A 1 7 a n d V B H N X X X S A 1 8 w h e r e X X X i s 3 2 5 t o 3 3 5 ; VB H N X X X S A 1 7 E w h e r e X X X i s 3 2 5 t o 3 3 0 . RE C S o l a r A S ( E 3 0 8 1 4 7 ) - R E C X X X , w h e r e X X X i s 2 1 4 t o 2 7 0 , a l l m a y b e f o l l o w e d b y P E , P E ( B L K ) , P E - U S , P E - U S ( B L K ) , P E Q 2 o r PE Q 3 . Re n e s o l a J i a n g s u L t d ( E 3 1 2 6 3 7 ) - J C X X X M - 2 4 / B b S e r i e s w h e r e X X X i s 2 0 0 t o 2 7 0 ; J C X X X M - 2 4 / B B h S e r i e s w h e r e X X X i s 2 3 5 to 2 7 0 . Su n i v a I n c ( E 3 3 3 7 0 9 ) - M V X - X X X - 6 0 - 5 - Y Y Y w h e r e X X X i s 2 3 5 t o 2 6 5 a n d Y Y Y i s 7 0 1 o r 7 B 1 ; O P T - X X X - 6 0 - 4 - Y Y Y w h e r e X X X i s 25 0 t o 2 7 5 a n d Y Y Y i s 8 0 0 o r 8 B 0 . *S u n p o w e r ( E 2 4 6 4 2 3 ) - G e n 3 o r G e n 5 f r a m e m o d e l s S P R - X Y Y - # # # w h e r e Y Y r e p r e s e n t s n u m b e r s 1 8 , 1 9 , 2 0 , 2 1 o r 2 2 , a n d ## # r e p r e s e n t s a n y n u m b e r f r o m 3 6 5 t o 3 1 0 a n d 2 7 4 t o 2 3 3 ; G e n 3 o r G e n 5 f r a m e m o d e l s S P R - E Y Y - # # # w h e r e Y Y r e p r e s e n t s nu m b e r s 1 8 , 1 9 , 2 0 , 2 1 o r 2 2 , a n d # # # r e p r e s e n t s a n y n u m b e r f r o m 3 4 5 t o 2 8 5 a n d 2 5 0 t o 2 2 5 . Ta l e s u n S o l a r ( E 3 5 9 3 4 9 ) – T P 6 6 0 P - X X X w h e r e X X X i s 2 3 5 t o 2 8 5 ; T P 6 6 0 M - X X X w h e r e X X X i s 2 4 0 t o 3 0 0 ; T P 6 7 2 P - X X X w h e r e XX X i s 2 8 0 t o 3 4 5 ; T P 6 7 2 M - X X X w h e r e X X X i s 2 9 0 t o 3 6 0 ; T P 6 7 2 M - X X X w h e r e X X X i s 3 6 0 ; T P 6 6 0 M - X X X w h e r e X X X i s 2 9 5 - 30 0 . GR O U N D I N G M A R K I N G D E T A I L S Al l c o m p o n e n t s i n c l u d e d i n t h e U l t r a R a i l UL 2 7 0 3 L i s t i n g f o r g r o u n d i n g / b o n d i n g a r e pa c k a g e d a n d m a r k e d w i t h t h e U L l o g o , Sn a p N r a c k F i l e E 3 5 9 3 1 3 , a n d “ P V M o u n t i n g Sy s t e m ” Th e S n a p N r a c k G r o u n d L u g i s m a r k e d w i t h th e g r o u n d s y m b o l Il s c o G r o u n d L u g s h a v e g r e e n c o l o r e d s e t sc r e w s o r b o l t s t o i n d i c a t e c o n n e c t i o n t o t h e gr o u n d i n g e l e c t r o d e c o n d u c t o r snapnrack.com 57 Gr o u n d i n g S p e c i f i c a t i o n s Ta l e s u n S o l a r ( E 3 4 9 6 3 8 ) – T P 6 6 0 P - X X X w h e r e X X X i s 2 1 0 t o 2 5 5 ; T P 6 6 0 M - X X X w h e r e X X X i s 2 1 5 t o 2 6 0 ; T P 6 7 2 P - X X X w h e r e XX X i s 2 6 0 t o 3 0 0 ; T P 6 7 2 M - X X X w h e r e X X X i s 2 7 0 t o 3 1 0 ; a l l m a y b e f o l l o w e d b y “ B ” . Tr i n a S o l a r L t d ( E 3 0 6 5 1 5 ) – T S M - X X X P A 0 5 , T S M - X X X P A 0 5 . 