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901 E Grovemont St- 101118284 & 20182123 - Plan
0 REVISIONS DOC ID: PROJECT SUMMARY GR I D - T I E D S O L A R P O W E R S Y S T E M SSPR-013 90 1 G R O V E M O N T S T R E E T , DATE: 01/22/24 CONTRACTOR: PAUL NAKHLE COMPANY: SOLECTRIC SOLUTION SA N T A A N A , C A 9 2 7 0 6 AP P E N D I X DIRECTORY PAGE 0 PROJECT SUMMARY 01-PV-0.0 SITE PLAN AND FIRE SETBACKS 05-E-1.0 SINGLE-LINE DIAGRAM 01-PV-1.0 SAFETY LABELS 02-S-1.0 ATTACHMENT PLAN 02-S-1.1 ATTACHMENT DETAILS MODULE DATASHEET MICROINVERTER DATASHEET DISCONNECT DATASHEET COMBINER DATASHEET MOUNTING SYSTEM DATASHEET MOUNTING SYSTEM ENGINEERING LETTER UL 1703 CLASS A FIRE CERTIFICATION UL 2703 GROUND AND BONDING CERTIFICATION ANCHOR DATASHEET PROJECT DETAILS PROPERTY ADDRESS 901 GROVEMONT STREET, SANTA ANA, CA 92706 ZONING RESIDENTIAL USE AND OCCUPANCY CLASSIFICATION ONE OR TWO-FAMILY DWELLING GROUP (GROUP R3) UTILITY COMPANY SOUTHERN CALIFORNIA EDISON CO. ELECTRIC CODE 2022 CEC FIRE CODE 2022 CFC OTHER BUILDING CODES 2022 CA BUILDING CODE 2022 CA RES. BUILDING CODE 2022 CA PLUMBING CODE 2022 CA MECHANICAL CODE 2022 CA ENERGY CODE CONTRACTOR INFORMATION COMPANY SOLECTRIC SOLUTION ADDRESS 6083 ANDREWS CT, FONTANA, CA 92336 CONTRACTOR SIGNATURE CONTRACTOR LICENSE C10 1006294 SCOPE OF WORK THIS PROJECT INVOLVES THE INSTALLATION OF A PHOTOVOLTAIC POWER SYSTEM. SOLAR PANELS WILL BE RACKED USING A PREENGINEERED RACKING SYSTEM. THE RACKED MODULES WILL BE ELECRTICALLY CONNECTED WITH DC TO AC POWER INVERTERS AND INTERCONNECTED TO THE LOCAL UTILITY USING MEANS AND METHODS CONSISTENT WITH THE RULES ENFORCED BY THE LOCAL UTILITY AND PERMITTING JURISDICTION. THIS DOCUMENT HAS BEEN PREPARED FOR THE PURPOSE OF DESCRIBING THE DESIGN OF A PROPOSED PV SYSTEM WITH ENOUGH DETAL TO DEMONSTRATE THE COMPLIANCE WITH APPLICABLE CODES AND REGULATIONS. THE DOCUMENT SHALL NOT BE RELIED UPON AS A SUBSTITUTE FOR FOLLOWING MANUDACTURER INSTALLATION INSTRUCTIONS. THE SYSTEM SHALL COMPLY WITH ALL MANUFACTURERS LISTING AND INSTALLATION INSTRUCTIONS. AS WELL AS ALL APPLICABLE CODES. NOTHING IN THIS DOCUMENT SHALL BE INTERPRETED IN A WAT THAT OVERRIDES THEM. CONTRACTOR IS RESPONSIBLE FOR VERIFICATION OF ALL CONDITIONS, DIMENSIONS, AND DETAILS IN THIS DOCUMENT. SYSTEM DETAILS DESCRIPTION NEW GRID INTERACTIVE PV SYSTEM DC RATING OF SYSTEM 6.4 KW AC RATING OF SYSTEM 5.58 KW INVERTER(S)16 ENPHASE IQ8A-72-2-US MODULE 16 APTOS SOLAR TECHNOLOGY LLC, DNA-108-BF10-400W ARRAY WIRING 2 STRINGS OF 8 INTERCONNECTION DETAILS POINT OF CONNECTION NEW LOAD-SIDE AC CONNECTION PER CEC 705.12(B)(2)(3)(2) AT MSP UTILITY SERVICE 120/240V 1Φ LOCATION MAIN SERVICE PANEL 200A MCB W/200A BUSBAR. SITE DETAILS ASHRAE EXTREME LOW -6°C ASHRAE 2% HIGH 39°C WIND SPEED RISK CATEGORY II WIND EXPOSURE CATEGORY C GROUND SNOW LOAD 0 PSF 1 PV-1 LOCAL NTS 9°5. MPH VSE Project Number: U3998.0088.241 651 W. galena park blvd. ste. 101 draper, Utah 84020 phone (801) 990-1775 www.vectorse.com ® Vector Structural Engineering has reviewed the existing structure with loading from the solar array and screw connections to the existing framing. The design of the racking system, racking connections, and all other structural is by others. Mechanical, architectural, and all other nonstructural aspects of the design are by others. Electrical is by others, unless stamped by Dean Levorsen. 01/29/2024 The scope of the plans is for the installation of the solar photovoltaic system only and the approval is subject to compliance with all applicable city and state codes and regulations regarding construction. The approval of the plans does not constitute any certification of the accuracy, completeness, or building permit status of the existing buildings and structures as shown. Bldg#: 101118284 Elec#: 20182123 901 E Grovemont St- 101118284 & 201821233/21/2024 01-PV-0.0 REVISIONS DOC ID: PROJECT SUMMARY GR I D - T I E D S O L A R P O W E R S Y S T E M SSPR-013 90 1 G R O V E M O N T S T R E E T , DATE: 01/22/24 CONTRACTOR: PAUL NAKHLE COMPANY: SOLECTRIC SOLUTION SA N T A A N A , C A 9 2 7 0 6 GENERAL NOTES 1 EQUIPMENT LIKELY TO BE WORKED UPON WHILE ENERGIZED SHALL BE INSTALLED IN LOCATIONS THAT SATISFY MINIMUM WORKING CLEARANCES PER CEC 110.26 2 CONTRACTOR SHALL USE ONLY COMPONENTED LISTED BY A NATIONALLY RECOGNIZED TESTING LABORATORY FOR THE INTENDED USE. 3 CONTRACTOR IS RESPONSIBLE FOR FURNISHING ALL EQUIPMENT, CABLES, ADDITIONAL CONDUITS, RACEWAYS, AND OTHER ACCESSORIES NECESSARY FOR A COMPLETE AND OPERATIONAL PV SYSTEM. 4 WHERE DC PV SOURCE OR DC PV OUTPUT CIRCUITS ARE RUN INSIDE THE BUILDING, THE SHALL BE CONTAINED IN METAL RACEWAYS, TYPE MC METAL-CLAD CABLE, OR METAL ENCLOSURES FROM THE POINT OF PENETRATION INTO THE BUILDING TO THE FIRST READILY ACCESSIBLE DISCONNECTING MEANS PER CEC 690.31(G) 5 ALL EMT CONDUIT FITTINGS SHALL BE LISTED AS WEATHERPROOF FITTINGS AND INSTALLED TO ENSURE A RAINTIGHT FIT, PER CEC 358.42. CONDUIT SHALL BE PAINTED TO MATCH EXTERIOR SURFACE. 6 CONDUIT, WIRING SYSTEMS AND RACEWAYS FOR PV CIRCUITS SHALL BE LOCATED AS CLOSE AS POSSIBLE TO RIDGES, HIPS OR VALLEYS AND SHALL TAKE THE SHORTEST PATHS POSSIBLE BETWEEN ARRAYS AND ELECTRICAL EQUIPMENT TO REDUCE TRIP HAZARDS AND MAXIMIZE VENTILATION OPPORTUNITIES. PV ELECTRICAL EQUIPMENT BE LOCATED SUCH THAT CONDUIT RUNS ARE MINIMIZED IN THE PATHWAYS BETWEEN ARRAYS. DC WIRING SHALL BE INSTALLED IN METALLIC CONDUIT OR RACEWAYS WHEN LOCATED WITHIN ENCLOSED SPACES IN A BUILDING. CONDUIT SHALL RUN ALONG THE BOTTOM OF LOAD BEARING MEMBERS. (CFC 1204.2.3) 7 AT LEAST TWO 36"-WIDE PATHWAYS ON SEPARATE ROOF PLANES, FROM LOWEST ROOF EDGE TO RIDGE, SHALL BE PROVIDED ON ALL BUILDINGS. THERE SHALL BE AT LEAST ONE PATHWAY ON THE STREET OR DRIVEWAY SIDE OF THE ROOF. FOR EACH ROOF PLANE WITH A PV ARRAY, AT LEAST ONE SUCH PATHWAY SHALL BE PROVIDED ON THE SAME ROOF PLANE, OR ON AN ADJACENT ROOF PLANE, OR STRADDLING THE SAME AND ADJACENT ROOF PLANES. (CFC 1204.2.1.1) 8 FOR PV ARRAYS OCCUPYING 1/3 OR LESS OF THE PLAN VIEW TOTAL ROOF AREA, A MIN. 18"-WIDE SETBACK IS REQUIRED ON BOTH SIDES OF A HORIZONTAL RIDGE. (CFC 1204.2.1.2) 9 PV MODULES SHALL NOT BE INSTALLED CLOSER THAN 18" TO A HIP OR A VALLEY WHERE MODULES ARE INSTALLED ON BOTH SIDES OF A HIP OR VALLEY. WHERE MODULES ARE INSTALLED ON ONLY ONE SIDE OF A HIP OR VALLEY THAT IS OF EQUAL LENGTH, NO SETBACK SHALL BE REQUIRED. (CFC 1204.1.2.4) 10 CABLES, WHEN RUN BETWEEN ARRAYS, SHALL BE ENCLOSED IN CONDUIT. 