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Home My WebLink AboutAPPROVED SOLR23-1196 PLANS.pdf75 - 1 8 1 M e d i t e r r a n e a n A v e . Re n o v a E n e r g y C o r p Pa l m D e s e r t , C A 9 2 2 1 1 (7 6 0 ) 5 6 8 - 3 4 1 3 Sheet No. Revision No. Date Drawn: Drawn By: Pr o j e c t N a m e : Co n t r a c t o r ' s L i c e n s e # 9 1 0 8 3 6 0 C1 COVER SHEET SHEET INDEX GENERAL C1 COVER SHEET S1 SITE PLAN ELECTRICAL E1 PROJECT SIGNAGE E2 SINGLE LINE STRUCTURAL P1 PROFILE ELEVATIONS DATA SHEET MODULE LOAD CALCULATION WIND CALCULATION RACKING LOAD CENTER AC DISCONNECT SOLARREADY PANEL APPLICABLE CODES: CALIFORNIA RESIDENTIAL CODE 2022 CALIFORNIA BUILDING CODE 2022 CALIFORNIA FIRE CODE 2022 CALIFORNIA ENERGY CODE 2022 CALIFORNIA GREEN CODE 2022 CALIFORNIA MECHANICAL CODE 2022 CALIFORNIA PLUMBING CODE 2022 CALIFORNIA ELECTRICAL CODE 2022 CALIFORNIA AMENDMENTS 2022 NATIONAL ELECTRICAL CODE 2020 CITY OF PALM DESERT MUNICIPAL CODE Vicinity Map Riverside County: APN 634181062 SCOPE OF WORK: Project consists of installing a solar photovoltaic (PV) system comprised of: (22) Q.Peak Duo BLK ML-G10+ 405 modules (405 Watt) paired with Enphase IQ7HS Microinverters, panel upgrade, 125A load center, conduits w/fittings and wires, and a rack mounting system to provide a renewable power source for the customer. PROJECT CONTACTS: CONTRACTOR: RENOVA permits@renovaenergy.com PRIMARY CONTACT: MATTHEW DE LA TORRE SECONDARY CONTACT: Amy Dominquez Andres Bautista-Aranda SOLAR SYSTEM SIZE: 8.910 kW DC CEC AC SYSTEM SIZE: 8.030 kW AC NOTES: 1. THIS SYSTEM IS GRID-INTERTIED VIA AC MODULES PER NEC 690.6. 2. THIS SYSTEM HAS NO UPS, NO BATTERIES. 3. THIS IS A ROOF MOUNTED SYSTEM, ADDING 2.84 LB/SQ FT. ROOF IS CONCRETE SPANISH TILE AT 25° PITCH. 4. THE SYSTEMS SQUARE FOOTAGE IS 462 FT² (15% OF TOTAL ROOF AREA). MODULES HAVE AN AZIMUTH OF 197°. 5. MODULES ARE 0° TILT ABOVE ROOF SLOPE, NOT TO EXCEED 18" ABOVE ROOF SURFACE. 6. BUILDING IS A SINGLE STORY DWELLING. 7. LAG SCREWS ARE 5/16" X 4" AT 72" O.C. MAX, WITH 2.5" INTO FRAMING. 8. MODULES WILL BE SECURED TO ROOFTOP USING PEGASUS ATTACHMENTS WITH INVISIMOUNT SUPPORT RAILS. 9. ATTACHMENTS WILL BE FLASHED. 10. DESIGNED FOR BASIC WIND SPEED OF 130 MPH (WIND EXPOSURE C) PER INVISIMOUNT CALCULATIONS, SEE SPECS. 11. VISIBLE EXPOSED CONDUIT SHALL BE PAINTED TO MATCH. 12. MODULE DIMENSIONS ARE 41.1" X 74.0" 13. SYSTEM INSTALLATION SHALL BE PER NEC 690 AND IS SUBJECT TO FIELD INSPECTION BY THE CITY. 14. PROPER CLEARANCES SHALL BE IN ACCORDANCE WITH CAL FIRE GUIDELINES. 15. ALL PV EQUIPMENT SHALL BE LISTED BY A RECOGNIZED TESTED LAB. 16. NOTIFY SERVING UTILITY BEFORE ACTIVATION OF PV SYSTEM. 17. WHEN A BACKFED BREAKER IS THE METHOD OF UTILITY INTERCONNECTIONS, BREAKER SHALL NOT READ LINE AND LOAD. 18. SMOKE DETECTOR AND CO DETECTOR SHALL BE REQUIRED. CONSTRUCTION HOURS: OCTOBER 1 THRU APRIL 30 Monday - Friday 7:00 am - 5:30 pm Saturday 8:00 am - 5:00 pm Sunday NOT ALLOWED Government Code Holidays NOT ALLOWED MAY 1 THRU SEPTEMBER 30 Monday - Friday 6:00 am - 7:00 pm Saturday 8:00 am - 5:00 pm Sunday NOT ALLOWED Government Code Holidays NOT ALLOWED Plot Plan DAVID THORNBURY 42 7 6 4 A D A L I N W A Y PA L M D E S E R T , C A . 9 2 2 1 1 BI L L R I C E ( C S H 5 2 5 7 1 ) 12/08/2023 3' 3' 1 . 5 ' 1 . 5 ' 1. 5 ' 1. 5 ' 75 - 1 8 1 M e d i t e r r a n e a n A v e . Re n o v a E n e r g y C o r p Pa l m D e s e r t , C A 9 2 2 1 1 (7 6 0 ) 5 6 8 - 3 4 1 3 Sheet No. Revision No. Date Drawn: Drawn By: Pr o j e c t N a m e : Co n t r a c t o r ' s L i c e n s e # 9 1 0 8 3 6 0 S1 SITE PLAN - CIRCUIT #2 125 AMP AC LOAD CENTER EATON #BR816L125RP 120/240 VOLT LOCATED NEXT TO MAIN SIDE Y A R D PRO P E R T Y L I N E VENT AD A L I N W A Y BA C K Y A R D PR O P E R T Y L I N E - CIRCUIT #1 AC SOLAR MODULES SIDE Y A R D PRO P E R T Y L I N E - ACCESS POINT DR I V E W A Y EXISTING METER #222011-948649 UPGRADE EXISTING 100 AMP MAIN SERVICE PANEL TO SIEMENS 225 AMP SOLAR READY PANEL #MC2442B1200EFV 120/240 VOLT, 1Φ, 3W LOCATED ON NORTHEAST EXTERIOR WALL 42 7 6 4 A D A L I N W A Y PA L M D E S E R T , C A . 9 2 2 1 1 BI L L R I C E ( C S H 5 2 5 7 1 ) - CIRCUIT #3 DAVID THORNBURY 12/08/2023 SKYLIGHT CHIMNEY AC DISCONNECT/AC LOAD CENTER WARNING ELECTRIC SHOCK HAZARD. DO NOT TOUCH TERMINALS. TERMINALS ON BOTH THE LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION. MAX AC OPERATING CURRENT: 35.2 A OPERATING AC VOLTAGE: 240 Volts SOLAR BREAKER WARNING POWER SOURCE OUTPUT CONNECTION DO NOT RELOCATE THIS OVER CURRENT DEVICE. MAIN PANEL THIS PANEL IS FED BY TWO SOURCES: UTILITY AND SOLAR PHOTOVOLTAIC MAIN PANEL: ATTACHED TO MAIN PANEL COVER WARNING THIS FACILITY IS EQUIPPED WITH A PHOTOVOLTAIC GENERATOR LOCATED ON THE ROOF AS SHOWN. THE SYSTEM MAY BE DISCONNECTED FROM THE FACILITY PER THE AC DISCONNECT AS SHOWN. MARKING 1. THE MATERIAL USED FOR MARKING SHALL BE REFLECTIVE, WEATHER RESISTANT AND SUITABLE FOR THE ENVIRONMENT. MARKING AS REQUIRED IN SECTIONS R 331.2.2 THROUGH R331.2.4 SHALL HAVE LETTERS CAPITALIZED WITH A MINIMUM HEIGHT OF 3/8" WHITE ON RED BACKGROUND. (CRC R331.2.1) 2. THE MARKING CONTENT SHALL CONTAIN THE WORDS "WARNING; PHOTOVOLTAIC POWER SOURCE" (CRC R331.2.2) SAFEGUARDS 1. SOLAR BREAKER SHALL BE LISTED FOR USE IN EXISTING MAIN PANEL. ACCEPTED BREAKER REPLACEMENTS ARE EATON, SQUARE-D & GE. 2. ALL JUNCTION BOXES SHALL BE NEMA OUTDOOR/RAINTIGHT RATED. 3. WILEY CABLE CLIPS SHALL BE USED. 4. ALL EMT SHALL USE OUTDOOR RAINTIGHT COMPRESSION FITTINGS. 5. ALL EQUIPMENT SHALL BE LABELED. 6. ADD COMBINER / JUNCTION BOXES AS NEEDED. 7. AN INTERNAL BLOCKING DIODE IS PROVIDED IN EACH MODULE. 8. MODULE GROUNDING SHALL BE MADE VIA RACKING CLAMPS. 9. ALL NEUTRAL TO GROUND CONNECTIONS SHALL OCCUR IN THE MAIN PANEL. 10. EMT SHALL BE 3/4" MINIMUM. 11. JUNCTION BOX/ COMBINER BOX ENTRY SHALL USE COMPRESSION FITTINGS. NOTES 1. WIRE AND SIZES ARE AS INDICATED OR LARGER. 2. ALL EQUIPMENT IS BONDED BY MECHANICAL MEANS OR BY A GROUNDING CONDUCTOR. 