0 5 , T S M - X X X P A 0 5 . 0 8 , w h e r e X X X i s 2 1 5 t o 2 6 0 ; T S M - X X X P D 0 5 , TS M - X X X P D 0 5 . 0 5 , T S M - X X X P D 0 5 . 0 8 w h e r e X X X i s 2 4 0 t o 2 8 0 ; T S M - X X X P D 0 5 . 0 8 D w h e r e X X X i s 2 4 5 t o 2 7 5 ; T S M - XX X X D D 0 5 A ( I I ) , T S M - X X X D D 0 5 A . 0 5 ( I I ) , T S M - X X X D D 0 5 A . 0 8 ( I I ) w h e r e X X X i s 2 6 0 t o 3 0 0 . A l l m a y b e f o l l o w e d b y B l a c k o r Wh i t e . Yi n g l i E n e r g y ( C h i n a ) C o L t d ( E 3 2 0 0 6 6 ) – Y L X X X P - 2 9 b w h e r e X X X i s 2 1 5 t o 2 6 0 ; Y L X X X A - 2 9 b w h e r e X X X i s 2 2 0 t o 2 5 5 . NR T L L i s t e d P V M o d u l e s : Bo v i e t S o l a r - B V M 6 6 1 0 P - X X X w h e r e X X X i s 2 2 5 t o 2 7 5 ; B V M 6 6 1 0 M - X X X w h e r e X X X i s 2 3 5 t o 2 8 0 ; B V M 6 6 1 2 P - X X X w h e r e X X X is 2 7 0 t o 3 3 0 ; B V M 6 6 1 2 M - X X X w h e r e X X X i s 2 8 0 t o 3 4 0 . Ca n a d i a n S o l a r - C S 6 P - X X X - P , C S 6 P - X X X - M w h e r e X X X i s 2 0 0 t o 3 0 0 ; C S 6 P - X X X - P - S D , C S 6 K - X X X - P - S D w h e r e X X X i s 2 4 0 t o 30 0 ; C S 6 K - X X X - M , C S 6 K - X X X - M S , C S 6 K - X X X - M - S D w h e r e X X X i s 2 4 0 t o 3 0 5 ; C S 6 K - X X X - P w h e r e X X X i s 2 2 0 t o 3 0 0 ; C S 6 X - XX X - P w h e r e X X X i s 2 5 0 t o 3 6 0 ; C S 6 V - X X X - M w h e r e X X X i s 2 1 5 t o 2 2 5 ; C S 6 V - X X X - P w h e r e X X X i s 2 5 0 t o 2 5 5 ; C S 3 K - X X X - P wh e r e X X X i s 2 5 0 t o 3 1 0 ; C S 3 K - X X X - M S w h e r e X X X i s 2 8 0 t o 3 3 0 ; C S 1 K - X X X - M S w h e r e X X X i s 2 8 5 t o 3 4 5 , C S 1 H - X X X - M S , C S 1 H - XX X - M S - A B w h e r e X X X i s 3 1 0 t o 3 5 0 . ET S o l a r - E T - P 6 6 0 X X X B B w h e r e X X X i s 2 0 0 t o 2 6 5 ; E T - P 6 6 0 X X X W B w h e r e X X X i s 2 0 0 t o 2 6 5 ; E T - P 6 6 0 X X X W W w h e r e X X X i s 20 0 t o 2 6 5 ; E T - P 6 6 0 X X X W W G w h e r e X X X i s 2 3 5 t o 2 6 5 ; P 6 6 0 X X X W B / W W w h e r e X X X i s 2 0 0 t o 2 6 5 a n d m a y b e f o l l o w e d b y WB o r W W ; P 6 6 0 X X X W W G w h e r e X X X i s 2 4 0 t o 2 5 0 ; M 6 6 0 X X X B B w h e r e X X X i s 2 5 0 t o 2 6 5 ; M 6 6 0 X X X W W w h e r e X X X i s 2 0 0 to 2 7 0 . *H a n w h a Q C e l l s - B . L I N E P L U S B F R - G 4 . 1 - X X X , B . L I N E P R O B F R - G 4 . 1 - X X X , Q . B A S E G Y - X X X , Q . P E A K G 4 - X X X , Q . P L U S B F R - G3 . 