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Item 6F - Plans
R ACCESSORY STRUCTURE PARCEL MAP MAI RESIDE PROJECT APN: D 0 M c m 1 DRIVEWAY _ GE ERAL PROJECT & JURISDICTIO AL OTES I SPECTIO REQUIREME TS JURISDICTIO AL & LISTI G REQUIREME TS 1. WHEN APPLICABLE A SMOKE DETECTOR, APPROVED AND LISTED BY THE 1. A LADDER SHALL BE IN PLACE FOR INSPECTION IN COMPLIANCE WITH ALL STATE FIRE MARSHAL OR ANSI/UL 217 CERTIFIED TO NATIONAL FIRE ALARM OSHA REGULATIONS. AND SIGNALING CODE, NFPA 72 SHALL BE VERIFIED FUNCTIONAL OR INSTALLED 2. PENDING LOCAL JURISDICTIONAL REQUIREMENTS AND WHEN APPLICABLE IN ALL APPLICABLE CODE REQUIRED LOCATIONS. ALL ELECTRICAL ENCLOSURE DEAD FRONTS, COVERS, DOORS, ETC. SHALE BE OPEN AND ACCESSIBLE FOR INSPECTIONS. WHEN TRENCH AND ROOF INSPECT ARE REQUIRED WORK SHALL BE OPEN AND ACCESSIBLE FOR INSPECTOR. 2. ALL APPLICABLE EQUIPMENT TO BE UL LISTED OR LISTED BY OTHER JURISDICTIONAL AND UTILITY APPROVED ASSOCIATION OR NATIONALLY RECOGNIZED ORGANIZATION. 3. FULL SCOPE OF WORK SHALL COMPLY WITH ALL APPLICABLE CODES LISTED IN GOVERNING CODES SECTION, ALL MANUFACTURES' LISTINGS, INSTALLATION INSTRUCTIONS AND SPECIFICATIONS AND JURISDICTIONAL REQIREMENTS. 4. REVISED PLANS WILL BE REQUIRED TO BE RESUBMITTED TO THE LOCAL JURISDICTION IF THE INSTALLED ARRAY AND ASSOCIATED EQUIPMENT DOES NOT MATCH THE APPROVED BUILDING PLANS. ADDITIONAL FEES MAY ALSO APPLY. 5. THE PLACEMENT OF A UTILITY PV PRODUCTION METER SHALL BE PROVIDED AND PLACED BY THE CONTRACTOR AS PER APPLICABLE UTILITY OR AHJ REQUIREMENTS. GOVERNING CODES APPLICABLE BUILDING CODES: 2018 INTERNATIONAL BUILDING CODE 2018 INTERNATIONAL RESIDENTIAL CODE 2018 INTERNATIONAL FIRE CODE 2020 NATIONAL ELECTRIC CODE DESIGN CRITERIA BUILDI G OCCUPA CY: R-3 RISK CATEGORY: Risk Category II ASCE 7-16 WI D SPEED: 115 EXPOSURE CATEGORY: Exposure C S OW LOAD: 5 S OW EXPOSURE: N/A CO STRUCTIO TYPE: VB SCOPE OF WORK ROOF MOUNTED PV (SOLAR) PROJECT GRID -TIED W/O BATTERY STORAGE PROPOSED SOLAR EQUIPME T SITE / PROJECT DETAILS QTY. EQUIPME T DESCRIPTIO /MFG/MODEL CONNECTION BACK -FED BREAKER 34 MODULES MISSION SOLAR MSE345SX5T SYSTEM SIZE DC 11.730 KW 1 INVERTER(S) SolarEdge SE1140OH-US (240V) SYSTEM SIZE AC 10.704 KW N/A RACKING Iron Ridge XR100 Rail QTY. STRI G/CKT. 3 50 STANCHIONS IronRidge FlashFoot2 ELECT. SERVICE 120/240V - 10 N/A RSD DEVICE INTEGRATED IN INV & OPT ROOF COVERI G Comp Shingle N/A BATTERIES N/A N/A COMBINER(S) N/A TILT 37-,33- (E) 7°,33°(E) MSP RATINGS 225A BUS/200A MAIN BREAKER AZIMUTH 260-,270- PROJECT 60°,270°PROJECT TEAM LIST CONTRACTOR: Current Solar LLC. 3000 Altamesa Blvd, Suite 300 Fort Worth, tx 76133 CO TRACTOR LIC #: - PHO E: (817) 690-1456 CO TACT AME: Ryan Pruitt PHO E: (817) 690-1456 EMAIL: rpruitt@currentsolar.us nGclrnl Rv• nyan rruiu PHONE: (817) 690-1456 EMAIL: rpruitt@currentsolar.us PROJECT DRAFTER: Advanced Solar Solutions 39650 Mallard Bass Lake, CA 93604 ADVANCEDA SOLAR SOLUTIONS PHONE: 559 321 7000 EMAIL: info@advpermits.com HOME OWNER PROJECT LOCATION: Burchett, Larry 2910 Harbor Refuge, Southlake, TX 76092 COPYRIGHT OTICE 1. UNAUTHORIZED USE OF THIS DRAWING SET WITHOUT EXPRESSED CONTACT NAME: Burchett, Larry WRITTEN PERMISSION FROM THE CONTRACTOR AND ADVANCED SOLAR PHONE: SOLUTIONS IS A VIOLATION OF U.S. COPYRIGHT LAWS AND WILL BE SUBJECT EMAIL: TO CIVL DAMAGES AND PROSECUTION. ELECTRICAL UTILITY: Tri -county Electric METER UMBER:1131951 PHONE: AUTHORITY HAVING JURISDICTION: BUILDING: City Of Southlake PHONE: ENGINEERED BY: Scott E. Wyssling 76 North Meadowbrook Dr Alpine, UT 84004 LICENSE #: 122669 LICENSE TYPE: Civil PHONE: (202) 874-3483 EMAIL: swyssling@wysslingconsulting.com PROJECT LOCATION I W a cc 0 W LL N w� W Co N W O N 0 W LU (n LU O U SHEET INDEX O M Ln M -I 'T a SHEET SHEETTITLE X NUMBER cn z Q a U PV-10OR Q > i o J +; t o = N 0 t m PV -001 COVER SHEET N-001 GENERAL NOTES PV ARRAY LAYOUT S-100 RACKING LAYOUT S-200 SECTION ELEVATION S-201 ATTACHMENT DETAILS E-001 EQUIP. CALCULATION E-002 WIRE AND COND. CALCS = YV)O sV 3 o o E-003 THREE LINE DIAGRAM E-100 ELECTRICAL LAYOUT P-001 STANDARD PLACARDS 1 ROTT.E. WWYSSLING ro W Q z y p N = in a a P-002 DYNAMIC PLACARDS R-1xx EQUIP.CUT SHEETS ` u Q Q O M Ln M -I 'T a � � O X m 0 00 W W E a LL or r %%II O 1 ROTT.E. WWYSSLING p ��l�......E. 122069 ` u a o %;ONAL a Wyssling Consulting Ln Firm No. 20109 D U GENERAL NOTES:* PROPER ACCESS AND WORKING CLEARANCE AROUND EXISTING AND PROPOSED ELECTRICAL EQUIPMENT WILL BE PROVIDED AS PER SECTION NEC 110.26. PV SYSTEM COMPONENTS; INCLUDING BUT NOT LIMITED TO, MODULES, INVERTERS AND SOURCE CIRCUIT COMBINERS ARE IDENTIFIED AND LISTED FOR USE IN PV SYSTEMS IN COMPLIANCE WITH NEC 690.4 AND 690.6 AND ALL UL, IEC, IEEE CLASSIFICATIONS AS REQUIREMENTS. RAPID SHUTDOWN NOTES:* PV SYSTEM CIRCUITS INSTALLED ON OR IN BUILDIDNG SHALL INCLUDE A RAPID SHUTDOWN FUNCTION THAT CONTROLS SPECIFIC PV CONDUCTORS IN ACCORDANCE WITH 2020 NEC 690.12(A) -(D) EQUIPMENT LOCATIONS & ELECTRICAL NOTES:* JUNCTION AND PULL BOXES ARE PERMITTED TO BE INSTALLED UNDER PV MODULES IN COMPLIANCE WITH NEC 690.34. ADDITIONAL AC DISCONNECT(S) SHALL BE PROVIDED WHERE THE INVERTER IS NOT WITHIN SIGHT OF THE AC SERVICING DISCONNECT. 2020 NEC 690.15(A) ALL EQUIPMENT SHALL BE INSTALLED ACCESSIBLE TO QUALIFIED PERSONNEL IN COMPLIANCE WITH NEC APPLICABLE CODES. ALL COMPONENTS ARE LISTED FOR THEIR INTENDED PURPOSE AND RATED FOR OUTDOOR USAGE WHEN APPLICABLE. STRUCTURAL AND INSTALLATION NOTES:* RACKING SYSTEM & PV PANELS MOUNTED ON A ROOFTOP SHALL BE LISTED AND LABELED IN ACCORDANCE WITH UL 1703 AND SHALL BE INSTALLED IN ACCORDANCE WITH THE MANUFACTURER INSTALLATION INSTRUCTIONS. ALL PV RACKING ATTACHMENT POINTS SHALL NOT EXCEED THE PRE-ENGINEERED MAX SPANS OUTLINED BY THE RACKING MANUFACTURES ENGINEER OF RECORD. GROUNDING NOTES:* IN UNGROUNDED SYSTEMS ONLY THE DC CONDUCTORS ARE UNGROUNDED AND REQUIRE AN EQUIPMENT GROUNDING CONDUCTOR. ALL METAL ELECTRICAL EQUIPMENT AND STRUCTURAL COMPONENTS BONDED TO GROUND, IN COMPLIANCE WITH NEC 250.134 AND NEC 250.136(A). PV EQUIPMENT INCLUDING MODULE FRAMES AND OTHER METAL PARTS SHALL BE GROUNDED IN COMPLIANCE WITH NEC 690.43 AND MINIMUM GROUND CONDUCTORS SIZED IN ACCORDANCE WITH NEC TABLE 250.122. CONDUCTIVE PARTS OF MODULE FRAMES, MODULE RACKING, AND ENCLOSURES SHALL BE GROUNDED IN COMPLIANCE WITH NEC250.134ANDNEC250.136(A) UL2703 APPROVED MODULE AND RACK GROUNDING SHALL BE USED AND INSTALLED PER MANUFACTURER'S INSTALLATION MANUAL. IF UL2703 APPROVED GROUNDING IS NOT USED, MODULE GROUNDING LUGS MUST BE INSTALLED AT THE SPECIFIED GROUNDING LUG HOLES PER THE MANUFACTURER'S INSTALLATION REQUIREMENTS. THE GROUNDING CONNECTION TO A MODULE SHALL BE ARRANGED SUCH THAT THE REMOVAL OF A MODULE DOES NOT INTERRUPT A GROUNDING CONDUCTOR TO ANOTHER MODULE. THE GROUNDING ELECTRODE SYSTEM COMPLIES WITH NEC 690.47 AND NEC 250.50 THROUGH NEC 250.106. IF EXISTING SYSTEM IS INACCESSIBLE OR INADEQUATE, A GROUNDING ELECTRODE SYSTEM WILL BE PROVIDED IN COMPLIANCE WITH NEC250, NEC690.47ANDAHJ. PV SYSTEMS SHALL BE PROVIDED WITH DC GROUND - FAULT PROTECTION 2020 NEC 690.41(B) INTERCONNECTION / POC NOTES:* ALL LOAD -SIDE INTERCONNECTIONS ARE IN COMPLIANCE WITH 2020 NEC 705.12(B) THE TOTAL RATING OF ALL OCPD IN SOLAR LOAD CENTERS SHALL NOT EXCEED THE RATED AMPACITY OF THE BUSBAR EXCLUDING THE OCPD PROTECTING THE BUSBAR IN COMPLIANCE WITH NEC 705.12(B)(2)(3)(c) ALL FEEDER TAP (LOAD SIDE) INTERCONNECTIONS ARE IN COMPLIANCE WITH 2020 NEC 705.12(B)(2)(1) THE PV SYSTEM BACK -FEED BREAKER SHALL BE INSTALLED ON THE OPPOSITE END OF THE BUS BAR AND IT SHALL ALSO BE SIZED APPROPRIATELY AS PER 2020 NEC 705.12(B)(2)(3)(b) SUPPLY SIDE TAP INTERCONNECTIONS ARE IN COMPLIANCE WITH NEC 705.12(A) WITH SERVICE ENTRANCE CONDUCTORS IN COMPLIANCE WITH NEC 230.42 BACKFEEDING BREAKER FOR INVERTER OUTPUT IS EXEMPT FROM ADDITIONAL FASTENING 2020NEC705.12(B)(5) MICROINVERTER BRANCH CIRCUITS SHALL BE CONNECTED TO A SINGLE OCPD IN ACCORDANCE WITH THEIR INSTALLATION INSTRUCTIONS AND NEC 690.9 DISCONNECTS AND OCPD NOTES:* ALL DISCONNECTING SWITCHES WILL BE CONFIGURED SO THAT ALL ENERGIZED CONDUCTORS WHEN DISCONNECT IS OPEN SHALL BE ON THE TERMINALS MARKED, "LINE SIDE" (TYPICALLY THE UPPER TERMINALS) ALL AC DISCONNECTS SHALL BE LABELED, LOCKABLE, OF VISIBLE BREAK TYPE SWITCH WITH EXTERNAL HANDLE AND ACCESSIBLE TO QUALIFIED UTILITY PERSONNEL. AC DISCONNECTS SHALL BE A "KNIFE BLADE" TYPE DISCONNECT. IF EXTERIOR, RATED TO NEMA 3R OR BETTER PER NEC110.28 ADDITIONAL AC DISCONNECTS SHALL BE PROVIDED WHERE THE INVERTER IS NOT ADJACENT TO THE UTILITY AC DISCONNECT, OR NOT WIHTIN SIGHT OF THE UTILITY AC DISCONNECT. 2020 NEC 690.15(A) BOTH POSITIVE AND NEGATIVE PV CONDUCTORS REMAIN UNGROUNDED. THEREFORE, BOTH SHALL REMAIN OPEN WHERE A DISCONNECT IS REQUIRED IN COMPLIANCE WITH 2020 NEC 690.15(D) ALL OCPD RATINGS AND TYPES SPECIFIED SHALL BE IN COMPLIANCE WITH NEC 690.8, 690.9, 705.12 AND 240. BOTH POSITIVE AND NEGATIVE DC PV CONDUCTORS ARE UNGROUNDED; BOTH REQUIRE OVERCURRENT PROTECTION IN COMPLIANCE WITH NEC 690.9 ARC FAULT (AFCI) DC CIRCUIT PROTECTION IS REQUIRED FOR ALL PV SYSTEMS ON OR PENETRATING A BUILDING WITH A MAXIMUM SYSTEM VOLTAGE OF 80 VOLTS OR GREATER. ALL DC PV CIRCUITS INSTALLED IN OR ON BUILDINGS WILL BE ARC -FAULT CIRCUIT PROTECTED IN COMPLIANCE WITH NEC 690.11, UL1699B AND SHALL BE LISTED AND LABELED IN ACCORDANCE WITH UL 1699 (B). WIRING & CONDUIT NOTES:* ALL CONDUIT AND CONDUCTORS SHALL BE APPROVED FOR THEIR INTENDED PURPOSE INCLUDING WET LOCATIONS AND EXPOSED TO SUNLIGHT. CONDUITAND CONDUCTOR SIZE SPECIFICATIONS ARE BASED ON THE MINIMUM CODE REQUIREMENTS AND ARE NOT LIMITED TO UP SIZING. ALL CONDUCTORS SHALL BE SIZED IN COMPLIANCE WITH NEC 690.8, NEC 690.7. ALL CONDUCTORS SHALL BE DERATED AS APPLICABLE TO THEIR RESPECTIVE ENVIRONMENT INCLUDING DIRECT SUNLIGHT IN ACCORDANCE WITH 2020 NEC 310.15(B) (3) (4) (c) EXPOSED UNGROUNDED DC PV SOURCE AND OUTPUT CIRCUITS SHALL USE CONDUCTORS LISTED AND IDENTIFIED AS PHOTOVOLTAIC (PV) WIRE IN COMPLIANCE 2020 NEC 690.31(C)(1). PV MODULES WIRE LEADS SHALL BE LISTED FOR USE WITH UNGROUNDED SYSTEMS IN COMPLIANCE WITH 2020 NEC 690.4(B) PV WIRE BLACK WIRE MAY BE FIELD -MARKED WHITE IN COMPLIANCE WITH NEC 200.6 (A)(6). PV MODULE CONDUCTORS LOCATED UNDER ARRAYS WILL BE SECURED IN A WORKMANLIKE MANNER IN COMPLIANCE WITH NEC 110.12. WATERPROOFING:* ALL NEW ROOFTOP PENETRATIONS SHALL BE SEALED AND MADE WEATHERTIGHT WITH APPROVED CHEMICAL SEALANT AND FLASHINGS WHERE REQUIRED PER CODE AND GENERAL BUILDING AND ROOFING WORKMANSHIP STANDARDS BY A LICENSED CONTRACTOR. ALL EXTERIOR ELECTRICAL EQUIPMENT, SHALL BE NEMA 3111 OR BETTER RATED. ALL EXTERIOR CONDUIT AND CONNECTORS SHALL BE RATED FOR WET LOCATIONS. *ALL NOTES ARE AS APPLICABLE TO THIS PROJECT. DISREGARD ANY NOTES THAT DO NOT APPLY TO THIS PROJECT. s�1E OF TET *.ato/ -v, A SCOTT E. YYVSSLI. i !.. 22dd0 ... 4 r. Wyssling Consulting Firm No. 20109 �w LU > LU �cr LU U who J m LLA N Of Ln -1 N N �00 aMLn O N ,�� N\ 0 0 > LU cn z Q J CL cn LU 0 z J Q LU z W r1 O C z F_ N rn J � �.D O v r, X O f6 0 ~ J O d v 0 41 L � � rn o ca N to Y O M l0 � Ln M *(v' n 0 x m�- ro v oLL 1= ru;�� r O U 0 � m J zo -w LU = 1�.1 J v 7 0 � UI U Ln "I O M W � z00 N LU N L z O M l0 � Ln M *(v' n 0 x m�- ro v oLL 1= ru;�� r O U 0 � m J zo -w LU = 1�.1 J v 7 0 � UI U PV AC DISCONNECT LOCATED ON ACCESSIBLE EXTERIOR WALL WITH EXTERNAL HANDLE WITHIN 10 FEET OF THE N BRAY SHALL NOT BE INS FF OF FINISHED ROOF SI 3' FIRE PATHWAYS NOTE: ALL ELECTRICAL LAYOUT DETAILS ON SHEET E 100 SECTION 1 QTY 34 MISSION SOLAR MSE345SX5T MODULES QTY 1 SolarEdge SE11400H US (240V) INVERTER 2018 IFC ROOF ACCESS REQUIREMENTS w O O THE FOLLOWING INFORMATION INDICATES THE REQUIRED ROOFTOP CLEARANCES FOR PANELS/ARRAYS INSTALLED ON RESIDENTIAL M O O BUILDINGS WITH SLOPES GREATER THAN 2:12: C14 Ln 40.wR�ln..wr....----.......