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PLANS & INFO - 18-00582 - 33 N 3rd E - Solar Panels
COVER SHEET PV-1 PV-1 COVER PV-2 SITE PLAN PV-3 ARRAY LAYOUT PV-4 STRUCTURAL ELEVATION PV-5 SINGLE LINE DIAGRAM PV-6 ELECTRICAL NOTES PV-7 SIGNAGE PV-8 SITE DIRECTORY ATTACHMENTS: +MODULE SPEC SHEET +INVERTER SPEC SHEET +OPTIMIZER SPEC SHEET +RACKING SPEC SHEET +ENGINEERING LETTER SHEET INDEX ELECTRIC AUTHORITY,INC 16390 HWY 78 MELBA,ID 83641 208-739-0665 LICENSE #: ELEC-C 33661 LICENSE #: RCE- 12126 DESIGN BY: DRAWING TYPE Crystal Dayley 33 North 3rd East Rexburg, ID 83440 DATE SHEET NUMBER 10-12-18Jose Torres REVISION # PROJECT ADDRESS VICINITY MAP: (NOT TO SCALE) PROJECT NARRATIVE: SYSTEM DESCRIPTION: 1.13.2 KW DC GRID-TIED SOLAR PHOTOVOLTAIC SYSTEM 2.(1) ARRAY ON A RESIDENT HOME WITH A COMP SHINGLE ROOF . 3.(1)SOLAR EDGE INVERTER LOCATED ADJACENT TO MSP 4.CONNECTED VIA LINE SIDE TAP JUST UNDER SERVICE METER. FUSED AC DISCONNECT LOCATED WITHIN 6' OF SERVICE METER AND TAP LOCATION. 5.RUN FMC THROUGH ATTIC AND EMT ON THE EXTERIOR OF THE RESIDENCE. 6.ROOF STRUCTURE: 2" X 4" TRUSSES AT 24" O/C. REFERENCE CODES AND CONSTRUCTION NOTES: THIS PROJECT SHALL COMPLY WITH THE FOLLOWING CODES: 2017 NATIONAL ELECTRICAL CODE (NEC), 2015 INTERNATIONAL RESIDENTIAL CODE (IRC), MANUFACTURER AND PV INDUSTRY STANDARDS, AND ALL STATE AND JURISDICTION BY-LAWS AND ORDINANCES. PROJECT SHALL BE INSTALLED BY A LICENSED CONTRACTOR. FRONT OH HOUSE: SYSTEM EQUIPMENT LIST: (45) PANEL TYPE : Trina Solar TSM-295DD05A.08 (1) INVERTER: SOLAR EDGE SE10,000H-US (45) OPTIMIZERS: SOLAR EDGE P320 SNAP - N - RACK 100UL RACKING SYSTEM (40) ENDCLAMPS (70) MIDCLAMPS (96) SNAPNRACK FLASHED L-FOOT FOOTINGS (25) SNAPNRACK SERIES 100 RAILS (162" IN LENGTH) (14) RAIL SPLICES (11) GROUND LUGS (45) MLPE RAIL ATTACHMENTS KIT (1) SQUARE-D D222NRB 60A FUSED AC DISCONNECT (2) ILSCO KUP-L-TAP EXPOSURE: B ASCE 7-10 RISK III 3 SEC WIND GUST = 115 MPH GROUND SNOW LOAD = 50 PSF PV-2 ELECTRIC AUTHORITY,INC 16390 HWY 78 MELBA,ID 83641 208-739-0665 LICENSE #: ELEC-C 33661 LICENSE #: RCE- 12126 DESIGN BY: DRAWING TYPE Crystal Dayley 33 North 3rd East Rexburg, ID 83440 DATE SHEET NUMBER 10-12-18Jose Torres REVISION # PROJECT ADDRESS SITE PLAN SCALE: 1/16" = 1'1 SITE PLAN NOTES: ·SMOKE / CARBON MONOXIDE ALARMS ARE REQUIRED TO BE INSTALLED AND IN WORKING CONDITION. ·NOTIFY UTILITY COMPANY BEFORE ACTIVATION OF PV SYSTEM. YEAR BUILT: 1977 APN #: ---- 33 N o r t h 3 r d E a s t ARRAY INFORMATION ARRAY # OF MODULES PITCH TRUE ORIENTATION AR-01 14 27°90° AR-02 24 27°270° AR-03 7 27°270° (N) JUNCTION BOX (TYP) (LOCATION OF TAP ) (E ) G A R A G E (E ) R E S I D E N C E (N) PV ARRAY AR-01 (N) PV ARRAY AR-02 (N) PV ARRAY AR-03 FIRE OFFSETS: 36" FROM RIDGE 36" FROM EDGE (E) MAIN SERVICE METER (N) FUSE AC DISCONNECT SWITCH (N) SOLAR EDGE SE10,000H-US INVERTER W/ INTEGRATED DC DISCONNECT (E) PROPERTY LINE TRINA SOLAR: ALLMAX PLUS BLACK 295W SPECS: L: 65.0" W: 39.1" D: 1.38" 41.0 LBS. 65.0" 39.1"1.38" PV-3 ELECTRIC AUTHORITY,INC 16390 HWY 78 MELBA,ID 83641 208-739-0665 LICENSE #: ELEC-C 33661 LICENSE #: RCE- 12126 DESIGN BY: DRAWING TYPE Crystal Dayley 33 North 3rd East Rexburg, ID 83440 DATE SHEET NUMBER 10-12-18Jose Torres REVISION # PROJECT ADDRESS ARRAY LAYOUT SCALE: 3/32" = 1'1 MODULE DETAIL SCALE: 1/2" = 1'2 NORTH CONSTRUCTION NOTES ·ROOF PITCH: 27° ·ROOF CLADDING: SINGLE LAYER COMP SHINGLE ROOF ·STRUCTURE: 2" X 4" TRUSSES AT 24 O/C. ·MOUNTS ARE ON GRID SPACING, OCCURRING AT RAFTERS. ·VERIFY RAFTER LOCATIONS IN FIELD. ·REFER TO MODULE AND RACKING MFR'S INSTALL MANUALS. ·MAX SPAN BETWEEN MOUNTS: 48" O.C. ·APPROX (96) MOUNTS TOTAL ·PLUMBING AND MECHANICAL VENTS SHALL NOT BE COVERED BY SOLAR MODULES. ·ALL FASTENERS STAINLESS STEEL U.O.N. ARRAY LAYOUT (N) JUNCTION BOX (TYP) (LOCATION OF TAP) (N) PV ARRAY AR-01 (N) PV ARRAY AR-02 (N) PV ARRAY AR-03 RI D G E R I D G E 27° 27°27° (E) MAIN SERVICE METER (N) 3/4" EMT CONDUIT (N) FUSED AC DISCONNECT SWITCH (N) SOLAR EDGE SE10,000H-US INVERTER W/ INTEGRATED DC DISCONNECT (N) JUNCTION BOX (TYP) (UNDER ARRAY) (N) 3/4" FMC CONDUIT (THROUGH ATTIC) (N) SNAPNRACK SERIES 100 RAILING (N) ROOF MOUNTS EVERY 48" O.C. MAX 2" X 4" TRUSSES EVERY 24" OC APPROX 25 ' OF TRECH TO CONNECT GARAGE ARRAY TO THE HOUSE ARRAYS ) PV-4 ELECTRIC AUTHORITY,INC 16390 HWY 78 MELBA,ID 83641 208-739-0665 LICENSE #: ELEC-C 33661 LICENSE #: RCE- 12126 DESIGN BY: DRAWING TYPE Crystal Dayley 33 North 3rd East Rexburg, ID 83440 DATE SHEET NUMBER 10-12-18Jose Torres REVISION # PROJECT ADDRESS ROOF ELEVATION SCALE: 3/4" = 1'1 SINGLE LAYER COMP SHINGLE ROOF @ 27° PITCH SOLAR MODULE 2" X 4"TRUSSES @ 24" OC 1/2" PLYWOOD SHEATHING TOP PLATE LOAD BEARING WALL 5/16" X 3-1/2" LAG BOLT WITH 2-1/2" MIN. EMBEDMENT MIDCLAMP ROOFER APPROVED SEALANT APPLIED IN LAG BOLT PIVOT HOLE AND TO BOTTOM OF FLASHING, PER MFR'S SPECS. RIDGE BOARD STRUCTURAL ELEVATION LOAD INFORMATION QUANTITY WEIGHT / UNIT TOTAL WEIGHT MODULES 45 40.8 LBS 1836 LBS OPTIMIZERS 45 1.56 LBS 70.2 LBS FOOTINGS 96 1.34 LBS 128.64 LBS RAIL SPLICES 14 0.65 LBS 9.1 LBS MID CLAMPS 70 0.17 LBS 11.9 LBS END CLAMPS 40 0.30 LBS 12 LBS TOTAL WEIGHT OF ARRAY 1545.44 LBS TOTAL MODULE WEIGHT 1271.0 LBS AREA 57.13 SQFT DISTRIBUTED LOAD 2.82 LBS / SQFT LAG BOLT SCHEDULE LOCATION INFIELD 3' SIDE ZONES 3' CORNER ZONES BOLT SIZE 5/16" x 3-1/2"5/16" x 3-1/2"5/16" x 3-1/2" MIN EMBED 2-1/2"2-1/2"2-1/2" ASSUMPTIONS: EXPOSURE: B ASCE 7-10 RISK III 3 SEC WIND GUST = 115 MPH GROUND SNOW LOAD = 50 PSF STRUCTURAL EVALUATION: DEAD LOAD: 2.82 PSF < 4.0 PSF OK FOOTING SPACING: 48" < 75"OK (SEE SNAPNRACK SPAN TABLE) SNAPNRACK FLASHED L-FOOT FOOTING SNAPNRACK SERIES 100 RAILING SOLAREDGE TECHNOLOGIES: HD-WAVE SE10000H-US (240V) GRID TIED 2-POLE 10000 WATT INVERTER AC MAX OUTPUT CURRENT OF 42A UTILITY INTERACTICE INVERTER W/ INTEGRATED DC DISCONNECT 27A MAX, 480VDC MAX (EXTERIOR OF DETACHED GARAGE) 1" EMT OR EQUIVALENT (2) #6 AWG THWN-2 CONDUCTORS (1) #6 AWG THWN-2 NEUTRAL (1) #8 AWG THWN-2 GROUND 3/4" FMC OR EQUIVALENT (THROUGH ATTIC) (2) #10 AWG THWN-2 CONDUCTORS (1) #10 AWG THWN-2 GROUND CONDUCTORS EXPOSED TO FREE AIR (2) #10 AWG PV-WIRE CONDUCTORS (1) #6 AWG BARE COPPER GROUND AR-01 (14) TRINA SOLAR 295W MODULES: IN (1) STRING OF (14) MODULES AT (27°) PITCH AND ( 270°) ORIENTATION (14) SOLAREDGE: P320 DC OPTIMIZERS TYPE 3R TRANSITION BOX NOTE: INTEGRATED DC DISCONNECT IS INSTALLED WITH RAPID SHUTDOWN DEVICE BY MANUFACTURER IN COMPLIANCE WITH NEC 690.12. AC OUT DC IN SQUARE D D222NRB SINGLE PHASE, 60AMP, 240V, FUSED, NEMA 3R ENCLOSURE AC DISCONNECT W/ 60A FUSES N G FACILITY GROUND (E) 200AMP MAIN BREAKER (2) ILSCO KUP-L-TAPS 120/240 VAC SERVICE EXISTING 200A MSP W/ 200A MAIN BREAKER. SOLAR INTERCONNECTION IS VIA LINE SIDE TAP IN NEW JUNCTION BOX TO BE LOCATED UNDER SERVICE METER. UTILITY