1 - X X X , Q . P L U S B F R - G 4 - X X X , Q . P L U S B F R - G 4 . 1 - X X X , Q . P L U S B F R - G 4 . 1 / T A A - X X X , Q . P L U S B R F - G Y - X X X , Q . P L U S G Y - X X X , Q. P L U S G 4 - X X X , Q . P R O B F R - G 4 - X X X , Q . P R O B F R - G 4 . 1 - X X X , Q . P R O B F R - G 4 . 3 - X X X , Q . P R O B F R - G Y - X X X , Q . P R O B L K - G Y - X X , Q. P R O G 4 - X X X , Q . P R O G Y - X X X , Q . P R O G Y / S C - X X X , w h e r e X X X i s 2 4 5 t o 2 9 5 ; Q . P E A K B L K - G 3 . 1 - X X X , Q . P E A K B L K - G 4 . 1 - X X X , Q. P E A K B L K - G 4 . 1 / T A A - X X X , Q . P E A K G 3 . 1 - X X X , Q . P E A K G 4 . 1 - X X X , Q . P E A K G 4 . 1 / M A X - X X X , Q . P E A K G 4 . 1 / T A A - X X X w h e r e X X X is 2 7 0 t o 3 2 5 ; Q . P E A K D U O B L K - G 5 - X X X , Q . P E A K D U O G 5 - X X X , Q . P L U S D U O - G 5 - X X X w h e r e X X X i s 2 9 0 t o 3 6 0 ; Q . P E A K DU O - G 7 - X X X , Q . P E A K D U O - G 7 . 2 - X X X w h e r e X X X i s 3 1 0 t o 3 5 0 ; Q . P E A K D U O - B L K - G 7 - X X X w h e r e X X X i s 2 9 0 t o 3 5 0 ; Q . P E A K DU O - G 6 - X X X , Q . P E A K D U O - G 6 + - X X X w h e r e X X X i s 3 2 0 t o 3 6 0 ; Q . P E A K D U O - B L K - G 6 - X X X , Q . P E A K D U O - B L K - G 6 + - X X X w h e r e XX X i s 3 1 0 t o 3 5 0 ; Q . P E A K D U O - G 8 - X X X , Q . P E A K D U O - B L K - G 8 - X X X , Q . P E A K D U O - G 8 + - X X X , Q . P E A K D U O - B L K - G 8 + - X X X wh e r e X X X i s 2 9 0 t o 3 6 0 ; Q . P L U S L - G 4 - X X X , Q . P L U S L - G 4 . 1 - X X X , Q . P L U S L - G 4 . 2 - X X X w h e r e X X X i s 2 8 0 t o 3 5 5 ; Q . P E A K L - G 4 . 1 - XX X , Q . P E A K L - G 4 . 2 - X X X w h e r e X X X i s 3 3 0 - 3 9 0 ; Q . P L U S D U O - L - G 5 - X X X , Q . P L U S D U O - L - G 5 . 1 - X X X , Q . P L U S D U O - L - G 5 . 2 - X X X , Q. P L U S D U O - L - G 5 . 3 - X X X w h e r e X X X i s 3 4 0 t o 4 2 5 ; Q . P E A K D U O - L - G 5 . 2 - X X X , Q . P E A K D U O - L - G 5 . 3 - X X X w h e r e X X X i s 3 6 0 t o 42 5 ; Q . P E A K D U O - L - G 7 - X X X , Q . P E A K D U O - L - G 7 . 1 - X X X , Q . P E A K D U O - L - G 7 . 2 - X X X , Q . P E A K D U O - L - G 7 . 3 - X X X w h e r e X X X i s 3 6 0 to 4 1 5 ; Q . P E A K D U O - L - G 6 - X X X , Q . P E A K D U O - L - G 6 . 2 - X X X , Q . P E A K D U O - L - G 6 . 3 - X X X , Q . P E A K D U O - L - G 8 - X X X , Q . P E A K D U O - L - G8 . 1 - X X X , Q . P E A K D U O - L - G 8 . 2 - X X X , Q . P E A K D U O - L - G 8 . 