11 APPROVED SMOKE AND CARBON MONOXIDE ALARMS ARE REQUIRED WITHIN THE DWELLING UNIT AND SHALL BE FIELD VERIFIED EITHER THROUGH FINAL BUILDING INSPECTION OR A COUNTY OF SAN BERNARDINO SELF-CERTIFICATION FORM. SMOKE ALARMS ARE REQUIRED TO BE INSTALLED IN ALL BEDROOMS, OUTSIDE EACH BEDROOM, AND AT LEAST ONE ON EACH FLOOR OF THE HOUSE. CARBON MONOXIDE ALARMS ARE REQUIRED OUTSIDE EACH BEDROOM AND AT LEAST ONE ON EACH FLOOR OF THE HOUSE [R314.1, R315.1] 12 NOTIFY SERVING UTILITY BEFORE ACTIVATION OF PV SYSTEM ROADWAY (N) PROPOSED ROOF-MOUNTED PHOTOVOLTAIC ARRAY. 6:12 (28°) AND 4:12(17°) SLOPED ROOF,14 PV MODULES, (E) GAS METER, OUTDOOR. NO NEW ELECTRICAL EQUIPMENT SHALL BE INSTALLED WITHIN 36 INCHES OF CENTER OF GAS METER OR RISER. (E)MAIN SERVICE PANEL (MSP), OUTDOOR (E) UTILITY METER, OUTDOOR (N)MICROINVERTERS UNDER EACH PANEL, OUTDOOR (N) VISIBLE, LOCKABLE, READILY-ACCESSIBLE AC DISCONNECT LOCATED WITHIN 10 FT OF UTILITY METER, OUTDOOR 3 FT. PATH OF ACCESS TO ROOF 18 IN. WIDE SMOKE-VENTILATION SETBACK, PER CFC 1204.2.1.2 PV MODULES INSTALLED ON ROOF WITH SNAPNRACK ULTRA RAIL MOUNTING SYSTEM. THE MOUNTING SYSTEM IS UL1703 CLASS A FIRE RATED ON A 6:12 AND 4:12 SLOPED ROOF WHEN INSTALLED WITH TYPE 1 OR 2 MODULES. THE APTOS SOLAR TECHNOLOGY LLC, DNA-108-BF10-400W IS TYPE 1. 1 2 3 4 5 6 7 8 9 1 PV-2 SITE PLAN AND FIRE SETBACKS SCALE: 1":20' 10 11 ROOF DETAILS TOTAL ROOF AREA (SQFT)2191 SOLAR PANEL AREA (SQFT)20.97 NUMBER OF SOLAR PANELS 16 TOTAL SOLAR PANEL AREA (SQFT)335.5 AREA TAKEN BY PANELS 15.31% (N) PROPOSED ROOF-MOUNTED PHOTOVOLTAIC ARRAY. 4:12 (17°) SLOPED ROOF,2 PV MODULES, 182° AZIMUTH 12 (N) AC COMBINER WITH GATEWAY, OUTDOOR13 (N) TRANSITION BOX, OUTDOOR, OUTPUT CIRCUIT CONDUCTORS SHALL BE RUN IN EMT CONDUIT OVER ROOF NO CLOSER THAN 7/8" ABOVE ROOF SURFACE. 179° AZIMUTH 01/29/2024 VSE Project Number: U3998.0088.241 651 W. galena park blvd. ste. 101 draper, Utah 84020 phone (801) 990-1775 www.vectorse.com ® Vector Structural Engineering has reviewed the existing structure with loading from the solar array and screw connections to the existing framing. The design of the racking system, racking connections, and all other structural is by others. Mechanical, architectural, and all other nonstructural aspects of the design are by others. Electrical is by others, unless stamped by Dean Levorsen. 901 E Grovemont St- 101118284 & 201821233/21/2024 01-PV-2.0 REVISIONS DOC ID: PROJECT SUMMARY GR I D - T I E D S O L A R P O W E R S Y S T E M SSPR-013 90 1 G R O V E M O N T S T R E E T , DATE: 01/22/24 CONTRACTOR: PAUL NAKHLE COMPANY: SOLECTRIC SOLUTION SA N T A A N A , C A 9 2 7 0 6 SW1 - DISCONNECT (SQUARE D DU222RB) POINT-OF-INTERCONNECTION OR AT MAIN SERVICE DISCONNECT (MSP) ! CAUTION ! CEC 690.56(C)(1) AND CFC1204.5.1, 1204.5.1 ! WARNING ! CEC 690.13(B) INSTALLED BY SOLECTRIC SOLUTION AC SOLAR DISCONNECT (SW1)AC DISCONNECT (SW1) PV SYSTEM DISCONNECT CEC 690.13(B) MAXIMUM AC OPERATING CURRENT:23A MAXIMUM AC OPERATING VOLTAGE: 240V CEC 690.54 ! WARNING ! CEC 705.12(B)(3) 4 5 6 8 5 6 4 2 TURN RAPID SHUTDOWN SWITCH TO THE 'OFF' POSITION TO SHUT DOWN PV SYSTEM AND REDUCE SHOCK HAZARD IN THE ARRAY. SOLAR BREAKER (MSP) CEC 705.12(B)(2)(3)(2) MSP - MAIN SERVICE PANEL DC RACEWAYS 1 3 7 LABELING NOTES 1 ALL PLAQUES AND SIGNAGE REQUIRED BY 2019 CEC AND 2019 CFC WILL BE INSTALLED AS REQUIRED 2 LABELS, WARNING(S) AND MARKING SHALL COMPLY WITH ANSI Z535.4, WHICH REQUIRES THAT DANGER, WARNING, AND CAUTION SIGNS USED THE STANDARD HEADER COLORS, HEADER TEXT, AND SAFETY ALERT SYMBOL ON EACH LABEL. THE ANSI STANDARD REQUIRES A HEADING THAT IS AT LEAST 50% TALLER THAN THE BODY TEXT, IN ACCORDANCE WITH CEC 110.21(B). 3 A PERMANENT PLAQUE OR DIRECTORY SHALL BE INSTALLED PROVIDING THE LOCATION OF THE SERVICE DISCONNECTING MEANS AND THE PHOTOVOLTAIC SYSTEM DISCONNECTING MEANS IF NOT IN THE SAME LOCATION IN ACCORDANCE WITH CEC 690.56(B). 4 LABEL(S) WITH MARKING, "TURN RAPID SHUTDOWN SWITCH TO THE 'OFF' POSITION TO SHUT DOWN PV SYSTEM AND REDUCE SHOCK HAZARD IN THE ARRAY," SHALL BE LOCATED WITHIN 3 FT OF SERVICE DISCONNECTING MEANS THE TITLE SHALL UTILIZE CAPITALIZED LETTERS WITH A MINIMUM HEIGHT OF 3/8” IN BLACK ON A YELLOW BACKGROUND, AND REMAINING TEXT SHALL BE CAPITALIZED WITH A MINIMUM HEIGHT OF 3/16” IN BLACK ON WHITE BACKGROUND 5 LABEL(S) WITH MARKING, "WARNING PHOTOVOLTAIC POWER SOURCE," SHALL BE LOCATED AT EVERY 10 FEET OF EACH DC RACEWAY AND WITHIN ONE FOOT OF EVERY TURN OR BEND AND WITHIN ONE FOOD OF EVERY TURN OR BEND AND WITHIN ONE FOOT ABOVE AND BELOW ALL PENETRATIONS OF ROOF/CEILNG ASSEMBLIES, WALLS AND BARRIERS. THE LABEL SHALL HAVE 3/8" TALL LETTERS AND BE REFLECTIVE WITH WHITE TEXT ON A RED BACKGROUND POWER TO THIS BUILDING IS ALSO FROM ROOF MOUNTED SOLAR ARRAYS WITH SAFETY DISCONNECTS AS SHOWN ELECTRIC SHOCK HAZARD. TERMINALS ON BOTH LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION DUAL POWER SOURCE, SECOND SOURCE IS PHOTOVOLTAIC SYSTEM. ANY AC ELECTRICAL PANEL THAT IS FED BY BOTH THE UTILITY AND THE PHOTOVOLTAIC SYSTEM (MSP) EACH DISCONNECTING MEANS FOR PHOTOVOLTAIC EQUIPMENT (SW1,I1) PHOTOVOLTAIC SYSTEM EQUIPPED WITH RAPID SHUTDOWN 2 7 8 SOLAR ELECTRIC PV PANELS SEE NOTE NO. 5 (DC RACEWAYS) WARNING CEC 690.31(G)(3) 3 PHOTOVOLTAIC POWER SOURCE ! WARNING ! INVERTER OUTPUT CONNECTION. DO NOT RELOCATE THIS OVERCURRENT DEVICE. 