3. THE GROUNDING ELECTRODE CONDUCTOR SHALL BE #8 AWG COPPER GROUND WIRE AND BONDED TO THE EXISTING GROUNDING ELECTRODE SYSTEM. 4. CHANGES TO DESIGN NEED PRIOR ENGINEER APPROVAL. ALL WIRING BETWEEN AC MODULES SHALL BE PV-WIRE AND AC CABLE. ALL CONDUIT SHALL BE 3/4" EMT OR LARGER. ALL CONDUIT SHALL BE BONDED. ALL CONDUIT SHALL BE SUPPORTED BY RUBBER PYRAMID SUPPORTS. STEEL CITY 6"X6"X4" (OR LARGER) OUTDOOR JUNCTION BOXES SHALL BE USED AS NEEDED. ALL CONDUIT SHALL HAVE PLASTIC STRAIN RELIEF CONNECTORS TO PROTECT WIRES. AC DISCONNECT/SOLAR BREAKER NOTE: RED BACKGROUND WITH WHITE LETTERING 3/8" LETTER HEIGHT VA LOAD CIRCUIT 1 A B L 20 TYPE C.B. BUS CO D E N R L TR P x x CONNECTED VA (CODE L):8448 8.45 35.2 A B - 20 x x 1920 20 x x 1920 1920 1920 384 384 4224 4224 CIRCUIT 1 CIRCUIT 2 CIRCUIT 2 CIRCUIT 3 CIRCUIT 3 PHASE TOTAL LOAD DESCRIPTION L L L L L - - 20 - 20 20 - - 2 2 2 - - - VA LOAD AB L TYPEC.B. CO D E NRLTRP LOAD DESCRIPTION L L L L L PANEL: LOAD CENTER LOCATION: GARAGE MOUNTING: SURFACE PANEL VOLTAGE: 240/120 V 1Φ,3W BUS: 125A N: NON-CONTINUOUS L: LONG-CONTINUOUS R: DEMANDABLE RECEPTACLES CIRCUIT CODE: CONNECTED VA (CODE R): CONNECTED VA (CODE N): TOTAL CONNECTED KVA: TOTAL PANEL AMPS: PHASE TOTALS A+B PROJECT SIGNAGE NOTES & PANEL SCHEDULE RAPID SHUTDOWN SWITCH FOR SOLAR PV SYSTEM MAIN PANEL PHOTOVOLTAIC 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 SOLAR ELECTRIC PV PANELS EXPOSED RACEWAYS PHOTOVOLTAIC POWER SOURCE MAIN PANEL (YOU ARE HERE) RAPID SHUTDOWN (BREAKER INSIDE MAIN) 75 - 1 8 1 M e d i t e r r a n e a n A v e . Re n o v a E n e r g y C o r p Pa l m D e s e r t , C A 9 2 2 1 1 (7 6 0 ) 5 6 8 - 3 4 1 3 Sheet No. Revision No. Date Drawn: Drawn By: Pr o j e c t N a m e : Co n t r a c t o r ' s L i c e n s e # 9 1 0 8 3 6 0 E1 PROJECT SIGNAGE DAVID THORNBURY 42 7 6 4 A D A L I N W A Y PA L M D E S E R T , C A . 9 2 2 1 1 BI L L R I C E ( C S H 5 2 5 7 1 ) 12/08/2023 AC CIRCUITS AC MODULES TO AC LOAD CENTER 2 CIRCUITS X 10 MODULES & 1 CIRCUIT OF 2 MODULES = 22 MODULES MAX VOLTAGE AC 240 VOLT 1.60 AMPS EACH CIRCUIT X MAX 10 MODULES X 1.25[PER NEC 690.8] = 20.0 AMPS (20 AMP CB) AC CONDUIT SHALL BE MOUNTED A MINIMUM OF 1" ABOVE ROOFTOP SURFACE. ENGINEERED FOR 90°C TEMP. RATING OF CONDUCTOR & 42°C AMBIENT TEMP. PER SOLARABCS.ORG #10 WIRE = 40 AMPS X .82[PER NEC TABLE 310.16 & PER NEC TABLE 690.31(A)(a)] = 32.8 AMPS 32.8 AMPS X .80[CONDUIT FILL PER NEC TABLE 310.15(B)(3)] = 26.24 AMPS ≥ 20 AMPS ✓ 3 CIRCUITS = (6) #10 THWN-2 AWG WIRE, (1) #10 THWN-2 GROUND 3/4" EMT @ 40% FILL PER NEC TABLE C.1 = (10) #10 THWN-2 WIRES ✓ AC LOAD CENTER TO MAIN PANEL MAX OUTPUT = 22 MODS X 1.60 AMP X 1.25 [PER NEC 215.2(A)(1)] = 44.0 AMPS (50 AMP SOLAR BREAKER) AC CONDUIT SHALL BE MOUNTED ON EXTERIOR WALL. ENGINEERED FOR 90°C TEMP. RATING OF CONDUCTOR & 42°C AMBIENT TEMP. PER SOLARABCS.ORG #6 WIRE = 75 AMPS X .82[PER NEC TABLE 310.16 & PER NEC TABLE 690.31(A)(a)] = 61.5 AMP ≥ 50 AMP ✓ (3) #6 THWN-2 AWG WIRE, (1) #10 THWN-2 GROUND 3/4" EMT @ 40% FILL PER NEC TABLE C.1 = (4) #6 THWN-2 WIRES ✓ MAIN PANEL BACKFEED CALCULATION UPGRADE EXISTING 100 AMP MAIN SERVICE PANEL TO 225 AMP MAIN SERVICE UPGRADE EXISTING 100 AMP MAIN BREAKER TO 200 AMP MAIN 120% OF 225 AMP BUS: ALLOWABLE BACKFED AMPS [PER NEC 705.12(B)(3)(4)] = 270 AMPS 270 AMP - 200 AMP MAIN BREAKER = 70 TOTAL AMP ALLOWABLE MAX OUTPUT = 44.0 AMPS ≤ 70 AMPS ✓ PVS6 (MONITOR) INTERNET, 240V LOCATED NEXT TO LOAD CENTER G BAR UPGRADE EXISTING 100A MAIN BREAKER TO 200A SOLAR BREAKER SUITABLE FOR DISCONNECTING MEANS PER NEC 690.13 50 AMP SOLAR BREAKER EXISTING GROUNDING ELECTRODE TO UTILITY 20A 20A BREAKER 1 OF 3 BREAKER 2 OF 3 N BAR G BAR 4 3 15A UPGRADE EXISTING 100 AMP MAIN SERVICE PANEL TO SIEMENS 225 AMP SOLAR READY PANEL #MC2442B1200EFV 120/240 VOLT, 1Φ, 3W LOCATED ON NORTHEAST EXTERIOR WALL 20A BREAKER 3 OF 3 SINGLE LINE DIAGRAM CALCULATIONS SOLAR SYSTEM SIZE: 8.910 kW DC CEC AC SYSTEM SIZE: 8.030 kW AC N BAR 125 AMP AC LOAD CENTER EATON #BR816L125RP 240V, 2P LOCATED NEXT TO MAIN *FOR UTILITY PURPOSES ONLY:(22) ENPHASE IQ7HS-66-ACM-US 240V [SI1] INVERTERS EGC = EQUIPMENT GROUNDING CONDUCTOR, GEC = GROUNDING ELECTRODE CONDUCTOR #6 COPPER SOLID GROUND TO BE USED ON ROOFTOP WHEN NOT PROTECTED BY CONDUIT ALL BREAKERS SHALL BE 2 POLE UNLESS OTHERWISE NOTED ALL INNER-CIRCUIT WIRING SHALL BE #10 THWN-2 WIRE OR GREATER 2 J BOX 1 CONDUIT SCHEDULE LOCATION CONDUCTORS CONDUIT 1 (6) #12 ENPHASE CABLE, (1) #6 BARE COPPER N/A 2 (6) #10 THWN-2, (1) #10 EGC 3/4" EMT 3 (3) #6 THWN-2, (1) #10 EGC 3/4" EMT 4 (3) #12 THWN-2, (1) #12 EGC 3/4" EMT SOLAR ARRAY (22) SUNPOWER 405 WATT PHOTOVOLTAIC MODULES #Q.Peak Duo BLK ML-G10+ 405 W/ Enphase IQ7HS Microinverters (2 CIRCUITS OF 10 MODULES & 1 CIRCUIT OF 2 MODULES) METER #222011-948649M #4 THWN-2 GEC 75 - 1 8 1 M e d i t e r r a n e a n A v e . Re n o v a E n e r g y C o r p Pa l m D e s e r t , C A 9 2 2 1 1 (7 6 0 ) 5 6 8 - 3 4 1 3 Sheet No. Revision No. Date Drawn: Drawn By: Pr o j e c t N a m e : Co n t r a c t o r ' s L i c e n s e # 9 1 0 8 3 6 0 E2 SINGLE LINE DAVID THORNBURY 42 7 6 4 A D A L I N W A Y PA L M D E S E R T , C A . 9 2 2 1 1 BI L L R I C E ( C S H 5 2 5 7 1 ) 12/08/2023 1 0 ' ' 2 5 ° A A' 6' 4' 75 - 1 8 1 M e d i t e r r a n e a n A v e . Re n o v a E n e r g y C o r p Pa l m D e s e r t , C A 9 2 2 1 1 (7 6 0 ) 5 6 8 - 3 4 1 3 Sheet No. Revision No. Date Drawn: Drawn By: Pr o j e c t N a m e : Co n t r a c t o r ' s L i c e n s e # 9 1 0 8 3 6 SCALE: 1"=4'2 SCALE:11"=12' TOP VIEW ELEVATION A-A' SCALE: 1"=4'3 *MODULES NOT TO EXCEED 18" ABOVE ROOF SURFACE *MODULES NOT TO EXCEED 18" ABOVE ROOF SURFACE SCALE: N/A 4 *MODULES NOT TO EXCEED 18" ABOVE ROOF SURFACE*MODULES NOT TO EXCEED 18" ABOVE ROOF SURFACE ATTACHMENT DETAIL ELEVATION B-B' 0 P1 PROFILE ELEVATIONS - USE (2) 5/16" x 4" SS LAG SCREWS AT 6' O.C. WITH 2.5" EMBEDMENT INTO WOOD RAFTERS. - RAFTERS ARE 2"x6" AT 2' O.C. - DO NOT INSTALL STANDOFFS OVER WOOD CRICKETS - STANDOFFS ATTACHED TO MAIN ROOF FRAMING. HORIZONTAL DISTANCE BETWEEN ATTACHMENTS NOT TO EXCEED 6 FEET ON CENTER VERTICAL DISTANCE BETWEEN ATTACHMENTS NOT TO EXCEED 4 FEET ON CENTER DAVID THORNBURY PV MODULE CLAMP RAIIL 3/8" X 3/4" SS HEX BOLT 3/8" NUT 3/8" X 3/4" SS HEX BOLT L-BRACKET 42 7 6 4 A D A L I N W A Y PA L M D E S E R T , C A . 