METER (2) #3/0 AWG ALUM. THWN-2 CONDUCTORS (N) JUNCTION BOX 1" EMT OR EQUIVALENT (2) #6 AWG THWN-2 CONDUCTORS (1) #6 AWG THWN-2 NEUTRAL (1) #8 AWG THWN-2 GROUND AR-02- AR-03 (31) TRINA SOLAR 295W MODULES: IN (1) STRING OF (16) MODULES (1) STRING OF (15) MODULES AT (27°) PITCH AND ( 270°) ORIENTATION (31) SOLAREDGE: P320 DC OPTIMIZERS 3/4" FMC OR EQUIVALENT (THROUGH ATTIC) (4) #10 AWG THWN-2 CONDUCTORS (1) #10 AWG THWN-2 GROUND CONDUCTORS EXPOSED TO FREE AIR (4) #10 AWG PV-WIRE CONDUCTORS (1) #6 AWG BARE COPPER GROUND TYPE 3R TRANSITION BOX (AC DISCONNECT WILL BE INSTALLED WITHIN 10' FEET OF UTILITY METER ) PV-5 ELECTRIC AUTHORITY,INC 16390 HWY 78 MELBA,ID 83641 208-739-0665 LICENSE #: ELEC-C 33661 LICENSE #: RCE- 12126 DESIGN BY: DRAWING TYPE Crystal Dayley 33 North 3rd East Rexburg, ID 83440 DATE SHEET NUMBER 10-12-18Jose Torres REVISION # PROJECT ADDRESS ELECTRICAL DIAGRAM NO SCALE1 SINGLE LINE DIAGRAM 13.2 kW (DC) SOLAR ARRAY: (31) Trina Solar TSM-295DD05A.08 (1) SOLAR EDGE HD-WAVE 10.0KW INVERTER: SE10000H-US AND (31) SOLAR EDGE POWER OPTIMIZERS: P320 WITH (1) STRING OF (14) MODULES IN SERIES. (1) STRING OF (15) MODULES IN SERIES. (1) STRING OF (16) MODULES IN SERIES. PV-7 ELECTRIC AUTHORITY,INC 16390 HWY 78 MELBA,ID 83641 208-739-0665 LICENSE #: ELEC-C 33661 LICENSE #: RCE- 12126 DESIGN BY: DRAWING TYPE Crystal Dayley 33 North 3rd East Rexburg, ID 83440 DATE SHEET NUMBER 10-12-18Jose Torres REVISION # PROJECT ADDRESS ASSUMPTIONS: HIGH TEMPERATURE = 34 °C LOW TEMPERATURE = -16 °C ADDED TEMPERATURE FOR CONDUIT RUN THROUGH ATTIC = 7 °C 90 °C RATED WIRE FOR DC CURRENT 75 °C RATED WIRE FOR AC CURRENT THAT TERMINATES AT A BREAKER ELECTRICAL CALCS ELECTRICAL NOTES ·ALL PV MODULES, ARRAY FRAMING AND RACKING SHALL BE GROUNDED PER MFR'S SPECIFICATIONS. ·ALL EQUIPMENT WILL BE UL 1703, UL 1741, OR UL 2703 LISTED AND CERTIFIED. ·MODULES WILL BE GROUNDED WITH INTEGRADED GROUNDING MODULE CLAMPS. ARRAY FRAME WILL BE GROUNDED WITH ILSCO GBL-4DBT (OR EQUIVALENT - SUITABLE FOR DIRECT BURIAL AND CONTACT WITH COPPER OR ALUMINUM) LAY IN TYPE GROUNDING LUG. USE SPECIFIED MODULE GROUNDING POINTS. ·ALL WIRE TERMINATIONS, SPLICES AND CONNECTIONS SHALL BE MADE USING A LISTED DEVICE OR ELECTRICAL BOX SUITED FOR THE PURPOSE. ALL WIRES NOT IN CONDUIT TO BE PROVIDED WITH STRAIN RELIEF AT ENTRY INTO JUNCTION BOXES. ·PROVIDE AND INSTALL CONDUIT EXPANSION FITTINGS, PER MANUFACTURER'S SPECIFICATIONS, IN CONDUIT RUNS WHERE THERMAL EXPANSION IS 0.25" OR MORE, BASED ON RECORD MAXIMUM AND MINIMUM TEMPERATURES FOR THE SITE (SEE NEC TABLE 310.15(B)(2)(C), AND USING EXPANSION COEFFICIENT OF STEEL. ·BOTH ENDS OF ALL METALLIC CONDUIT CONTAINING GROUNDING ELECTRODE CONDUCTORS SHALL BE BONDED PER NEC 250.64(E). ·PROVIDE AND INSTALL ALL GROUNDING AS REQUIRED BY NEC ARTICLES 250, 690 AND SYSTEM MANUFACTURER. ·INSTALLATIONS WHICH USE TRANSFORMER-LESS INVERTERS - PV WIRE TYPE IS REQUIRED FOR ALL DC WIRE RUNS IN FREE AIR, OR NOT IN CONDUIT. ·EACH CURRENT CARRYING CONDUCTOR IN ALL PV SOURCE CIRCUITS OR PV OUTPUT CIRCUITS SHALL BE DISCONNECTED/ FUSED, WHEN NECESSARY. ·CONTRACTOR SHALL VERIFY EXISTENCE OF UNDERGROUND UTILITIES PRIOR TO ANY EXCAVATIONS. ·ELECTRICAL TRENCH RUNS, WHERE USED, SHALL USE SCHEDULE 40 PVC CONDUIT AND PROVIDE 18" MIN CLEARANCE FROM TOP OF CONDUIT TO GRADE, AND MAGNETIC WARNING TAPE AT 12" BELOW GRADE. 24" CLEARANCE AND SCHEDULE 80 PVC IS REQUIRED IN AREAS WHERE SUBJECT TO VEHICLE TRAFFIC. ·CHECK WITH LOCAL JURISDICTION FOR ANY ADDITIONAL FILL AND COMPACTION REQUIREMENTS, SPOILS TREATMENT AND/OR EROSION CONTROL MEASURES PRIOR TO EXCAVATION. ·INSTALLATIONS IN LIGHTENING-PRONE LOCATIONS ARE RECOMMENDED TO UTILIZE DC LIGHTENING ARRESTORS IN ACCORDANCE WITH MANUFACTURER'S SPECIFICATIONS. ·SUPPLY SIDE CONNECTIONS SHALL ONLY BE MADE WITH LISTED AND APPROVED TAPS. ·ALL WIRE RUNS SHALL NOT EXCEED 2% CALCULATED VOLTAGE DROP. ·VERIFY EXISTING GROUNDING ELECTRODE. IF NONE EXISTS, A NEW GROUND ROD MAY BE REQUIRED. MIN. SIZE 8' LONG x 5/8" DIA, COPPER CLAD. BOND TO GAS, AND HOT AND COLD WATER PIPES. ·USE WATERPROOF FITTINGS FOR ALL EXTERIOR CONDUIT. ·GROUNDING ELECTRODE CONDUCTOR (AC SIDE OF INVERTER) IS #8 IF IN CONDUIT, OR #6 AWG IF EXPOSED AND SUBJECT TO DAMAGE, AND SHALL BE CONTINUOUS FROM INVERTER TO GROUND ROD. USE IRREVERSIBLE SPLICES WHERE NECESSARY. ·EQUIPMENT GROUNDING CONDUCTOR (DC SIDE OF INVERTER) IS #10 IF IN CONDUIT, OR #6 AWG IF EXPOSED AND SUBJECT TO DAMAGE (NEC 690.46). POWER OPTIMIZER SPECS MAKE SOLAR EDGE MODEL P320 RATED DC POWER 320 W MAX INPUT VOLTAGE 48 VDC MPPT OPERATING RANGE 8 - 48 VDC MAX ISC INPUT CURRENT 11 A MAX OUTPUT CURRENT 15 A OPERATING OUTPUT VOLTAGE 5 - 60 VDC MAX ALLOWED SYSTEM VOLTAGE 480 VDC NUMBER OF UNITS PER STRING 8-19 MAX POWER PER STRING 5700 W DC AMPACITY CALCULATION MAX OUTPUT CURRENT 15.0 A CONTINUOUS DUTY AND HIGH IRIDESCENCE FACTOR 1.56 MULTIPLE CONDUCTOR FACTOR 1.0 TEMP CORRECTION FACTOR 0.87 AMPACITY OF #10 WIRE (THWN-2 @ 90 °C)40 A MAXIMUM AMPACITY 15.0 A * 1.56 = 23.4 A < 40 A ADJUSTED AMPACITY 40 A * 1.0 * 0.87 = 34.8 A > 18.8 A ALLOWABLE SOLAR BACKFEED CALCULATION AT MSP BUS BAR RATING 200 A MAIN BREAKER RATING 200 A SOLAR BACKFEED BREAKER 40 A MAX ALLOWABLE BACKFEED (200A X 120%) - 200A BREAKER = 40A ALLOWABLE ≥ 20A SOLAR, SO OK TO INTERCONNECT VIA TAP (PER NEC 705.12) CALCULATIONS: VMPP = 400 V VMAX = 480 V IMPP = (14 MODULES) * 295 W / 400 V =10.3 A IMPP = (15 MODULES) * 295 W / 400 V =11.06 A IMPP = (16 MODULES) * 295 W / 400 V =11.07 A IMAX = 15 A PV MODULE SPECS MAKE Q-CELLS 295 W MODEL Q-PEAK BLK-G4.1 295 SHORT CIRCUIT CURRENT 9.70 A OPEN CIRCUIT VOLTAGE 39.48 VDC OPERATING CURRENT 9.17 A OPERATING VOLTAGE 32.19 VDC NOMINAL POWER 295 W 13.2 kW (DC) SOLAR ARRAY: (31) Trina Solar TSM-295DD05A.08 (1) SOLAR EDGE HD-WAVE 10.0KW INVERTER: SE10000H-US AND (31) SOLAR EDGE POWER OPTIMIZERS: P320 WITH (1) STRING OF (14) MODULES IN SERIES. (1) STRING OF (15) MODULES IN SERIES. (1) STRING OF (16) MODULES IN SERIES. INVERTER SPECS MAKE SOLAR EDGE MODEL SE10000H-US RATED AC POWER 10000 W TRANSFORMERLESS, UNGROUNDED YES MAX INPUT VOLTAGE 480 VDC NOMINAL INPUT VOLTAGE 380 VDC MAX INPUT CURRENT 27 A RATED AC VOLTAGE 240 VAC AC VOLTAGE RANGE 211 - 264 VAC MAX AC OUTPUT CURRENT 42 A AC OVERCURRENT PROTECTION 60 A AC AMPACITY CALCULATION FOR 10.0 KW INVERTER INVERTER OUTPUT CURRENT 42A CONTINUOUS DUTY FACTOR 1.25 MULTIPLE CONDUCTOR FACTOR 1.0 TEMP CORRECTION FACTOR 0.94 AMPACITY OF #6 WIRE (USE 75°)65.0 A MAXIMUM AMPACITY 42.0 A * 1.25 = 52.5 A < 65.0 A ADJUSTED AMPACITY 65.0A * 1.0 * 0.94 = 61.6 A > 42.0 A INVERTER OCPD RATING 60 A PV-8 ELECTRIC AUTHORITY,INC 16390 HWY 78 MELBA,ID 83641 208-739-0665 LICENSE #: ELEC-C 33661 LICENSE #: RCE- 12126 DESIGN BY: DRAWING TYPE Crystal Dayley 33 North 3rd East Rexburg, ID 83440 DATE SHEET NUMBER 