1 SEE NOTE NO. 4 (MSP) 901 E Grovemont St- 101118284 & 201821233/21/2024 P-159436 GR I D - T I E D S O L A R P O W E R S Y S T E M ATTACHMENT DETAILS DOC ID:159436-196540-1 DATE: 03/20/2023 CREATOR: REVIEWER: REVISIONS 02-S-1.0 901 G R O V E M O N T S T . , SA N T A A N A , C A 9 2 7 0 6 Paul Nakhle 10/9/22 VSE Project Number: U3998.0088.241 651 W. galena park blvd. ste. 101 draper, Utah 84020 phone (801) 990-1775 www.vectorse.com ® Vector Structural Engineering has reviewed the existing structure with loading from the solar array and screw connections to the existing framing. The design of the racking system, racking connections, and all other structural is by others. Mechanical, architectural, and all other nonstructural aspects of the design are by others. Electrical is by others, unless stamped by Dean Levorsen. 01/29/2024 901 E Grovemont St- 101118284 & 201821233/21/2024 B7 B8 B2 B3 B4 B5 B6 B1 A8 A7 A6 A5 A1 A2 A3 A4 02-S-1.0 REVISIONS DOC ID: PROJECT SUMMARY GR I D - T I E D S O L A R P O W E R S Y S T E M SSPR-013 90 1 G R O V E M O N T S T R E E T , DATE: 01/22/24 CONTRACTOR: PAUL NAKHLE COMPANY: SOLECTRIC SOLUTION SA N T A A N A , C A 9 2 7 0 6 1 PV-5 ATTACHMENT PLAN SCALE: 1" = 10' MOUNTING SYSTEM PROPERTIES RAIL MODEL SNAPNRACK UR-40 ANCHOR MODEL SNAPNRACK SPEEDSEAL 242-02163 FASTENING METHOD 2.5 INCH EMBEDMENT INTO TRUSSES WITH (1) 5/16IN DIA. FASTENER MAX. ALLOW. RAIL SPAN 77 IN (ZONE 1) 63 IN (ZONE 2) 50 IN (ZONE 3) MAX. MOUNT SPACING 48 IN (ZONE 1,ZONES 2 AND 3) MAX. ALLOW. CANTILEVER 26 IN (ZONE 1) 21.0 IN (ZONE 2) 17.0 IN (ZONE 3) GROUNDING AND BONDING INTEGRAL GROUNDING CERTIFIED TO UL2703 REQUIREMENTS DEAD LOAD CALCULATIONS LOAD QTY LBS TOTAL LBS MODULES 16 48.5 776.0 MICROINVERTER 16 2.38 38.1 LINEAR FEET OF RAIL 112 0.4 44.8 ANCHORS 36 1.7 61.2 MISC. HARDWARE 9.8 9.8 TOTAL ARRAY WEIGHT 929.9 AREA NAME QTY SQFT TOTAL SQFT MODULES 16 20.97 335.5 POINT LOAD (TOTAL ARRAY WEIGHT / ANCHORS) (LBS)25.8 DIST. LOAD (TOTAL ARRAY WEIGHT/ TOTAL MODULES AREA) (PSF)2.8 ROOF PROPERTIES ROOF MATERIAL SHINGLE(1 LAYER) SLOPE 6:12 (28°); 4:12 (17°) MEAN ROOF HEIGHT 15 FT DECK SHEATING 15/32" OSB CONSTRUCTION TRUSSES (2X TP[ CHORD), 24 IN OC MODULE MECHANICAL PROPERTIES MODEL APTOS SOLAR TECHNOLOGY LLC, DNA-108-BF10-400W DIMENSIONS 67.7IN X 44.6IN X 1.38IN (20.97 SQFT) WEIGHT 48.5 LBS NOTES 1 TRUSS LOCATIONS ARE APPROXIMATE. ACTUAL LOACTIONS MAR DIFFER AND CONTRACTOR MAY NEED TO ADJUST MOUNT LOCATIONS. IN NO CASE SHALL THE MOUNT SPACING EXCEED "MAX. MOUNT SPACING" STRING A - 8 MODULES STRING B - 8 MODULES 24 01/29/2024 VSE Project Number: U3998.0088.241 651 W. galena park blvd. ste. 101 draper, Utah 84020 phone (801) 990-1775 www.vectorse.com ® Vector Structural Engineering has reviewed the existing structure with loading from the solar array and screw connections to the existing framing. The design of the racking system, racking connections, and all other structural is by others. Mechanical, architectural, and all other nonstructural aspects of the design are by others. Electrical is by others, unless stamped by Dean Levorsen. 901 E Grovemont St- 101118284 & 201821233/21/2024 MODULES REF.QTY.MAKE AND MODEL PMAX (W) PTC (W)ISC IMP VOC VMP TEMP. COEFF. OF VOC FUSE RATING PM1-16 16 APTOS SOLAR TECHNOLOGY LLC, DNA-108BF10-400W 400 373.2 13.79A 12.9A 37.1V 31V -0.12V/°C (-0.28%/°C)20A DISCONNECTS REF.QTY.MAKE AND MODEL RATED CURRENT (A)MAX RATED VOLTAGE SW1 1 SQUARE D DU222RB OR EQUIV.60 240VAC INVERTERS REF.QTY.MAKE AND MODEL AC VOLTAGE GROUND MAX OCPD RATING RATED POWER MAX OUTPUT CURRENT MAX INPUT CURRENT MAX INPUT VOLTAGE CEC WEIGHTED EFFICIENCY I1-16 16 ENPHASE IQ8A-72-2-US 240V NOT SOLIDLY GROUNDED 20A 349W 1.45 15.0A 60V 97.0% PASS-THRU BOXES AND COMBINERS REF.QTY.MAKE AND MODEL RATED CURRENT MAX RATED VOLTAGE C1 1 ENPHASE X-IQ-AM1-240-4 OR EQUIVALENT(AC COMBINER WITH GATEWAY)65A 240VAC MICRO- INVERTER I1-16 8 IN BRANCH 8 IN BRANCH 1 2 3 4 5 6 7 AC COMBINER C1 2 F1 20A F2 20A PV DISCONNECT SW1 60A 3 8 LOADS MAIN SERVICE PANEL AC GEC KWHRKWHR UTILITY METER (E) 240/120V 1ɸ, 3W 200A MAIN BREAKER 200A BUSBAR (E) 200A 9 10 SYSTEM SUMMARY BRANCH 1 BRANCH 2 INVERTERS PER BRANCH 8 8 MAX AC CURRENT (A)11.6 11.6 MAX AC POWER OUTPUT (W)2784.0 2784.0 ARRAY STC POWER (W)6400 ARRAY PTC POWER (W)5971 MAX AC POWER OUTPUT(W)5568.0 MAX AC CURRENT(A)23.2 NOTES 1 2 3 4 5 6 7 8 9 10 LOADS LOADS PV MODULE PM1-16 400W CB1 30A 11 11 JUNCTION BOX NEMA 3R (READILY ACCESSIBLE) CONDUCTOR AND CONDUIT SCHEDULE W/ELECTRICAL CALCULATIONS ID TYPICAL CONDUCTOR CONDUIT / CABLE CURRENT-CARRYING CONDUCTORS IN CONDUIT / CABLE OCPD (A)EGC TEMP. CORR. FACTOR FILL FACTOR CONT. CURRENT (A) MAX. CURRENT (125%) BASE AMP.DERATED AMP. TERM. TEMP. RATING AMP. @ TERM. TEMP. RATING LENGTH (FT)RESISTANCE/FT VOLTAGE DROP 1 1 10 AWG THWN-2, COPPER 0.75" EMT 4 N/A 10 AWG THWN-2, COPPER 0.58 61°C 1.0 11.6 11.6 40 23.2 75°C 35 30 0.0003951 0.07% 2 1 10 AWG THWN-2, COPPER 0.75" EMT 3 N/A 10 AWG THWN-2, COPPER 0.91 39°C 1.0 23.2 29.0 40 36.4 75°C 35 8 0.0003951 0.04% 3 1 10 AWG THWN-2, COPPER 0.75" EMT 3 30A 10 AWG THWN-2, COPPER 0.91 39°C 1.0 23.2 29.0 40 36.4 75°C 35 8 0.0003951 0.04% 1 E1.0 REVISIONS DOC ID: PROJECT SUMMARY GR I D - T I E D S O L A R P O W E R S Y S T E M SSPR-013 90 1 G R O V E M O N T S T R E E T , DATE: 01/22/24 CONTRACTOR: PAUL NAKHLE COMPANY: SOLECTRIC SOLUTION SA N T A A N A , C A 9 2 7 0 6 GENERAL ELECTRICAL NOTES 1 UTILITY HAS 24-HR UNRESTRICTED ACCESS TO ALL PHOTOVOLTAIC SYSTEM COMPONENTS LOCATED AT THE SERVICE ENTRANCE. 