� KOTT E W`'fSSLING 0i' ROOF REFERENCE SQUARE FOOTAGE } ROOF ACCESS P01 TS ROOF ACCESS POINTS SHALL BE LOCATED IN "".""' ......j � o�.r 122"SECTION - O Q AREAS THAT DO NOT REQUIRE THE PLACEMENT OF GROUND LADDERS O O z r -I J OVER OPENINGS SUCH AS WINDOWS OR DOORS, AND LOCATED AT Wyssling Consulting O z< APPLY TO ROOFS WITH 2:12 OR LESS PITCH. STRONG POINTS OF BUILDING CONSTRUCTION IN LOCATIONS WHERE 2 >: BUILDINGS WITH ROOF HIPS AND VALLEYS SHALL BE LOCATED NO THE ACCESS POINT DOES NOT CONFLICT WITH OVERHEAD = w 0 < OBSTRUCTIONS SUCH AS TREE LIMBS, WIRES OR SIGNS. O> w j r, VALLEY. WHERE PANELS ARE TO BE LOCATED ON ONLY ONE SIDE OF A SECTION PV ARRAY TAG RA ROOF ACCESS POINT SECTION # SA SITE ACCESS O — LU - HIP OR VALLEY THAT IS OF EQUAL LENGTH, THE PANELS SHALL BE HIP ROOF LAYOUTS PANELS/MODULES 1 ® GATE ACCESS 0 = Ln 2 PERMITTED TO BE PLACED DIRECTLY ADJACENT TO THE HIP OR VALLEY. INSTALLED ON RESIDENTIAL BUILDINGS WITH HIP ROOF LAYOUTS w LL < SHALL BE LOCATED IN A MANNER THAT PROVIDES A 3 FOOT WIDE I- v L O c -I 7 CLEAR ACCESS PATHWAY FROM THE EAVE TO THE RIDGE ON EACH Q -i m o \ ROOF SLOPE WHERE PANELS/MODULES ARE LOCATED. THE ACCESS -1 LUN = PATHWAY SHALL BE LOCATED AT A STRUCTURALLY STRONG LOCATION LU SECTION # AZIMUTH ROOF PITCH / TILT nQi SECTION 2 270 33° ON THE BUILDING CAPABLE OF SUPPORTING THE LIVE LOAD OF FIRE zaQa N FIGHTERS ACCESSING THE ROOF. (V N SI GLE RIDGE PANELS/MODULES INSTALLED ON RESIDENTIAL w O O BUILDINGS WITH A SINGLE RIDGE SHALL BE LOCATED IN A MANNER H Q M O THAT PROVIDES TWO, 3 FOOT WIDE ACCESS PATHWAYS FROM THE Q C14 Ln 40.wR�ln..wr....----.......� KOTT E W`'fSSLING 0i' ROOF REFERENCE SQUARE FOOTAGE EAVE TO THE RIDGE ON EACH ROOF SLOPE WHERE PANELS/MODULES E LL "".""' ......j � o�.r 122"SECTION - O ARE LOCATED. 2 289 O O r -I *NOTE: DESIGNATION OF RIDGE, HIP, AND VALLEY DOES NOT U Wyssling Consulting N z< APPLY TO ROOFS WITH 2:12 OR LESS PITCH. Q Q! bA HIPS A D VALLEYS PANELS/MODULES INSTALLED ON RESIDENTIAL BUILDINGS WITH ROOF HIPS AND VALLEYS SHALL BE LOCATED NO w TOTAL PERCENTAGE 34.52% 0 CLOSER THAN 18 INCHES TO A HIP OR A VALLEY WHERE PANELS/MODULES ARE TO BE PLACED ON BOTH SIDES OF A HIP OR *EXISTING DIMENSIONS ARE APPROX. O> fY Ln a) r, VALLEY. WHERE PANELS ARE TO BE LOCATED ON ONLY ONE SIDE OF A SECTION PV ARRAY TAG RA ROOF ACCESS POINT SECTION # SA SITE ACCESS O — JO - HIP OR VALLEY THAT IS OF EQUAL LENGTH, THE PANELS SHALL BE 1 ® GATE ACCESS 4 — 2 PERMITTED TO BE PLACED DIRECTLY ADJACENT TO THE HIP OR VALLEY. RESIDE TIAL BUILDI G SMOKE VE TILATIO PANELS/MODULES INSTALLED ON RESIDENTIAL BUILDINGS SHALL BE LOCATED NO HIGHER THAN 3 FEET BELOW THE RIDGE IN ORDER TO ALLOW FOR FIRE V% O M LD O M 111 M i--1 � DEPARTMENT SMOKE VENTILATION OPERATIONS. Z \\\\\\ 1% �of r �1! ' o r1 SEE HATCH DEFINITION BELOW Q m � 00 E v L 40.wR�ln..wr....----.......� KOTT E W`'fSSLING 0i' ROOF REFERENCE SQUARE FOOTAGE E LL "".""' ......j � o�.r 122"SECTION EXISTING ROOF 1883 SECTION 1 361 Q 0 2 289 *NOTE: DESIGNATION OF RIDGE, HIP, AND VALLEY DOES NOT U Wyssling Consulting N z< APPLY TO ROOFS WITH 2:12 OR LESS PITCH. Q Q! bA N PV SITE LAYOUT LEGEND TOTAL PERCENTAGE 34.52% 0 *EXISTING DIMENSIONS ARE APPROX. O> fY Ln a) r, SECTION PV ARRAY TAG RA ROOF ACCESS POINT SECTION # SA SITE ACCESS O — JO - H 1 ® GATE ACCESS 4 — 2 Qj `1 ra d v L O c -I 7 AZIMUTH AND TILT TABLEm N Y O r LUN = �R N = z SECTION # AZIMUTH ROOF PITCH / TILT SECTION 1 260 37° SECTION 2 270 33° zaQa O M LD O M 111 M i--1 � +' I� O X M \\\\\\ 1% �of r �1! ' o r1 V, r V' si► f SQUARE FOOTAGE CALCULATIONS m � 00 E v L 40.wR�ln..wr....----.......� KOTT E W`'fSSLING 0i' ROOF REFERENCE SQUARE FOOTAGE E LL "".""' ......j � o�.r 122"SECTION EXISTING ROOF 1883 SECTION 1 361 Q 0 2 289 Wyssling Consulting N z< Firm No. 20109 UJ TOTAL PERCENTAGE 34.52% *EXISTING DIMENSIONS ARE APPROX. v fY Ln Ztz�A CONFIRM ALL DIMENSIONS SHOWN NORTH SCALE: 1/24"= 1'0"@ SHEET SIZE A3 U 0 4, QTY 34 MISSION SOLAR MSE345SX5T MODULES QTY 1 SolarEdge SE11400H US (240V) INVERTER SHEET NOTES A. FOR MANUFACTURED PLATED WOOD TRUSSES AT SLOPES OF FLAT TO 9:12, THE HORIZONTAL ANCHOR SPACING SHALL NOT EXCEED 6' 0" AND ANCHORS IN ADJACENT ROWS SHALL BE STAGGERED. UNLESS NOTED OTHERWISE PER RACKING MANUFACTURER CERTIFIED ENGINEERED PRODUCT AND LOCAL REQUIREMENTS. B. ANCHORS ARE ALSO KNOWN AS "STAND-OFFS," "MOUNTS," OR "STANCHIONS." HORIZONTAL ANCHOR SPACING IS ALSO KNOWN AS "CROSS -SLOPE" OR "EAST -WEST" ANCHOR SPACING. MAXIMUM HORIZONTAL ANCHOR SPACING SHOWN IN DETAIL. UNLESS NOTED OTHERWISE PER RACKING MANUFACTURER CERTIFIED ENGINEERED PRODUCT AND LOCAL REQUIREMENTS. SEE "TABLE OF DIMENSIONS" EACH SECTION DETAILED FOR HORIZONTAL ANCHOR SPACING. C. SEE SHEET S-200 FOR SPECIFIC RACKING COMPONENT MANUFACTURERS. PV RACKING LEGEND ROOF RACKING RAIL 0 ROOF RACKING RAIL SPLICE ROOF RACKING SECTION PV ARRAY TAG °❑ STANCHION W/ SECTION # RETRO FIT FLASHING 1 MODULE GROUP * DETAILS IN TOP VIEW EXISTING ROOF CONSTRUCTION COMPONENT TYPE ROOF STRUCTURAL CONSTRUCTION Rafter Strut to Walls Below 24" O.C. FRAMING INFO 2"x6" @ 24" MAX OC ROOFING COVERING Comp Shingle RACKING MAX PSF 2.85 PSF RACKING BILL OF MATERIALS (BOM) COMPONENT QTY MODEL LENGTH PV RAIL 1 PV RAIL SPLICE 1 PV RAIL 2 PV RAIL SPLICE 2 RAIL TO ROOF ATTACHMENT 01' ••{E OFTl 1h ,,......",,Si.i AI f« OP SCOTT E. VIYSSLING jp Wyssling Consulting Firm No. 20109 * EXISTING ROOF DIMENSIONS ARE APPROX. z�+:T:0 CONFIRM ALL DIMENSIONS SHOWN NORTH SCALE: 1/24"= 1'0"@ SHEET SIZE A3 LU LU D_ O LU Li cf1 LU J m W =) cr- N r-1 N LU 0 � N Q m Q N N O W N z a J d U a J O 0 O a Y O m r -I O Q J z U O O rl V) 4! N Ctl =3 O r, J 0 L rn O CD N to O M LD O M 1f) M i--1 -Zt +' n O X pl m 0 'o ro v o M w Q O O ( j � m M f6 o < U J�/''� 3 V aUl D U 1 STRUTS TO WALL(S) /RAFTER PORTRAIT 2 1� * IF BLOCKING REQUIRED S-201 RISES PVI 3 I 7 cc DI i RIDGE BEAM fv �DIAGONALAND/OR D3 VERTICAL ATTIC STRUTS r� HS2 q HORIZONTAL SPAN —AVERIFY WALL OR BEAM BELOW ATTIC STRUT SCALE: NTS 2 STRUTS TO WALL(S) /RAFTER LANDSCAPE 2 1� * IF BLOCKING REQUIRED S-201 1 RISE J_ RIDGE BEAM - --------------- HS1 ;{,OF HORIZONTAL SPAN TABLE OF DIMENSIONS DIM COMPONENT DIMENSIONS DIM COMPONENT DIMENSIONS OHI OVERHANG IN THIS AREA 12" R1 RIDGE BEAM DEPTH 6" RISE ROOF PITCH 37',33- R2 RAFTER DEPTH THIS AREA Err H1 PV MODULE HGT. ABOVE ROOF 3" Err TYP HS1 HORIZONTAL SPAN ROOF PITCH 37',33- R2 MAX RAFTER SPAN 11r 9" MAX HS2 HORIZONTALSPAN Err UPSLOPE ANCHOR SPACING D1 RAIL OVERHANG 17.2" D3 STANCHION O.C. 34.66" D2 STANCHION O.C. 34.41" D4 MIN./MAX. STANCHION O.C. LLQ 3 EXPLODED STANCHION & FLASHING DETAIL BOLT LAG 5/16 X 4.75" 2.5" MIN EMBEDMENT WASHER, EPDM BACKED IRONRIDGE ASSY, CAPFOOT PvI DI D2 L �DIAGONAL AND/OR D3 VERTICAL ATTIC STRUTS r� HS2 —AHORIZONTAL SPAN VERIFY WALL OR BEAM BELOW ATTIC STRUT \02 .-J HS1 _ HS1 HORIZONTAL SPAN TABLE OF DIMENSIONS SCALE: NTS SHEET NOTES DIMENSIONS DIM COMPONENT DIMENSIONS OH1 cn 12" R1 RIDGE BEAM DEPTH Err A. THESE NOTES APPLY TO RAFTER ROOF CONSTRUCTION. ROOF PITCH 37',33- R2 RAFTER DEPTH THIS AREA Err O PV MODULE HGT. ABOVE ROOF B. THE ROOF STRUCTURE CONFORMED TO BUILDING CODE HORIZONTAL SPAN _ MAX RAFTER SPAN 11r 9" MAX HS2 HORIZONTAL SPAN REQUIREMENTS ATTHE TIME IT WAS BUILT. UPSLOPE ANCHOR SPACING D1 LLQ 10.37" Q STANCHION O. C. 21" D2 STANCHION O.C. z D4 i Y C. THE ROOF SHEATHING IS AT LEAST 7/16" THICK ORIENTED � O Li'I w STRAND BOARD OR PLYWOOD. 1X SKIP SHEATHING IS * DETAILS IN SECTION OR SIDE VIEW n 2 L. ALL PLUMBING AND ROOF VENTS SHALL NOT BE OBSTRUCTED BY PV MODULES AND EQUIPMENT. J 1 ACCEPTABLE. = Lu Q Lu S -2O1 D. THE SOLAR ARRAY DISPLACES ROOF LIVE LOADS (TEMPORARY d w M. Z COMPONENT TYPE CONSTRUCTION LOADS) THATTHE ROOF WAS ORIGINALLY Q DESIGNED TO CARRY. LU LL m Ln mm 1 ROOFING COVERING Comp Shingle Q N I'D e - o°1n 01 I.–O U ® COMPONENT MODEL E. IF THE ROOF COVERING IS SHINGLES; IT SHALL BE NO MORE THAN TWO LAYERS. Q LU Co o � UJ (SHOWN) l0 ro +� 2 PV RAIL SPLICE TYPE 1 PER RAIL MANUFACTURER N :RAMING Lu 4 PV RAIL SPLICE TYPE 2 PER RAIL MANUFACTURER N Q F. IF ROOF COVERING IS TILE; ITS A SINGLE LAYER. ALL TILES ON N Lj O 6 FLASHING Integrated PLANE OF PV COMPONENTS ARE SECURE. 7 MID CLAMP PER RAIL MANUFACTURER 8 END CLAMP PER RAIL MANUFACTURER WING p z C. TYPICAL (NOT SHOWN IN DETAIL) Lu O O ++ f 1 1 L.1 J G. THE ROOF STRUCTURE IS STRUCTURALLY SOUND, WITHOUT HCJ C4 LI D SIGNS OF ALTERATIONS OR SIGNIFICANT STRUCTURAL Q m Ln OO JOH 1L DETERIORATION OR SAGGING. r r,4 O rn O N H. THE PV MODULES ARE PARALLEL WITH THE ROOF SURFACE. I. THERE IS A 2" TO 10" GAP BETWEEN UNDERSIDE OF MODULE > AND THE ROOF SURFACE. (SEE TABLE OF DIMENSIONS "1-11") LL TABLE OF DIMENSIONS DIM COMPONENT DIMENSIONS DIM COMPONENT DIMENSIONS OH1 OVERHANG IN THIS AREA 12" R1 RIDGE BEAM DEPTH Err RISE ROOF PITCH 37',33- R2 RAFTER DEPTH THIS AREA Err H1 PV MODULE HGT. ABOVE ROOF Err TYP HS1 3" HORIZONTAL SPAN _ MAX RAFTER SPAN 11r 9" MAX HS2 HORIZONTAL SPAN UPSLOPE ANCHOR SPACING D1 RAIL OVERHANG 10.37" D3 STANCHION O. C. 21" D2 STANCHION O.C. 20,75" D4 MIN./MAX. STANCHION O.C. Y SCALE: NTS 1 4 IRONRIDGE ASSY, FLASHING STANCHION SPACING DETAIL 7r-nrr nr-nrr J. UPSLOPE ANCHOR SPACING MAY VARY FROM LISTED TABLES. o >O i X ~ SCALE: NTS STANCHIONS CAN BE PLACED NO CLOSER THAN 24" O.C. O L _ K. DETAILS SHOWN ARE A REPRESENTATION OF EXISTING ROOF ROOF RACKING RAIL 0 ROOF RACKING RAIL SPLICE _ CONDITIONS. ACTUAL FIELD CONDITIONS MAY VARY. DETAILS ROOF RACKINGSECTION PV ARRAY TAG STANCHION W/ SECTION # d \ 5 3 m ARE SHOWN FOR DIAGRAM USE ONLY. REFER TO TABLES FOR cn DESIGN CRITERIA. N Y C) LL Li'I z * DETAILS IN SECTION OR SIDE VIEW n 2 L. ALL PLUMBING AND ROOF VENTS SHALL NOT BE OBSTRUCTED BY PV MODULES AND EQUIPMENT. Q Z EXISTING ROOF CONSTRUCTION -.1 z Q a a M. COMPONENT TYPE U_ MEAN ROOF HGT MAX 15' O M LD m Ln mm 1 ROOFING COVERING Comp Shingle Q N I'D e - o°1n 01 O x J ® COMPONENT MODEL a aL o � 1 PV RAIL TYPE 1 XR100 Rail `- l0 ro +� o >O i X ~ SCALE: NTS PV RACKING LEGEND O L _ ROOF RACKING RAIL 0 ROOF RACKING RAIL SPLICE _ O0 ROOF RACKINGSECTION PV ARRAY TAG STANCHION W/ SECTION # d \ 5 3 m CT)O tV cn RETRO FIT FLASHING 1 MODULE GROUP Y C) LL Li'I Ln * DETAILS IN SECTION OR SIDE VIEW n 2 12 = Z EXISTING ROOF CONSTRUCTION -.1 z Q a a COMPONENT TYPE MEAN ROOF HGT MAX 15' O M LD m Ln mm 1 ROOFING COVERING Comp Shingle N I'D e - TABLE OF COMPONENTS^ Ing O x n m L ED ® COMPONENT MODEL a aL o � 1 PV RAIL TYPE 1 XR100 Rail m ro +� 2 PV RAIL SPLICE TYPE 1 PER RAIL MANUFACTURER v E OL LL 3 PV RAIL TYPE 2 NOT USED ro 4 PV RAIL SPLICE TYPE 2 PER RAIL MANUFACTURER Q 5 STANCHION FlashFoot2 O Lj O 6 FLASHING Integrated M J Lip 7 MID CLAMP PER RAIL MANUFACTURER 8 END CLAMP PER RAIL MANUFACTURER WING p z C. TYPICAL Ln ++ f 1 1 L.1 J 7 V �0 LI D U 1 STANCHION ATTACHMENT DETAIL SCALE: NTS 2 RAIL SPLICE DETAIL HORIZONTAL RAIL SCALE: NTS SHEET NOTES 1. A MINIMUM OF (1) 5/16" DIAMETER LAG SCREWS WITH 2.5" EMBEDMENT INTO THE RAFTER USED, OR THE ANCHOR FASTENER MUST MEET THE MANUFACTURER'S ENGINEERING. J Q LU B MODULE END PV MODULE, -16 X 1 SS 2. ADHERE TO RACKING MANUFACTURERS INSTALLATION INSTRUCTIONS PERTAINING TO CANTILEVER. z $ CLAMP BY OTHERS � O SERRATED T-BOLT - -j I 2 z IRONRIDGE RAIL = w w = �L $" HEX FLANGE oc LU _ NUT w U_ U FLASHINGS N ~ Uj � Q ~ - IRONRIDGE FLASHFOOT2 -- -- w �' Q (E) BUILDING (W/INTEGRATED FLASHING) STAGGER STANCHIONS WHERE POSSIBLE. STRUCTURE SEE SHEET "S-100" FOR: LU 0 0 (E) COMP SHINGLES HORIZONTAL ANCHOR SPAN SPACING. CJ o N C4 Ln ROOF COVERING (E) FRAMING O TYPICAL CD o fV ROOF SHEATHINGr -. SPACING VARIES > V) 1 -._.-._._._- W ALL ANCHOR LAGS TO BE MINIMUM 2-1/2" .._._._._._._._._._._...................... _._._._._-._ .._._._._._.___._. ................ EMBEDMENT INTO FRAMING MEMBERS _j - -' N PV RACKING LEGEND � z ROOF RACKING RAIL Q 2/3" OF TOTAL SPAN MAX D ROOF RACKING RAIL SPLICE RAIL MANUFACTURER ROOF RACKING SECTION AG ARRATION a 1/3" OF TOTAL SPAN MAX RAIL SPLICE KIT # SECTION # o STANCHION SE ❑ — SEE S-100 / TABLE OF COMPONENTS AS 1 MODULE GROUP RETRO FIT FLASHING < bbD (O * MODULES SHOWN PORTRAIT IN EXAMPLE J 4- l0 *DETAILS IN SECTION OR SIDE VIEW O v t °0 x 3 RAIL EXTENSION DETAIL SCALE: NTS 4 RAFTER HOLE AND CONSTRUCTION DETAIL SCALE: NTS p ~ NOTE: WHERE FRAMING IS VISIBLE FROM ATTIC WOR UNDERSIDE OF ROOF, = t t 0 0 VISUALLY REVIEW FRAMING TO VERIFY THAT NO SIGNIFICANT STRUCTURAL L o DECAY OR UN-REPAIRED FIRE DAMAGE EXISTS. m N V) —J III L--J I I C) M w N cn � V) VI CC z I r-a 0 0 EXTENSION OF RAIL RIDGE SAG IN INCHES NOT TO EXCEED RIDGErl a a 1/3 LENGTH IN FEET DIVIDED BY 20 RAIL OR STRUT CANT. - -, - -, NOTCHES DEEPER THAN 1/4" LD o m CONNECTIONS TO MEET MAX WEIGHT REQ. OF EQUIPMENT r I I 11 _ RIDGE BEAM NOT ALLOWED ALONG TOP OR 1/4 +V � q0 BOTTOM EDGE OF FRAMING HOLL X oyi ROOFTOPCS ONDUIT DCB - - -.J - ALL -,-,\-- ___-_ =__- MIpDLEHALF wE0ONLy OFFRg1w IN m o AND/OR `� �\ --r_x ;--_`__ — o r — — o� FD - - ----- -- -==c 114p '.'�, =�- '_= • E LL - ___ _ ---=_ _`____--- o� COMPONENT+ ..';''" = ---- ----- - -------------'------- -- --- --- - ----------------------y--� .... �' -�`" •"e .. 0 2" FROM SIDE 2 -� --- ;�---- ------------------ - - --- r"� ���' �* OF MODULE + .....