3 - X X X w h e r e X X X i s 3 6 0 t o 4 3 0 . Ha n w h a S o l a r O n e - H S L 6 0 P 6 - P B - X - Y Y Y Q w h e r e X i s 2 o r 4 , a n d Y Y Y i s 2 3 0 t o 2 7 0 , m a y b e f o l l o w e d b y a d d i t i o n a l s u f f i x e s . JA S o l a r - J A P 6 - 6 0 - X X X / 3 B B w h e r e X X X i s 2 3 5 t o 2 6 5 ; J A M 6 - 6 0 - X X X / S I w h e r e X X X i s 2 5 0 t o 2 7 0 ; J A P 7 2 S 0 1 - X X X / S C w h e r e XX X i s 3 1 5 t o 3 3 5 ; J A P 6 ( k ) - 7 2 - X X X / 4 B B w h e r e X X X i s 3 0 5 t o 3 2 5 . LG E l e c t r o n i c s I n c . - L G X X X S 1 C - G 4 w h e r e X X X i s 2 5 0 t o 3 0 0 ; L G X X X N 1 K - G 4 w h e r e X X X i s 2 8 0 t o 3 0 0 ; L G X X X N 1 C - G 4 wh e r e X X X i s 2 8 0 t o 3 4 0 ; L G X X X N 2 C - G 4 , L G X X X N 2 W - G 4 , w h e r e X X X i s 3 6 0 t o 3 9 5 ; L G X X X N 2 K - G 4 , w h e r e X X X i s 3 6 0 t o 38 5 ; L G X X X S 2 C - G 4 , L G X X X S 2 W - G 4 , w h e r e X X X i s 3 0 0 t o 3 6 0 ; L G X X X N 2 C - B 3 , L G X X X N 2 W - B 3 , w h e r e X X X i s 3 3 0 t o 4 0 0 ; LG X X X S 1 C - A 5 w h e r e X X X i s 2 8 0 t o 3 2 0 ; L G X X X N 1 C - A 5 w h e r e X X X i s 3 2 0 t o 3 4 5 ; L G X X X N 1 K - A 5 w h e r e X X X i s 3 1 0 t o 3 3 5 . Lo n g i G r e e n E n e r g y T e c h n o l o g y C o . , L t d . : L R 6 - 6 0 - X X X M , L R 6 - 6 0 B K - X X X M , L R 6 0 - H V - X X X M , w h e r e X X X i s 2 7 0 t o 3 0 0 ; L R 6 - 60 P B - X X X M , L R 6 - 6 0 P E - X X X M , L R 6 - 6 0 P H - X X X M , w h e r e X X X i s 2 8 0 t o 3 2 0 ; L R 6 - 6 0 H P B - X X X M w h e r e X X X i s 2 9 5 t o 3 2 0 ; L R 6 - 60 H P H - X X X M w h e r e X X X i s 3 0 0 t o 3 2 0 . sn a p n r a c k . c o m 58 Mi s s i o n S o l a r : M o d e l s M S E X X X S O 5 T w h e r e X X X i s 2 6 0 t o 2 9 0 ; M S E X X X S O 5 K w h e r e X X X i s 2 7 0 t o 2 9 0 ; M S E X X X S Q 5 T w h e r e XX X i s 2 8 0 t o 3 0 0 ; M S E X X X S Q 5 K w h e r e X X X i s 2 8 5 t o 3 0 5 ; M S E X X X M M 4 J a n d M S E X X X M M 6 J w h e r e X X X i s 3 2 0 t o 3 3 0 ; MS E X X X S O 6 W w h e r e X X X i s 3 2 0 t o 3 4 0 ; M S E X X X S O 4 J a n d M S E X X X S O 6 J w h e r e X X X i s 3 2 0 t o 3 5 0 ; M S E X X X S Q 4 S a n d MS E X X X S Q 6 S w h e r e X X X i s 3 4 5 t o 3 6 5 ; M S E X X X S Q 8 K w h e r e X X X i s 2 9 0 t o 3 1 5 ; M S E X X X S Q 8 T w h e r e X X X i s 2 8 5 t o 3 1 0 . RE C S o l a r P T E . L T D . - R E C X X X P E w h e r e t h e X X X i s 2 1 4 t o 2 8 0 ; R E C X X X T P w h e r e X X X i s 2 6 0 t o 3 0 0 ; R E C X X X T P 2 w h e r e X X X is 2 6 0 t o 3 0 0 ; R E C X X X T P I Q w h e r e X X X i s 2 6 0 t o 3 0 0 ; A l l m a y b e f o l l o w e d b y B L K ; R E C X X X T P 7 2 w h e r e X X X i s 3 3 0 t o 3 4 5 ; RE C X X X w h e r e X X X i s 2 8 5 t o 3 2 5 , f o l l o w e d b y P E 7 2 , P E 7 2 B L K , P E 7 2 Q 2 o r P E 7 2 Q 3 ; R E C X X X P E 7 2 X V w h e r e X X X i s 2 9 5 t o 32 5 , f o l l o w e d b y P E 7 2 X V , P E 7 2 X V Q 2 o r P E 7 2 X V Q 3 ; R E C X X X N P , w h e r e X X X i s 3 1 0 - 3 3 0 ; R E C X X X T P 2 M , w h e r e X X X i s 3 0 0 - 31 5 . Si l f a b - S L A X X X - M , w h e r e X X X i s 2 8 0 t o 3 0 0 ; S L G X X X - M , w h e r e X X X i s 3 3 5 t o 3 6 0 ; S L A X X X - P , w h e r e X X X i s 2 5 0 t o 2 6 5 ; SL G X X X - P , w h e r e X X X i s 3 0 0 t o 3 1 5 ; S S A X X X - M , w h e r e X X X i s 2 8 0 t o 3 0 0 ; S S G X X X - M , w h e r e X X X i s 3 3 5 t o 3 6 0 ; S S A X X X - P , wh e r e X X X i s 2 5 0 t o 2 6 0 ; S S G X X X - P , w h e r e X X X i s 3 0 0 t o 3 1 5 . So l a r i a : S o l a r i a P o w e r X T - X X X R - P D a n d S o l a r i a P o w e r X T - X X X R - B D , w h e r e X X X i s 3 1 5 t o 3 8 5 . So l a r W o r l d - S W X X X - M o n o w h e r e X X X i s 2 0 0 t o 3 0 0 ; S W X X X - M o n o X L w h e r e X X X i s 3 2 0 t o 3 5 0 . A l l m a y b e f o l l o w e d b y Bl a c k . Su n i v a I n c – O P T X X X - 6 0 - 4 - Y Y Y w h e r e X X X i s 2 4 0 t o 3 0 0 a n d Y Y Y i s 1 0 0 ; O P T X X X - 6 0 - 4 - Y Y Y w h e r e X X X i s 2 3 5 t o 3 0 0 a n d YY Y i s 1 B 0 . Tr i n a S o l a r L t d - - T S M - X X X P D 0 5 . 0 0 2 , T S M - X X X P D 0 5 . 0 8 2 , T S M - X X X P D 0 5 . 0 5 S , T S M - X X X P D 0 5 . 0 8 S w h e r e X X X i s 2 1 5 t o 2 7 5 ; TS M - X X X D D 0 5 A . 0 8 2 ( I I ) w h e r e X X X i s 2 6 0 t o 3 1 5 ; a l l m a y b e f o l l o w e d b y B l a c k . Ul t r a R a i l h a s b e e n t e s t e d w i t h t h e f o l l o w i n g M o d u l e L e v e l P o w e r E l e c t r o n i c ( M L P E ) d e v i c e s : Ce l e s t i c a I n t e r n a t i o n a l – L i s t e d , R a p i d S h u t d o w n D e v i c e m o d e l s D G - 0 0 6 - F 0 0 1 2 0 1 x a n d D G - 0 0 6 - F 0 0 1 4 0 1 x . En p h a s e – R / C ( Q I K H 2 ) ( Q I M S 2 ) , M i c r o i n v e r t e r M o d e l s M 2 5 0 , M 2 1 5 a n d C 2 5 0 . P r o v i d e d w i t h o r w i t h o u t E n p h a s e R / C ( Q I M S 2 ) Mo d e l E F M - X X M M f r a m e m o u n t k i t a n d E n p h a s e R / C ( Q I M S 2 ) E n g a g e C a b l e M o d e l E T X X - 2 4 0 , E T X X - 2 0 8 o r E T X X - 2 7 7 ; N R T L Li s t e d , I Q 6 - 6 0 - 2 - U S , I Q 6 P L U S - 7 2 - 2 - U S , I Q 7 - 6 0 - 2 - U S , I Q 7 - 6 0 - B - U S , I Q 7 P L U S - 7 2 - 2 - U S , I Q 7 P L U S - 7 2 - B - U S . Gi n l o n g T e c h n o l o g i e s – N R T L L i s t e d , R a