2 CONDUCTORS EXPOSED TO SUNLIGHT SHALL BE LISTED AS SUNLIGHT RESISTANT PER NEC ARTICLE 300.6 (C) (1) AND ARTICLE 310.10 (D). 3 CONDUCTORS EXPOSED TO WET LOCATIONS SHALL BE SUITABLE FOR USE IN WET LOCATIONS PER NEC ARTICLE 310.10 (C). GROUNDING NOTES 1 ALL EQUIPEMENT SHALL BE PROPERLY GROUNDED PER THE REQUIREMENTS OF NEC ARTICLE 250 AND 690 2 PV MODULES SHALL BE GROUNDED TO MOUNTING RAILS USING MODULE LUGS OR RACKING INTEGRATED GROUNDING CLAMPS AS ALLOWED BY LOCAL JURISDICTION. ALL OTHER EXPOSED METAL PARTS SHALL BE GROUNDED USING UL-LISTED LAY-IN LUGS 3 INSTALLER SHALL CONFIRM THAT MOUNTING SYSTEM HAS BEEN EVALUATED FOR COMPLIANCE WITH UL 2703 "GROUNDING AND BONDING" WHEN USED WITH PROPOSED PV MODULE 4 IF THE EXISTING MAIN SERVICE PANEL DOES NOT HAVE A VERIFIABLE GROUNDING ELECTRODE, IT IS THE CONTRACTOR'S RESPONSIBILITY TO INSTALL A SUPPLEMENTAL GROUNDING ELECTRODE. 5 AC SYSTEM GROUNDING ELECTRODE CONDUCTOR (GEC) SHALL BE A MINIMUM SIZE #8AWG WHEN INSULATED, #6AWG IF BARE WIRE. 6 EQUIPMENT GROUNDING CONDUCTORS SHALL BE SIZED ACCORDING TO NEC ARTICLE 690.45, AND BE A MINIMUM OF #10AWG WHEN NOT EXPOSED TO DAMAGE, AND #6AWG SHALL BE USED WHEN EXPOSED TO DAMAGE 7 GROUNDING AND BONDING CONDUCTORS, IF INSULATED, SHALL BE COLOR CODED GREEN, OR MARKED GREEN IF #4AWG OR LARGER. 1 PV-3 SINGLE-LINE DIAGRAM NTS 901 E Grovemont St- 101118284 & 201821233/21/2024 Expedited Permit Process for PV Systems - Micro-Inverter1 Expedited Permit Process for PV Systems Micro-Inverter The Solar America Board for Codes and Standards (Solar ABCs) Expedited Permit Pro- cess provides a means to differentiate systems that can be permitted quickly and easily due to their similarity with the majority of small-scale PV systems. Those systems with unique characteristics may be handled with small additions to this Expedited Permit Process or may require much more information, depending on the uniqueness of the installation. The following pages contain forms for the Micro-Inverter to use with the Expedited Per- mit Process. The Standard String, AC Module, and Supply-Side Connection forms are also available as interactive PDF files at www.solarabcs.org/permitting. In jurisdic- tions that have adopted the Expedited Permit Process for PV Systems, these forms can be filled out electronically and submitted in either printed form and via email. An elec- tronic format is used so that the supplied information is standardized and legible for the local jurisdiction. 901 E Grovemont St- 101118284 & 201821233/21/2024 Expedited Permit Process for PV Systems — Micro-Inverter 2 Expedited Permit Process for Small-Scale PV Systems Micro-Inverter The information in this guideline is intended to help local jurisdictions and contractors identify when PV system installations are simple, needing only a basic review, and when an installation is more complex. It is likely that 50%-75% of all residential systems will comply with these simple criteria. For projects that fail to meet the simple criteria, resolution steps have been suggested to provide as a path to permit approval. Required Information for Permit: 1.Site plan showing location of major components on the property. This drawing need not be exactly to scale, but it should represent relative location of components at site (see supplied example site plan). PV arrays on dwellings with a 3’ perimeter space at ridge and sides may not need separate fire service review. 2.Electrical diagram showing PV array configuration, wiring system, overcurrent protection, inverter, disconnects, required signs, and ac connection to building (see supplied standard electrical diagram). 3.Specification sheets and installation manuals (if available) for all manufactured components including, but not limited to, PV modules, inverter(s), combiner box, disconnects, and mounting system. Step 1: Structural Review of PV Array Mounting System Is the array to be mounted on a defined, permitted roof structure? l Yes l No If No due to non-compliant roof or a ground mount, submit completed worksheet for the structure WKS1. Roof Information: 1.Is the roofing type lightweight (Yes = composition, lightweight masonry, metal, etc…)__________________________ ____________________________________________________________________________________________________ If No, submit completed worksheet for roof structure WKS1 (No = heavy masonry, slate, etc…). 2.Does the roof have a single roof covering?l Yes l No If No, submit completed worksheet for roof structure WKS1. 3.Provide method and type of weatherproofing roof penetrations (e.g. flashing, caulk).____________________________ Mounting System Information: 1.Is the mounting structure an engineered product designed to mount PV modules with no more than an 18” gap beneath the module frames? l Yes l No If No, provide details of structural attachment certified by a design professional. 2.For manufactured mounting systems, fill out information on the mounting system below: a.Mounting System Manufacturer ___________Product Name and Model#________________________________ b.Total Weight of PV Modules and Rails ___________lbs c.Total Number of Attachment Points____________ d.Weight per Attachment Point (b÷c)_________________lbs (if greater than 45 lbs, see WKS1) e.Maximum Spacing Between Attachment Points on a Rail ______________inches (see product manual for maximum spacing allowed based on maximum design wind speed) f.Total Surface Area of PV Modules (square feet)_________________ ft2 g.Distributed Weight of PV Module on Roof (b÷f)_______________ lbs/ft2 If distributed weight of the PV system is greater than 5 lbs/ft2, see WKS1. Step 2: Electrical Review of PV System (Calculations for Electrical Diagram) In order for a PV system to be considered for an expedited permit process, the following must apply: 1.PV modules, utility-interactive inverters, and combiner boxes are identified for use in PV systems. 