*�� L FRAMING SAG IN INCHES NOT N TO EXCEED FRAMING LENGTH i�^�'-"'""""""' i A ....OTT ....MYYSSUNt3 N VERIFY THAT NO IN FEET DIVIDED BY 20 r�l�lIL�N9�0•'f� +� U J DIAGONAL AND/OR VERTICAL Fo `.........` 111 ti� Q -� L I ATTIC/FRAMING STRUT MEMBERS HOLES ALLOWED ONLY IN MIDDLE THIRD ARE CUT OR NOTCHED OF FRAMING DEPTH, *R2, AND NO LARGER ��o;, a I I I I I Wyssling Consulting 0 THAN *R2/4 IN DIAMETER. MINIMUM Firm No. 20109 * MODULES SHOWN PORTRAIT IN EXAMPLE ** RAILING SHOWING IN VERTICAL IN EXAMPLE - J L-- J SPACING BETWEEN HOLES AT *R2 * "1-2/S200" SEE DETAILS TABLE OF DIMENSIONS PV MODULE #1 SPECIFICATIONS MANUFACTURER MISSION SOLAR MODEL NUMBER MSE345SX5T WEIGHT 44.8 Ibs DIMENSIONS 68.82 x 41.49 x 1.57 L" x W" x D"/THICK PEAK POWER @ STC (Pmax) 345 WATTS Voc (OPEN -CIRCUIT VOLTAGE) 41.0 VOLTS DC Vmp (MAX -POWER VOLTAGE) 33.37 VOLTS DC isc (SHORT-CIRCUIT CURRENT) 10.92 AMPS imp (OPERATING CURRENT) 10.34 AMPS MFR. Voc TEMP COEFFICIENT -0.26 %/K MAX SERIES FUSE RATING 20.0 AMPS TEMP. CORRECTED Voc 44.69 VOLTS DC DC/DC OPTIMIZER (IF APPL.) MANUFACTURER SolarEd e Technologies MODEL NUMBER P370 Single (240V) WEIGHT 1.8 Ibs RATED OUTPUT isc 15 AMPS MAX OUTPUT VOLTAGE 60 VOLTS MAX INPUT VOLTAGE Voc 80 VOLTS ��..• F..41 0 ..... acOn E.,,WYSSLiNO.: j`l Wyssling Consulting Firm No. 20109 DC COMBINER / DISCONNECT #1 MANUFACTURER MODEL NUMBER OCPD (DISCONNECT TYPE) WEIGHT Ibs NEMA RATING WEIGHT LOCATION OF COMPONENT DC INPUT SERIES FUSE RATING FOR PV MODULES AMPS (OCPD) QUANTITY OF PV SOURCE CIRCUITS QTY MAX PV MODULE Voc VOLTS DC MAX # OF MODULES IN CIRCUIT QTY MAX ALLOWED INPUT VOLTAGE VOLTS DC MAX INPUT FUSE/BREAKER RATING AMPS DC OUTPUT MAX CIRCUIT OUTPUT CURRENT AMPS AMPS MAX CONT. OUTPUT CURRENT I JAMPS DC COMBINER / DISCONNECT #2 (IF APPL.) MANUFACTURER SolarEd e MODEL NUMBER QUANTITY 1 OCPD (DISCONNECT TYPE) INVERTER(S) WEIGHT Ibs Ibs NEMA RATING LOCATION OF COMPONENT Ibs. LOCATION OF COMPONENT AMPS DC INPUT SERIES FUSE RATING FOR PV MODULES AMPS (OCPD) QUANTITY OF PV SOURCE CIRCUITS QTY MAX PV MODULE Voc IVOLTS DC MAX # OF MODULES IN CIRCUIT QTY MAX ALLOWED INPUT VOLTAGE VOLTS DC MAX INPUT FUSE/BREAKER RATING (AMPS DC OUTPUT MAX CIRCUIT OUTPUT CURRENT AMPS MAX CONT. OUTPUT CURRENT I JAMPS DC COMBINER / DISCONNECT #3 (IF APPL.) MANUFACTURER SolarEd e MODEL NUMBER QUANTITY 1 OCPD (DISCONNECT TYPE) INVERTER(S) WEIGHT Ibs NEMA RATING WEIGHT 38.8 LOCATION OF COMPONENT Ibs. DC INPUT AMPS SERIES FUSE RATING FOR PV MODULES VOLTS DC AMPS (OCPD) QUANTITY OF PV SOURCE CIRCUITS Max. MPPT VOLTAGE RANGE 480 QTY MAX PV MODULE Voc AMPS VOLTS DC MAX # OF MODULES IN CIRCUIT INTEGRATED DC DISCONNECT YES INTEGRATED AC DISCONNECT F NO QTY MAX ALLOWED INPUT VOLTAGE RATED OPERATIONAL VOLTAGE. VOLTS DC MAX INPUT FUSE/BREAKER RATING MAX. AC APPARENT POWER 11400 AMPS DC OUTPUT AMPS MAX CIRCUIT OUTPUT CURRENT AMPS MAX CONT. OUTPUT CURRENT I JAMPS PV SYSTEM MAXIMUM VOLTAGE ( MODULE VoCiMAX) DATA SOURCE SOLARABCS.ORG/ABOUT/PUBLICATIONS/REPORTS/ EXPEDITED-PERMIT/MAP/ STC MFR. P TEMP CORRECTED TEMPERATURE EXTREME MIN. CORRECTED MAX MODULE Voc CORRECTED TEMP. [°C ] TEMPERATURE TEMPERATURE COEFFICIENT FORMULA TEMP. [VDC] OPEN CIRCUIT ["C] [-0.#%/C] * 100 COEFFICIENT VOLTAGE -9 - 25 = 1 -34 * -0.26% = 1 0.09 + 1 1 1.09 * 41.0 = 1 44.69 STRING INVERTER #1 SPECIFICATIONS MANUFACTURER SolarEd e MODEL NUMBER SE11400H-US 240V QUANTITY 1 RATED OPERATIONAL VOLTAGE INVERTER(S) NOMINAL POWER RATING 11400 AMPS WATT AC WEIGHT 38.8 NEMA RATING Ibs. DC INPUT AMPS Max INPUT DC VOLTAGE 480 VOLTS DC Min. MPPT VOLTAGE RANGE 400 VOLTS DC Max. MPPT VOLTAGE RANGE 480 VOLTS DC Max INPUT CURRENT 30.5 AMPS MPPTQTY N/A z O —NUMBER LU O INTEGRATED DC DISCONNECT YES INTEGRATED AC DISCONNECT F NO COMPLY W/NEC 690.17 AC OUTPUT RATED OPERATIONAL VOLTAGE. NOMINAL VOLTAGE OUTPUT 240 VOLTS AC MAX. AC APPARENT POWER 11400 WATTS MAX OVERCURRENT PROTECTION (OCPD) 70 AMPS MAX. OUTPUT CURRENT 47.5 AMPS - MAX STRING INVERTER #2 SPECIFICATIONS (IF APPL.) MANUFACTURER 2255 AMPS MODEL NUMBER AMPS QUANTITY INVERTER(S) NOMINAL POWER RATING WATT AC WEIGHT Ibs. DC INPUT Cr LU I__ Max INPUT DC VOLTAGE VOLTS DC Min. MPPT VOLTAGE RANGE VOLTS DC Max. MPPT VOLTAGE RANGE VOLTS DC Max INPUT CURRENT AMPS MPPT QTY N 0 INTEGRATED DC DISCONNECT INTEGRATED AC DISCONNECT COMPLY W/NEC 690.17 AC OUTPUT DISCONNECT DEVICE TYPE NOMINAL VOLTAGE OUTPUT VOLTS AC MAX. AC APPARENT POWER WATTS MAX OVERCURRENT PROTECTION (OCPD) AMPS MAX. OUTPUT CURRENT I JAMPS- MAX AC COMBINER #1 (SOLAR LOAD CENTER) MANUFACTURER z Q d U < > OQj ~ O = O ^ MODEL NUMBER v CLO a °C i = O - Ql N RATED OPERATIONAL VOLTAGE VOLTS RATED CURRENT AMPS NUMBER OF POLES P NEMA RATING MANUFACTURER Eaton MAIN BREAKER SIZE AMPS TOTAL INPUT CURRENT JAMPS NUMBER OF BRANCH CIRCUITS ICIRCUITS AC COMBINER #2 (SOLAR LOAD CENTER) MANUFACTURER z Q d U < > OQj ~ O = O ^ MODEL NUMBER v CLO a °C i = O - Ql N RATED OPERATIONAL VOLTAGE VOLTS RATED CURRENT AMPS NUMBER OF POLES P NEMA RATING MANUFACTURER Eaton MAIN BREAKER SIZE AMPS TOTAL INPUT CURRENT AMPS NUMBER OF BRANCH CIRCUITS CIRCUITS AC DISCONNECT #1 (IF APPL.) z Q d U < > OQj ~ O = O ^ i 4- N t 7 m v CLO a °C i = O - Ql N N 0 `r\° X ~ Y to NEW OR EXISTINGProposed MAKE / MODEL TYPE OF PANEL LOAD CENTER NUMBER OF POLES2 P V) z O MANUFACTURER Eaton SUB -PANEL MAIN BREAKER 200 AMPS MODEL NUMBER DG222URB SUM OF EXISTING CIRCUIT BREAKERS AMPS MAX ALLOWABLE SOLAR CURRENT 70 AMPS PV BACKFEED BREAKER #1 60 AMPS (Imax) PV BACKFEED BREAKER #2 AMPS (Imax) w Q zaaa w p QUANTITY IAC DISCO.(S) w -_120/240 I : LU O LZ z O —NUMBER LU O Q J D Q U a' DISCONNECT DEVICE TYPE NON -FUSIBLE DISCONNECT RATED OPERATIONAL VOLTAGE. VOLTS RATED CURRENT C0 AMPS OF POLES 2 P NEMA RATING 3R FUSE RATING N/A AMPS BUSS BAR RATED CURRENT 2255 AMPS TOTAL INPUT CURRENT 47.5 AMPS Q J LU NQ I V LU m 0 ro N LL ro Q O J 00 i AC DISCONNECT #2 (IF APPL.) Cr LU I__ N O CJ N N O C�4 70 AMPS (Imax) PV BACKFEED BREAKER #1 MANUFACTURER MODEL NUMBER AMPS (Imax) QUANTITY AC DISCO (S) p N 0 cnn ALT. ENERGY BACKFEED BREAKER (IF APPL.) C] 0 DISCONNECT DEVICE TYPE 0 w RATED OPERATIONAL VOLTAGE VOLTS > LU OC NA � RATED CURRENT AMPS NUMBER OF POLES P NEMA RATING UJC FUSE RATING AMPS TOTAL INPUT CURRENT AMPS AC SUB -PANEL #1 (IF APPL.) z Q d U < > OQj ~ O = O ^ i 4- N t 7 m v CLO a °C i = O - Ql N N 0 `r\° X ~ Y to NEW OR EXISTINGProposed MAKE / MODEL TYPE OF PANEL LOAD CENTER NUMBER OF POLES2 P NEMA RATING 311 OR BETTER BUSS BAR RATING 225 AMPS SUB -PANEL MAIN BREAKER 200 AMPS MAIN SERVICE PANEL P.O.C. BREAKER 200 AMPS SUM OF EXISTING CIRCUIT BREAKERS AMPS MAX ALLOWABLE SOLAR CURRENT 70 AMPS PV BACKFEED BREAKER #1 60 AMPS (Imax) PV BACKFEED BREAKER #2 AMPS (Imax) w Q zaaa w p w p PV BACKFEED BREAKER #3 AMPS (Imax) PV BACKFEED BREAKER #4 AMPS (Imax) MAIN SERVICE PANEL (IF APPL.) NEW OR EXISTING EXISTING O M � ELECTRICAL SERVICE 120/240V Single Phase tD X a) J_ > BUSS BAR RATED CURRENT 2255 AMPS MAIN BREAKER RATED CURRENT 200 AMPS SUM OF EXISTING CIRCUIT BREAKERS AMPS m 0 ro N LL ro Q O J 00 i 00 MAX ALLOWABLE SOLAR CURRENT 100% 25 AMPS MAX ALLOWABLE SOLAR CURRENT 120% 70 AMPS (Imax) PV BACKFEED BREAKER #1 AMPS (Imax) PV BACKFEED BREAKER #2 AMPS (Imax) PV BACKFEED BREAKER #3 AMPS (Imax) PV BACKFEED BREAKER #4 AMPS (Imax) ALT. ENERGY BACKFEED BREAKER (IF APPL.) AMPS (Imax) 0 NA UJC 3 U l0 n V 1 D U WIRE AND CONDUCTOR NOTESWIRE COLOR CODING (2020) CEC/NEC SECTIONS 250.119 & 200.6 PV DC WIRING AC WIRING J 1. ANY CONDUCTOR LENGTH UNDER 50' DOESN'T REQUIRE VOLTAGE DROP CALCULATIONS Q EQUIPMENT GROUND GREEN OR BARE, OR GREEN/YELLOW EQUIPMENT GROUND GREEN OR BARE, OR GREEN/YELLOW 2. BECAUSE WE ARE UNABLE TO DETERMINE THE EXACT PATH THE INSTALLER WILL RUN CONDUCTORS; WORST CASE SCENARIOS, ROUNDING UP SIZES OF CONDUCTORS THATARE u DEEMED QUESTIONABLE TO PREVENT ISSUES RELATED TO USING CONDUCTORS THAT ARE IMPROPERLY SIZED. GROUNDED CONDUCTOR. GROUNDED CONDUCTOR 3. WIRING METHODS IN THESE CALCULATIONS DON'T EXCEED 1000 VOLTS I TYPICALLY NEGATIVE (NEUTRAL) WHITE OR GRAY WHITE OR GRAY w 4. CEC/NEC 310.15(A)(2) (AS APPLICABLE) WHERE TWO DIFFERENT AMPACITIES APPLY TO ADJACENT PORTIONS OF A CIRCUIT, THE HIGHER AMPACITY SHALL BE PERMITTED TO BE z Z ANY COLOR OTHER THAN GREEN OR WHITE/GRAY UNGROUNDED ANY COLOR OTHER THAN GREEN OR WHITE/GRAY ALLOWED. USED BEYOND THE POINT OF TRANSITION, A DISTANCE EQUAL TO 10'-0" (3 METERS) OR 10% OF THE CIRCUIT LENGTH FIGURED AT THE HIGHER AMPACITY, WHICHEVER IS LESS. I _O O WHEN LESS THAN 10'-0" OR 10% OF THE CIRCUIT LENGTH; THE LESSER AMPACITY MAY BE USED. UNGROUNDED CONDUCTOR(S). TYPICALLY POSITIVE CONVENTION IS RED FOR GROUNDED SYSTEMS CONDUCTOR(S) HOT: CONVENTION IS L1 BLACK u RED (+) AND BLACK (-) FOR UNGROUNDED SYSTEMS L1 AND L2 d w CONVENTION IS L2 RED w z Q LU LL DC WIRE AND CONDUIT SIZING CHART [SEE SHEET E-003 FOR THREE LINE DIAGRAM] N~ who w oc CONDUCTOR CONDUIT FILL 0-'ui � REQUIRED CONDUCTOR AMPACITY CONDUCTOR TEMPERATURE DERATING CORRECTED AMPACITY CALCULATION AMPACITY CHECK Ig. SPECIFICATIONS DERATING CIRCUIT CIRCUIT -4 TAG ORIGIN DESTINATION QTY IN TEMP TRADE AMPACITY Isc (AMPS) #OF COMBINED MAX CONT. REQUIRED CIRCUIT AMBIENT HGT. TEMP. ADDER PER OPERAT. AMPACITY CORRECTION # OF AMPACITY CORRECTION GOND. TEMP. CONDUIT CORRECTED REQUIRED CORRECTED 0 0 PARALLEL & RATING SIZE @30,C OR COMPONENT X PARALLEL X CURRENT X OPERATION _ AMPACITY ENVIRONMENT TEMP. ABOVE 310.15 TEMP. 310.15 UNGRND. 310.15 AMPACITY X DERATING X FILL _ AMPACITY AMPACITY < AMPACITY �\NO Q m rV MATERIAL (.C) PER 310.16 (AMPS) STRINGS 690.8(A)(1) 690.8(8)(1) ("C) ROOF (in) (B)(2)(c) (,C) (8)(2)(a) COND. (8)(3)(a) DERATING 0 rj I C) rn C] DCl PV MODULE DC/DC CONVERTER (1) CU 90 30 10.92 X 1 X 1.25 X 1.25 = 17.06 ROOFTOP 39 >7/8" 0 39 0.91 2 N/A 30 X 0.91 X 1.0 = 27.3 17.06 < 27.3 O AWG w DC2 DC/DC CONVERTER JUNCTION BOX (1) CU 90 AWS 0 15 X 1 X 1 X 1.25 = 18.75 ROOFTOP 39 >7/8.. 0 39 0.91 6 N/A 40 X 0.91 X 1.0 = 36.4 18.75 < 36.4 w 410 #10 � DC3 JUNCTION BOX INVERTER (1)CU 90 40 15 X 1 X 1 X 1.25 = 18.75 ROOFTOP 39 >7/8" 0 39 0.91 6 0.80 40 X 0.91 X 0.80 = 29.12 18.75 < 29.12 AWG DC4 1 BOX (garage) INVERTER (1)CU 90 AWG 40 15 X 1 X 1 X 1.25 = 18.75 TRENCH 39 N/A 0 39 0.91 4 0.80 40 X 0.91 X 0.80 = 29.12 18.75 < 29.12 DC5 X X X = X X = < DC6 X X X = X X = < Z a DC7 X X X = X X = < d u DC8 X X X = X X = < Q N J � O � O , of OF L H _ O i*• _ f % = L ......... .... SCOTT E. WYSSLING � u � 0 i i CO M r14 0 V) 122"9 ` `� ��• & ....... = rn LU rn LU WXsslin_gConsulting z o o Cl- AC WIRE AND CONDUIT SIZING CHART [SEE SHEET E-003 FOR THREE LINE DIAGRAM] Firm No. 20109 Q a CONDUCTOR REQUIRED CONDUCTOR CONDUIT FILL O rn lD CONDUCTOR TEMPERATURE DERATING CORRECTED AMPACITY CALCULATION AMPACITY CHECK o M SPECIFICATIONS AMPACITY DERATING rn 10 Ln TAG CIRCUIT ORIGIN CIRCUIT QTY IN TEMP AMPACITY CONT. MAX INV. OUTPUT CURRENT (AMPS) AMBIENT HGT. TEMP. AMPACITY #OF AMPACITY CONDUIT :v r,- O DESTINATION X PARALLEL RAT NG TRADE @ 30 C OPERATION X OR REQUIRED CIRCUIT TEMP. ABOVE ADDER PER OPERAT. CORRECTION UNGRND. CORRECTION COND. X TEMP. X FILL CORRECTED REQUIRED < CORRECTED Ln Co & ("C) SIZE PER 310.16 690.8 (B)(1) COMPONENT AMPACITY ENVIRONMENT (=C) ROOF (in) 310.15 TEMP. ("C) 310.15 COND. 310.15 AMPACITY DERATING DERATING AMPACITY AMPACITY AMPACITY -6MATERIAL (AMPS) (8)(2)(c) (8)(2)(a) (13)(3)(a) L O m 00 AC1 INVERTER AC DISCONNECT (1) CU 75 85 1.25 X 47.5 = 59.4 EXT WALL 39 N/A 0 39 0.88 3 1.0 85 X 0.88 X 1.0 = 74.8 59.4 < 74.8 AWG AC2 AC DISCONNECT SUB -PANEL (1) Cu 75 #4 85 1.25 X 47.5 = 59.4 EXT WALL 39 N/A 0 39 0.88 3 1.0 85 X 0.88 X 1.0 = 74.8 59.4 < 74.8 N i E 0 AWG AC3 SUB -PANEL EXISTING SERVICE PANEL (1) Cu 75 #3/0 200 1.0 X 200 = 200.0 X X = 200.0 < 200 Q AWG p f�' AC4 X = X X = < J O Al J ACS X = X X = < i 0 O AC6X = X X = < N ++ W L:J J AC7 X = X X = `v ACEIX = X X = < 3 V 0 Ln AC9 X = X X = < AC10 X = X X = < STRING MODULE QTY INVERTER # EQUIPMENT TABLE LEGEND r__ E IT_ _ _ _ _ _ _ _ _ _ _ TAG Q 1 10 INV 1 TY COMPONENT 2 10 INV 1 DC# DC CONDUCTOR TAG i EQUIPMENTTAG 1 1 34 PV MODULES MISSION SOLAR MSE345SX5T J 1 h, If o z I 2 34 DC/DC OPTIMIZER P370 Single (240V) 3 14 INV 1 AC# AC CONDUCTOR TAG GND GROUND CONDUCTOR TAG p 3 0 DC DISCONNECT INTEGRATED IN INV l i ° 1 4 0 DC COMBINER BOX i ° DC15 2 JUNCTION BOX 4x4 Metal ELECTRICAL NOTES I ° 1 i Z 6 0 RAPID SHUTDOWN INTEGRATED IN INV & OPT UNGROUNDED PV SYSTEMS: I -INVERTERS, MODULES, AND DC COMPONENTS MUST BE LISTED I 0C 7 1 AC/DC INVERTER SolarEdge SE1140OH-US (240V) BACK -FEED SOLAR BREAKER: 60A FOR USE IN UNGROUNDED SYSTEMS, TYPICALLY 1 � � I 14 MODULES 8 0 AC/DC INVERTER W/ INTEAC DISC TRANSFORMER -LESS (TL) i I I 9 1 AC DISCONNECT (INDEPENDENT) Eaton DG222URB CONDUCTOR TABLE CONDUIT TABLE •OCPD'S WHERE NECESSARY MUST HAVE DISCONNECTING MEANS. 