10-12-18Jose Torres REVISION # PROJECT ADDRESS PLACARDS PLACARDS1 SIGNAGE NOTES ·SIGNAGE SHALL BE PERMANENTLY AFFIXED TO EQUIPMENT WITH POP-RIVETS, SCREWS OR APPROVED ADHESIVE. ·OUTDOOR SIGNAGE SHALL BE UV STABLE AND SUITABLE FOR ITS ENVIRONMENT. CONDUIT STICKERS SHALL BE SHALL BE REFLECTIVE. ·PLAQUES SHALL BE METAL OR PLASTIC WITH ENGRAVED OR MACHINE PRINTED LETTERS OR ELECTRO-PHOTO PLATING, SHALL HAVE RED BACKGROUND WITH WHITE LETTERING. MINIMUM FONT SIZE SHALL BE 3/8" HEIGHT AND ALL CAPITAL LETTERS. ·DEVICES MARKED WITH "LINE" AND "LOAD" ARE NOT SUITABLE FOR FOR BACKFEED OR REVERSE CURRENT. ·NET METER BASE, PRODUCTION METER BASE, AND SOLAR AC DISCONNECT ENGRAVED LABELS MUST BE MECHANICALLY FASTENED WITH RIVETS, SCREWS, OR BOLTS. LABEL PLACEMENT: MAIN PANEL NEAR METER LABEL PLACEMENT: AC BREAKER (INSIDE OF PANEL, NEXT TO BREAKER) LABEL PLACEMENT: AC DISCONNECTS, PV BREAKER LABEL PLACEMENT: ALL AC AND DC DISCONNECTS WEATHER RESISTANT PLASTIC PLACARD PLACEMENT: AC DISCONNECT LABEL USED ON UNGROUNDED SYSTEMS ONLY PLACEMENT: INVERTER, DC DISCONNECT LABEL PLACEMENT: INVERTER, AC DISCONNECT LABEL PLACEMENT: INVERTER LABEL PLACEMENT: AC CONDUIT LABEL PLACEMENT: FD MARKING REQUIREMENTS: WARNING LABEL SHALL BE PLACED ON INTERIOR AND EXTERIOR DC CONDUIT, RACEWAYS, ENCLOSURES, CABLE ASSEMBLIES, JUNCTION BOXES, AND DISCONNECTS. MARKING SHALL BE PLACED ON INTERIOR AND EXTERIOR DC CONDUIT, RACEWAYS, ENCLOSURES AND CABLE ASSEMBLIES EVERY 10 FEET (3048 MM) 1 FOOT OF TURNS OR BENDS AND WITHIN 1 FOOT ABOVE AND BELOW PENETRATIONS OF ROOF/CEILING ASSEMBLIES, WALLS OR BARRIERS LABEL PLACEMENT: DC DISCONNECT LABEL PLACEMENT: AC BREAKER (INSIDE OF PANEL, NEXT TO BREAKER) WARNING: ELECTRIC SHOCK HAZARD THE DC CONDUCTORS OF PHOTOVOLTAIC SYSTEM ARE UNGROUNDED AND MAY BE ENERGIZED. PV SYSTEM DISCONNECT FOR UTILITY OPERATION WARNING - Dual Power Sources Second source is photovoltaic system WARNING - Electric Shock Hazard No user serviceable parts inside Contact authorized servicer for assistance WARNING INVERTER OUTPUT CONNECTION DO NOT RELOCATE THIS OVERCURRENT DEVICE CAUTION: SOLAR ELECTRIC SYSTEM CONNECTED WARNING: PHOTOVOLTAIC POWER SOURCE WARNING ELECTRIC SHOCK HAZARD DO NOT TOUCH TERMINALS TERMINALS ON BOTH LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION DC VOLTAGE IS ALWAYS PRESENT WHEN SOLAR MODULES ARE EXPOSED TO SUNLIGHT WARNING ELECTRIC SHOCK HAZARD DO NOT TOUCH TERMINALS TERMINALS ON BOTH LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION WARNING ELECTRIC SHOCK HAZARD IF A GROUND FAULT IS INDICATED NORMALLY GROUNDED CONDUCTORS MAY BE UNGROUNDED AND ENERGIZED PHOTOVOLTAIC POWER SOURCE SOLAR DISCONNECT WARNING THIS EQUIPMENT FED BY MULTIPLE SOURCES. TOTAL RATING OF ALL OVERCURRENT DEVICES, EXCLUDING MAIN SUPPLY OVERCURRENT DEVICE, SHALL NOT EXCEED AMPICITY OF BUSBAR. LABEL PLACEMENT: MAIN PANEL (COVER) REFELECTIVE MATERIAL REQUIRED PLACEMENT: MAIN SERVICE PANEL, INVERTER PHOTOVOLTAIC SYSTEM EQUIPPED WITH RAPID SHUTDOWN RAPID SHUTDOWN DISCONNECT REFELECTIVE MATERIAL REQUIRED PLACEMENT: INVERTER, AC DISCONNECTS SOLAR PV SYSTEM AC POINT OF CONNECTION AC OUTPUT CURRENT 60 A NOMINAL AC VOLTAGE 240 V THIS PANEL FED BY MULTIPLE SOURCES (UTILITY AND SOLAR) LABEL PLACEMENT: INVERTER LABEL PLACEMENT: MAIN SERVICE PANEL PHOTOVOLTAIC POWER SOURCE RATED MPP CURRENT 10.3A /11.06A/ 11.07 A RATED MPP VOLTAGE 400.0 V MAX SYSTEM VOLTAGE 480.0 V MAX SYSTEM CURRENT 15.0 A /15.0A / 15.0 A WARNING: ELECTRIC SHOCK HAZARD. LINE AND LOAD SIDE MAY BE ENERGIZED IN THE OPEN POSITION. SITE DIRECTORY 33 North 3rd East,Rexburg, ID 83440 WARNING POWER TO THIS BUILDING IS ALSO SUPPLIED FROM THE FOLLOWING SOURCES WITH DISCONNECTS LOCATED AS SHOWN: PV DC DISCONNECT ON INVERTER MAIN SERVICE METER "YOU ARE HERE" PV AC DISCONNECT SWITCH PV SOLAR ARRAY PV SOLAR ARRAY PV SOLAR ARRAY 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 A Utility 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 W ADDITIONAL 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 Power Optimizer 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.us 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 higher current 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 Power Optimizer 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 SE7600-US - SE11400- 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: 07/2018/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 Mono Multi Solutions THE FRAMED 60-CELL MODULE Selective emitter, advanced surface texturing CEOUM-2P8 LIWANEETEPACKAGINGRECYCLABLE T O P P E RFORMER PV MODULE RELIABILIT Y SCORE CA RD 2017 0~+5W POSITIVE POWER TOLERANCE 60 CELL MONOCRYSTALLINE MODULE 275-315W POWER OUTPUT RANGE 19.2% MAXIMUM EFFICIENCY Additional val u e f r o m T r i n a S o l a r ’ s l i n e a r w a r r a n t y Gu a r a n t e e d P o w e r 80% 90% 100%97% Years 5 10 15 25 LINEAR PERFORMANCE WARRANTY 10 Year Product Warranty · 25 Year Linear Power Warranty Founded in 1997, Trina Solar is the world's leading comprehensive solutions provider for solar energy. we believe close cooperation with our partners is critical to success. Trina Solar now distributes its PV products to over 60 countries all over the world. Trina is able to provide exceptional service to each customer in each market and supplement our innovative, reliable products with the backing of Trina as a strong, bankable partner. We are committed to building strategic, mutually benecial collaboration with installers, developers, distributors and other partners. And System Certicates IEC61215/IEC61730/UL1703/IEC61701/IEC62716 ISO 9001: Quality Management System ISO 14001: Environmental Management System ISO14064: Greenhouse gases Emissions Verication OHSAS 18001: Occupation Health and Safety Management System Comprehensive Products Certied to withstand the most challenging environmental conditions 2400 Pa wind load• 5400 Pa snow load• • 35 mm hail stones at 97 km/h Maximize limited space with top-end eciency Up to 192W/m power density• • Low thermal coecients for greater energy production at high operating temperatures Highly reliable due to stringent quality control Over 30 in-house tests (UV, TC, HF, and many more)• • In-house testing goes well beyond certication requirements • PID resistant • 100% EL double inspection Standard Step WarrantyTrina Linear Warranty •I-V CURVES OF PV MODULE(305W) 0 10 20 30 40 50 Voltage(V) Cu r r e n t (A ) 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10.0 1000W/m² 800W/m² 600W/m² 400W/m² 200W/m² FRAMED 60-CELL MODULE TSM-DD05A.08(II) TSM-DD05A.05(II) 280-315W 275-310W PRODUCTS POWER RANGE P-V CURVES OF PV MODULE(305W) 0 10 20 30 40 50 Voltage(V) Po w e r (W ) 50 100 150 200 250 350 300 1000W/m² 800W/m² 600W/m² 400W/m² 200W/m² 992/39.1 16 5 0 / 6 5 . 