2.The PV array is composed of 4 series strings or less per inverter. 3.The total inverter capacity has a continuous ac power output 13,440 Watts or less 4.The ac interconnection point is on the load side of service disconnecting means (690.64(B)). 5.One of the standard electrical diagrams (E1.1, E1.1a, E1.1b, or E1.1c) can be used to accurately represent the PV system. Interactive PDF diagrams are available at www.solarabcs.org/permitting. Fill out the standard electrical diagram completely. A guide to the electrical diagram is provided to help the applicant understand each blank to fill in. If the electrical system is more complex than the standard electrical diagram can effectively communicate, provide an alternative diagram with appropriate detail. 901 E Grovemont St- 101118284 & 201821233/21/2024 E x p e d i t e d P e r m i t P r o c e s s f o r P V S y s t e m s 3 Micro-Inverter Site Plan 901 E Grovemont St- 101118284 & 201821233/21/2024 E x p e d i t e d P e r m i t P r o c e s s f o r P V S y s t e m s 4 Micro-Inverter Electrical Diagram Contractor Name, Address and Phone:One-Line Standard Electrical Diagram for Micro-Inverter PV Systems Site Name: Site Address: System AC Size: SIZE FSCM NO DWG NO REV E1.1a SCALE NTS Date: SHEET Drawn By: Checked By: DESCRIPTION OR CONDUCTOR TYPE USE-2 or PV WIRE GEC EGC X ALL THAT APPLY EXTERIOR CABLE LISTED W/ INV. THWN-2 or XHHW-2 or RHW-2 GEC EGC X ALL THAT APPLY NO DC GEC IF 690.35 SYSTEM THWN-2 or XHHW-2 or RHW-2 GEC EGC X ALL THAT APPLY TAG 1 2 3 4 5 CONDUIT AND CONDUCTOR SCHEDULE COND. GAUGE MFG MFG NUMBER OF CONDUCTORS MFG Cable MFG Cable CONDUIT TYPE N/A N/A N/A SAME SAME CONDUIT SIZE N/A N/A N/A SAME SAME DESCRIPTION PV DC or AC MODULE DC/AC INVERTER (MICRO) J-BOX (IF USED) PV ARRAY AC COMB. PANEL (IF USED) GEN METER (IF USED) AC DISCONNECT (IF USED) SERVICE PANEL TAG 1 2 3 4 5 6 7 8 PART NUMBER NOTES FOR UNUSED MODULES PUT "N/A” in BLANK ABOVE 1 1 3 2 3 EQUIPMENT SCHEDULE 2 _____ MICRO-INVERTERS IN BRANCH- CIRCUIT MOD ____ DC AC MOD ____ DC AC MOD ____ DC AC MOD ____ DC AC MOD ____ DC AC MOD ____ DC AC J-BOX 4 AC DISCO M BUILDING GROUNDING ELECTRODE G M UTILITY SERVICE MAIN SERVICE PANEL MAIN OCPD INVERTER OCPD 6 7 8 5 4 5 G SEE GUIDE APPENDIX D FOR INFORMATION ON MODULE AND ARRAY GROUNDING AC COMBINER PANEL G ____ MICRO-INVERTERS IN BRANCH- CIRCUIT 901 E Grovemont St- 101118284 & 201821233/21/2024 E x p e d i t e d P e r m i t P r o c e s s f o r P V S y s t e m s 5 Contractor Name, Address and Phone:Notes for One-Line Standard Electrical Diagram for Single-Phase PV Systems Site Name: Site Address: System AC Size: SIZE FSCM NO DWG NO REV E1.2a SCALE NTS Date: SHEET Drawn By: Checked By: MAX POWER-POINT CURRENT (IMP) MAX POWER-POINT VOLTAGE (VMP) OPEN-CIRCUIT VOLTAGE (VOC) SHORT-CIRCUIT CURRENT (ISC) MAX SERIES FUSE (OCPD) MAXIMUM POWER (PMAX) MAX VOLTAGE (TYP 600VDC) VOC TEMP COEFF (mV/oC or %/oC ) IF COEFF SUPPLIED, CIRCLE UNITS MODULE MAKE MODULE MODEL PV MODULE RATINGS @ STC (Guide Section 5) MAX DC VOLT RATING MAX POWER @ 40oC NOMINAL AC VOLTAGE MAX AC CURRENT MAX OCPD RATING INVERTER MAKE INVERTER MODEL INVERTER RATINGS (Guide Section 4) 1) IF UTILITY REQUIRES A VISIBLE-BREAK SWITCH, DOES THIS SWITCH MEET THEREQUIREMENT? YES NO N/A 2) IF GENERATION METER REQUIRED, DOES THIS METER SOCKET MEET THE REQUIREMENT? YES NO N/A 3) SIZE PHOTOVOLTAIC POWER SOURCE (DC) CONDUCTORS BASED ON MAX CURRENT ON NEC 690.53 SIGN OR OCPD RATING AT DISCONNECT 4) SIZE INVERTER OUTPUT CIRCUIT (AC) CONDUCTORS ACCORDING TO INVERTER OCPD AMPERE RATING. (See Guide Section 9) 5) TOTAL OF ______ INVERTER OUTPUT CIRCUIT OCPD(s), ONE FOR EACH MICRO-INVERTER CIRCUIT. DOES TOTAL SUPPLY BREAKERS COMPLY WITH 120% BUSBAREXCEPTION IN 690.64(B)(2)(a)? YES NO NOTES FOR INVERTER CIRCUITS (Guide Section 8 and 9): 1.) LOWEST EXPECT AMBIENT TEMPERATURE BASED ON ASHRAE MINIMUM MEAN EXTREME DRY BULB TEMPERATURE FOR ASHRAE LOCATION MOST SIMILAR TO INSTALLATION LOCATION. LOWEST EXPECTED AMBIENT TEMP ____oC 2.) HIGHEST CONTINUOUS AMBIENT TEMPERATURE BASED ON ASHRAE HIGHEST MONTH 2% DRY BULB TEMPERATURE FOR ASHRAE LOCATION MOST SIMILAR TO INSTALLATION LOCATION. HIGHEST CONTINUOUS TEMPERATURE ____oC 2.) 2009 ASHRAE FUNDAMENTALS 2% DESIGN TEMPERATURES DO NOT EXCEED 47oC IN THE UNITED STATES (PALM SPRINGS, CA IS 44.1oC). FOR LESS THAN 9 CURRENT-CARRYING CONDUCTORS IN ROOF-MOUNTED SUNLIT CONDUIT AT LEAST 0.5" ABOVE ROOF AND USING THE OUTDOOR DESIGN TEMPERATURE OF 47oC OR LESS (ALL OF UNITED STATES), a) 12 AWG, 90oC CONDUCTORS ARE GENERALLY ACCEPTABLE FOR MODULESWITH Isc OF 7.68 AMPS OR LESS WHEN PROTECTED BY A 12-AMP OR SMALLER FUSE.b) 10 AWG, 90oC CONDUCTORS ARE GENERALLY ACCEPTABLE FOR MODULESWITH Isc OF 9.6 AMPS OR LESS WHEN PROTECTED BY A 15-AMP OR SMALLER FUSE. NOTES FOR ARRAY CIRCUIT WIRING (Guide Section 6 and 8 and Appendix E): OCPD = OVERCURRENT PROTECTION DEVICE NATIONAL ELECTRICAL CODE®REFERENCES SHOWN AS (NEC XXX.XX) NOTES FOR ALL DRAWINGS: SIGNS–SEE GUIDE SECTION 7 SIGN FOR DC DISCONNECT SIGN FOR INVERTER OCPD AND AC DISCONNECT (IF USED) No sign necessary since 690.51 marking on PV module covers needed information AC OUTPUT CURRENT NOMINAL AC VOLTAGE SOLAR PV SYSTEM AC POINT OF CONNECTION THIS PANEL FED BY MULTIPLE SOURCES (UTILITY AND SOLAR) Notes for Micro-Inverter Electrical Diagram 901 E Grovemont St- 101118284 & 201821233/21/2024 City of Santa Ana I Building and Safety Division Homeowner Authorization letter for solar permits for: 901 Grovemont Street, Santa Ana, CA, 92706 To whom this may concern, Homeowner Hung Nguyen authorizes Solectric Solution