1 -PV SOURCE CIRCUITS MUST BE EITHER PV WIRE AND LISTED FOR ~ I ke 10 0 SOLAR LOAD CENTER TAG QTY* SIZE TYPE GROUND SIZE TYPE WET LOCATIONS ORJACKETED MULTI -CONDUCTOR CABLES MODULE NAMEPLATE 11 0 PROD/GENERATION METER DC1 2 #12 AWG PV Wire #6 AWG N/A Open Air INSTALLED IN RACEWAY. I I I I I 12 1 SUB PANEL (N) 225A BUS/200A DC2 7 #10 AWG PV Wire #6 AWG N/A Open Air 'THE AC SIDE IS STILL GROUNDED ON THE NEUTRAL CONDUCTOR. ° RATING 345W • REQUIRE EQUIPMENT GROUNDING BUT DOES NOT HAVE SYSTEM 1 1 ° 1 1 13 0 AC DISCONNECT (FUSIBLE) DC3 7 #10 AWG THWN-2 #8 AWG 3/4" EMT GROUNDING; NO DC CURRENT -CARRYING CONDUCTOR IS I I I I 14 0 NEW MAIN SERVICE PANEL DC4 5 #10 AWG THWN 2 #8 AWG 3/4" PVC CONNECTED TO GROUND. THESE CONDUCTORS ARE COLOR I + D o - I I I I CODED DIFFERENTLY THAN GROUNDED PV SYSTEMS. 15 1 EXISTING MAIN SERVICE PANEL 225A BUS/200A MB DC5 AC/DC ELECTRICAL NOTES: 1 10 MODULES I 1 I 16 1 EXISTING UTILITY METER 120/240V - lm DC6 ALL OVERCURRENT PROTECTION DEVICES (OCPDs) MUST BE 1 I 1 1 NOTE: EQUIP TAGS MAY NOT BE IN SEQUENTIAL ORDER, N/A USED DC7 RATED FOR 600 VOLTS ON THE DC / PV POWER SIDE I I I I OF THE INVERTER. 1 D I I I SEE SHEET E-001 FOR ADDITIONAL ELECTRICAL SPECIFICATIONS DCg .EXTERIOR ENCLOSURES TO 8E NEMA TYPE 311 OR BETTER. oc I I I I ACI 4 #4 AWG THWN-2 #8 AWG 1" EMT -ALL CONDUIT AND CONDUIT CONNECTIONS SHALL BE RATED 1 1 ° I I I FOR WETAND DAMP LOCATIONS WHEN APPLICABLE. ° AC2 4 #4 AWG THWN-2 #8 AWG 1" EMT INTERCONNECTION NOTES: 1 1 ° I I i AC3 4 #3/0 AWG THWN-2 #2 AWG 2" EMT .705.12(B)(4) CIRCUIT BREAKERS MUST BE SUITABLE FOR I t' = I I I • . AC4 BACKFEEDING. NEC INFORMATIONAL NOTE: I 1 0 - . : : • I I FUSED DISCONNECTS, FOR OE S, UNLEDINGHERWISE MARKED, Dc 1 1 I I I I ACS ARESUITABLE A 10 MODULES I I AC6 •690.13(F)(2) DEVICES MARKED WITH "LINE" AND "LOAD" SHALL I I I I I I I NOT BE PERMITTED FOR BACKFEED OR REVERSE CURRENT 1------r--�rr- — AC7 I I I I I ACS •705.12(B)(5) CIRCUIT BREAKERS BACK FEED FROM UTILITY D 2 AC9 INTERACTIVE INVERTERS (ANTI-ISLANDING, UL 1741 CERTIFIED) AC10 5 G I * INCLUDES GROUND & CURRENT CARRYING CONDUCTORS I I . h 4 1 1 I I I II 5 •�,�•►\\\\1 4b _* ,I 1 Of gif UM 1 I / SCOTT E. WYSSLING .. l..., 15 �% 22569 '�et� I l l l i l l�,lli ,c\O `►�`��BUS RATING 1 ATINMATN GB RATING I I I b Wyssling Consulting 225A 200A 225A 1 I I I I I.. Firm No. 20109 1 I I INVERTER NAMEPLATE AC DISCONNECT NAMEPLATE 1 I I I I RATING 1140OW/240V RATING 6OA/240V 1 3 7 6 9 I 1 1 1 1 1 1 1 � I I 1 I I I 1 1 1 1 1 1 TO (E) LOAD I CENTER 1 W5AC L - - L1 L1 •- - -- --- - - - - - - --.-.-._.-.-._._._.-.-.-.-.-.-.-.-.-.-.-. _I F 60A 200A IL._.._..ti L - - L2 '--- - -___________________-- G - -- G G-------------------------------------- - - - - - - G Ecc '-----------------♦----------------♦-------------------------------------------------------*---------------------- � � GEC GEC N II U N aj Q 7 O J O > o o O J a; H O a = 2 O 41 3 O0l O CD N cn >� V) cn C:) w N N = CC Z z a a a C:) M Ln O X rn v) v L U0 Q O CU O J M J L O zN �J 3 0 � � Ln D U Q LU Q I_- O 2: W LU z w � _ J 0 C Ln W LU U_ r4 W N H O w _ w 00 _1 Q N N W O O am Lnm � N - C O rnp O L1J > e -I N II U N aj Q 7 O J O > o o O J a; H O a = 2 O 41 3 O0l O CD N cn >� V) cn C:) w N N = CC Z z a a a C:) M Ln O X rn v) v L U0 Q O CU O J M J L O zN �J 3 0 � � Ln D U PROPOSED UNDERGROUND CONDUIT TRENCH LENGTH SOFT QTY 34 MISSION SOLAR MSE345SX5T MODULES QTY 1 SolarEdge SE11400H US (240V) INVERTER EQUIPMENT GROUNDING z Q O M lD O M 111 M .--1 j O 1. METAL PV MODULE FRAMES MUST BE CONNECTED TO THE EGC (EQUIPMENT GROUNDING CONDUCTOR). COMBINER BOX ACC AC COMBINER U ;•�E of rt�l� _ c j 0 00 DC DC DISCONNECT BATT BATTERY Q 0 1.1. WEEBS MAY BE USED IN LIEU OF MODULE GROUND CLAMPS INV# DC/AC STRING INVERTER AC AC DISCONNECT Q O Mo O OR LUGS, WITH APPROVAL OF AHJ AND RACKING MFG. WEEBS CLP I CRITICAL LOADS PANEL 5P SERVICE PANEL J w — J ARE ONE TIME USE ONLY. SEE "we-11c.com" FOR RACKING O i z X SUB I SUB -PANEL ® UTILITY METER SPECIFIC WEEB, INSTALL INSTRUCTIONS, AND UL 2703 CERT. �L 3 1,-- 0 SECTION PV ARRAY TAG XFMR TRANSFORMER J "LAY - 2 � D Q 1.2. FOR -IN" LUG MODULE GROUNDING; CORRECT 1 MODULE GROUP ATS AUTO TRANSFER SWITCH = _ HARDWARE OF PROPER METAL MATERIAL TO AVOID w v O rn U CORROSION MUST BE USED. TYPICALLY DIRECT BURIAL RATED, WALL WITH EXTERNAL HANDLE VISIBLE, LOCKABLE & w N — TINNED, OR STAINLESS STEEL. GROUNDING LUGS MUST BE 0 LABELED WITHIN 10 FEET OF THE METER. ATTACHED AT MARKED LOCATION ON EACH MODULE. w w cn Ow N Ln O U 2. THE EGC (EQUIPMENT GROUNDING CONDUCTOR) IS USED TO w z BOND ALL NON-CURRENT CARRYING CONDUCTORS AND EXPOSED 1Q _jm N METAL PARTS THAT MIGHT COME INTO CONTACT WITH w J CURRENT -CARRYING CONDUCTORS, INCLUDING THE FOLLOWING: cr W 2.1. PV MODULES FRAMES, ARRAY MOUNTING RACKING; THE METAL CHASSIS OF EQUIPMENT SUCH AS INVERTERS, N N O DISCONNECTS, METERS, JUNCTION BOXES AND COMBINER CJ BOXES; AND METAL CONDUIT HOLDING CIRCUITS> 250 VOLTS Q m 11 0 TO GROUND PER NEC 250.97 Q 3. THE GEC (GROUNDING ELECTRODE CONDUCTOR) IS THE r'4 O O r -I CONDUCTOR USED TO CONNECTTHE GE OR GE SYSTEM TO THE w SYSTEM GC, TO THE EGC, OR TO BOTH. LU 4. THE GE (GROUNDING ELECTRODE) ISA CONDUCTING OBJECT, OC OFTEN A ROD, RING, OR PLATE ESTABLISHING A DIRECT CONNECTION TO EARTH. THE AC SYSTEM GROUND IS EXISTING, USUALLY AT THE EXISTING MAIN PANEL AND/OR UTILITY METER. THE GROUND CAN ONLY OCCUR IN ONE PLACE AND MUST NOT BE DUPLICATED IN SUB -PANELS OR ANYWHERE ELSE ON AC SIDE. ELECTRICAL SYMBOL LEGEND z Q O M lD O M 111 M .--1 01 DC COMBINER BOX ATF AUTO TRANSFORMER IDCBI DC DISCONNECTING ISLC SOLAR LOAD CENTER d COMBINER BOX ACC AC COMBINER U ;•�E of rt�l� _ c j 0 00 DC DC DISCONNECT BATT BATTERY Q E w INV# DC/AC STRING INVERTER AC AC DISCONNECT Q O Mo O p CLP I CRITICAL LOADS PANEL 5P SERVICE PANEL J — k.0 R _SD-I RAPID SHUTDOWN © PERFORMANCE METER O i X SUB I SUB -PANEL ® UTILITY METER O �L 3 O a SECTION PV ARRAY TAG XFMR TRANSFORMER U aUl - SECTION # JB JUNCTION BOXO D N SCALE: 1/24"= 1'0"@ SHEET SIZE A3 1 MODULE GROUP ATS AUTO TRANSFER SWITCH = _ v O rn p PV AC DISCONNECT LOCATED ON ACCESSIBLE EXTERIOR WALL WITH EXTERNAL HANDLE VISIBLE, LOCKABLE & CO N V) LABELED WITHIN 10 FEET OF THE METER. cn cn Ow N Ln LU w z n. zQaa O M lD O M 111 M .--1 N I'D c- +' 1`1 O X M ;•�E of rt�l� _ c j 0 00 f � +w�i... E w «»..........{.w 8SLkNG ; A SCOTT E.yIfYf7l �f0i Q O `12 9k q = J o Wyssling Consulting UJ Firm No. 20109 �L 3 o a U aUl 0 D NORTH SCALE: 1/24"= 1'0"@ SHEET SIZE A3 U 1 CONDUIT, RACEWAY, J -BOX, AND PULL BOXES SCALE: 2 J -BOX DC COMBINER, AND DC DISCONNECT scALE` 13 DC COMBINER BOX 1/2" = 1'-0" 1/4" = V-0" WARNING: PHOTOVOLTAIC POWER SOURCE 1. PLACE ON CONDUIT AND/OR RACE WAYS EVERY 10'(60"),12" FROM BENDS, 12" ABOVE AND BELOW PENETRATIONS. 2. CODE REFERENCE: NEC 690.31(G)(3) 3. MINIMUM OF 11/8"x53/4" 4. FONT: 3/8" AND .8 WIDTH FACTOR. 5. REFLECTIVE WHITE LETTERS ON A RED BACKGROUND. 4 NON -LOAD BREAK DC COMBINER / J -BOX SCALE: I 5 D NOT OPEN UNDER LOAD 1. CODE REFERENCE: NEC 690.13(0) 2. USE ON NON -LOAD BREAK RATED DISCONNECTION. 3. MINIMUM OF 1" x 6" 4. FONT: 3/8" AND .8 WIDTH FACTOR 5. WHITE LETTERS ON A RED BACKGROUND. �DO NOT DISCONNECT UNDER LOAD 8 INVERTER(S) INVERTER # 1 1. USE PLACARD "INVERTER # 1" WHEN MORE THAN 1 INVERTER IS USED. NUMBER ACCORDING TO THREE LINE DIAGRAM AND CALCULATIONS. 2. MINIMUM OF 1" x 4" 3. FONT: 3/8" 4. WHITE LETTERS ON A RED BACKGROUND. WARNING: ELECTRIC SHOCK HAZARD. THE DC CONDUCTORS OF THIS PHOTOVOLTAIC SYSTEM ARE UNGROUNDED AND MAY BE ENERGIZED 1. ONLY FOR UNGROUNDED SYSTEMS. 2. PLACED ON ALL ENCLOSURES WITH UNGROUNDED CIRCUITS OR DEVICES WHICH ARE ENERGIZED AND MAY BE EXPOSED DURING SERVICE. 3. MINIMUM OF3"x101/2" 4. FONT: 3/8" 5. WHITE LETTERS ON A RED BACKGROUND. DC DISCONNECTS vv/_xMIV I IV l:;: ELECTRIC SHOCK HAZARD DO NOT TOUCH TERMINALS TERMINALS ON BOTH LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION SCALE: 6 1/4" = V-0" 1. PLACED ON DC DISCONNECT(S) AND ON ANY EQUIPMENTTHAT STAYS ENERGIZED IN THE OFF POSITION FROM THE PV SUPPLY. 2. CODE REFERENCE: NEC 690.13(B) 3. MINIMUM OF 31/2"x10" 4. FONT: 3/8" N 5. WHITE LETTERS ON A RED BACKGROUND. CODE ABBREVIATIONS: � NATIONAL ELECTRICAL CODE (NEC) oOSCOTT E-WYSSLI �........................ .... Q �.. - 1226159 SCALE: I 9 AC AND DC DISCONNECTS AC DISCONNECT # 1 DC DISCONNECT # 1 DC COMBINER BOX] COMBINER # 1 1. USE PLACARD "COMBINER # 1" WHEN MORE THAN 1 DC COMBINER IS USED. NUMBER ACCORDING TO THREE LINE DIAGRAM AND CALCULATIONS. 2. MINIMUM OF1"x4" 3. FONT: 3/8" AND .75 TO.8 WIDTH FACTOR 4. WHITE LETTERS ON A RED BACKGROUND. INVERTER(S) WARNING: ELECTRIC SHOCK HAZARD IF A GROUND FAULT IS INDICATED, NORMALLY GROUNDED CONDUCTORS MAY BE UNGROUNDED AND ENERGIZED 2. MINIMUM OF 31/2"x 10 1/2" 3. FONT: 3/8" 4. WHITE LETTERS ON A RED BACKGROUND. 10 SOLAR kWh METER Wyssling Consulting Firm NO. 201109 USE PLACARD "[AC][DC] DISCONNECT # 1" WHEN MORE THAN ONE DISCONNECT IS USED. NUMBER ACCORDING TO THREE LINE DIAGRAM AND CALCULATIONS. PV SYSTEM DISCONNECT 1. PLACE ON ALL AC AND DC DISCONNECTS 2. CODE REFERENCE: NEC 690.13(B) 3. MINIMUM OF 1" x 101/2" 4. FONT: 3/8" 5. WHITE LETTERS ON A RED BACKGROUND. QTY 34 MISSION SOLAR MSE345SX5T MODULES QTY 1 SolarEdge SE11400H US (240V) INVERTER SOLAR PRODUCTION METER CUSTOMER OWNED PHOTOVOLTAIC SYSTEM kWh METER 1. USE PLACARD ON CUSTOMER GENERATION METER. 2. VERIFY WHICH PLACARD IS REQUIRED WITH AHJ. 3. MINIMUM OF1"x4" 4. FONT: 3/8" AND.8 WIDTH FACTOR 5. WHITE LETTERS ON A RED BACKGROUND. SCALE: 1/2" = V-0" SCALE: 1/4" = V-0" SHEET NOTES N CODE ABBREVIATIONS: � NATIONAL ELECTRICAL CODE (NEC) Q INTERNATIONAL BUILDING CODE (IBC) U INTERNATIONAL RESIDENTIAL CODE (IRC) LU Q INTERNATIONAL FIRE CODE (IFC) Z J UNDERWRITERS LABORATORY (UL) H O 1. COMBINATION PLACARDS MAY BE USED IN PLACE OF MULTIPLE cr LU 0 PLACARDS FOR THE SAME DEVICE. ALL INFORMATION FROM THE CL LU p[ MULTIPLE PLACARDS MUST BE PRESENT. w Q 2. BLACK LETTERS WITH YELLOW BACKGROUND MAY BE USED IN 0O Ln 0 PLACE OF THE STANDARD WHITE LETTERS WITH RED w LL � Z BACKGROUND WITH AHJ APPROVAL. Q ~ O Q 3. ALL INTERIOR AND EXTERIOR DC CONDUIT, ENCLOSURES, LV -I (- RACEWAYS, CABLE ASSEMBLIES, JUNCTION BOXES, COMBINER I j m r v% BOXES AND DISCONNECTS ARE MARKED. (NEC 690.31[G], NEC 690.13 & 690.53) 4. THE MARKINGS ON THE CONDUITS, RACEWAYS AND CABLE Lu N fV ASSEMBLIES ARE EVERY 10 FEET, WITHIN ONE FOOT OF ALL ~ C14 NO TURNS OR BENDS AND WITHIN ONE FOOT ABOVE AND BELOW n Ln r -I ALL PENETRATIONS OF ROOF/CEILING ASSEMBLIES, WALLS AND D N -1 O BARRIERS. (IFC 605.11.1.4, NEC 690.31[G][3]) O m0 O 5. WHERE PV CIRCUITS ARE EMBEDDED IN BUILT-UP, LAMINATE OR MEMBRANE ROOFING MATERIALS IN ROOF AREAS NOT > COVERED BY PV MODULES AND ASSOCIATED EQUIPMENT, THE w LOCATION OF CIRCUITS SHALL BE CLEARLY MARKED. 6. REQUIRED LABELS SHALL BE PERMANENT AND SUITABLE FOR THE ENVIRONMENT. MATERIALS USED FOR MARKING MUST BE WEATHER RESISTANT. UL STANDARD IS RECOMMENDED TO DETERMINE WEATHER RATING. UL LISTING OF MARKINGS IS NOT REQUIRED. SEE UL LABELING SYSTEM 969 (UL 969) 7. MARKING CONTENT AND FORMAT: 7.1. ARIAL OR SIMILAR FONT, NON -BOLD. N z 7.2. MINIMUM 3/8" LETTER HEIGHT FOR HEADERS. Q 7.3. MINIMUM 1/16" LETTER HEIGHT FOR DATA 7.4. CONTRASTING BACKGROUND AND LETTERING. d 7.5. ALL CAPITAL LETTERS. U 7.6. CONTRASTING SPACE BETWEEN ROWS OF TEXTO 114 7.7. DIMENSIONS OF PLACARDS ARE APPROXIMATE. MAY BE 7 0 REDUCED AND / OR INCREASED TO UL APPROVED O 4- kD ID MANUFACTURED PRODUCT > o L 7 RAPID SHUTDOWN SWITCH 0 a) 1/4CA�-o C) a) 2 1. A RAPID SHUTDOWN SWITCH SHALL HAVE A LABEL LOCATED ON OR NO MORE THAN 1M (3 FT) FROM THE SWITCH THAT O0 3 THE FOLLOWING: 3 Ol INCLUDES O CO C4 Ln RAPID SHUTDOWN SWITCH FOR SOLAR PV SYSTEM o w Ln w w Q 2. THE LABEL SHALL BE REFLECTIVE WITH ALL LETTERS CAPITALIZED ^ p p a AND HAVING A MINIMUM HEIGHT OF 9.5 MM (3/8 IN.), Z p p Q IN WHITE ON RED BACKGROUND. Q Q SCALE: = V- 11 MAIN SERVICE PANEL SCALE: 1. LOCATE NO MORE THAN 1 m FROM THE SERVICE DISCONNT MEANS TO WHICH THE PV SYSTEMS ARE CONNECTED AND SHALL INDICATE THE LOCATION OF ALL IDENTIFIED RAPID SHUTDOWN SWITCHES IF NOT AT THE SAME LOCATION. SOLAR PV SYSTEM EQUIPPED WITH RAPID SHUTDOWN TURN RAPID SHUTDOWN SWITCH TO THE "OFF" POSITION TO SHUT DOWN PV SYSTEM AND REDUCE SHOCK HAZARD IN THE ARRAY. 