0 A DIMENSIONS OF PV MODULE(mm/inches) 947/37.3 1 8 0 / 7 . 1 1 5 0 / 5 . 9 9 9 0 / 3 9 . 0 3 3 0 / 1 3 . 0 12-Drain Hole 1 0 0 0 / 3 9 . 4 ± 1 0 / 0 . 3 9 Junction Box Nameplate 6-Ø 4.3 Grounding Hole 4-Ø 9x14 Installing Hole A Back View 35/1.38 35/1.38 35 / 1 . 3 8 11/0.43 Silicon Sealant Laminate Frame (A-A) Solar Cells Cell Orientation Module Dimensions Weight Glass Backsheet Frame J-Box Cables Connector Fire Type MECHANICAL DATA Monocrystalline 156.75 × 156.75 mm (6 inches) 60 cells (6 × 10) 1650 × 992 × 35 mm (65.0 × 39.1 × 1.38 inches) 18.6 kg (41.0 lb) 3.2 mm (0.13 inches), High Transmission, AR Coated Tempered Glass White [DD05A.08(II)]; Black [DD05A.05(II)] Black Anodized Aluminium Alloy [DD05A.08(II), DD05A.05(II)] IP 67 or IP 68 rated Photovoltaic Technology Cable 4.0mm² (0.006 inches²), 1000 mm (39.4 inches) MC4 Type 1 or Type 2 ELECTRICAL DATA (STC) STC: Irradiance 1000W/m, Cell Temperature 25°C, Air Mass AM1.5.Measuring tolerance: ±3%.* 315 33.3 9.46 40.5 10.0 19.2 290 32.2 9.01 38.9 9.66 17.7 295 32.5 9.08 39.6 9.68 18.0 300 32.6 9.19 39.8 9.77 18.3 275 31.4 8.76 38.4 9.24 16.8 280 31.7 8.84 38.4 9.42 17.1 285 31.8 8.97 38.5 9.51 17.4 NOCT: Irradiance at 800W/m, Ambient Temperature 20°C, Wind Speed 1m/s. ELECTRICAL DATA (NOCT) Maximum Power-PMAX (Wp) Maximum Power Voltage-VMPP (V) Maximum Power Current-IMPP (A) Open Circuit Voltage-VOC (V) Short Circuit Current-ISC (A) 209 29.4 7.10 35.7 7.61 212 29.5 7.21 35.8 7.68 216 29.9 7.24 36.2 7.80 235 30.9 7.60 37.6 8.10 220 30.1 7.30 36.8 7.82 223 30.2 7.38 37.0 7.89 205 29.1 7.04 35.7 7.46 310 33.1 9.37 40.2 9.94 18.9 305 32.9 9.28 40.0 9.85 18.6 Peak Power Watts-PMAX (Wp)* Power Output Tolerance-PMAX (W) Maximum Power Voltage-VMPP (V) Maximum Power Current-IMPP (A) Open Circuit Voltage-VOC (V) Short Circuit Current-ISC (A) Module Eciency m (%) 0 ~ +5 231 30.7 7.53 37.4 8.03 227 30.5 7.46 37.2 7.95 44°C (±2°C) - 0.39%/°C - 0.29%/°C 0.05%/°C TEMPERATURE RATINGS NOCT(Nominal Operating Cell Temperature) Temperature Coecient of P MAX Temperature Coecient of V OC Temperature Coecient of I SC MAXIMUM RATINGS Operational Temperature Maximum System Voltage -40~+85°C 1000V DC (IEC) 1000V DC (UL) Max Series Fuse Rating 15A (Power 285W) 10 year Product Workmanship Warranty 25 year Linear Power Warranty (Please refer to product warranty for details) WARRANTY PACKAGING CONFIGURATION Modules per box: 30 pieces Modules per 40’ container: 840 pieces 20A (Power 290W) (DO NOT connect Fuse in Combiner Box with two or more strings in parallel connection) CAUTION: READ SAFETY AND INSTALLATION INSTRUCTIONS BEFORE USING THE PRODUCT. © 2017 Trina Solar Limited. All rights reserved. Specifications included in this datasheet are subject to change without notice. Version number: TSM_EN_2018_C www.trinasolar.com Rapid Shutdown Kit Installation - MAN-01-00186-1.6 1 Rapid Shutdown Kit - Installation and Configuration (Single Phase Inverters) This document describes how to install the rapid shutdown kit in the SolarEdge Safety Switch, and how to enable the rapid shutdown feature in the inverter in order to provide the functionality described in the Rapid Shutdown clause of NEC2014 690.12 (1) through (4). Kit Contents Rapid shutdown cables Micro-SD card and SD card adapter with firmware files (Note: DO NOT THROW AWAY THE CARD AND THE ADAPTER; keep them for installation of other rapid shutdown kits) Cable Installation Perform this procedure before connecting the strings to the Safety Switch [Chapter 4: Connecting the AC and the Strings to the Safety Switch in the SolarEdge Installation Guide]. 1 Turn the inverter ON/OFF switch to OFF. If installing the kit in an inverter that is already operating, wait until the LCD indicates that the DC voltage is safe (<50V), or wait five minutes before continuing to the next step. 2 Turn the Safety Switch and the AC switch on the main circuit board to OFF. WARNING! If you cannot see the inverter panel, or if a malfunction is indicated on the LCD panel, wait five minutes for the input capacitors of the inverter to discharge. 3 Loosen the four Allen screws on the front cover of the Safety Switch, and open the cover. 4 Carefully disconnect the two DC cables from the left side of the switch and from the DC connection spring clamp terminals, as illustrated below1. Use a standard straight-bladed screwdriver to disconnect the cables from the terminals. Figure 1: Inside the AC/DC Safety Switch 1 The internal components may vary depending on the Safety Switch model; the figures in this documents show the AC/DC Safety Switch for single phase 7.6-11.4 kW inverters. DC connection terminals Disconnect here Disconnect here Switch terminal block Rapid Shutdown Kit - Installation and Configuration (Single Phase Inverters) Rapid Shutdown Kit Installation - MAN-01-00186-1.6 2 5 The rapid shutdown cables have a resistor connected to one end (on the red cable). Connect these ends to the switch, making sure that the red and black cables are reversed relative to the cables connected at the top of the switch (going into the DC side conduit between the inverter and the Safety Switch), as detailed below. Apply a torque of 2 N*m (18 lb*in): If the cables at the top are red and black from left to right, connect as shown below. Figure 2: Rapid shutdown cable connected – option 1 If the cables at the top are black and red from left to right, connect as shown below. Figure 3: Rapid shutdown cable connected – option 2 6 Use a standard straight-bladed screwdriver to connect the other end of the rapid shutdown cables to the DC connection spring-clamp terminals: Connect the black cable from the switch to the DC- terminal block, and connect the red cable from the switch to the DC+ terminal block. 7 Check that the cables are located and connected in the correct positions to ensure the rapid shutdown functionality. 8 Close the cover: Attach the switch cover and secure it by tightening the four screws with a torque of 0.9 ft.*lb / 1.2 N*m. Red (+) Black (-) Black (-) DC+ DC- Red (+) with rapid shutdown resistor Black (-) Red (+) Black (-) Red (+) with rapid shutdown resistor DC+ DC- Step 1: Mounting and Grounding the Power Optimizers For each of the power optimizers1: 1. Determine the power optimizer mounting location and use the power optimizer mounting brackets to attach the power optimizer to the support structure (See Figure 5). It is recommended to mount the poweroptimizer in a location protected from direct sunlight. For frame-mounted power optimizers follow the instructions supplied with the optimizers, or refer to https://www.solaredge.com/sites/default/files/installing_frame_mounted_power_ optimizers.pdf. 2. If required, mark the mounting hole locations and drill the hole. CAUTION! Do not drill through the power optimizer or through the mounting holes. The drilling vibrations can damage the power optimizer and will void the warranty. ATTENTION! Ne pas percer à travers la optimiseur de puissance ou ses trous de fixation. Les vibrations qui en résulteraient peuvent endommager la optimiseur de puissance. 