to install solar panels on roof of 901 Grovemont Street, Santa Ana, CA, 92706. Please contact homeowner Hung at 714 837-1739, nguyen_kien_hung@yahoo.com or contractor Paul Nakhle at 909 524-7774, solectricsolution@gmail.com for further information Homeowner signature ___________________________ Date: Contractor signature _____________________________ Date: 1/22/24 01/22/2024 901 E Grovemont St- 101118284 & 201821233/21/2024 ® VSE Project Number: U3998.0088.241 January 29, 2024 Solectric Solution 6083 Andrews Court Fontana, CA 92336 REFERENCE: Grovemont Residence: 901 Grovemont Street, Santa Ana, CA 92706 Solar Array Installation To Whom It May Concern: We have reviewed the existing structure at the above referenced site.The purpose of our review was to determine the adequacy of the existing structure to support the proposed installation of solar panels on the roof as shown on the panel layout plan. Based upon our review, we conclude that the existing structure is adequate to support the proposed solar panel installation. Design Parameters Code: California Residential Code, 2022 Edition (2021 IRC) Risk Category: II Design wind speed, Vult: 95 mph (3-sec gust) Wind exposure category: C Seismic design category: D Existing Roof Structure Roof structure: 2x4 manufactured trusses @ 24" o.c. Roofing material: composite shingles Roof pitch: 6:12 Connection to Roof Mounting connection: (1) 5/16" lag screw w/ min. 2.5" threaded embedment into framing at max. 48" o.c. along rails Install (2) rails per row of panels, evenly spaced; panel length perpendicular to the rails shall not exceed 68 in Rail cantilever shall not exceed the lesser of 50% of the connection spacing or maximum cantilever allowed by manufacturer At flat hip framing, if occurs, reduce connection spacing listed above by 50% or see attached detail for blocking option. Connections shall be staggered so as not to overload any existing structural member Conclusions Based upon our review,we conclude that the existing structure is adequate to support the proposed solar panel installation. In the area of the solar array,other live loads will not be present or will be greatly reduced (2022 CRC,Section R324.4.1.1). The gravity loads,and thus the stresses of the structural elements,in the area of the solar array are either decreased or increased by no more than 5%.Therefore,the requirements of Section 503.3 of the 2022 CEBC are met and the structure is permitted to remain unaltered. 651 W. Galena Park Blvd., Ste. 101 / Draper, UT 84020 / T (801) 990-1775 / F (801) 990-1776 / www.vectorse.com 901 E Grovemont St- 101118284 & 201821233/21/2024 ® VSE Project Number: U3998.0088.241 Grovemont Residence 1/29/2024 The solar array will be flush-mounted (no more than 10"above the roof surface)and parallel to the roof surface.Thus,we conclude that any additional wind loading on the structure related to the addition of the proposed solar array is negligible. The attached calculations verify the capacity of the connections of the solar array to the existing roof against wind (uplift), the governing load case.Regarding seismic loads,we conclude that any additional forces will be small.Conservatively neglecting the weight of existing wall materials,the installation of the solar panels represents an increase in the total weight (and resulting seismic load)of 2.9%.Increases in lateral forces less than 10%are considered acceptable.Thus the existing lateral force resisting system is permitted to remain unaltered. Limitations Installation of the solar panels must be performed in accordance with manufacturer recommendations.All work performed must be in accordance with accepted industry-wide methods and applicable safety standards.The contractor must notify Vector Structural Engineering,LLC should any damage,deterioration or discrepancies between the as-built condition of the structure and the condition described in this letter be found.The use of solar panel support span tables provided by others is allowed only where the building type,site conditions,site-specific design parameters,and solar panel configuration match the description of the span tables.The design of the solar panels,solar racking (mounts,rails,etc.)and electrical engineering is the responsibility of others.Waterproofing around the roof penetrations is the responsibility of others.Vector Structural Engineering assumes no responsibility for improper installation of the solar array.Vector Structural Engineering shall be notified of any changes from the approved layout prior to installation. VECTOR STRUCTURAL ENGINEERING, LLC 01/29/2024 _______________________________________________________ Jacob Proctor, P.E. CA License: 70567 - Expires: 06/30/2025 Project Engineer Enclosures JSP/jsj 01/29/2024 651 W. Galena Park Blvd., Ste. 101 / Draper, UT 84020 / T (801) 990-1775 / F (801) 990-1776 / www.vectorse.com 901 E Grovemont St- 101118284 & 201821233/21/2024 ® 01/29/2024 901 E Grovemont St- 101118284 & 201821233/21/2024 JOB NO.:U3998.0088.241 SUBJECT:SEISMIC LOADS ® PROJECT:Grovemont Residence CHECK INCREASE IN OVERALL SEISMIC LOADS 15.6 psf 3.0 psf 15% 16.0 psf 2.9% Equiv. Total Dead Load Estimated Roof Dead Load Solar Dead Load % Roof Covered Conservatively neglecting the weight of existing wall materials, the installation of the solar panels represents an increase in the total weight (and resulting seismic load) of 2.9%. Because the increase is less than 10%, this addition meets the requirements of the exception in Section 503.4 of the 2022 CEBC. Thus the existing structure is permitted to remain unaltered. Addt'l Seismic Weight 901 E Grovemont St- 101118284 & 201821233/21/2024 JOB NO.:U3998.0088.241 SUBJECT:WIND PRESSURE ® PROJECT:Grovemont Residence