9 2 2 1 1 BI L L R I C E ( C S H 5 2 5 7 1 ) 12/08/2023 6 BUSBAR CELL TECHNOLOGY 12 BUSBAR CELL TECHNOLOGY BREAKING THE 20 % EFFICIENCY BARRIER Q.ANTUM DUO Z Technology with zero gap cell layout boosts module efficiency up to 20.9 %. THE MOST THOROUGH TESTING PROGRAMME IN THE INDUSTRY Q CELLS is the first solar module manufacturer to pass the most comprehen- sive quality programme in the industry: The new “Quality Controlled PV” of the independent certification institute TÜV Rheinland. INNOVATIVE ALL-WEATHER TECHNOLOGY Optimal yields, whatever the weather with excellent low-light and temperature behavior. ENDURING HIGH PERFORMANCE Long-term yield security with Anti LID Technology, Anti PID Technology1, Hot-Spot Protect and Traceable Quality Tra.Q™. EXTREME WEATHER RATING High-tech aluminum alloy frame, certified for high snow (5400 Pa) and wind loads (4000 Pa). A RELIABLE INVESTMENT Inclusive 25-year product warranty and 25-year linear performance warranty2. 1 APT test conditions according to IEC / TS 62804-1:2015, method A (−1500 V, 96 h) 2 See data sheet on rear for further information. THE IDEAL SOLUTION FOR: Rooftop arrays on residential buildings Q.PEAK DUO BLK ML-G10+ 385-405 ENDURING HIGH PERFORMANCE 76.4 in 1940 mm 43.3 in 1100 mm 48.0 in 1220 mm 1656 lbs 751 kg 24 24 32 α [% / K]+0.04 β [% / K]−0.27 γ [% / K]−0.34 NMOT [°F]109 ± 5.4 (43 ± 3 °C) Hanwha Q CELLS America Inc. 400 Spectrum Center Drive, Suite 1400, Irvine, CA 92618, USA | TEL +1 949 748 59 96 | EMAIL inquiry@us.q-cells.com | WEB www.q-cells.us [V]1000 (IEC) / 1000 (UL)Class II [A DC]20 TYPE 2 [lbs/ft2]75 (3600 Pa) / 55 (2660 Pa) −40 °F up to +185 °F (−40 °C up to +85 °C)[lbs/ft2]113 (5400 Pa) / 84 (4000 Pa) 3 See Installation Manual 385 390 395 400 405 [W]385 390 395 400 405 [A]11.04 11.07 11.10 11.14 11.17 [V]45.19 45.23 45.27 45.30 45.34 [A]10.59 10.65 10.71 10.77 10.83 [V]36.36 36.62 36.88 37.13 37.39 [%]≥ 19.6 ≥ 19.9 ≥ 20.1 ≥ 20.4 ≥ 20.6 [W]288.8 292.6 296.3 300.1 303.8 [A]8.90 8.92 8.95 8.97 9.00 [V]42.62 42.65 42.69 42.72 42.76 [A]8.35 8.41 8.46 8.51 8.57 [V]34.59 34.81 35.03 35.25 35.46 53' 40' HC Certified UL 61730 MECHANICAL SPECIFICATION Format 74.0 in × 41.1 in × 1.26 in (including frame) (1879 mm × 1045 mm × 32 mm) Weight 48.5 lbs (22.0 kg) Front Cover 0.13 in (3.2 mm) thermally pre-stressed glass with anti-reflection technology Back Cover Composite film Frame Black anodized aluminum Cell 6 × 22 monocrystalline Q.ANTUM solar half cells Junction Box 2.09-3.98 in × 1.26-2.36 in × 0.59-0.71 in (53-101 mm × 32-60 mm × 15-18 mm), IP67, with bypass diodes Cable 4 mm² Solar cable; (+) ≥ 49.2 in (1250 mm), (−) ≥ 49.2 in (1250 mm) Connector Stäubli MC4; IP68 Note: Installation instructions must be followed. See the installation and operating manual or contact our technical service department for further information on approved installation and use of this product. Sp e c i f i c a t i o n s s u b j e c t t o t e c h n i c a l c h a n g e s © Q CE L L S Q. P E A K DU O BL K ML - G 1 0 + _ 3 8 5 - 4 0 5 _ D A _ 2 0 2 2 - 0 2 _ R e v 0 1 _ N A ELECTRICAL CHARACTERISTICS POWER CLASS MINIMUM PERFORMANCE AT STANDARD TEST CONDITIONS, STC1 (POWER TOLERANCE +5 W / −0 W) Mi n i m u m Power at MPP1 PMPP Short Circuit Current1 ISC Open Circuit Voltage1 VOC Current at MPP I MPP Voltage at MPP VMPP Efficiency1 η MINIMUM PERFORMANCE AT NORMAL OPERATING CONDITIONS, NMOT2 Mi n i m u m Power at MPP PMPP Short Circuit Current ISC Open Circuit Voltage VOC Current at MPP I MPP Voltage at MPP VMPP 1Measurement tolerances PMPP ± 3 %; I SC; VOC ± 5 % at STC: 1000 W/m2, 25 ± 2 °C, AM 1.5 according to IEC 60904-3 • 2 800 W/m², NMOT, spectrum AM 1.5 Q CELLS PERFORMANCE WARRANTY PERFORMANCE AT LOW IRRADIANCE At least 98 % of nominal power during first year. Thereafter max. 0.5 % degradation per year. At least 93.5 % of nominal power up to 10 years. At least 86 % of nominal power up to 25 years. All data within measurement toleranc- es. Full warranties in accordance with the warranty terms of the Q CELLS sales organisation of your respective country. Typical module performance under low irradiance conditions in comparison to STC conditions (25 °C, 1000 W/m²) TEMPERATURE COEFFICIENTS Temperature Coefficient of ISC Temperature Coefficient of VOC Temperature Coefficient of PMPP Nominal Module Operating Temperature PROPERTIES FOR SYSTEM DESIGN Maximum System Voltage VSYS PV module classification Maximum Series Fuse Rating Fire Rating based on ANSI / UL 61730 Max. Design Load, Push / Pull3 Permitted Module Temperature on Continuous DutyMax. Test Load, Push / Pull3 NA DETAIL A 0.63" (16 mm) 0.33" (8.5 mm)0.96" (24.5 mm) 42.8" (1088 mm) 74.0" (1879 mm) 4 × Mounting slots (DETAIL A) Frame 41.1" (1045 mm) 39.2" (996 mm) 1.26" (32 mm) 8 × Drainage holes 15.6“ (395.5 mm) 4 × Grounding points ø 0.18" (4.5 mm) Label ≥49.2" (1250 mm) ≥49.2" (1250 mm) EN RE L A T I V E E F F I C I E N C Y CO M P A R E D T O N O M I N A L P O W E R [ % ] YEARS Q CELLS Industry standard for linear warranties* *Standard terms of guarantee for the 10 PV companies with the highest production capacity in 2014 (as at: September 2014) 100 95 90 85 80 155 2520010 98 86 200 400 600 800 1000 110 100 90 80 RE L A T I V E E F F I C I E N C Y [ % ] IRRADIANCE [W/m²] QUALIFICATIONS AND CERTIFICATES PACKAGING INFORMATION UL 61730, CE-compliant, Quality Controlled PV - TÜV Rheinland, IEC 61215:2016, IEC 61730:2016, U.S. Patent No. 9,893,215 (solar cells),Horizontal packaging pallets pallets modules The high-powered smart grid-ready IQ7HS Microinverter with integrated MC4 connectors dramatically simplifies the installation process