3. Attach each power optimizer to the rack using M6 (1/4'') stainless steel bolts, nuts and washers or other appropriate mounting hardware. Apply torque of 9.5 N*m / 7 lb*ft. For 3NA series power optimizes, SolarEdge recommends mounting the power optimizer on a rail with the smooth side facing out, so that the power optimizer body will prevent its rotation. 4. Use the following methods2 to ground the power optimizer: WARNING! The metallic enclosure of the power optimizer must be grounded in accordance with the requirements of the local and national codes. AVERTISSEMENT! L'enceinte métallique de l’optimiseur de puissance doit être mise à la terre en accord avec les régulations locales et nationales. l For mounting on a grounded metal rail : Use the provided 5/16'' stainless steel grounding star washer between the railing and the flat side of the mounting bracket. The grounding washer should break through the anodize coating of the railing to ensure low resistive connection. Apply torque of 9.5 N*m / 7 lb*ft. See Figure 5. 1Not applicable to smart modules. 2These methods have been evaluated by a nationally recognized testing laboratory as part of the optimizer evaluation. The SolarEdge-supplied grounding lug kit has been evaluated only for use with SolarEdge power optimizers. It is not intended or listed to be used as a general purpose grounding lug with other electrical equipment. Chapter 2:Installing the Power Optimizers Single Phase Inverter with HD-Wave Technology Installation MAN-01-00306-1.1 19 Figure 5: Power optimizer installation and grounding using a star washer l For mounting on rails with sliding nut fasteners: If the star washer cannot be used, use the SolarEdge grounding plate (purchased separately) between the railing and the flat side of the mounting bracket. Use mounting specific hardware as needed. Apply torque of 9.5 N*m / 7 lb*ft. See Figure 6 Figure 6: Power optimizer installation and grounding using a grounding plate l For mounting on un-grounded structures (such as a wooden structure): If the star washer or the plate cannot be used, use the SolarEdge grounding lug (purchased separately) with an equipment-grounding conductor according to the supplied instructions. The grounding terminal accepts a wire size of 6-14 AWG, and must be sized for equipment grounding per NEC 250.122 requirements. Tighten the screws connecting the power optimizer to the frame and the grounding terminal screw. Apply torque of 9.5 N*m / 7 lb*ft. See Figure 7 Figure 7: Power optimizer grounding terminal 5. Verify that each power optimizer is securely attached to the module support structure. Single Phase Inverter with HD-Wave Technology Installation MAN-01-00306-1.120 Step 1:Mounting and Grounding the Power Optimizers Series 100 Solar Mounting Solutions Series 100 Start Mounting Solar on Your Roof Today The Installers Choice for Residential Solar Mounting Snap-in features make the install process intuitive and fast The Most Comprehensive UL 2703 Listing in the Industry Entire Mounting System from Single Manufacturer under 1 Warranty Industry Leading Technical Support Services for Every Customer The SnapNrack Series 100 Roof Mount System is designed to provide the lowest total install cost of any residential mounting system. SnapNrack solutions are focused on simplifying the installation experience through intuitive products and the best wire management in the industry. Quality. Performance. Innovation. © 2017 by SnapNrack Solar Mounting Solutions. All rights reserved 877-732-2860 www.snapnrack.com contact@snapnrack.com Wire Management • Products such as the standard rail channel keep wires neatly organized providing a clean finished look to every install • Industry’s largest offering of wire management accessories include snap in junction box, 4-wire and trunk cable clamps, as well as conduit clamps for both composition shingle and tile roofs. Undeniable Aesthetics • Render the mounting system invisible by using Universal End Clamps that fasten modules while remaining hidden underneath the array • Array skirt provides a sleek look and attractive design to the front of the array • Rail-based system provides rigid structure tucked away underneath array with no unsightly mounts at the top or bottom The top-of-the-line features of the SnapNrack mounting system reduce install times and labor cost while eliminating the need for service calls creating the lowest install lifecycle cost of any mounting system. Render the mounting system invisible by using Universal End Clamps that fasten modules while remaining hidden underneath the array structure tucked away underneath array with no snapnrack.com 43 Required Tools ò Torque Wrench ò Socket Wrench ò 1/2” Socket Module Installation Materials Needed - Module Installation Install on standing metal seam roofs that the seam clamp fi ts over. Pre-Installed SnapNrack Roof Attachments Pre-Installed SnapNrack Rails SnapNrack Mid Clamp Assemblies SnapNrack End Clamp Assemblies PV Modules q w e r Mid Clamp Assembly Install on standing metal seam roofs that the seam clamp fi ts over. (1) 5/16”-18 SS HCS Bolt (1) 5/16” SS Split Lock Washer (1) SnapNrack Mid Clamp (1) 5/16”-18 SnapNrack Channel Nut q w e r Adjustable End Clamp Assembly (1) 5/16”-18 SS HCS Bolt (1) 5/16” SS Split Lock Washer (1) SnapNrack Adjustable End Clamp Top (1) SnapNrack Adjustable End Clamp Bottom q w e r Universal End Clamp Assembly (1) 5/16”-18 X 1-1/2” SS HCS Bolt (1) 5/16” X 3/4” SS Flat Washer (1) SnapNrack Universal Wedge (1) SnapNrack Universal Wave q w e r 43 Universal End Clamp Assembly (1) 5/16”-18 X 1-1/2” SS HCS Bolt (1) 5/16” X 3/4” SS Flat Washer (1) SnapNrack Universal Wedge q q w we e r r q w e r q w e r q w e r snapnrack.com 44 Module Installation INSTALLATION INSTRUCTIONS 1) Snap the channel nut into the top channel of the rail. 2) Slide the clamp flush to the module with the top lip of the mid clamp over the top edge of the module frame. 3) Place the next module flush to the other side of the mid clamp. 4) Tighten hardware, torque silver hardware to 10+ ft-lbs and black hardware to 8 ft-lbs. SnapNrack Mid Clamp Mid clamps create 1/2” gap between modules. Install Note: Take care to avoid having wires pinched between modules and rails, as this can lead to system failure and be dangerous. Install Note: Mid clamps are Listed with and without springs. Install Note: snapnrack.com 45 Module Installation INSTALLATION INSTRUCTIONS 1) Snap the channel nut into the top channel of the rail. 2) Slide the clamp flush to the module with the top lip of the end clamp over the top edge of the module frame. 