Label:Note: Calculations per ASCE 7-16 SITE-SPECIFIC WIND PARAMETERS: Basic Wind Speed [mph]:95 Notes: Exposure Category:C Risk Category:II Importance Factor, I: ADDITIONAL INPUT & CALCULATIONS: Height of Roof, h [ft]:15 (Approximate) Comp/Cladding Location:Hip Roofs 20° < θ ≤ 27° Enclosure Classification: Zone 1 GCp:1.37 Zone 1 γa:0.78 Zone 2e, 2r, 3 GCp:1.96 Zone 2e, 2r, 3 γa:0.78 γa:0.40 γa:0.40 α:9.5 Table 26.11-1 zg [ft]:900 Table 26.11-1 Kh:0.85 Table 26.10-1 Ke:0.99 Table 26.9-1 Kzt:1 Equation 26.8-1 Kd:0.85 Table 26.6-1 Velocity Pressure, qh [psf]:16.6 Equation 26.10-1 γE:1.50 Section 29.4.4 γC:0.94 Section 29.4.4 γP:1.20 Section 29.4.4 p = q h (GC p )(γ E )(γ a ) p = q h (GC rn ), (GC rn ) = (γ p )(γ c )(γ E )(GC rn )nom Zone 1, p [psf]:26.4 psf (1.0 W) Zone 2e, 2r, 3, p [psf]:37.8 psf (1.0 W) (a =3 ft) Fig. 29.4-8 WIND PRESSURES:Equation 29.4-7 Solar Panel Array Enclosed Buildings Figure 30.3-2G (negative coeff.) Components and Cladding Wind Calculations 901 E Grovemont St- 101118284 & 201821233/21/2024 JOB NO.:U3998.0088.241 SUBJECT:CONNECTION ® PROJECT:Grovemont Residence Calculate Uplift Forces on Connection Pressure (0.6 Dead -0.6 Wind) (psf) Max Trib. Width1 (ft) Max Trib. Area2 (ft2) Max Uplift Force (lbs) Zone 1 14.1 4.0 11.3 159 Zone 2e, 2r, 3 20.9 4.0 11.3 237 Calculate Connection Capacity Lag Screw Size [in]:5/16 Cd:1.6 NDS Table 2.3.2 Embedment3 [in]:2.5 Grade: Nominal Capacity [lbs/in]:205 NDS Table 12.2A Number of Screws:1 Prying Coefficient:1.4 Total Capacity [lbs]:586 Determine Result Maximum Demand [lbs]:237 Lag Screw Capacity [lbs]:586 Result:Capacity > Demand, Connection is adequate. Notes 1. 'Max Trib. Width' is the width along the rails tributary to the connection. 3. Embedment is measured from the top of the framing member to the beginning of the tapered tip of the lag screw. Embedment in sheathing or other material is not effective. The length of the tapered tip is not part of the embedment length. 2. 'Max Trib Area' is the product of the 'Max. Trib Width' and 1/2 the panel width/height perpendicular to the rails. (2) rails per row of panels. Length of panels perpendicular to the rails shall not exceed 68". SPF (G = 0.42) 901 E Grovemont St- 101118284 & 201821233/21/2024 VECTOR STRUCTURAL ENGINEERS JOB NO.:U3998.0088.241 SUBJECT:GRAVITY LOADS ® PROJECT:Grovemont Residence GRAVITY LOADS Roof Pitch: 6.0 :12 ROOF DEAD LOAD (D) Increase due to pitch Material weight [psf] Composite Shingles 1.12 2.0 1/2" Plywood 1.12 1.0 Framing 1.00 3.0 Insulation 1.00 0.5 1/2" Gypsum Clg.1.12 2.0 M, E & Misc 1.00 6.5 Total Existing Roof DL PV Array DL 1.12 3 DL:1.12 ROOF LIVE LOAD (Lr) Existing Design Roof Live Load [psf]20 ASCE 7-16 Table 4.3-1 Roof Live Load With PV Array [psf]0 SNOW LOAD (S):w/ Solar Array Roof Slope [x:12]:6.0 Roof Slope [°]:27 Ground Snow Load, pg [psf]:0 ASCE 7-16, Section 7.2 Terrain Category:C ASCE 7-16, Table 7.3-1 Exposure of Roof:Fully Exposed ASCE 7-16, Table 7.3-1 Exposure Factor, Ce:0.9 ASCE 7-16, Table 7.3-1 Thermal Factor, Ct:1.1 ASCE 7-16, Table 7.3-2 Risk Category:II ASCE 7-16, Table 1.5-1 Importance Factor, Is:1.0 ASCE 7-16, Table 1.5-2 Flat Roof Snow Load, pf [psf]:0 ASCE 7-16, Equation 7.3-1 Minimum Roof Snow Load, pm [psf]:0 ASCE 7-16, Section 7.3.4 Unobstructed Slippery Surface?Yes ASCE 7-16, Section 7.4 Slope Factor Figure:Figure 7-2b ASCE 7-16, Section 7.4 Roof Slope Factor, Cs:0.72 ASCE 7-16, Figure 7.4-1 Sloped Roof Snow Load, ps [psf]:0 ASCE 7-16, Equation 7.4-1 Design Snow Load, S [psf]:00 6.0 27 0 C Fully Exposed 0.9 1.1 II 1.0 0 0 No Figure 7-2b 1.00 0 Design material weight [psf] 2.2 1.1 3.0 0.5 2.2 6.5 15.6 3.4 #VALUE! 2022 CRC, Section R324.4.1.1 Existing 901 E Grovemont St- 101118284 & 201821233/21/2024 JOB NO.:U3998.0088.241 SUBJECT:LOAD COMPARISON ® PROJECT:Grovemont Residence Summary of Loads Existing With PV Array D [psf]16 19 Lr [psf]20 0 S [psf]0 0 Maximum Gravity Loads: Existing With PV Array (D + Lr) / Cd [psf]28 21 ASCE 7-16, Section 2.4.1 (D + S) / Cd [psf]17 21 ASCE 7-16, Section 2.4.1 Maximum Gravity Load [psf]:28 21 Ratio Proposed Loading to Current Loading:74%OK The gravity loads, and thus the stresses of the structural elements, in the area of the solar array are either decreased or increased by no more than 5%. Therefore, the requirements of Section 503.3 of the 2022 CEBC are met and the structure is permitted to remain unaltered. (Cd = Load Duration Factor = 0.9 for D, 1.15 for S, and 1.25 for Lr) 901 E Grovemont St- 101118284 & 201821233/21/2024 Rev: 7/15/2021 RESIDENTIAL PHOTOVOLTAIC CHECKLIST SOL-01 CBC 2019 Solar Photovoltaic (PV) Checklist for Detached SINGLE FAMILY RESIDENCES Only Instructions: The licensed contractor of record shall complete all sections, answer the ten questions and sign the certification section below. A copy of this form shall be attached to each of TWO sets of plans, of minimum 11” x 17” size. If answering NO to any of the questions, plan check shall be required. Project Address: Contractor Company Name: Contractor License Number: YES NO Are the following applicable to the proposed project? 1. Will the PV system layout provide the required three-foot wide clear access pathways per Section 605.11 of the California Fire Code, and is this shown on the roof plan? 2. Will the PV system be installed on a roof having only one roofing layer with no overlays? 3.Will the PV array be flush mounted to the existing roof so that the plane of the modules (panels) are parallel to the plane of the roof? 4.Will the PV system weigh maximum 4 pounds per square feet or less? 5.Will the PV system be installed where the modules do not overhang any roof edges (such as eaves, gabled ends, ridges and hips)? 