while achieving the highest system efficiency. The IQ Series Microinverters extend the reliability standards set forth by previous generations and undergo over a million hours of power-on testing, enabling Enphase to provide an industry-leading warranty of up to 25 years. IQ7HS Microinverter To learn more about Enphase offerings, visit enphase.com Data Sheet Enphase Microinverter Region: AMERICAS Easy to Install • Lightweight and simple • • Faster installation with improved, lighter two-wire cabling Built-in rapid shutdown compliant (NEC 2014, 2017 & 2020) Efficient and Reliable • Highest CEC efficiency of 97.0% • More than a million hours of power-on testing • Class II double-insulated enclosure • UL listed Smart Grid-Ready • Complies with advanced grid support, voltage and frequency ride-through requirements • Remotely updates and responds to changing grid-requirements • Configurable for varying grid profiles • Meets CA Rule 21 (UL1741-SA) and IEEE 1547:2018 (UL1741-SB) To learn more about Enphase offerings, visit enphase.com © 2022 Enphase Energy. All rights reserved. All trademarks or brands used are the property of Enphase Energy, Inc. 12-15-2022 INPUT DATA (DC)IQ7HS-66-M-US Commonly used module pairings¹320W - 460W Module compatibility²66 cell/120 half-cell/132 half-cell Maximum input DC voltage 59V Peak power tracking voltage 38V - 43V Operating range 20V - 59V Min/Max start voltage 30V/59V Max DC short circuit current (module Isc)15A Overvoltage class DC port II DC port backfeed current 0A PV array configuration 1 x 1 ungrounded array; No additional DC side protection required; AC side protection requires max 20A per branch circuit OUTPUT DATA (AC)@240 VAC @208 VAC Peak output power 384 VA 369 VA Maximum continuous output power 384 VA 369 VA Nominal (L-L) voltage/range³240V/211-264V 208V/183-229V Maximum continuous output current 1.60A (240V) 1.77A (208V) Nominal frequency 60 Hz 60 Hz Extended frequency range 47 Hz to 68 Hz 47 Hz to 68 Hz AC short circuit fault current over 3 cycles 4.82A 4.82 A Maximum units per 20 A (L-L) branch circuit4 10 9 Overvoltage class AC port III III AC port backfeed current 18 mA 18 mA Power factor setting 1.0 1.0 Power factor (adjustable)0.85 leading ...0.85 lagging 0.85 leading ...0.85 lagging EFFICIENCY @240V @208V CEC weighted efficiency 97.0 % 96.5 % MECHANICAL DATA Ambient temperature range Relative humidity range Connector type Dimensions (WxHxD) Weight Cooling Approved for wet locations Pollution degree Enclosure Environmental category/UV exposure rating Altitude -40ºC to +60ºC 4% to 100% (condensing) Staubli made MC4 212 mm x 175 mm x 30.2 mm (without bracket) 1.08 kg (2.38 lbs) Natural convection - No fans Yes PD3 Class II, corrosion resistant polymeric enclosure NEMA type 6/outdoor 2000 m FEATURES Communication Power Line Communication (PLC) Disconnecting means The AC and DC connectors have been evaluated and approved by UL for use as the load-break disconnect means required by NEC 690 and C22.1-2018 Rule 64-220. Compliance CA Rule 21 (UL1741-SA), IEEE 1547:2018 (UL1741-SB), UL 62109-1, FCC Part 15 Class B, HECO v1.1, ICES-0003 Class B, CAN/CSA-C22.2 NO. 107.1-01 This product is UL listed as PV Rapid Shutdown Equipment and conforms with NEC 2014, NEC 2017, and NEC 2020 section 690.12 and C22.1-2018 Rule 64-218 Rapid Shutdown of PV Systems, for AC and DC conductors, when installed according to manufacturer’s instructions. 1. No enforced DC/AC ratio. See the compatibility calculator at https://enphase.com/en-us/support/module-compatibility. 2. Provided the module is compatible with all other parameters in the datasheet. 3. Nominal voltage range can be extended beyond nominal if required by the utility. 4. Limits may vary. Refer to local requirements to define the number of microinverters per branch in your area. IQ7HS Microinverter Customer Name: 1. a. 1,787 sq.ft. x 3 VA =5,361 VA b.Small appliance loads; 1,500 VA x 2 circuits =3,000 VA c.1,500 VA d. =1,440 VA =1,224 VA =0 VA =1,300 VA =3,840 VA =0 VA =1,440 VA =0 VA =1,440 VA =0 VA =0 VA =1,800 VA (Subtotal)22,345 VA First 10,000VA x 100% =10,000 VA Remaining 12,345 VA x 40%4,938 VA 14,938 VA 2. Heating units (3 or less) =VA x 65%0 VA Heating units (4 or more) =VA x 40%VA 4,751 VA x 100%4,751 VA 4,751 VA 19,689 VA SERVICE: SERVICE:I = 19,689 VA =82.0 A 240 V Service amperes required 82.0 A Service amperes provided 225 A 12/11/2023 CR SLD 12.11.23 HEATING OR A/C LOAD: Disposals Water heater ( if Gas =0) Oven- 220.55 (Total #1 = Net Load) Bill Rice, 42764 Adalin Way, Palm Desert, CA, 92211 Special loads: Dishwashers OTHER LOADS: Laundry = (Total #2 = Net Load) Net Load (Total #1 + Total #2 = Subtotal Net Load) A/C unit # 05863 = Spa tub Pool Garage & outside plugs Clothes Dryer General lighting & receptacle loads; Car charger - future Refrigerator Cook Top Microwave SINGLE-FAMILY DWELLING - LOAD CALCULATION NEC 2020 Edition: Following Example Annex D2(b) I = 𝑉𝑉𝑉𝑉𝑉𝑉 February 10, 2023 SunPower 77 Rio Robles San Jose, CA 95134 TEL: (408) 514-4063 Attn: Sunpower – Engineering Department Re: Engineering Certification for the SunPower Corporation Universal Invisimount Mounting System Span Tables and Design Methodology PZSE, Inc.-Structural Engineers has reviewed the SunPower Universal Invisimount Mounting System Span Tables Revision F published September 21, 2021 and Revision G published August 25, 2022, and their design methodology. This certification covers the module clamp, rail analysis, and attachment Tile hook/L bracket components. All information, data, and analysis contained within are based on, and comply with, the following building codes and typical specifications: Building Codes: 1. Minimum Design Loads for Buildings and other Structures, ASCE 7-16 2. 2022 California Building Code, by California Building Standard Commision 3. 2022 California Residential Code, by California Building Standard Commision 4. 