3) Tighten hardware, torque silver hardware to 10+ ft-lbs and black hardware to 8 ft-lbs. 4) Install rubber end cap to finish. SnapNrack Adjustable End Clamp Take care to avoid having wires pinched between modules and rails, as this can lead to system failure and be dangerous. Install Note: Adjustable End Clamps require extra rail to ensure that channel nut is fully engaged. Install Note: snapnrack.com 46 Module Installation INSTALLATION INSTRUCTIONS 1) Slide the preassembled Universal End Clamp (UEC) into the end of the rail. 2) Lift the module and slide the clamp far enough under the module to pass the lip of the bottom edge of the module frame. 3) Use the pull tab to hold the UEC taut towards the end of the rail and tighten hardware to 10+ ft-lbs. 4) Install rubber end cap to finish. SnapNrack Universal End Clamp UEC hardware must be tightened to 12 ft-lbs when installed with the following Hanwha modules: • Q.BASE-GY XXX • Q.PRO-GY XXX • Q.PLUS-GY XXX • Q.PRO BFR-GY XXX • Q.PRO BLK-GY XXX • Q.PRO-GY/SC XXX Rail can be cut flush to the module using the UEC Rail Cutting Tool. Install Note: Modules need to be grounded separately when Universal End Clamps are the only type of clamp attaching a module. Install Note: Take care to avoid having wires pinched between modules and rails, as this can lead to system failure and be dangerous. Install Note: snapnrack.com 57 System Bonding Methods Grounding Specifications RAIL CHANNEL NUT MODULE FRAME MID CLAMP ASSEMBLY SS BONDING PIN SnapNrack Mid Clamp SnapNrack Adjustable End Clamp SnapNrack Standard Rail Splice q w e SnapNrack module clamps contain a SnapNrack Channel Nut with integral bonding pins in assembly to properly bond the system (except Universal End Clamps). Note: SnapNrack Ground Lug Assembly SS BONDING PIN (4 TOTAL) RAIL SPLICE ASSEMBLY SnapNrack rail splices contain an insert with integral bonding pins in assembly to properly bond the system. Note: snapnrack.com 59 Grounding Specifi cations GROUND PATH RAIL RAIL SPLICE GROUND LUG EQUIPMENT GROUNDING CONDUCTOR M M M M M M M M X X U U U U U U X X U U TO EGC MOUNT M MODULE CLAMP M = MIDCLAMP X = X-END CLAMP U = UNIVERSAL END CLAMP ENPHASE MICRO- INVERTER GROUND PATH RAIL RAIL SPLICE GROUND LUG EQUIPMENT GROUNDING CONDUCTOR M M M M M M M M X X U U U U U U X X U U MOUNT M MODULE CLAMP M = MIDCLAMP X = X-END CLAMP U = UNIVERSAL END CLAMP SOLAREDGE OPTIMIZER TO EGC TO EGC Ground Path Details - Enphase Ground Path Details - SolarEdge snapnrack.com 877-732-2860 www.snapnrack.com contact@snapnrack.com Resources snapnrack.com/resources Design snapnrack.com/configurator Where to Buy snapnrack.com/where-to-buy SnapNrack UL 2703 Fire Classification As of January 1st, 2015 many jurisdictions are now enforcing codes based upon updates to the International Building Code (IBC) and UL Standards 1703 (modules) and 2703 (mount- ing systems). The language included in the 2012 IBC requires that the combination of roof mounted solar modules and racking components is to be considered a system (IBC Section 1509.7.2). Additionally, it requires that this system shall meet or exceed the fire classifica- tion of the roof assembly. The objective is to ensure that the PV system does not adversely affect the fire rating of the roof. Roof sur- face fire ratings are classified either A, B, or C; Class A being the most resistant to the spread of flame. Since the physical characteristics of the PV module (material, thickness of glass, etc) also potentially af- fect how a fire will act, modules are now tested and assigned a “type” based upon these characteristics and spread of flame test results. There are 15 total module types, Types 1, 2 and 3 represent dif- ferences in the module composition and Types 4 – 15 are the same module compositions as Types 1 – 3 with differing fire test performance. SnapNrack Series 100 has been Certified for a Class A fire rating with Type 1 and Type 2 modules, in accordance with the standards set forth in UL1703/2703 and IBC 2012. In or- der to maintain this classification, the SnapNrack mounting system must be installed per the UL-approved Installation Manual. Because the test was conducted with the modules at 5 inches from the roof surface (worst case scenario), there is no restriction to the standoff height. Attachment 1 is the SnapNrack QIMS File which is accessed through the UL Online Certifica- tion Directory, or available here: SnapNrack QIMS File. The full SnapNrack Series 100 UL Test Report is available by sending requests to appeng@snapnrack.com. February 2015 Series 100 Structural Report and Calculations NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 6 6063 Alloy Rail Tables 0-30 ft. Roof Height Table 1A: Rail Spans (in) for Roof Slopes and Tilt Angles 0˚ to 19˚ 6063 Alloy Wind Load G r o u n d S n o w L o a d ( p s f ) Vult 110 115 120 125 130 135 140 145 150 155 160 170 180 190 qh 15.5 16.9 18.4 20.0 21.6 23.3 25.1 26.9 28.8 30.7 32.8 37.0 41.5 46.2 Pg Ps -10.7 -11.7 -12.7 -13.8 -14.9 -16.1 -17.3 -18.6 -19.9 -21.2 -22.6 -25.5 -28.6 -31.9 0 0 116 110 104 99 95 91 87 83 80 77 75 70 65 62 10 8 114 110 104 99 95 91 87 83 80 77 75 70 65 62 20 15 89 89 89 89 89 89 87 83 80 77 75 70 65 62 30 23 75 75 75 75 75 75 75 75 75 75 75 70 65 62 40 31 66 66 66 66 66 66 66 66 66 66 66 66 65 62 50 39 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 46 55 55 55 55 55 55 55 55 55 55 55 55 55 55 70 54 51 51 51 51 51 51 51 51 51 51 51 51 51 51 80 62 48 48 48 48 48 48 48 48 48 48 48 48 48 48 100 77 43 43 43 43 43 43 43 43 43 43 43 43 43 43 120 92 40 40 40 40 40 40 40 40 40 40 40 40 40 40 0-30 ft. Roof Height Table 1B: Rail Spans (in) for Roof Slopes and Tilt Angles 20˚ to 36˚ 6063 Alloy Wind Load Gr o u n d S n o w L o a d ( p s f ) Vult 110 115 120 125 130 135 140 145 150 155 160 170 180 190 qh 15.5 16.9 18.4 20.0 21.6 23.3 25.1 26.9 28.8 30.7 32.8 37.0 41.5 46.2 Pg Ps -7.0 -7.6 -8.3 -9.0 -9.7 -10.5 -11.3 -12.1 -13.0 -13.8 -14.7 -16.6 -18.7 -20.8 0 0 120 120 120 120 120 118 112 108 103 99 95 89 83 78 10 8 112 111 110 109 108 107 105 104 103 99 95 89 83 78 20 15 89 89 89 89 89 89 88 88 87 87 86 85 83 78 30 23 75 75 75 75 75 75 75 75 75 75 75 75 74 73 40 31 66 66 66 66 66 66 66 66 66 66 66 66 66 66 50 39 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 46 55 55 55 55 55 55 55 55 55 55 55 55 55 55 70 54 51 51 51 51 51 51 51 51 51 51 51 51 51 51 80 62 48 48 48 48 48 48 48 48 48 48 48 48 48 48 100 77 43 43 43 43 43 43 43 43 43 43 43 43 43 43 120 92 40 40 40 40 40 40 40 40 40 40 40 40 40 40 snapnrack.com Solar Mounting Solutions Flashed L Foot Start Installing the Flashed L Foot Today Series 100 Reliable & Weatherproof Roof Attachment Cutting of shingles not required Single tool installation, using a standard 1/2” socket Preassembled, snap-in hardware reduces installation time Included in Series 100 UL 2703 Listing © 2016 by SnapNrack Solar Mounting Solutions. All rights reserved 877-732-2860 www.snapnrack.com contact@snapnrack.com SnapNrack_Flashed_L_Foot_Brochure_2.2 SnapNrack Series 100 Flashed L Foot Kit is an industry-leading, weatherproof solution for attaching to composition shingle roofs. The Flashed L Foot provides a fully fl ashed method for mounting the SnapNrack Series 100 system. The combination of Series 100 and the Flashed L foot is guaranteed to improve labor times and ensure the highest quality install possible. Channel Nut • Provides snap-in installation to the rail channel with no drilling required • Wide range of adjustability due to sliding ability in rail prior to final tightening SnapNrack solutions are focused on simplifying the installation experience through intuitive prod- ucts and the best wire management in the industry. L Foot Base • Provides a long lasting watertight seal over the life of the system that does not rely on rubber (elastomeric seals) that will degrade over time • Easily installs with off-the-shelf lag screws L Foot • Engineered for maximum adjustability with the ability to orient in any direction • Vertical adjustability up to 3” using available spacers Quality. Performance. Innovation. Flashing • Available in black galvanized steel or aluminum for enhanced corrosion resistance • L Foot is attaches to bottom edge of flashing, removing the need for shingle cutting • Innovative stamped features provide increased rigidity © 2016 by SnapNrack Solar Mounting Solutions. All rights reserved 877-732-2860 www.snapnrack.com contact@snapnrack.com snapnrack.com 11 Required Tools ò Hammer or Stud Finder ò Roof Marking Crayon ò Drill with 3/16” Pilot Drill Bit ò Roof Sealant ò Torque Wrench ò Socket Wrench ò 1/2” Socket L Foot Mounts Materials Included - L Foot Flashing Kit (1) SnapNrack L Foot Base (1) SnapNrack L Foot Flashing (1) SnapNrack Composition L Foot (1) 5/16”-18 SS Flange Hex Nut (1) 5/16”-18 X 1-1/4” SS Flange Bolt (1) SnapNrack Channel Nut q w e r Other Materials Required (1) 5/16” Lag Screw (1) 5/16” Washer q w Install on composition shingle roofs. Application Note: Dimensioned L Foot Dimensioned L Foot Assembly q w e r q w snapnrack.com 12 L Foot Mounts INSTALLATION INSTRUCTIONS 1) Using roof attachment locations drawn during system layout, drill a pilot hole through the roofing material into the roof framing member. 2) Apply roofing sealant to the bottom of the base and directly onto the lag screw to ensure a water tight seal. 3) Attach the L Foot Base with a 5/16” lag screw, drive lag screw for minimum 2.5” embedment into the roof framing member. 4) Pry up shingles with a breaker bar and install flashing underneath shingle course above installed base, position flashing so base stud extends through hole in bottom edge of flashing. 5) Place the L Foot on the base stud over the flashing and tight- en the flange nut over the L Foot, torque to 10+ ft-lbs. Ensure the lag screws will be installed in a solid portion of the roof framing member. If the roof framing member is not found then seal the pilot hole immediately with roofing sealant. Install Note: If using an impact driver, finish tightening lag screw with a hand wrench to prevent L Foot Base from rotating. Best Practice: 6) If necessary, adjust the vertical face of the L Foot with the “live hinge” feature and adjust angle of L Foot so that the vertical face is perpendicular to the roof surface. Ensure flashing extends minimum (2) courses above base , and does not overhang bottom edge of shingle course. Apply a horseshoe of sealant under flashing to direct water away from penetration. Install Note: The L Foot can be attached in any orientation. Install Note: DESCRIPTION: PART NUMBER(S): DRAWN BY: SNAPNRACK, FLASHED L FOOT 242-92047, 242-92048, 242-92050, 242-92051 M.Watkins Solar Mounting Solutions THE INFORMATION IN THIS DRAWING IS CONFIDENTIAL AND PROPRIETARY. ANY REPRODUCTION, DISCLOSURE, OR USE THEREOF IS PROHIBITED WITHOUT THE WRITTEN CONSENT OF SUNRUN SOUTH LLC. 595 MARKET STREET, 29TH FLOOR ● SAN FRANCISCO, CA 94105 USA PHONE (415) 580-6900 ● FAX (415) 580-6902A REVISION: MATERIALS: DESIGN LOAD (LBS): ULTIMATE LOAD (LBS): TORQUE SPECIFICATION: CERTIFICATION: WEIGHT (LBS): 6000 SERIES ALUMINUM, STAINLESS STEEL 500 UP, 400 DOWN, 300 SIDE 928 UP, 839 DOWN, 754 SIDE 10+ LB-FT UL 2703, FILE E359313 0.90 - 1.25 OPTIONS: CLEAR / BLACK ANODIZED GALV STEEL / ALUM FLASHING PARTS LIST DESCRIPTIONQTYITEM SNAPNRACK, L FOOT BASE, MILL11 SNAPNRACK, L FOOT FLASHING, 12IN X 12IN, BLACK GALV12 SNAPNRACK L FOOT, COMPOSITION 92DEG, CLEAR / BLACK13 NUT, FLANGE, SERRATED, 5/16IN-18, SS14 SNAPNRACK CHANNEL NUT 5/16IN-1815 BOLT, FLANGED HEX, 5/16IN-18 X 1-1/4IN, SS16 1 2 3 4 5 6 DESCRIPTION: PART NUMBER(S): DRAWN BY: SNAPNRACK, FLASHED L FOOT 242-92047, 242-92048, 242-92050, 242-92051 M.Watkins Solar Mounting Solutions THE INFORMATION IN THIS DRAWING IS CONFIDENTIAL AND PROPRIETARY. ANY REPRODUCTION, DISCLOSURE, OR USE THEREOF IS PROHIBITED WITHOUT THE WRITTEN CONSENT OF SUNRUN SOUTH LLC. 595 MARKET STREET, 29TH FLOOR ● SAN FRANCISCO, CA 94105 USA PHONE (415) 580-6900 ● FAX (415) 580-6902A REVISION: ALL DIMENSIONS IN INCHES 12.00 12.00 3.413.12 .27 .02 1.86 .30 92° 11.25 FLASHED L FOOT PROPERTIES SKU FLASHING MATERIAL L FOOT FINISH 242-92047 SILVER ALUMINUM CLEAR 242-92048 BLACK ALUMINUM BLACK 242-92050 BLACK GALV STEEL CLEAR 242-92051 BLACK GALV STEEL BLACK 2.00 .38 2.00 3.50 DESCRIPTION:PART NUMBER:SCALE:DESIGNER: APPROVED BY: REVISION: MAINSTREAM ENERGY CORP. 775 FIERO LANE, SUITE 200 Ɣ SAN LUIS OBISPO, CA 93401 USA PHONE (805) 528-9705 Ɣ FAX (805) 528-9701 THE INFORMATION IN THIS DRAWING IS CONFIDENTIAL AND PROPRIETARY. ANY REPRODUCTION, DISCLOSURE, OR USE THEREOF IS PROHIBITED WITHOUT THE WRITTEN CONSENT OF MAINSTREAM ENERGY CORPORATION. PEN DETAIL 01, FLASHED L FOOT TO RAFTERS100 PEN D01D Ryan REV FDATE: DNS 120113 DRAFTER: G McPheeters 5 16 X 1" (OR 1.25") S.S. BOLT AND SPLIT WASHER 5 16 S.S. FLANGE NUT SNAPNRACK COMPOSITION ROOF FLASHING SNAPNRACK STANDARD RAIL SNAPNRACK CHANNEL NUT SNAPNRACK COMPOSITION L FOOT CAN BE MOUNTED IN ANY ORIENTATION SNAPNRACK L FOOT BASE 5 16" S.S. LAG SCREW WITH FLAT WASHER 2.5" MINIMUM EMBEDMENT IS STANDARD FLASHED L FOOT MOUNTING POINT FOR USE ON COMPOSITION ROOF SURFACES WITH LOW TO MODERATE TILT RAILS CAN BE LEVELED UP TO 3" USING UP TO TWO LEVELING SPACERS AS SHOWN IN "SERIES 100 RAIL LEVELING" RAFTER TYP. ROOF DECKING TYP. STEP 3: PLACE L FOOT ON TOP OF FLASHING AND TIGHTEN NUT STEP 2: SLIP FLASHING OVER L FOOT BASE AND