2. CODE REFERENCE: NEC 690.56(C)(1)(a) 3. TITLE: MIN. 3/8" BLACK CHARACTERS ON YELLOW BACKGROUND, REMAINING CHARACTERS MIN. 3/16" IN BLACK ON WHITE BACKGROUND. o rn Ln a X L�b co 00 v L E� M LL Q O U O J M J L 0 O N L:J J i 3 O U a _ D U 1 DC DISCONNECTS & DISCO. COMBINER ScALE: 12 AC DISCONNECT, AC SUB -PANEL SCALE: = 1'-0" 1/4" = 1'-0 1/4" " AC DISCONNECT #1 - INDEPENDENT/ SEPARATE PV SYSTEM DC DISCONNECT PHOTOVOLTAIC SYSTEM PV SYSTEM AC DISCONNECT PHOTOVOLTAIC SYSTEM DC DISCONNECT RATED AC OUTPUT CURRENT 47.5 AMPS AC DISCONNECT #� AC NORMAL OPERATING VOLTAGE 240 VOLTS RATED AC OUTPUT CURRENT 47.5 AMPS MAXIMUM CIRCUIT CURRENT 45.0 ADC MAX. CIRCUIT CURRENT 45.0 ADC AC NORMAL OPERATING VOLTAGE 240 VOLTS MAXIMUM VOLTAGE 480 VDC MAXIMUM VOLTAGE 480 VDC STRING INVERTER #1 - INTEGRATED AC DISCONNECT PV SYSTEM AC DISCONNECT PHOTOVOLTAIC SYSTEM RATED AC OUTPUT CURRENT AMPS AC DISCONNECT PV SYSTEM DC DISCONNECTPHOTOVOLTAIC SYSTEM AC NORMAL OPERATING VOLTAGE VOLTS RATED AC OUTPUT CURRENT AMPS DC DISCONNECT - AC NORMAL OPERATING VOLTAGE VOLTS MAXIMUM CIRCUIT CURRENT ADC #2 MAX. CIRCUIT CURRENT ADC MAXIMUM VOLTAGE VDC MAXIMUM VOLTAGE VDC STRING INVERTER #2 -INTEGRATED AC DISCONNECT PV SYSTEM AC DISCONNECT PHOTOVOLTAIC SYSTEM RATED AC OUTPUT CURRENT AMPS AC DISCONNECT AC NORMAL OPERATING VOLTAGE VOLTS RATED AC OUTPUT CURRENT AMPS AC NORMAL OPERATING VOLTAGE VOLTS PV SYSTEM DC DISCONNECT PHOTOVOLTAIC SYSTEM DC DISCONNECT AC SUB -PANEL #1 MAXIMUM CIRCUIT CURRENT ADC #3 MAX. CIRCUIT CURRENT ADc PHOTOVOLTAIC SYSTEM MAXIMUM VOLTAGE vDC MAXIMUMVOLTAGE VDD PV SYSTEM AC DISCONNECT RATED AC OUTPUT CURRENT AMPS AC DISCONNECT AC NORMAL OPERATING VOLTAGE VOLTS RATED AC OUTPUT CURRENT AMPS AC NORMAL OPERATING VOLTAGE VOLTS 1. PLACARD PLACED ON EACH DISCONNECT, IF MORE THAN ONE PRESENT. 2. VALUES MUST MATCH EQUIPMENT CALCULATIONS. SEE SHEET "E-001 / DC DISCONNECT [#]" 3. CODE REFERENCE: NEC 690.53 4. MINIMUM OF 21/2" x 8" OR 5" x 2 1/2" RESPECTIVELY. 5. FONT: 3/8" HEADER, 3/16" DATA 6. WHITE LETTERS ON A RED BACKGROUND. 7. IN SOME CASES TWO LABELS MAY BE REQUIRED. AN INVERTER WITH INTEGRATED DC DISCONNECT UTILIZING TWO MPPT TRACKERS; IF CONFIGURATION USES DIFFERENT MODULES. 1. PLACARD PLACED ON EACH SOLAR SYSTEM DISCONNECTING COMPONENT. 2. VALUES MUST MATCH EQUIPMENT CALCULATIONS. SEE SHEET "E-001 / AC DISCONNECT [#]" 3. CODE REFERENCE: NEC 690.54 4. MINIMUM OF 11/2" x 8 1/2" OR 13/4" x 61/2" RESPECTIVELY. 5. FONT: 3/8" HEADER, 3/16" DATA 6. WHITE LETTERS ON A RED BACKGROUND. SCALE: 3 UTILITY METER, SERVICE PANEL, SUB -PANEL 1/4"=V-0" WARNING DUAL POWER SOURCES #1 RATED AC OUTPUT CURRENT 47.5 AMPS AC NORMAL OPERATING VOLTAGE 240 VOLTS BUILDING CONTAINS TWO SOURCES OF POWER: UTILITY, SOLAR PV UTILITY SERVICE DISCONNECT LOCATED #2 BELOW. SOLAR PV SYSTEM DISCONNECT LOCATED [N/E/S/W] WALL OF BUILDING BUILDING CONTAINS TWO SOURCES OF POWER: UTILITY, SOLAR PV UTILITY SERVICE DISCONNECT #3 LOCATED BELOW. SOLAR PV SYSTEM DISCONNECT LOCATED [N/E/S/W] WALL OF BUILDING 1. (#1) PLACARD PLACED AT MAIN UTILITY SERVICE DISCONNECT/BREAKER AND PV SYSTEM SUPPLY BREAKER AT POINT OF INTERCONNECTION. (#2 & #3) PLACARD(S) REQUIRED WITH #1 PLACARD WHEN UTILITY SERVICE AND PV SYSTEM DISCONNECT(S) ARE NOT LOCATED NEXT TO EACH OTHER. MAP PLACARD REQUIRED AS SPECIFIED. 2. VALUES MUST MATCH EQUIPMENT CALCULATIONS. 2.1. VALUES WILL MATCH LOAD CENTER OR SUB -PANEL VALUES IF INSTALLED AFTER INVERTERS, IF AC CONNECTION TO SERVICE PANEL COMES FROM INVERTERS; SEE SHEET "E-001 / STRING INVERTER[#] SPECIFICATIONS". 2.1.1. INVERTERS ARE PARALLEL CONNECTIONS. 2.1.2. "RATED AC OUTPUT CURRENT' WILL BE THE SUM OF THE INVERTERS 2.1.3. "AC NORMAL OPERATING VOLTAGE" WILL BE THE NAME PLATE RATING OF THE INVERTER 3. CODE REFERENCE: NEC 690.54, NEC 705.12(6)(3) 4. MINIMUM OF 2" x 6 1/2" (#1), VARIES (#2 & #3) 5. FONT: 3/8" HEADER, 3/16" DATA (#1), 1/4" (#2 & #3) 6. WHITE LETTERS ON A RED BACKGROUND. 4 MAP PLACARD: MAIN SERVICE PANEL AND PV INVERTER (IF NOTSAME LOCATION) SCALE: 15 MAP PLACARD: MAIN SERVICE PANEL AND PV INVERTER (IF Nor SAME LOCATION) SCALE: 1/2" = 1'-0" 1/2" (WITH COMBINED WARNING PLA( CAUTION POWER TO THIS BUILDING IS SUPPLIED FROM THE FOLLOWING SOURCES WITH DISCONNECTS LOCATED AS SHOWN: (E) UTILITY METER & SERVICE PANEL SUB PANEL & AC DISCO SOLAR ARRAY ON ROOF TOP WARNING ELECTRIC SHOCK HAZARD - DO NOT TOUCH TERMINALS TERMINALS ON BOTH THE LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION ARD IF REQUIRED. EXAMPLE: LADWP) 1. PLACARD PLACED AT ELECTRICAL SERVICE AND AT THE PV INVERTER AND PV DISCONNECTS IF NOTAT THE SAME LOCATION. 2. MAP PLACARD PROVIDES A DIRECTORY OF THE SERVICE DISCONNECTING MEANS AND PHOTOVOLTAIC SYSTEM DISCONNECTION MEANS. 3. CODE REFERENCE: NEC 690.56(A)(B), 705.10 4. WHITE LETTERS ON A RED BACKGROUND. 5. MINIMUM OF 7 3/4" x 5" 6. FONT: 3/4" "CAUTION", 1/4" "WARNING", 3/16" HEADER, 1/8" DATA AND NOTES 7. PLACARD WILL BE PLACED ADJACENT TO THE MAIN SERVICE DISCONNECT IN A LOCATION CLEARLY VISIBLE FROM WHERE THE DISCONNECT IS OPERATED. (IFC 605.11.1.3) CAUTION POWER TO THIS BUILDING IS SUPPLIED FROM THE FOLLOWING SOURCES WITH DISCONNECTS LOCATED AS SHOWN: .ITY METER /ICE PANEL ;UB PANEL & AC DISCO WERTER J/ DC DISCO 1. PLACARD PLACED AT ELECTRICAL SERVICE AND AT THE PV INVERTER AND PV DISCONNECTS IF NOT AT THE SAME LOCATION. 2. MAP PLACARD PROVIDES A DIRECTORY OF THE SERVICE DISCONNECTING MEANS AND PHOTOVOLTAIC SYSTEM DISCONNECTION MEANS. 3. CODE REFERENCE: NEC 690.56(A)(B), 705.10 4. WHITE LETTERS ON A RED BACKGROUND. 5. MINIMUM OF 61/2" x 61/2" 6. FONT: 3/4" "CAUTION", 1/4" HEADER, 1/8" DATA AND NOTES 7. PLACARD WILL BE PLACED ADJACENT TO THE MAIN SERVICE DISCONNECT IN A LOCATION CLEARLY VISIBLE FROM WHERE THE DISCONNECT IS OPERATED. (IFC 605.11.1.3) SHEET NOTES cn CODE ABBREVIATIONS: 0 NATIONAL ELECTRICAL CODE (NEC) INTERNATIONAL BUILDING CODE (IBC) INTERNATIONAL RESIDENTIAL CODE (IRC) U INTERNATIONAL FIRE CODE (IFC) Z UNDERWRITERS LABORATORY (UL) H O J 1. COMBINATION PLACARDS MAY BE USED IN PLACE OF MULTIPLE cr Lu U PLACARDS FOR THE SAME DEVICE. ALL INFORMATION FROM a w THE MULTIPLE PLACARDS MUST BE PRESENT. LU 2. BLACK LETTERS WITH YELLOW BACKGROUND MAY BE USED INW ILL.0 Ln Q PLACE OF THE STANDARD WHITE LETTERS WITH RED N p Z BACKGROUND WITH AHJ APPROVAL. Q O >_ 3. ALL INTERIOR AND EXTERIOR DC CONDUIT, ENCLOSURES, I j CO N RACEWAYS, CABLE ASSEMBLIES, JUNCTION BOXES, COMBINER I= I BOXES AND DISCONNECTS ARE MARKED. (NEC 690.31[E][3], NEC 690.31[E][4] & 690.53) N N 4. REQUIRED LABELS SHALL BE PERMANENT AND SUITABLE FOR LV ON 0O THE ENVIRONMENT. MATERIALS USED FOR MARKING MUST BE Ln fV WEATHER RESISTANT. UL STANDARD IS RECOMMENDED TO N DETERMINE WEATHER RATING. UL LISTING OF MARKINGS IS O NOT REQUIRED. SEE UL LABELING SYSTEM 969 (UL 969) NO O (] 5. MARKING CONTENT AND FORMAT: 5.1. ARIAL OR SIMILAR FONT, NON -BOLD. w 5.2. MINIMUM 3/8" LETTER HEIGHT FOR HEADERS. 5.3. MINIMUM 1/16" LETTER HEIGHT FOR DATA 5.4. CONTRASTING BACKGROUND AND LETTERING. 5.5. ALL CAPITAL LETTERS. 5.6. CONTRASTING SPACE BETWEEN ROWS OF TEXT 5.7. DIMENSIONS OF PLACARDS ARE APPROXIMATE. MAY BE REDUCED AND / OR INCREASED TO UL APPROVED N MANUFACTURED PRODUCT z 6. ANSI Z535.4 PRODUCTSAFETY SIGNS AND LABELS: THIS Q INFORMATIONAL NOTE AND ITS REQUIREMENTS FOR PLACARDS J MAY BE USED WITH PRIOR APPROVAL OF THE AHJ. MOST 0 - NOTABLE DIFFERENCES IS COLOR OF PLACARDS AND USE OF U HAND WRITTEN VALUES WITH INDUSTRIAL MARKERS ON Q N N STANDARD PLACARDS WHERE THE VALUE MAY CHANGE AT A to O FUTURE DATE. I.E. ADDING MODULES ATA FUTURE DATE, OR 7 STANDARD PLACARD MANUFACTURER INSTALLED ON 0 n ELECTRICAL COMPONENT. AHJ APPROVAL REQUIRED. (SEE i X NOTE #1 FOR INDIVIDUAL PLACARDS) O M �p O v M Y 2 v� � OF TE1� m 0 Ol N N *�1 Y ifbl / O w N N LU rf'.. .....................it./j LU Z E WYSSLING Z o o g l.SCOTT spa: Q Q % 122669 Q i 11 j!r4v1ONA%. 1Wyssling Consulting X Firm No. 20109 M coDO RESPONSIBILITY NOTES E LL`O 1. PRIME CONTRACTOR / PERMIT APPLICANT SIGNER Q IS RESPONSIBLE FOR THE DESIGN AND CD SPECIFICATIONS OF THE PHOTOVOLTAIC SYSTEM �j O INSTALLATION. PRIME CONTRACTOR/ PERMIT J rn APPLICANT SIGNER WILL BE RESPONSIBLE FOR L �/ COLLECTION OF EXISTING ONSITE INFORMATION M 1= L REQUIREMENTS TO DESIGN, SPECIFY, AND INSTALL p THE EXTERIOR MOUNTED PORTION OF THE N PHOTOVOLTAIC SYSTEM DETAILED IN THIS DOCUMENT. = y 2. ADVANCED SOLAR SOLUTIONS, INC IS RESPONSIBLE 1103 FOR APPLYING SUPPLIED INFORMATION INTO A V SET OF PERMIT DRAWINGS. ANY CHANGES TO L I n DRAWINGS ARE SUBJECT TO CONTRACT �J CONDITIONS BETWEEN THE CLIENT AND ADVANCED SOLAR SOLUTIONS, INC. IN ACCORDANCE WITH THE REQUIREMENTS OF THE AHJ. PV MODULE CUT SHEET MISSION SOLAR ENERGY CLASS LEADING POWER OUTPUT - 345 W POSITIVE POWER TOLERANCE -Oto+3% The True American Brand Mission Solar Energy is headquartered in San Antonio, Texas, where we manufacture our modules. We produce American, high quality solar modules ensuring the highest in class power output and best in -class reliability. Our product line is tailored for residential, commercial and utility applications. Every Mission Solar Energy solar module is certified and surpasses industry standard regulations, proving excellent performance over the long-term. Demand the best, demand Mission Solar Energy. C-SA2-MKTG-0025 REV 0 1/6/2020 ZLECTRICAL SPECIFICATION CERTIFIED RELIABILITY -MECHANICAL Solar Cells > Tested to UL 61730 & IEC standards Cell Orientation > PID resistant Module Dimension > Resistance to salt mist corrosion Weight ADVANCED TECHNOLOGY 330 > PERC and 6 busbar drive > 18.7% module efficiency 340 Ideal for all applications Module Efficiency % EXTREME WEATHER RESILIENCE 18.2 > 5600 Pa front and 4800 Pa back load 18.7 > Tested load to UL 61730 ZLECTRICAL SPECIFICATION UL 61730 -MECHANICAL Solar Cells P -type mono -crystalline silicon Cell Orientation Product Type MSExxxSXST(xxx=P_.) Module Dimension 1748mm x 1054mm x 40mm Weight Power Output Pm WP 330 335 340 345 Module Efficiency % 17.9 18.2 18.5 18.7 Tolerance % 0/+3 0/+3 0/+3 0/+3 Short Circuit Current Is, V 10.72 10.78 10.86 10.92 Open Circuit Voltage Von A 40.40 40.58 40.82 41.00 Rated Current I, V 10.05 10.14 10.24 10.34 Rated Voltage Vmp V 32.85 33.03 33.20 33.37 Fuse Rating A 20 20 20 20 System Voltage V 1000 1000 1000 1000 O N r6 2 in Normal Operating Cell Temperature O0 4� 44.43°C (±3.7%) (NOCT) \ 5 ID C0 O) N O cn Temperature Coefficient of P_ -0.361%/°C Temperature Coefficient of Von -0.262%/°C w N V) to to Temperature Coefficient of Is, 0.039%/°C W I= w Cr BAA COMPLIANT FOR GOVERNMENT PROJECTS Buy American Act Maximum System Voltage 1,000Vdc Operating Temperature Range -40°C (-40°F) to +85°C (185°F) > American Recovery & Reinvestment Act Maximum Series Fuse Rating 20A Fire Safety Classification Type 1 �1ARRANXy FRAME -TO -FRAME WARRANTY Degradation guaranteed not to exceed 2.5% in year one and 0.7% annually from years two to 30 with 80.7% guaranteed in year 25. CERTIFICATIONS UL 61730 u1 u CEC �N IEC 61215 - IEC 61730 L 8� IEC 61701 LISTED Please contact Mission Solar Energy if you have questions or concerns about certification of our products in your area. *Standard 12 -year product warranty extendable to 25 years with registration: www.missionsolar.com/warranty/ www.missionsolar.com I info@missionsolar.com 5600 Pa front and 4800 Pa back load Front & Back Load (UL Standard) Tested to UL 61730 Hail Safety Impact Velocity 25mm at 23 m/s 1054 Front View BASIC DIMENSIONS (UNITS: mm) DATA UL 61730 -MECHANICAL Solar Cells P -type mono -crystalline silicon Cell Orientation 60 cells (600) Module Dimension 1748mm x 1054mm x 40mm Weight 20.3 kg (44.8 lbs.) Front Glass 3.2mm, tempered, low -iron, 393 anti -reflective Frame Anodized Encapsulant Ethylene vinyl acetate (EVA) Protection class IP67 Junction Box 070 77 with 3 bypass -diodes Cable 1.0m, Wire 4min2(12AWG) Connector Staubli MCA Renhe 05-8 MSE345SXST: 345WP, 60 CELL SOLAR MODULE CURRENT - VOLTAGE CURVE Cells Temp. =25`C 12 Incident Irrd. = 1000 W/m2 W-: Q a Incident Irrd.=800 W/m2 Incident Irrd.=600 W/m2 6 U Incident Irrd.