2021 International Building Code, by International Code Council, Inc. 5. 2015 Aluminum Design Manual, by The Aluminum Association 6. CPP Wind Tunnel report number 9790, dated February 16 2017. 7. SEAOC PV-2, 2017 8. 2018 NDS, by the American Wood Council 9. UL 2703 Testing report for PV solar panels. 10. AC428, Acceptance Criteria for Modular Framing Systems Used to Support Photovoltaic (PV) Panels, November 1, 2012 by ICC-ES Component and Cladding Roof Zones: The Components and Cladding Roof Zones shall be determined based on ASCE 7 Chapter 30, and CPP Wind Tunnel test number 9790, dated February 16 2017. Notes: 1) Racking system and panels shall be installed per manufacturer’s specifications. 2) Design assumptions are specified in the Inputs pages of attached span tables. 3) Attachment design is based on 5/16” Dia. Lag Screw with 2.5” Embedment into SPF#2 or equivalent per NDS. Designer shall be responsible for verifying project specific site conditions. 4) Wind speeds are LRFD values. 5) Attachment spacing(s) apply to seismic design category E or less. Page 1 of 2 Design Responsibility: These tables are intended to be used under the responsible charge of a registered design professional where required by the authority having jurisdiction. In all cases, these tables should be used under the direction of a design professional with sufficient structural engineering knowledge and experience to be able to: • Evaluate whether these tables are applicable to the project, and • Understand and determine the appropriate values for all input parameters of these tables. This letter certifies that the loading criteria and design basis for SunPower Universal Invisimount Mounting System Span Tables are in compliance with the Codes above. This certification excludes the capacity check of the building structure to support the loads imposed on the building by the array, such as bending strength of roof rafters spanning between supports. This requires additional knowledge of the building and is outside the scope of the design tool and our review. If you have any questions on the above, do not hesitate to call. Prepared By: PZSE, Inc. - Structural Engineers Roseville, CA Page 2 of 2 R E E N I IGER LARUTCURTS AINROFILACFOETAT S G N E LANOISSEFORPDERETSE H C A Z HTENEKL N AP Exp. 3-31-25 No. S3878 R U DIGITALLY SIGNED 'HVLJQ1DPH 1DPH 6XUQDPH2ZHQ .HQQHWK .HQQHWK0LFKDHO 7RUFKOLJKW/DQH3DOP6SULQJV&DOLIRUQLD8QLWHG6WDWHV)XOO$GGUHVV 7RWDO1XPEHURI3DQHOV 7RWDO1XPEHU2I$WWDFKPHQWV 7RWDO1XPEHURI5DLOV 7RWDO1XPEHURI6SOLFHV 7RWDO1XPEHURI0LG&ODPSV 7RWDO1XPEHURI(QG&ODPSV 7RWDO1XPEHURI:LUH&OLSV 7RWDO1XPEHURI5DLO*URXQGLQJ.LWV 5RRI 5RRI6ORSH *URXQG6QRZ/RDGpg IW $WWDFKPHQW7\SH 7RSRJUDSKLF)DFWRUKzt 4XLFN+RRN.LW´EDVHFXUYHGDQGIODWWLOH4XLFN0RXQW 40+66 3DQHO2ULHQWDWLRQ PSK & 5DIWHU6SDFLQJ 3DQHO0RGHO 8VHULQSXW 5DLO'LUHFWLRQ 3DUDOOHOWRULGJH IW J 0HDQ5RRI+HLJKWh %XLOGLQJ/HDVW+RUL]RQWDO'LPHQVLRQwidthbldg 3RUWUDLW %DVLF:LQG6SHHGV FHOO LQ SVI 6HLVPLF3DUDPHWHUSs :LQG([SRVXUH&DWHJRU\ GHJUHHV 5RRI*URXS,' 3DJHRI 5DLOWULEXWDU\ZLGWK )ODWURRIVQRZORDG :LQGYHORFLW\SUHVVXUH 'HDG/RDG 6ORSHG5RRI6QRZ/RDG /RDG&DOFXODWLRQ3DUDPHWHUV 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Installation • Integrated module-to-rail grounding • Pre-assembled mid and end clamps • Levitating mid clamp for easy placement • Mid clamp width facilitates even module spacing • Simple, pre-drilled rail splice • UL 2703 Listed integrated grounding Flexible Design • Addresses nearly all sloped residential roofs • Design in landscape and portrait • Rails enable easy obstacle management Customer-Preferred Aesthetics • #1 module and #1 mounting aesthetics • Best-in-class system aesthetics ȏ 3UHPLXPORZSURȴOHGHVLJQ • Black anodized components • Hidden mid clamps and end clamps KDUGZDUHDQGFDSSHGȵXVKUDLOV Part of Superior System • Built for use with SunPower DC and AC modules • Best-in-class system reliability and aesthetics • Combine with SunPower modules and monitoring app sunpower.com Elegant Simplicity SunPower® InvisiMount™ is a SunPower-designed rail-based mounting system. The InvisiMount system addresses residential sloped roofs and combines faster LQVWDOODWLRQWLPHGHVLJQȵH[LELOLW\DQGVXSHULRUDHVWKHWLFV 7KHΖQYLVL0RXQWSURGXFWZDVVSHFLȴFDOO\HQYLVLRQHGDQG engineered to pair with SunPower modules. The resulting system-level approach will amplify the aesthetic and LQVWDOODWLRQEHQHȴWVIRUERWKKRPHRZQHUVDQGLQVWDOOHUV SunPower® InvisiMount™ | Residential Mounting System InvisiMount Component Details Component Material Weight Mid Clamp Black oxide stainless steel AISI 304 63 g (2.2 oz) End Clamp Black anodized aluminum alloy 6063-T6 110 g (3.88 oz) Rail Black anodized aluminum alloy 6005-T6 830 g/m (9 oz/ft) Rail Splice Aluminum alloy 6005-T5 830 g/m (9 oz/ft) Ground Lug Assembly 304 stainless (A2-70 bolt; tin-plated copper lug)106.5 g/m (3.75 oz) End Cap Black acetal (POM) copolymer 10.4 g (0.37 oz) Roof Attachment Hardware Supported by InvisiMount System Design Tool Application • Composition Shingle Rafter Attachment • Composition Shingle Roof Decking Attachment • Curved and Flat Tile Roof Attachment • Universal Interface for Other Roof Attachments InvisiMount Operating Conditions Temperature ȫr&WRr&ȫr)WRr) Max. Load 2400 Pa uplift 5400 Pa downforce Roof Attachment Hardware Warranties Refer to roof attachment hardware manufacturer’s documentation ΖQYLVL0RXQW:DUUDQWLHV$QG&HUWLȴFDWLRQV Warranties 25-year product warranty \HDUȴQLVKZDUUDQW\ &HUWLȴFDWLRQV UL 2703 Listed &ODVV$ȴUHUDWLQJZKHQGLVWDQFHEHWZHHQ roof surface and bottom of SunPower PRGXOHIUDPHLVȱȋ *Module frame that is compatible with the InvisiMount system required for hardware interoperability. © 2015 SunPower Corporation. All Rights Reserved. SUNPOWER, the SUNPOWER logo, and INVISIMOUNT are trademarks or registered trademarks of SunPower Corporation. All other trademarks are the property of their respective owners. 