UNDER ROW OF SHINGLES ABOVE ROOF DECKING TYP. NOTES: - 5/16" LAG BOLTS MUST EMBED 2.5" INTO ROOF STRUCTURAL MEMBERS/RAFTERS - TORQUE ALL 5/16" HARDWARE TO THE FOLLOWING: - SILVER S.S. 10-16 FT-LBS - BLACK S.S. 7-9 FT-LBS - RAILS CAN MOUNT TO EITHER SIDE OF L FOOT (UPSLOPE VS DOWNSLOPE) STEP 1: BOLT L FOOT BASE TO ROOF WITH LAG BOLT COMPLETED INSTALLATION PV PHOTOVOLTAIC WIRE 600 VOLT XLP • For use in solar power applications • Rated 90°C for exposed or concealed wiring in wet or dry locations • Rated for direct burial APPLICATIONS Suitable for use as follows: • Stranded copper conductors • XLP insulation • UL Subject 4703 • UL 44 • RoHS Compliant SPECIFICATIONS Bare or Tinned Stranded Copper Conductors XLP Insulation Direct Burial -40°C to +90°C 600 Volt • Southwire PV Photovoltaic Wire is manufactured using stranded copper conductors with single layer XLP insulation • Bare or Tinned Conductors • -40°C to +90°C • Sunlight Resistant • RoHS Compliant • Direct Burial • VW-1 flame rating optional • Sample Print Legend: SOUTHWIRE E316464 (O) (UL) PV WIRE 10 AWG (5.26mm2) CU 600V 90° WET OR DRY (-40°C) SUN RES DIRECT BURIAL VW-1 OR RHW-2 600V — RoHS CONSTRUCTION Other sizes and strand configurations are available upon request. Also available in various colors. WEIGHTS, MEASUREMENTS, AND PACKAGING SIZE (AWG)NUMBER OF STRANDS INSULATION THICKNESS (inch) NOMINAL O.D. (inch) NET WEIGHT (lbs/1000 ft) 14 19 0.060 0.190 26.8 12 19 0.060 0.207 36.1 10 19 0.060 0.231 50.6 8 19 0.075 0.292 80.3 14 7 0.060 0.190 26.8 12 7 0.060 0.207 36.1 10 7 0.060 0.231 50.6 8 7 0.075 0.292 80.3 STRANDED COPPER CONDUCTORS 2002/95/EC Di s c l a i m e r : T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n s Dec 04, 2016 1 Product data sheet Characteristics D222NRB SWITCH FUSIBLE GD 240V 60A 2P NEMA3R Product availability : Stock - Normally stocked in distribution facility Price* : 326.00 USD Main Product or component type Single Throw Safety Switch Line Rated Current 60 A Product certifications UL listed NEMA degree of protection NEMA 3R Disconnector device type Fusible disconnect Device composition Neutral (factory installed) Short-circuit current 100 kA maximum depending on fuse H, K or R Device mounting Surface Number of poles 2 Electrical connection Lugs Series name General duty Ordering and shipping details Category 00106 - D & DU SW,NEMA3R, 30-200A Discount Schedule DE1A GTIN 00785901460640 Nbr. of units in pkg.1 Package weight(Lbs)8.3499999999999996 Returnability Y Country of origin US Contractual warranty Warranty period 18 months 600 Volt Copper Conductor Thermoplastic Insulation/Nylon Sheath Heat, Moisture, Gasoline and Oil Resistant1 Sizes 8 AWG and Larger Rated THWN-2 All Stranded Sizes Rated MTW and THWN Sizes 14 through 6 AWG Rated AWM (105°C) Sizes 14 through 1 AWG Rated VW-1 ANNEALED (SOFT) COPPER HEAT AND MOISTURE RESISTANT POLYVINYL CHLORIDE (PVC) NYLON (POLYAMIDE) OR UL-LISTED EQUAL JACKET • Southwire Type THHN or THWN-2* conductors are primarily used in conduit and cable trays for services, feeders and branch circuits in commercial or industrial applications as specified in the National Electrical Code®2 • When used as Type THHN, conductor is suitable for use in dry locations at temperatures not to exceed 90°C • When used as Type THWN-2*, conductor is suitable for use in wet or dry locations at temperatures not to exceed 90°C or not to exceed 75°C when exposed to oil or coolant • When used as Type MTW, conductor is suitable for use in wet locations or when exposed to oil or coolant at temperatures not to exceed 60°C or dry locations at temperatures not to exceed 90°C (with ampacity limited to that for 75°C conductor temperature per NFPA 79) • Conductor temperatures not to exceed 105°C in dry locations when rated AWM and used as appliance wiring material. Voltage for all applications is 600 volts APPLICATIONS Suitable for use as follows: STANDARDS & REFERENCES Southwire Type THHN or THWN-2* or MTW (also AWM) meets or exceeds all applicable ASTM specifications, UL Standard 83, UL Standard 1063 (MTW), Federal Specification A-A-59544 and requirements of the National Electrical Code.® RoHS Compliant. CONSTRUCTION • Southwire Type THHN or THWN-2* or MTW copper conductors are annealed (soft) copper, insulated with a tough heat and moisture resistant polyvinyl chloride (PVC), over which a nylon (polyamide) or UL-listed equal jacket is applied • Available in black, white, red, blue, green, yellow, brown, orange and grey; some colors standard, some subject to economic order quantity SPECIFICATIONS • MTW or THHN or THWN-2: Conductors shall be UL-listed Type MTW or THHN or THWN-2* gasoline and oil resistant II, suitable for operations at 600 volts as specified in the National Electrical Code.® Sizes 14 through 6 AWG shall be rated VW-1. Conductors shall be annealed copper, insulated with high-heat and moisture resistant PVC, jacketed with abrasion, moisture, gasoline and oil resistant nylon or listed equivalent, as manufactured by Southwire Company or approved equal. • AWM: Conductors shall be UL-listed Type THHN or THWN-2* or MTW or AWM, suitable for operation at 600 volts at conductor temperatures not to exceed 105°C. *rated -2 for 8 AWG and larger only 1 Oil and gasoline resistant ll as defined by Underwriters Laboratories 2 2005 Edition THHN/THWN/TWN75/T90 2002/95/EC HVAC TH H N / T H W N / T W N 7 5 / T 9 0 WEIGHTS, MEASUREMENTS, AND PACKAGING CONDUCTOR INSULATION THICKNESS(mils) JACKET THICKNESS(mils) NOMINAL O.D.(mils) APPROX. NET WEIGHT (lbs/1000 ft) ALLOWABLEAMPACITIES*STANDARDPACKAGESIZE (AWG or kcmil) NUMBER OF STRANDS SOL.STR.SOL.STR.60°C 75°C 90°C 14 19 15 4 102 109 15 16 15 15 15 DNFP 12 19 15 4 119 128 23 24 20 20 20 DNFP 10 19 20 4 150 161 37 38 30 30 30 DQFP 8 19 30 5 -213 -62 40 50 55 FP 6 19 30 5 -249 -95 55 65 75 EP Solid construction available in sizes 14 through 10 AWG as Types THHN or THWN or AWM only. Sizes 14 through 6 AWG also suitable for 105°C appliance wiring material (AWM). Sizes 14 and 12 AWG contain four 500 ft. spools per carton. Size 10 AWG contains two 500' spools per carton. *Allowable ampacities shown are for general use as specified by the National Electrical Code®, 2005 Edition, section 310.15 unless the equipment is marked for use at higher temperatures the conductor ampacity shall be limited to the following: 60°C - When terminated to equipment for circuits rated 100 amperes or less or marked for size 14 through 6 AWG conductors. MTW wet locations or when exposed to oil or coolant. 90°C - THHN dry locations. THWN-2 wet or dry locations. For ampacity derating purpose STANDARD PACKAGE CODES B – 1000 ft. reel C – 500 ft. reel D – 2500 ft. spool E – 1000 ft. spool F – 500 ft. spool N – 2000 ft. carton Q – 350 ft. carton P – Drum