=400 W/m2 a Incident Irrd. = 200 W/m2 z - A 0 0 10 20 30 47 Voltage [V] Current -voltage characteristics with dependence on irradiance and module temperature � r4D UL 61730 ,054-I TI"1v LISTED - �{ I a 393 J CL 070 77 U mounting Hale 1 48 1746 Q O op N Ol J 05.5 O wounding Help (x2) la) Sfde View O Front View ° �a IEC 61215, 61730, 61701 UL 61730 I'@us CEC TI"1v LISTED goo SHIPPING INFORMATION Container FT Pallets Panels 345 W Bin 53' Double Stack 36 936 322.92 kW 40' Double Stack 28 728 251.16 kW Pallet [26 Panels] Weight Height Width Length 1263 lbs. 47.5 in 46 in 70.25 in (573 kg) (120.65 cm) (116.84 cm) (178.43 cm) Mission Solar Energy reserves the right to make specification Mission Solar Energy 18303 S. New Braunfels Ave., San Antonio, Texas 78235 changes without notice www.missionsolar.com I info@missionsolar.com = w Lu LID LU O s�-I LU J m -1 LU Or �fQQV V) N rH � (V N LU 0 O Q m LnLn 0 (V -1 LU V) H LU LU 2 U a Cr LU N Z a J CL U Q O op N Ol J O L la) l00 r\ O J ° ~ O N r6 2 Y O0 4� d \ 5 ID C0 O) N O cn Y O w N V) to to M W I= w Cr zQaa a M rn LI) o X m Q, m 0 o0 r6 v O M LL Q O VO j M M 0 O N UJ 3 o U a V I D U INVERTER CUT SHEET Single Phase Inverter z with HD-Wave Technology m for North America ;a_ SE3000H-US / SE380OH-US / SE5000H-US / SE6000H-US / SE760OH-US / SE10000H-US / SE1140OH-US rj;m 12-25 YEAR safer- 7'E) X Ln ® salarZ-,17 _HD s e 0 1W Optimized installation with HD -Wave technology / Specifically designed to work with Extremely small power optimizers / Record-breaking efficiency Built-in module -level monitoring / Fixed voltage inverter for longer strings / Outdoor and indoor installation / Integrated arc fault protection and rapid shutdown for / Optional: Revenue grade data, ANSI C12.20 NEC 2014 and 2017, per article 690.11 and 690.12 Class 0.5 (0.5% accuracy) / 1741 SA certified, for CPUC Rule 21 grid compliance solaredge.com solar =.. Single Phase Inverter ' �o Wit HD -Wave Technology for North America � 0 SE3000H-US / SE380OH-US / SE5000H-US / SE6000H-US/ a5; SE760OH-US / SE10000H-US / SE1140OH-US 0 SE3w� 00O:,O00O.00O.0, 000Oail N H�O OUTPUT Q o Rated AC Power Output 3000 3800 @ 240V 5000 6000 @ 240V 7600 0000 11400 @ 240V VA 15500 17650 3300 @ 208V Maximum DC Power @208V - 5000 @ 208V - 7750 10000 @ 208V - Maximum AC Power Output 3000 3800 @ 240V 5000 6000 @ 240V 7600 10000 11400 @ 240V VA Vdc Nominal DC Input Voltage 3300 @ 208V 400 5000 @ 208V Maximum Input Current @240V«) 8.5 10.5 10000 @ 208V 16.5 20 AC Output Voltage Min. -Nom. -Max. ✓ ✓ ✓ 9 ✓ ✓ ✓ Vac (211 - 240 - 264) Max. Input Short Circuit Current 45 Adc Reverse -Polarity Protection Yes AC Output Voltage Min. -Nom. -Max. _ ✓ _ ,j _ _ ✓ Vac (183 - 208 -229) 99 @ 240V 98.5 @ 208V % Nighttime Power Consumption < 2.5 W ADDITIONAL FEATURES AC Frequency (Nominal) 593 - 60 - 60.5i'i Hz Maximum Continuous Output i25 16 21 25 32 42 47.5 A Current @240V Maximum Continuous Output 16 24 48.5 A Current @208V GFDI Threshold 1 A Utility Monitoring, Islanding Protection, Country Configurable Yes Thresholds INPUT 3/4" minimum / 14-6 AWG 3/4" minimum /14-4 AWG Range Maximum DC Power @240V 4650 5900 7750 9300 11800 15500 17650 W Maximum DC Power @208V - 5100 - 7750 - - 15500 W Transformer -less, Ungrounded Yes Maximum Input Voltage 480 Vdc Nominal DC Input Voltage 380 400 Vdc Maximum Input Current @240V«) 8.5 10.5 13.5 16.5 20 27 30.5 Adc Maximum Input Current @208V'n - 9 - 13.5 - - 27 Adc Max. Input Short Circuit Current 45 Adc Reverse -Polarity Protection Yes Ground -Fault Isolation Detection 600kQ Sensitivity Maximum Inverter Efficiency 99 99.2 CEC Weighted Efficiency 99 99 @ 240V 98.5 @ 208V % Nighttime Power Consumption < 2.5 W ADDITIONAL FEATURES Supported Communication Interfaces RS485, Ethernet, Zig Bee (optional), Cellular (optional) Revenue Grade Data, ANSI C12.20 I OptionaF11 Rapid Shutdown - NEC 2014 and Automatic Rapid Shutdown upon AC Grid Disconnect 2017 690.12 STANDARD COMPLIANCE Safety Grid Connection Standards Emissions INSTALLATION SPECIFICATIONS UL1741, UL1741 SA, UL16993, CSA C22.2, Canadian AFCI according to T.I.L. M-07 IEEE1547, Rule 21, Rule 14 (HI) FCC Part 15 Class B AC Output Conduit Size / AWG 3/4" minimum / 14-6 AWG 3/4" minimum /14-4 AWG Range 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) 17.7x14.6x6.8 /450x370x174 in / 21.3x14.6x7.3/540x370x185 mm Weight with Safety Switch 22110 25.1 / 11.4 26.2 / 11.9 38.8/17.6 Ib / kg Noise < 25 <50 dBA Cooling Natural Convection Operating Temperature Range -40 to +140 / -25 to +60141 (-40"F / -40°C optioni . °F / "C Protection Rating NEMA 4X (Inverter with Safety Switch) �^ For other regional settings please contact SolarEdge support 14 A higher current source may be used, the inverter will limit its input current to the values stated "I Revenue grade inverter P/N: SExmxH-1JS000NNC2 "I For power de -rating information refer to: https�//www.solaredge.com/sites/default/files/se-temperature-derating-note-na.pdf �11 -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 Tachnol,gies Inc. All Ro H S othertrademarks mentioned herein are trademarks of their respective owners. Date: 122018/V01/ENG NAM. Subjectto change without notice. IJJ m QNQ � � N r -I (V [V O F-0 O Q rn \ M fV —1 O CD .111 cn LU LU U LU r—I 0 I V) Z Q J d Q N J lD i of J o 0 - N 0 Ca d u O0 \ o Ql O s Co N cn v O w Lf) N M 2 11_1_1 LJj = OC z n z o o Q a a O � Ln v � � a✓ � o X Ql to *' Co m j Go ra a i O! E u - M CD O ,j O J M J 0 O n r J L = :J J v � L 0 3 Ln D L Power Optimizer For North America DC/DC CONVERTERS CUT SHEET P320 / P340 / P370 / P400 / P401 / P405 / P485 / P505 25 YEAR WARRANTY 1 PV power optimization at the module -level Specifically designed to work with SolarEdge inverters / Up to 25% more energy / Superior efficiency (99.5°/x) / Mitigates all types of module mismatch losses, from manufacturing tolerance to partial shading / Flexible system design for maximum space utilization solaredge.com 0 G M 0 N M / Fast installation with a single bolt Next generation maintenance with module - level monitoring / Meets NEC requirements for arc fault protection (AFCI) and Photovoltaic Rapid Shutdown System (PVRSS) / Module -level voltage shutdown for installer and firefighter safety solar =@@ -.. Power Optimizer For North America P320 / P340 / P370 / P400 / P401 / P405 / P485 / P505 INPUT Rated Input DC Power"' 320 1 340 370 400 405 485 505 W Absolute Maximum Input Voltage (Voc at lowest temperature) 48 60 80 60 1251" 83j2i Vdc MPPT Operating Range 8-48 8-60 8 -80 8-60 12.5-105 12.5 - 83 Vdc Maximum Short Circuit Current. (Isc) 11 10.1 11.75 11 14 Adc Maximum DC Input Current 13.75 12.5 14.65 12.5 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 1, 0.1 Vdc STANDARD COMPLIANCE EMC FCC Part15 Class 3, IEC61000-6-2, IEC61000-6-3 Safety IEC62109-1 (class II safety), UL1741 Material UL94 V-0, UV Resistant RoHS Yes INSTALLATION SPECIFICATIONS Maximum Allowed System 1000 VC, cr Compatible inverters All SolarEdge Single Phase and Three Phase inverters Dimensions(WxLxH) 129x153x27.5/5.1x6x1.1 129x153x33.5 129x153x29.5 129x159x49.5/5.1x6.3x1.9 129x162x59/ mm /5.1x6x1.3 /5.1x6x1.16 5.1x6.4x2.3 /in Weight (including cables) 630/14 1 750/1.7 655 /1,5 845/1.9 1064 / 2.3 gr / Ib Input Connector MC41i In ' p Single or dual MC4'i MC4j3jjr Input Wire Length 0.16/0,52 m / ft Output Wire Type / Connector Double Insulated / MC4 Output Wire Length 0.9 / 2.95 1.2 / 3.9 m / it Operating Temperature Rangers' -40 - +85 / -40 - +185 'C /'F Protection Rating IP68 / NEMA6P Relative Humidity 0-100 ,.. (1) Rated power of the module at STC will not exceed the optimizer "Rated Input DC Power": Modules with up to +5% power tolerance are allowed (2) NEC 2017 requires max input voltage be not more than 80V (3) For other connector types please contact SolarEdge (4) For dual version for parallel connection of two modules use P485-4NMDMRM. In the case of an odd number of PV modules in one string, installing one P485 dual version power optimizer connected to one PV module. When connecting a single module seal the unused input connectors with the supplied pair of seals. (5) For ambient temperature above +85°C / +1857 power de -rating is applied. Refer to Power Optimizers Temperature De -Rating Technical Note for more details. P3?0,P340,P370, Minimum String Length 8 10 18 P400, P401 (Power Optimizers) P405, P485, P505 6 1 8 1 14 Maximum String Length (Power Optimizers) 25 25 50"' 5700 (6000 with Maximum Power per String SE7600-US - SE11400- 5250 6000, 12750'1p1 W Parallel Strings of Different Lengths or Orientations I Yes 6 For detailed strip sizing Information refer to: htt : mwsolared e.com sites default files strip sizin na- if O 9 9 P // 9 / / / / 9- 9- P (7) It is not allowed to mix P405/P485/P505 with P320/P340/P370/P400/P401 in one string (8) A string with more than 30 optimizers does not meet NEC rapid shutdown requirements; safety voltage will be above the 30V requirement (9) For 208V grid: it is allowed to install up to 6,50OW per string when the maximum power difference between each string is 1,000W (10) For 277/480V grid: it is allowed to Install up to 15,000W per string when the maximum power difference between each string Is 2,000W ® SolarEdge Technologies Ltd. All rights reserved. SOLAREDGE, the SolarEdge logo, OPTIMIZED BY SOLAREDGE are trademarks or registered trademarks of SolarEdge Technologies, Inc. cC 1 �us Ro H S All othertrademarks mentioned herein are trademarks of their respective owners. Date: 04/2020NO2/ENG NAM. subject to change without notice. Intertek cn LU LU LU V) 2� = w w> U LU 0 L NCO Quo LU _j co N W N N 0 H N rA O Qrn_L r -40 r4 -1 N � O O I LU Z Q J d U Q N i— O O i J o 0 � N O C° \ Ql O s CO N Ln Y O w Lf) N w w z d Q O O Q Z Q Q O M lD O M Lr) M cI ~ O X rn Ln *' m O � ra 5 NC C LL Q 0 �j o J M J Z O N G! L O3 U a Ln D u /l0L IRONRIDGE Solar Is Not Always Sunny Over their lifetime, solar panels experience cc extreme weather events. Not just the worst st but the worst storms in 40 years. High winds ripping panels from a roof, and snowfalls weic enough to buckle a panel frame. XR Rails are the structural backbone prevent) these results. They resist uplift, protect against buckling and safely and efficiently transfer loads into the building structure. Their superior spanning capability requires fewer roof attachments, reducing the number of roof penetrations and the amount of installation time. Compatible with Flat & Pitched Roofs XR Rails are I 0 RACKING & RAIL CUT SHEET XR Rail Family forces on mounting rails which can cause them to bend and twist. The curved shape of XR Rails is specially designed to increase strength in both directions while resisting the twisting. This unique feature ensures greater security during extreme weather and a longer system lifetime. Corrosion -Resistant Materials All XR Rails are made of 6000 -series aluminum alloy, then protected with an anodized finish. Anodizing prevents surface and structural corrosion, while also providing a more attractive appearance. §:■* XR Rail Family The XR Rail Family offers the strength of a curved rail in three targeted sizes. Each size supports specific design loads, while minimizing material costs. Depending on your locatio n, there is an XR Rail to match. XR10 XR10 is a sleek, low -profile mounting rail, designed for regions with light or no snow. It achieves spans up to 6 feet, while remaining light and economical. 6' spanning capability Moderate load capability Clear & black anodized finish Internal splices available Rail Selection Ab J. ................................................ M% XR100 XR100 is the ultimate residential mounting rail. It supports a range of wind and snow conditions, while also maximizing spans up to 10 feet. 10'spanning capability Heavy load capability Clear & black anodized finish Internal splices available XR1000 XR1000 is a heavyweight among solar mounting rails. It's built to handle extreme climates and spans up to 12 feet for commercial applications. 12'spanning capability Extreme load capability Clear anodized finish Internal splices available The table below was prepared in compliance with applicable engineering c odes and standards." Values are based on the following criteria: ASCE 7-16, Gable Roof Flush Mount, Roof Zones 1 & 2e, Exposure B, Roof Slope of 8 to 20 degrees and Mean Building Height of 30 ft. Visit IronRidge.com for detailed certification letters 'Table is meant to be a simplified span chart for conveying general rail capabilities. Use approved certification letters for actual design guidance. 