6SHFLȴFDWLRQVLQFOXGHGLQWKLVGDWDVKHHWDUHVXEMHFWWRFKDQJHZLWKRXWQRWLFH InvisiMount Component Images Module* / Mid Clamp and Rail Mid Clamp End Clamp Rail & Rail Splice Ground Lug Assembly End Cap Module* / End Clamp and Rail sunpower.com Document #509506 Rev B TILE REPLACE FOR RAILED RESIDENTIAL FLAT, S AND W TILE ROOFS • Eliminates cutting of roof tiles • Replaces Flat, S, or W shaped tiles • Universal on battened or batten-less roofs • Provides spare tiles to replace broken tiles • 1” tall cone with Watertight boot provides superior waterproofing Use with any standard L-feet for traditional rail mounting systems. Sleds and lag screws are supplied in packages of 6. Tile Replace flashings come in Flat, S, and W shapes, and are supplied with Posts and EPDM Boots in packages of 6. Pegasus Solar’s LightSpeed Tile Replace system for rails significantly reduces installation times by eliminating the need to cut roof tiles. Also, the replaced roof tiles can be used as spares to replace cracked tiles. The top flashing is shaped to seamlessly replace Flat, S, or W tiles, and maintain the waterproof integrity of the roof. LightSpeed Tile Replace system for rails Flat tile installedS tile installed W tile installed Pegasus Solar Inc. 100 West Ohio Ave Richmond, CA 94804 408.638.9655 www.pegasussolar.com TILE REPLACE FOR RAILED RESIDENTIAL FLAT, S AND W TILE ROOFS Pegasus Solar Inc. 100 West Ohio Ave Richmond, CA 94804 408.638.9655 www.pegasussolar.com Patents Pending. All rights reserved. © 2016 Pegasus Solar Inc. Sled installed Mounting Post installation Roof tile re-installed over Sled Tile Replace Flashing installation L-Foot installed Specifications Tile Replace for Rails Flashing Construction One-piece Formed Metal in Flat, S, W Shapes Tile Compatibility Fits most Flat, S, and W-shaped Roof Tiles Rail Compatibility Most Standard L-Feet Batten / Batten-less Adjustment Fully Adjustable without Additional Hardware Waterproofing 1" Elevated Cone with EPDM Boot East / West Adjustment +/- 7", 14" Total North / South Adjustment +/- 1/2" After Lags Installed Post Installation Before or After Flashing Installation, Simple Twist-Lock Post Construction Aluminum w/ Pre-Installed SS T-bolt Flashing Finish Dark Bronze Sled Installation Hardware (2) 5/16"x4-1/2" SS Lag Screws Testing and Certifications UL STD 2703, ASCE 7-05 & 7-10 Weight 6.3lbs / 2900gr 1 4 2 3 5 $&&$FPH&DEOH&OLSV &RQWDFWXVDWZZZZHOOFFRP 0DGHZLWKFRUURVLRQUHVLVWDQWVHULHVVWDLQOHVVVWHHO 'XDOZLUHFRPSDUWPHQWV 6SHFLDOWDEIRUHDV\LQVWDOODWLRQDQGUHPRYDOZLWKÀDWKHDGVFUHZGULYHU 'HVLJQHGWRSUHYHQWGDPDJHWRFDEOHLQVXODWLRQ 6L]HGIRU86(FDEOHPPRU39FDEOHPP $&& +ROGVWR86(ZLUHV RU39ZLUH $&&39 +ROGVWR39ZLUHV $&0(&DEOH&OLSVVLPSOLI\ZLUHPDQDJHPHQWDQGFUHDWHDFOHDQHUDHVWKHWLFWRVRODU39DUUD\V7KH FOLSVDUHPDGHRIFRUURVLRQUHVLVWDQWVWDLQOHVVVWHHODQGDUHGHVLJQHGWRSUHYHQWGDPDJHWRFDEOHLQVX ODWLRQ7KHHDV\WRLQVWDOODQGUHPRYHGHVLJQRQO\UHTXLUHVDÀDWKHDGVFUHZGULYHUDQGFDQEHUHXVHG XQOLNH]LSWLHV7KHXQLYHUVDOGHVLJQ¿WVPRVWPRGXOHVDQGFDQKROGRQHRUWZRZLUHV 0DGHRIFRUURVLRQUHVLVWDQWWLQSODWHFRSSHU 'HVLJQHQVXUHVIRUHDV\LQVWDOODWLRQ $YDLODEOH :LWK:((% ®ZDVKHUWHFKQRORJ\ $VVHPEOHGDQGXQDVVHPEOHG :LWKRUZLWKRXWLQVWDOODWLRQKDUGZDUH /RZSUR¿OHGHVLJQ 1RVXUIDFHSUHSHUDWLRQRQUDLORUPRGXOHUHTXLUHG 5HOLDELOLW\WKURXJKRXWWKHOLIHWLPHRIWKH39V\VWHP 0XOWLSOHHTXLSPHQWJURXQGFRQGXFWRUDOORZDQFH 2QH$:*WR$:*RUWZR$:*WZR$:* /LVWHGWR$16,8/E\,QWHUWHN(7/ &6$&HUWL¿HGWR&1R &XVWRPGHVLJQVDYDLODEOHXSRQUHTXHVW :((%®/8* 7KH:((%®/XJFRQVLVWVRID:((%®ZDVKHUOD\LQOXJDQGKDUGZDUH,WLVXVHGZLWKRQHVROLGRUVWUDQGHG FRSSHUZLUH$:*WR$:*RUWZRFRSSHUZLUHV$:*WR$:*WRSURYLGHDFRQWLQXRXVJURXQGRQURRI RUJURXQGPRXQWHGVRODUV\VWHPV8QOLNHWUDGLWLRQDOOD\LQOXJVWKH:((%®/XJGRHVQRWUHTXLUHVXUIDFH SUHSDUDWLRQRQUDLORUPRGXOHWRLQVWDOO7KH:((%®/XJLVLQVWDOOHGXVLQJVWDLQOHVVVWHHOPRXQWLQJKDUGZDUH :KHQWKHKDUGZDUHLVWLJKWHQHGWKH:((%®ZDVKHUV¶VSHFLDOL]HGWHHWKHPEHGLQWRDQRGL]HGDOXPLQXPJDOYDQL]HG VWHHORUDQ\HOHFWULFDOO\FRQGXFWLYHPHWDOWRHVWDEOLVKDJDVWLJKWHOHFWULFDOFRQQHFWLRQ7KHWLQSODWHG/XJDVVXUHV PLQLPXPFRQWDFWUHVLVWDQFHDQGSURWHFWLRQDJDLQVWFRUURVLRQ&RSSHUZLUHLVFODPSHGE\DVWDLQOHVVVWHHO VFUHZZKLFKLVKRUL]RQWDOWRWKHWDQJIRUHDV\DFFHVVZKHQPRXQWHGXQGHUD39PRGXOH7KHORZSUR¿OHRIWKH :((%®/XJDOORZVLWWREHLQVWDOOHGLQDYDULHW\RISRVLWLRQV Catalog Item # L x W x H Hole Hardware Torque :((%/8* ´[´[´ ´ LQFKKDUGZDUH LQFOXGHGXQDVVHPEOHG IWOEVIRU WHUPLQDOVFUHZ IWOEVIRU PRXQWLQJ KDUGZDUH Z3HQHWUR[$ RQWKUHDGV :((%/8*$6 ´[´[´ LQFKKDUGZDUH LQFOXGHGDVVHPEOHG :((%/8* ´[´[´ ´ 0RULQFKKDUGZDUH QRWLQFOXGHG :((%/8*$6 ´[´[´ LQFKKDUGZDUH LQFOXGHGDVVHPEOHG :((%/8*81 ´[´[´ LQFKKDUGZDUH LQFOXGHGXQDVVHPEOHG :((%/8* ´[´[´ 0RULQFKKDUGZDUH QRWLQFOXGHG &XVWRPHU6HUYLFH'HSDUWPHQW $YLDWLRQ3DUN'ULYH /RQGRQGHUU\1+ ,QWHUQDWLRQDO ZZZEXUQG\FRP 0DWHULDOWLQSODWHGFRSSHU 2XWGRRUUDWHG /RZSUR¿OHGHVLJQ 0XOWLSOHHTXLSPHQWJURXQGFRQGXFWRUDOORZDQFH 2QH$:*WR$:*RUWZR$:*WZR$:* /LVWHGWR$16,8/E\,QWHUWHN(7/ :,/(<*5281',1*/8* 7KH:,/(<*URXQGLQJ/XJFRQVLVWVRIDOD\LQOXJDQGWHUPLQDOVFUHZ,WLVXVHGZLWKRQHVROLGRUVWUDQGHG FRSSHUZLUH$:*WR$:*RUWZRFRSSHUZLUHV$:*WR$:*WRFUHDWHDQHOHFWULFDOFRQQHFWLRQ EHWZHHQWZRSLHFHVRIQRQDQRGL]HGDOXPLQXPJDOYDQL]HGVWHHORUDQ\HOHFWULFDOO\FRQGXFWLYHPHWDO7KHWLQ SODWHG:,/(<*URXQGLQJ/XJDVVXUHVPLQLPXPFRQWDFWUHVLVWDQFHDQGSURWHFWLRQDJDLQVWFRUURVLRQ&RSSHUZLUH LVFODPSHGE\DVWDLQOHVVVWHHOVFUHZZKLFKLVKRUL]RQWDOWRWKHWDQJIRUHDV\DFFHVVZKHQPRXQWHGXQGHU D39PRGXOH7KHORZSUR¿OHRIWKH:,/(<*URXQGLQJ/XJDOORZVLWWREHLQVWDOOHGLQDYDULHW\RISRVLWLRQV Catalog Item # L x W x H Hole Hardware Torque :,/(</8* ´[´[´´7HUPLQDOVFUHZLQFOXGHG :((%70QRWLQFOXGHG IWOEVIRU WHUPLQDOVFUHZ IWOEVIRU PRXQWLQJ KDUGZDUH Z3HQHWUR[$ RQWKUHDGV :,/(</8* ´[´[´ ´ 7HUPLQDOVFUHZLQFOXGHG :((%70QRWLQFOXGHG :,/(</8* ´[´[´ 7HUPLQDOVFUHZLQFOXGHG :((%70QRWLQFOXGHG :,/(</8* ´[´[´ 7HUPLQDOVFUHZLQFOXGHG :((%70QRWLQFOXGHG &XVWRPHU6HUYLFH'HSDUWPHQW $YLDWLRQ3DUN'ULYH /RQGRQGHUU\1+ ,QWHUQDWLRQDO ZZZEXUQG\FRP S 2XWGRRU UDWHG Volume 1—Residential and Light Commercial CA08100002E—January 2013 www.eaton.com V1-T1-47 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1.2Loadcenters and Circuit Breakers Type BR Loadcenters and Circuit Breakers Single-Phase—Main Lug Loadcenters Single-Phase Three-Wire—120/240 Vac—Insulated/Bondable Split Neutral Notes 1 Ground bar kits priced separately. See Page V1-T1-60. – For 2/4 circuit loadcenters, use GBK5 or GBK520 ground bar. – For 4/8, 6/12 and 8/16 circuit loadcenters, use GBK10 ground bar. – Ground bars mount to the left side wall of the enclosure for the 4/8, 6/12 and 8/16 circuit loadcenters. 