p i d S h u t d o w n D e v i c e M o d e l S o l i s - R S D - 1 G ; S o l i s - M L R S D - R 1 - 1 G a n d S o l i s - M L R S D - R 2 - 1 G . So l a r E d g e – N R T L L i s t e d , O p t i m i z e r M o d e l s P 3 0 0 - 5 N C 4 A R S , P 3 2 0 - 5 N C 4 A R S , P 3 0 0 - 5 N C 4 A F S , P 3 2 0 - 5 N C 4 A F S , P 3 7 0 - 5N C 4 A F S , o r P 4 0 0 - 5 N C 4 A F S . No t e : G i n l o n g S o l i s - M L R S D - R 1 - 1 G a n d S o l i s - M L R S D - R 2 - 1 G h a v e n o t b e e n i n v e s t i g a t e d f o r b o n d i n g s i n c e t h e e n c l o s u r e s a r e co n s t r u c t e d e n t i r e l y o f p o l y m e r i c m a t e r i a l s . Al l M L P E m o d e l s n o t e d a b o v e h a v e b e e n e v a l u a t e d f o r u s e w i t h S n a p N r a c k M L P E R a i l A t t a c h m e n t K i t a n d M L P E F r a m e At t a c h m e n t K i t e x c e p t S o l a r E d g e M o d e l s P 3 0 0 - 5 N C 4 A R S a n d P 3 2 0 - 5 N C A R S . Th e f o l l o w i n g M L P E d e v i c e s h a v e b e e n e v a l u a t e d f o r u s e w i t h t h e S n a p N r a c k M L P E R a i l A t t a c h m e n t K i t o n l y : SM A – R a p i d S h u t d o w n D e v i c e M o d e l R S B - 2 S - U S - 1 0 On l y b o n d i n g t o t h e b a c k p l a t e s o f t h e s e d e v i c e s w a s e v a l u a t e d . F u n c t i o n a l i t y o f t h e d e v i c e s w a s n o t c o n s i d e r e d . Th e S o l a r E d g e M i c r o i n v e r t e r F r a m e M o u n t e d B r a c k e t o f M o d e l s P 3 0 0 - 5 N C 4 A F S a n d P 3 2 0 - 5 N C 4 A F S h a s b e e n e v a l u a t e d f o r a l l mo d u l e s w i t h i n f l a n g e t h i c k n e s s r a n g e o f 1 . 5 m m t o 2 . 3 m m . Wh e n a d d i n g m o d u l e s f o r b o n d i n g , c o n s i d e r a t i o n m u s t b e g i v e n t o t h e S o l a r E d g e M i c r o i n v e r t e r F r a m e M o u n t e d M o d e l s P 3 0 0 - 5N C 4 A F S a n d P 3 2 0 - 5 N C 4 A F S . T h i s p r o d u c t c l a m p s o n t o t h e m o d u l e f l a n g e u s i n g a n i n t e g r a l b r a c k e t . Su n i v a m o d u l e s w e r e n o t e v a l u a t e d f o r b o n d i n g t o t h e M o u n t i n g B r a c k e t . Ad d i t i o n a l M L P E d e v i c e s w e r e e v a l u a t e d f o r a t t a c h m e n t t o t h e m o d u l e f r a m e s t h r o u g h t h e d e v i c e m o u n t i n g m e a n s . T h e s e de v i c e s h a v e n o t b e e n e v a l u a t e d f o r b o n d i n g : Ti g o – M o n i t o r i n g D e v i c e m o d e l s T S 4 - R - F , T S 4 - R - M , T S 4 - R - O , T S 4 - R - S , T S 4 - R - M - D U O , T S 4 - R - O - D U O , T S 4 - R - S - D U O