0 2020 (ronRidge, Inc. All rights reserved. Visit www.ironridge.com or call 1-800-227-9523 for more information. Version 1.20 = w LU CL w LU ° _q who J m LU N OrN� N N LU 0 O Q m LnLn 0 N -1 LU cn Z a J CL V) H LU LU 2 Ln H U a W M 0 I N N O w l/1 L/)w w Z a � z Q Q Q U J O rn C 3 U O M O M m � � n Ln z L m 0 v o E LL M Q O O 0 M Ln O M QD iZZ- c-I 00 rip. Z W J a dory aUl D U ronRidge offers compatible with a range of tilt leg FlashFootand options for flat other pitched roof roof mounting attachments. applications. Corrosion -Resistant Materials All XR Rails are made of 6000 -series aluminum alloy, then protected with an anodized finish. Anodizing prevents surface and structural corrosion, while also providing a more attractive appearance. §:■* XR Rail Family The XR Rail Family offers the strength of a curved rail in three targeted sizes. Each size supports specific design loads, while minimizing material costs. Depending on your locatio n, there is an XR Rail to match. XR10 XR10 is a sleek, low -profile mounting rail, designed for regions with light or no snow. It achieves spans up to 6 feet, while remaining light and economical. 6' spanning capability Moderate load capability Clear & black anodized finish Internal splices available Rail Selection Ab J. ................................................ M% XR100 XR100 is the ultimate residential mounting rail. It supports a range of wind and snow conditions, while also maximizing spans up to 10 feet. 10'spanning capability Heavy load capability Clear & black anodized finish Internal splices available XR1000 XR1000 is a heavyweight among solar mounting rails. It's built to handle extreme climates and spans up to 12 feet for commercial applications. 12'spanning capability Extreme load capability Clear anodized finish Internal splices available The table below was prepared in compliance with applicable engineering c odes and standards." Values are based on the following criteria: ASCE 7-16, Gable Roof Flush Mount, Roof Zones 1 & 2e, Exposure B, Roof Slope of 8 to 20 degrees and Mean Building Height of 30 ft. Visit IronRidge.com for detailed certification letters 'Table is meant to be a simplified span chart for conveying general rail capabilities. Use approved certification letters for actual design guidance. 0 2020 (ronRidge, Inc. All rights reserved. Visit www.ironridge.com or call 1-800-227-9523 for more information. Version 1.20 = w LU CL w LU ° _q who J m LU N OrN� N N LU 0 O Q m LnLn 0 N -1 LU cn Z a J CL V) H LU LU 2 Ln H U a W M 0 I N N O w l/1 L/)w w Z a � z Q Q Q U J O rn C 3 U O M O M m � � n Ln z L m 0 v o E LL M Q O O 0 M Ln O M QD iZZ- c-I 00 rip. Z W J a dory aUl D U IRONRIDGE Background All roofing products are tested and classified for their ability to resist fire Recently, these fire resistance standards were expanded to include solar equipment as part of the roof system. Specifically, this requires the modules, mounting hardware and roof covering to be tested together as a system to ensure they achieve the same fire rating as the original roof covering. These new requirements are being adopted throughout the country in 2016. IronRidge Certification IronRidge was the first company to receive a Class A Fire Rating—the highest possible rating—from Intertek Group plc., a Nationally Recognized Testing Laboratory. IronRidge Flush Mount and Tilt Mount Systems were tested on sloped and flat roofs in accordance with the new UL 1703 & UL 2703 test standards. The testing evaluated the system's ability to resist flame spread, burning material and structural damage to the roof. Refer to the table below to determine the requirements for achieving a Class A Fire Rating on your next project. RACKING & RAIL CUT SHEET Class A Fire Rating Test Setup Solar Modules Solar modules are given a Type classification based on their materials and construction. Mounting System Mounting is tested as part of a system that includes type -tested modules and fire -rated roof covering. Roof Covering Roof covering products are given a Fire Class Rating of A, B or C based on their tested fire resistance. Burning Brand Test A burning wooden block is placed on module as a fan blows at 12 mph. Flame cannot be seen on underside of roof within 90 minutes. Spread of Flame Test _ 0 — Flame at southern edge of roof is aimed up the roof as a fan blows at 12 mph. The flame cannot spread 6 feet or more in 10 minutes. Module Flush Mount Any Slope Type 1, 2, & 3 Class A Tilt Mount m <_ 6 Degrees I Type 1, 2, & 3 1 Class A 'Class A rated PV systems can be installed on Class A, B, and C roofs. Frequently Asked Questions What is a "module type"? he new UL1703 standard introduces the concept of a PV module type, based on 4 construction parameters nd 2 fire performance parameters. The purpose of his classification is to certify mounting systems without eeding to test it with every module. What roofing materials are covered? All fire rated roofing materials are covered within this certification including composition shingle, clay and cement tile, metal, and membrane roofs. What if I have a Class C roof, but the jurisdiction now requires Class A or B? Generally, older roofs will typically be "grandfathered in", and will not require re -roofing. However, if 50% or more of the roofing material is replaced for the solar installation the code requirement will be enforced. Where is the new fire rating requirement code listed? 2012 IBC: 1509.7.2 Fire classification. Rooftop mounted photovoltaic systems shall have the same fire classification as the roof assembly required by Section 1505. Where is a Class A Fire Rating required? The general requirement for roofing systems in the IBC refers to a Class C fire rating. Class A or B is required for areas such as Wildland Urban Interface areas (WUI) and for very high fire severity areas. Many of these areas are found throughout the western United States. California has the most Class A and B roof fire rating requirements, due to wild fire concerns. Are standard mid clamps covered? Mid clamps and end clamps are considered part of the PV "system", and are covered in the certification. more Resources Installation Manuals Visit our website for manuals that include UL 2703 Listing and Fire Rating Classification. Go to IronRidge.com No, IronRidge achieved a Class Afire rating without any additional racking components. What determines Fire Classification? Fire Classification refers to a fire -resistance rating system for roof covering materials based on their ability to withstand fire exposure. Class A - effective against severe fire exposure Class B - effective against moderate fire exposure Class C - effective against light fire exposure What if the roof covering is not Class A rated? The IronRidge Class A rating will not diminish the fire rating of the roof, whether Class A, B, or C. What tilts is the tilt mount system fire rated for? The tilt mount system is rated for 1 degrees and up and any roof to module gap, or mounting height. Engineering Certification Letters We offer complete engineering resources and pre -stamped certification letters. Go to IronRidge.com 0 2016 IronRidge, Inc. All rights reserved. Visit www.ironridge.com or call 1-800-227-9523 for more information. Version 1.20 Z a J CL _U Q H J O OO O 2 a O! N =rn o l.0 a) I\ J 0 L v O 4� rn o CO N to L... O W V% L/)w w z a � z Q Q Q O M lD o � � *' o X m 'D m 0 o0 v E LL r6 FWa 0 0 U O J M J re f6 0 v UJ 3 O U V I D U V) LU Lu z C/1 �O =� LU 0- 5; What attachments and flashings are deemed LU compatible with Class A?w O L w0 Attachments and their respective flashings are not J rl constituents of the rating at this time. All code -compliant LUN methods are acceptable from a fire rating LU standpoint. N N LU 0 O Q m Ln What mounting height is acceptable? o C14 -1 O N CD CD UL fire testing was performed with a gap of 5", which is 1 considered worst case in the standard. Therefore, the w rating is applicable to any module to roof gap. oc Am I required to install skirting to meet the fire T1 code? No, IronRidge achieved a Class Afire rating without any additional racking components. What determines Fire Classification? Fire Classification refers to a fire -resistance rating system for roof covering materials based on their ability to withstand fire exposure. Class A - effective against severe fire exposure Class B - effective against moderate fire exposure Class C - effective against light fire exposure What if the roof covering is not Class A rated? The IronRidge Class A rating will not diminish the fire rating of the roof, whether Class A, B, or C. What tilts is the tilt mount system fire rated for? The tilt mount system is rated for 1 degrees and up and any roof to module gap, or mounting height. Engineering Certification Letters We offer complete engineering resources and pre -stamped certification letters. Go to IronRidge.com 0 2016 IronRidge, Inc. All rights reserved. Visit www.ironridge.com or call 1-800-227-9523 for more information. Version 1.20 Z a J CL _U Q H J O OO O 2 a O! N =rn o l.0 a) I\ J 0 L v O 4� rn o CO N to L... O W V% L/)w w z a � z Q Q Q O M lD o � � *' o X m 'D m 0 o0 v E LL r6 FWa 0 0 U O J M J re f6 0 v UJ 3 O U V I D U RACKING & RAIL CUT SHEET Z1 IRONRIDGE UFO Family of Components Simplified Grounding for Every Application The UFO family of components eliminates the need for separate grounding hardware by bonding solar modules directly to IronRidge XR Rails. All system types that feature the UFO family—Flush Mount, Tilt Mount and Ground Mount—are fully listed to the UL 2703 standard. UFO hardware forms secure electrical bonds with both the module and the rail, resulting in many parallel grounding paths throughout the system. This leads to safer and more reliable installations. Stopper Sleeve The Stopper Sleeve snaps onto the UFO, converting it into a bonded end clamp. Bonded Splice Universal Fastening Object (UFO) The UFO securely bonds solar modules to XR Rails. It comes assembled and lubricated, and can fit a wide range of module heights. Each Bonded Splice uses self -drilling screws to form a secure connection. No .! bonding strap needed. ( 0" Grounding Lug A single Grounding Lug connects an entire row of PV modules to the grounding conductor. Bonded Attachments The bonding bolt attaches and bonds the L -foot to the rail. It is installed with the same socket as the rest of the system. System Diagram -------- ________ -_. __ -- - - - -- - - - - - -- ---m--- -------- - -- -- -- --------- - - - ---- - m ----- - - - - ---- - - - - -- 0 UFO Stopper Sleeve • Grounding Lug M Bonded Splice -J— Ground Wire 4 Approved Enphase microinverters can provide equipment grounding of IronRidge systems, eliminating the need for grounding lugs and field installed equipment ground conductors (EGC). A minimum of two microinverters mounted to the same rail and connected to the same Engage cable is required. Refer to installation manuals for additional details. UL Certification The IronRidge Flush Mount, Tilt Mount, and Ground Mount Systems have been listed to UL 2703 by Intertek Group plc. UL 2703 is the standard for evaluating solar mounting systems. It ensures these devices will maintain strong electrical and mechanical connections over an extended period of time in extreme outdoor environments. Go to Iron Ridge.con UFO XR Rails UFO/Stopper Bonded Splice Grounding Lugs Microinverters & Power Optimizers d d XR1000 Only V %J4 V d N/A 1 per Row 1 per Row 1 per Array Enphase - M250-72, M250-60, M215-60, C250-72 Darfon - MIG240, MIG300, G320, G640 SolarEdge - P300, P320, P400, P405, P600, P700, P730 Fire Rating I Class A I Class A I N/A ModulesI Tested or Evaluated with over 400 Framed Modules Refer to installation manuals for a detailed list. 6 © 2016 IronRidge, Inc. All rights reserved. Visit www.ironridge.com or call 1-800-227-9523 for more information. Version 1.10 LU LU LU C/ 2 W LU 5; CL W W 0 `^ < C) Quo W J m N W Or N LU N N Wo o N ^ Q cn Ln Lr) D N - O 00LU L/) Z a J CL .. C) W V1 L/)W W z L. a � z Q Q Q O M lD O M LI) M r1 -Zt *' O X m co o0 ro v E o a 0 UO J M J a o N .W f 1 1 v 3 O U V I D U /A IRONRIDGE The Strongest Attachment in Solar IronRidge FlashFoot2 raises the bar in solar roof protection. The unique water seal design is both elevated and encapsulated, delivering redundant layers of protection against water intrusion. In addition, the twist -on Cap perfectly aligns the rail attachment with the lag bolt to maximize mechanical strength. Twist -On Cap FlashFoot2's unique Cap design encapsi the lag bolt and locks into place with a sir twist. The Cap helps FlashFoot2 deliver superior structural strength, by aligning the rail and lag bolt in a concentric load path. Single Socket Size A custom -design lag bolt all you to install FlashFoot2 wit the same 7/16" socket size used on other Flush Mount System components. ows In STANCHION - ROOF ATTACHMENT CUT SHEET Flash FM2 Installation Features Three -Tier Water Seal