2 Suitable for use as service equipment when not more than two service disconnecting mains are provided or when not used as a lighting and appliance panelboard (see Article 408.34 of the NEC). 3 Ground bar GBK5 is installed. 4 Rainproof panels are furnished with hub closure plates. For rainproof hubs, refer to Page V1-T1-60. 5 CSA and UL approved. 6 Neutral/ground holes (6) #14–6 and (3) #14–2/0 AWG Cu/Al. 7 For use as service entrance applications only. 8 Neutral/ground holes (6) #14–6 and (3) #14–1/0 AWG Cu/Al. 9 Suitable for use as service equipment when not more than two service disconnecting mains are provided or when not more than six service disconnecting mains are provided and when not used as a lighting and appliance panelboard (see Article 408.34 of the NEC). j Suitable for use as service equipment when a main breaker is used or when not more than six service disconnecting mains are provided and when not used as a lighting and appliance panelboard (see Article 408.34 of the NEC). k Ground bar GBK10 is installed. l Ground bar GBK14 is installed. Box sizes Pages V1-T1-61 through V1-T1-64. Main Ampere Rating Maximum Number 1-Inch (25.4 mm)Enclosure Type Trim Type Box Size Wire Size Range Cu/Al 60°C or 75°C for Main Lugs Loadcenter Catalog NumberSpaces Circuits 70 2 4 Indoor Surface (no door) 5 #8–#2 BR24L70SP 12 2 4 Indoor Surface (no door) 5 BR24L70SGP 23 2 4 Outdoor —5R BR24L70RP 124 2 4 Indoor Flush (no door) 5 BR24L70FP 12 2 4 Indoor Flush (no door) 5 BR24L70FGP 25 125 2 4 Indoor Surface (no door) 6 #14–1/0 BR24L125SP 12 2 4 Outdoor —6R BR24L125RP 124 2 4 Outdoor —6R BR24L125RSEP 278 2 4 Outdoor —6R BR24L125RSE2P 267 2 4 Indoor Flush (no door) 6 BR24L125FP 12 4 8 Indoor Surface (no door) 7 #14–1/0 BR48L125SP 19 4 8 Indoor Surface (no door) 7 BR48L125SGP 39 4 8 Outdoor —7R BR48L125RP 149 4 8 Indoor Flush (no door) 7 BR48L125FP 19 4 8 Indoor Flush (with door) 7 BR48L125FDP 19 4 8 Indoor Flush (no door) 7 BR48L125FGP 39 6 12 Indoor Surface (no door) 7 #14–#1 BR612L125SP 1j 6 12 Indoor Surface (no door) 7 BR612L125SGP jk 6 12 Indoor Surface (with door) 7 BR612L125SDP 1j 6 12 Indoor Surface (with door) 7 BR612L125SDGP jk 6 12 Outdoor —7R BR612L125RP 14j 6 12 Indoor Flush (no door) 7 BR612L125FP 1j 6 12 Indoor Flush (no door) 7 BR612L125FGP 5jk 6 12 Indoor Flush (with door) 7 BR612L125FDP j 6 12 Indoor Flush (with door) 7 BR612L125FDGP 5jk 8 16 Indoor Surface (no door) 7 #14–#1 BR816L125SP 1j 8 16 Indoor Surface (no door) 7 BR816L125SGP jl 8 16 Indoor Surface (with door) 7 BR816L125SDP 1j 8 16 Indoor Surface (with door) 7 BR816L125SDGP jl 8 16 Outdoor —7R BR816L125RP 14j 8 16 Indoor Flush (no door) 7 BR816L125FP 1j 8 16 Indoor Flush (no door) 7 BR816L125FGP 5jl 8 16 Indoor Flush (with door) 7 BR816L125FDP 1j 8 16 Indoor Flush (with door) 7 BR816L125FDGP 5jl Surface Outdoor Flush Outdoor Surface (No Door) Flush (No Door) Outdoor V1-T1-66 Volume 1—Residential and Light Commercial CA08100002E—December 2014 www.eaton.com 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1.2 Loadcenters and Circuit Breakers Type BR Loadcenters and Circuit Breakers Dimensions Approximate Dimensions in Inches (mm) Residential/Commercial/New York City Loadcenters, Unit Enclosures—Box Sizes Note: Box sizes do not include covers/fronts. Residential Loadcenters—NEMA Type 1 Indoor Residential Loadcenters—NEMA Type 3R Outdoor Commercial Loadcenters—NEMA Type 1 Indoor Commercial Loadcenters—NEMA Type 3R Outdoor New York City Loadcenters—NEMA Type 1 Indoor Types ECB and ECC Unit Enclosures—NEMA Type 1 Indoor Types ECB and ECC Unit Enclosures—NEMA Type 3R Outdoor Box Size Height Width Depth A1 15.00 (381.0) 11.25 (285.8) 3.75 (95.3) B1 16.75 (425.5) 14.31 (363.5) 3.88 (98.4) B2 18.75 (476.3) 14.31 (363.5) 3.88 (98.4) C1 21.00 (533.4) 14.31 (363.5) 3.88 (98.4) C2 23.00 (584.2) 14.31 (363.5) 3.88 (98.4) C4 27.00 (685.8) 14.31 (363.5) 3.88 (98.4) D1 29.13 (739.8) 14.31 (363.5) 3.88 (98.4) G1 34.13 (866.8) 14.31 (363.5) 3.88 (98.4) L1 39.00 (990.6) 14.31 (363.5) 3.88 (98.4) L2 45.00 (1143.0) 14.31 (363.5) 3.88 (98.4) L3 48.38 (1228.3) 14.31 (363.5) 3.88 (98.4) 2 8.63 (219.1) 5.00 (127.0) 3.50 (88.9) 3 9.44 (239.7) 4.50 (114.3) 3.00 (76.2) 4 13.00 (330.2) 11.00 (279.4) 3.56 (90.5) 5 9.44 (239.7) 4.50 (114.3) 3.00 (76.2) 6 12.00 (304.8) 6.88 (174.6) 4.50 (114.3) 7 13.00 (330.2) 11.00 (279.4) 3.56 (90.5) 9 14.50 (368.3) 6.50 (165.1) 3.50 (88.9) Box Size Height Width Depth B1R 16.75 (425.5) 14.31 (363.5) 5.19 (131.8) B2R 18.75 (476.3) 14.31 (363.5) 5.19 (131.8) C3R 25.00 (635.0) 14.31 (363.5) 5.19 (131.8) D1R 29.13 (739.8) 14.31 (363.5) 5.19 (131.8) G1R 34.13 (866.8) 14.31 (363.5) 5.19 (131.8) L1R 39.00 (990.6) 14.31 (363.5) 5.19 (131.8) L2R 45.00 (1143.0) 14.31 (363.5) 5.19 (131.8) L3R 48.75 (1238.2) 14.31 (363.5) 5.19 (131.8) 2R 8.63 (219.1) 5.00 (127.0) 3.50 (88.9) 3R 9.44 (239.7) 4.50 (114.3) 3.00 (76.2) 4R 13.00 (330.2) 11.00 (279.4) 3.56 (90.5) 5R 9.44 (239.7) 4.50 (114.3) 3.00 (76.2) 6R 11.75 (298.5) 6.50 (165.1) 4.50 (114.3) 7R 13.00 (330.2) 11.00 (279.4) 3.56 (90.5) 8R 27.00 (685.8) 10.50 (266.7) 4.75 (120.7) 9R 14.25 (362.0) 6.50 (165.1) 4.00 (101.6) C1R 21.00 (533.4) 14.31 (363.5) 5.19 (131.8) Box Size Height Width Depth 19 44.00 (1117.6) 16.16 (410.4) 6.25 (158.8) 20 44.00 (1117.6) 16.16 (410.4) 6.25 (158.8) 22 54.00 (1371.6) 16.22 (412.0) 6.31 (160.3) 24 66.50 (1689.1) 16.22 (412.0) 6.31 (160.3) Box Size Height Width Depth 42 38.00 (965.2) 16.31 (414.3) 6.38 (161.9) 43 44.00 (1117.6) 16.31 (414.3) 6.38 (161.9) 46 54.00 (1371.6) 16.31 (414.3) 6.38 (161.9) 47 66.56 (1690.7) 16.31 (414.3) 6.38 (161.9) Box Size Height Width Depth A 38.00 (965.2) 18.13 (460.4) 5.00 (127.0) B 44.00 (1117.6) 18.13 (460.4) 5.00 (127.0) C 66.50 (1689.1) 18.13 (460.4) 6.25 (158.8) Height Width Depth 23.25 (590.6) 8.88 (225.4)4.50 (114.3) Height Width Depth 23.68 (601.7)9.31 (236.5)5.44 (138.1) Updated June 2021 This information bulletin is published to guide applicants through a streamlined permitting process for roof-top solar photovoltaic (PV) projects 30kW in size or smaller. This bulletin provides information about submittal requirements for plan review, required fees, inspections, and an eligibility checklist. 