FlashFoot2's seal architecture utilizes three layers of protection. An elevated platform diverts water away, while a stack of rugged components raises the seal an entire inch. The seal is then fully-encapuslated by the Cap. F1ashFoot2 is the first solar attachment to pass the TAS -100 Wind -Driven Rain Test. Water -Shedding Design An elevated platform diverts water away from the water seal. A Alignment Markers Quickly align the flashing with chalk lines to find pilot holes ORounded Corners Makes it easier to handle and insert under the roof shingles C Reinforcement Ribs Help to stiffen the flashing and prevent any bending or crinkling during installation. Benefits of Concentric Loading 1200 ' Rasht=oot2 1066 Traditional solar attachments have a Z horizontal offset between the rail and lag Y ao6 FashFoot 0r�aingCompetitor bolt, which introduces leverage on the lag 606 bolt and decreases uplift capacity. u 406 FlashFoot2 is the only product to align the 2001 rail and lag bolt. This concentric loading design results in a stronger attachment for 0 1 z the system. Rail -to -Lag Offset (in) Testing & Certification Structural Certification Designed and Certified for Compliance with the International Building Code & ASCE/SEI-7. i Low -Cost Competitor Water Seal Ratings Water Sealing Tested to UL 441 Section 27 "Rain Test" and TAS 100-95 "Wind Driven Rain Test" by Intertek. Ratings applicable for composition shingle roofs having slopes between 2 :12 and 12:12. UL 2703 Conforms to UL 2703 Mechanical and Bonding Requirements. See Flush Mount Install Manual for full ratings. V) LU w z C/1 2� w "'> U CL w w0`^ LL Ngo Quo LU - LU m N LU Q °C V) W N N LU 0 O N ^ Q cn Ln , W N O CD LU N Z a J CL U Q O bD N Ql J O L N oc l00 O O ~ O O0 4� d CO a rn N o to Y O w Ln V) Ln L/) ro LU w Z z a a Q a O M LI) M -1 -Zt *' ^ o X m n m0 'o v E LL M lipa O UO j m J 0 o N ++ f 1 1 v 3 O U V I D U STANCHION - ROOF ATTACHMENT CUT SHEET 8431 Murphy Drive Middleton, WI 53562 USA Telephone: 608.836.4400 Facsimile: 608.831.9279 www.intertek.com Test Verification of Conformity In the basis of the tests undertaken, the sample(s) of the below product have been found to comply with the requirements of the referenced specifications at the time the tests were carried out. icant Name & Address: Product Description: IronRidge, Inc. 1495 Zephyr Ave. Hayward, CA 94544 USA Flush Mount System with XR Rails. Ratings & Principle Fire Class Resistance Rating: Characteristics: -Flush Mount (Symmetrical). Class A Fire Rated for Low Slope applications when using Type 1, 2 and 3, listed photovoltaic modules. Class A Fire Rated for Steep Slope applications with Type1, 2 and 3, listed photovoltaic modules. Tested with a 5" gap (distance between the bottom the module frame and the roof covering), per the standard this system can be installed at any gap allowed by the manufacturers installation instructions. No perimeter guarding is required. This rating is applicable with any IronRidge or 3'rd party roof anchor. Models: Brand Name: IronRidge Flush Mount with XR Rails IronRidge Flush Mount Relevant Standards: UL 2703 (Section 15.2 and 15.3) Standard for Safety Mounting Systems, Mounting Devices, Allowable Lateral Capacity (lbs)(3) Clamping/Retention Devices, and Ground Lugs for Use with Flat -Plate Photovoltaic Modules 0.50 951 and Panels, First Edition dated Jan. 28, 2015 Referencing UL1703 Third Edition dated Nov. 18, Douglas Fir, South 2014, (Section 31.2) Standard for Safety for Flat -Plate Photovoltaic Modules and Panels. Verification Issuing Office: Intertek Testing Services NA, Inc. 0.43 758 8431 Murphy Drive Hem, Fir (North) Middleton, WI 53562 Date of Tests: 08/27/2014 to 03/17/2015 Test Report Number(s): 101769343MID-001r1, 101769343MID-001a, 101915978MID-001 & 101999492MID-001ar1-cr1. This verification is part of the full test report(s) and should be read in conjunction with them. This report does not automatically imply product certification. 364 Completed by: Chris Zimbrich Reviewed by: Chad Naggs Title: Technician II, Fire Resistance Title: Technician I, Fire Resistance Signature: Signature: -''�� Date: 05/25/2016 Date: 05/25/2016 This Verification is or the exclusive use o Intertek's client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility and liability are f f P P 9 p Y Y limited to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or damage occasioned by the use of this Verification. Only the Client is authorized to permit copying or distribution of this Verification. Any use of the Intertek name or one of its marks for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. The observations and test/inspection results referenced in this Verification are relevant only to the sample tested/inspected. This Verification by itself does not imply that the material, product or service is or has ever been under an Intertek certification program. GFT -OP -11a (24 -MAR -2014) IRONRIDGE Attn: Corey Geiger, COO, IronRidge Inc. Date: September 5th, 2019 Re: Structural Certification for the IronRidge FlashFoot2 28357 Industrial Blvd Hayward, CA 94545 1-800-227-9523 IronRidge.com This letter addresses the structural capacity of the IronRidge FlashFoot2 (FF2) component for use as a roof attachment for PV solar systems. FF2 is composed of an aluminum Cap, a 9" x 12" aluminum flashing, and an aluminum stabilizing base. The flashing component is attached to an underlying roof rafter using a 5/16" lag bolt. The assembly details are shown in Exhibit EX -0013. The referenced uplift and lateral resistance of FF2 is based on structural tests conforming to ASTM D1761-12 "Standard Test Methods for Mechanical Fasteners in Wood." Testing was performed by installing a FF2 component on a sample roof deck composed of composition shingles covering 'h" OSB Board over a 2x4 Douglas Fir rafter as shown in Figure 1. The moisture content and specific gravity of the rafter was measured and recorded per ASTM D2395-14 "Standard Test Methods for Density and Specific Gravity (Relative Gravity) of Wood and Wood -Based Materials." The moisture content for uplift test samples was between 8% and 15% with an average specific gravity of 0.54. The moisture content for lateral test samples was 13% with an average specific gravity of 0.54. The critical failure mode observed for both the uplift and lateral tests was pullout of the 5/16" lag screw from the rafter. The average peak loads recorded at the critical failure point for the uplift and lateral tests were 3203 lbs. and 1237 lbs., respectively. A safety factor of 3.0 was applied to certify the allowable uplift capacity to 1067 lbs. and the allowable lateral capacity to 412 lbs. for a substrate with a specific gravity of 0.54. 3 For rafter wood species with specific gravity other than 0.54, the allowable uplift capacity shall be adjusted by a factor of ( G V per \0.54/ AP&PA National Design Specification Eq. (12.2-1), and the allowable lateral capacities shall be adjusted per the equation 1 — (0.5 — G) from APA Engineering Wood Construction Guide APA 2011 (G is wood specific gravity). For the common wood species, the allowable capacities are provided in Table 1. (1) The minimum size rafter is 2x4. (2) The listed specific gravities are per 2015 NDS Table 12.3.3A. (3) Values are based on securing lag bolt within center 1/3 of rafter width with a minimum 2.5" end distance, and loading directions as shown in Figure 1. © 2019 IronRidge, Inc. lateral uplift FlashFoot2 Certification Letter - 1 V) w LU z C/ ) 2 = w D "'> U D w0`^ NCO Quo LU J m N LU Q or V) W N N LU NO O N Q cri L I� Cl N - O O o r -I LU N Z a J CL U � N Q UA rn J l.0 O L oc O O ~ 0_11:: `6 Y 11 O0 4� a a)o m N to Y � v7 O w N L/)w w z a � z Q Q Q U J f6 O to C 3 U O M lD O M LI) M -1 -Zt *' ^ O X m n m 0 00 rc v o Q O o M re Z WJ 0 Ul D U Table 1. IronRidge FlashFoot2 Allowable Capacities (t) Wood Species NDS Assigned Specific Allowable Uplift Capacity Gravity(') (lbs)(3) Allowable Lateral Capacity (lbs)(3) Douglas Fir, Larch 0.50 951 396 Douglas Fir, South 0.46 839 380 Hem, Fir 0.43 758 368 Hem, Fir (North) 0.46 839 380 Southern Pine 0.55 1097 416 Spruce, Pine, Fir 0.42 732 364 (1) The minimum size rafter is 2x4. (2) The listed specific gravities are per 2015 NDS Table 12.3.3A. (3) Values are based on securing lag bolt within center 1/3 of rafter width with a minimum 2.5" end distance, and loading directions as shown in Figure 1. © 2019 IronRidge, Inc. lateral uplift FlashFoot2 Certification Letter - 1 V) w LU z C/ ) 2 = w D "'> U D w0`^ NCO Quo LU J m N LU Q or V) W N N LU NO O N Q cri L I� Cl N - O O o r -I LU N Z a J CL U � N Q UA rn J l.0 O L oc O O ~ 0_11:: `6 Y 11 O0 4� a a)o m N to Y � v7 O w N L/)w w z a � z Q Q Q U J f6 O to C 3 U O M lD O M LI) M -1 -Zt *' ^ O X m n m 0 00 rc v o Q O o M re Z WJ 0 Ul D U STANCHION - ROOF ATTACHMENT CUT SHEET EXHIBIT: EX -0013 — ;3 ( 12.01n ( 3.Oin 4, 4.5in d 9.Oin ( I in ITABIIIIINGBAIEJ I, 3.7 in 1 O e a FlashFoot2 Cap can be installed in either orientation shown ITEM NO. DESCRIPTION 1 ASSY, FLASHING, MILL OR BLACK 2 ASSY, CAP, MILL OR BLACK l� IRON RIDGE 3 BOLT LAG 5/16 X 4.75" 4 WASHER, EPDM BACKED ASSY, FLASH0013 DWG. NO. EX -0013 cn Lu Lu Lu (_ Lu Lu 5; W w00 L' Ngo a�o Lu _j co Ncr W Of�� w N N O H N rq a M -LO ��//�� W O O N � O O I Lu V) Z Q J d V Q N b�0 � O OC J o t H CU O `° ru a u o Z) rn o ca N In v O w N � M :E UJ L z a z 0 a a a O lD c -I X Ql CO O 00 ca 5 vC L E u- < Q O �j O J M J o J v L 0 3 U a Ln D u F.,T*N Powering Business Worldwide General Duty Non -Fusible Safety Switch DG222URB UPC:782113144238 Dimensions: • Height: 7.5 IN • Length: 6.41 IN • Width: 8.4 IN Weight:9 LB Notes:WARNING! Switch is not approved for service entrance unless a neutral kit is installed. Warranties: AC DISCONNECT CUT SHEET • Eaton Selling Policy 25-000, one (1) year from the date of installation of the Product or eighteen (18) months from the date of shipment of the Product, whichever occurs first. Specifications: • Type: General Duty/Non-Fusible • Amperage Rating: 60A • Enclosure: NEMA 3R • Enclosure Material: Painted galvanized steel • Fuse Configuration: Non -fusible • Number Of Poles: Two -pole • Number Of Wires: Two -wire • Product Category: General Duty Safety Switch • Voltage Rating: 240V Supporting documents: • Eatons Volume 2 -Commercial Distribution • Eaton Specification Sheet - DG222URB Certifications: • UL Listed Product compliance: No Data © 2016 Eaton. All rights reserved. pe.eaton.com Switching Devices Safety Switches All general -duty switches above 100A and all heavy- duty switches incorporate these K -Series switch design features. Two points of contact provide a positive open and close, easier operation, and also help prevent contact burning for longer contact life Visible Double -Break Rotary Blade Mechanism Protects against accidental contact with energized parts. Probe holes enable the user to test if the line side is energized without removing the shield. Not provided on general - duty switches, but available as a field kit or factory installed Clear Line Shield Clearly Visible Handle • The position (ON or OFF) can be clearly seen from a distance and the length provides for easy operation rs �1 • --y P Triple Padlocking Capability • Personnel safety feature because the large hasp can accommodate up to three 3/8 -inch (9.5 mm) shank locks =U I e - - 1 Additional Locking Capability • Cabinet door can be further padlocked at the top and bottom as applicable Interlocking Mechanism • Door cannot be opened when the handle is in the ON position. Front and side operable defeater mechanism provides for user access when necessary on single - throw switches F Tangential Knockouts • An ample number are provided on the top, bottom and sides of both NEMA Types 1 and 3R enclosures through 200A Bolt -On Hub Kits • For switches in a NEMA Type 319, 30-200A. Use a Myers type hub for all others V2 -T1-26 Volume 2—Commercial Distribution CA08100003E—May 2018 www.eaton.com Standards and Certifications • UL listed File No. E5239 • Meets UL 98 for enclosed switches and NEMA Std. KS -1 UD Listed Seismic Qualifications • General -duty switches exceed the requirements of Uniform Building Code (UBC) and California Code Title 24 OSP-0011-10, OSP-0012-10 r , cn w w LU V) 2�: =w w> U LU w0L, NtZ0 Q�o LU _j co NCr w w N N 0 F- -r-4 O T Q M L V 1 0 rj —1 0 N M O O I w Ln C:) w LU w z a o o Q O M LD M Ln � o X rn Ln *' Co m000 �L vC C u- < a 0 �j o J M 0 0 u J v � L 0 3 U Ln U