1. Submittal Requirements − Completed permit application form. This permit application form can be downloaded at: https://www.cityofpalmdesert.org/our-city/departments/palm-desert-permit-center/building-safety-permits − Demonstrate compliance with the eligibility checklist for expedited permitting. The criteria is attached to this informational bulletin or can be downloaded at: https://www.cityofpalmdesert.org/our-city/departments/palm-desert-permit-center/building-safety-permits/solar- information − Provide a standardized or simplified photovoltaic plan that demonstrates:  Title or Cover Sheet noting the 2019 California Electrical Code.  Site and Roof Plan showing roof layout, PV panels and the following fire safety items: Approximate location of roof access point, location of code-compliant access pathways, and the locations of all required labels and markings.  A simplified Electrical Plan: 1. Locations of main service or utility disconnect 2. Total number of modules, number of modules per string and the total number of strings 3. Make and model of inverter(s) and/or combiner box if used 4. Single-line diagram of system 5. Specify grounding/bonding, conductor type and size, conduit type and size and number of conductors in each section of conduit − Provide a simplified structural design: Provide structural drawings and calculations stamped and signed by a California-licensed architect, civil or structural engineer, electrical engineer or licensed contractor along with the following information. 1. The type of roof covering and the number of roof coverings installed 2. Type of roof framing, size of members and spacing 3. Weight of panels, support locations and method of attachment 4. Framing plan and details for any work necessary to strengthen the existing roof structure 5. Site-specific structural calculations 6. Where an approved racking system is used, provide documentation showing manufacturer of the rack system, maximum allowable weight the system can support, attachment method to the roof or ground and product evaluation information or structural design for the rack system PALM DESERT PERMIT CENTER Expedited Solar Photovoltaic Permitting for One-and Two-Family Dwellings Updated June 2021 These criteria are intended for expedited solar permitting process. If any items are UNCHECKED, revise design to fit within Eligibility Checklist, otherwise permit application must go through standard process which is (10 Business Day initial review/7 Business Day Follow-up Review) 1. General Requirements ☐ The photovoltaic system size is 30kW AC CEC rating or less. ☐ The solar array is roof-mounted on a one- or two-family dwelling unit or permitted accessory structure. ☐ The photovoltaic system is utility interactive. ☐ Permit application and declaration is completed and attached. 2. Planning Department Requirements ☐ Existing MPU Amps Doubling, e.g. 100 to 200 OR 125 to 225. PLANNING WILL NEED TO REVIEW. ☐ Maximum height of “tilted” panels shall not exceed eighteen (18) inches. ☐ All wires shall be strapped to the modules/racking system. No loose or hanging wires are permitted. ☐ The racking system shall match the module frame and shall be a color compatible with the architectural character of the home or building. ☐ Modules shall be flush with one another and gaps between panels shall be minimized. ☐ Screening of panels is not required. Any screening material proposed shall be compatible with the architectural character of the home of building. 3. Electrical Requirements ☐ No more than four photovoltaic module strings are connected to each Maximum Power Point Tracking (MPPT) input where source circuit fusing is included in the inverter: 1) No more than two strings per MPPT input where source circuit fusing is not included 2) Fuses (if needed) are rated to the series fuse rating of the PV module 3) No more than one non-inverter-integrated DC combiner is utilized per inverter ☐ For central inverter systems: No more than two inverters are utilized. ☐ The PV system is connected to the load side of the utility distribution equipment. ☐ A Solar PV Standard Plan and supporting documentation is completed and attached. 4. Structural Requirements ☐ A completed Structural Criteria and supporting documentation is attached Wind and Seismic (if required). 5. Fire Safety Requirements ☐ Clear access pathways provided. ☐ Fire classification photovoltaic system is provided. ☐ All required marking and labels are provided. ☐ A diagram of the roof layout of electrical panels, modules, clear access pathways and approximate locations of electrical disconnecting means and roof access points are completed and attached. I understand and affirm that the above information regarding the solar photovoltaic is true and accurate. If during the inspection process any deviation in this scope will result in stop work and full plan review. In the event a project requires supplemental plan reviews, a plan review fee of $168.00 per hour (with one-half hour minimum) will be collected from the applicant. Applicant Signature: _____________________________________Date:_______________ Project Address: ________________________________________________________ Eligibility Checklist Expedited Solar Photovoltaic Permitting for One- and Two-family Dwellings 42764 Adalin Way Palm Desert CA 92211 12/12/2023