6.Will the PV system be installed with a space of 2” minimum to 10” maximum between the underside of modules and the surface of the roof? 7.Will the PV system be installed without using any ballast system or counter-weight system? 8.Will the anchors be installed with a maximum horizontal anchor spacing of 6 feet and is this maximum horizontal spacing shown on the plans? 9.Will the minimum 5/16” lag screws be installed with a minimum of 2 -1/2 inch embedment into roof rafters (with pre-drilled holes) and is this minimum embedment shown on the plans? 10. Are ALL the structural pages of the plans stamped and signed by a California licensed professional engineer? (including project specific site plan, PV layout, anchorage spacing, anchorage details and manufacturer’s PV support information.) I certify under penalty of perjury under the laws of the State of California that the above is true: Print Name: S ignature: Phone Number: Date: Em ail Address: Planning & Building Agency Building Safety Division 20 Civic Center Plaza P.O. Box 1988 (M-19) Santa Ana, CA 92702 (714) 647-5800 www.santa-ana.org 901 Grovemont Street, Santa Ana, California, 92706, Solectric Solution 1006294 x x x x x x x x x x PAUL NAKHLE 909 524 7774 1/21/24 solectricsolution@gmail.com 901 E Grovemont St- 101118284 & 201821233/21/2024 DNA TM 108 Bifacial Solar for Innovators Residential I Commercial Features 023 __£) 000 ...,.,.000 vooo Advanced Technology Designed & Engineered in Silicon Valley 400Wl405Wl410W Our DNA Split Cell Series uses advanced selective emitter PERC technology with thin film layers to improve heat tolerance, increase photon capture, minimize resistive loss, and use 5% more of the available active area for optimal power performance. Our panels exceed IEC standards and come with an industry leading, 30-year warranty. 98% 97% 90.7% 83.7% 80.2% 76.7% Linear Performance Warranty Standard Warranty Optional Extended Warranty --82.4% I +49%··-o !---------+-------+----=~ --_ _ I +5 7% 1 year 10 years Q Aptos Warranty 20 years 25 years 30 years • Industry Standard Maximum Panel Density Patented DNA™ technology boosts power performance & module efficiency 1111111111 1 1 111111111 1 Advanced split cell technology with 10 ultra-thin busbars allows for less resistance and more photon capture Durable Design Robust product design is resilient in extreme weather. Up to 5400 Pa snow load and 5400 Pa wind load 2081 Business Center Drive, Ste 100 Irvine, CA 92612 www.aptossolar.com I info@aptossolar.com @J A Safe Investment Industry leading 30 year warranty 35mm, 1.3in Electrical Specifications DNA-108-BF10-400W DNA-108-BF10-405W DNA-108-BF10-410W STC Rated Output P mpp (W) 400W 405W 410W Module Efficiency 20.50% 20.70% 21.00% Open Circuit Voltage Vvoc (V) 37.10 37.20 37.30 Short Circuit Current 150 (A) 13.79 13.87 13.95 Rated Voltage V mp (V) 31.00 31.20 31.50 Rated Voltage Imp (Al 12.90 12.98 13.04 Standard Test Conditions for front -face of panel: 1000 W/mL, 25°C, measurement uncertainty _:::_3% Bifacial Output-Rearside Power Gain 5%-Maximum Power (Pmax) 5%-Module Efficiency STC(%) 15%-Maximum Power (Pmax) 15%-Module Efficiency STC(%) 25%-Maximum Power (Pmax) 25%-Module Efficiency STC(%) Test Operating Conditions Maximum Series Fuse Maximum System Voltage Maximum Load Capacity (Per UL 1703) Fire Performance Class Temperature Coefficients 420W 19.46% 460W 21.32% 500W 23.17% 425W 19.71% 466W 21.58% 506W 23.46% 431W 19.95% 472W 21.85% 513W 23.75% 30A 1,500 VDC (UL&IEC) 5400 PA Snow Load / 5400 Pa Wind Load Class C/Type 1 Packaging Configuration E E LO (') A-A 72:T 35mm E E LO (') B-B 72:T 35mm Mechanical Properties Cell Type Glass Frame Junction Box Monocrystalline 3.2mm, anti-refiection coating, high transmission, low iron, tempered glass Anodized Aluminum Alloy 300mm Dimensions 1722 X 1134 X 35 mm, 67.7 X 44.6 X 1.3 in Output Cable 4mm2 (EU)12AWG,39.37in.(1200mm) Weight Cable Length 1-V Curve SOOW/m' 600W/m 2 4 00W/m' 200W/m 2 Vol tage (V) Certifications 22.0kg 1200mm Temperature Coefficients P mp -0.350%/°C Modules per Pallet 31 •· Temperature Coefficients I" +0.048%/°C Pallets per 40ft. Container 26 Temperature Coefficients V oc -0.280%/°C Pallet Dimensions 1752 X 1130 X 1264 mm Normal Operating Cell Temperature (NOCT) 45°C±2°C Pallet Weight (kg) 720 Modules per 40ft. Container 806 Aptos Solar Technology reserves the right to make specification changes without notice lntertek IEC61730 UL 61730 C US IEC 61215,IEC 61730 UL61730 901 E Grovemont St- 101118284 & 201821233/21/2024 DATA SHEET IQ8M and IQ8A Microinverters Our newest IQ8 Microinverters are the industry’s first microgrid-forming, software defined microinverters with split-phase power conversion capability to convert DC power to AC power efficiently. The brain of the semiconductor-based microinverter is our proprietary application specific integrated circuit (ASIC) which enables the microinverter to operate in grid-tied or off-grid modes. This chip is built in advanced 55nm technology with high speed digital logic and has superfast response times to changing loads and grid events, alleviating constraints on battery sizing for home energy systems. Easy to install • Lightweight and compact with plug-n- play connectors • Power Line Communication (PLC) between components • Faster installation with simple two-wire cabling High productivity and reliability • Produce power even when the grid is down* • More than one million cumulative hours of testing • Class II double-insulated enclosure • Optimized for the latest high-powered PV modules Microgrid-forming • Complies with the latest advanced grid support** • Remote automatic updates for the latest grid requirements • Configurable to support a wide range of grid profiles • Meets CA Rule 21 (UL 1741-SA) and IEEE 1547:2018 (UL 1741-SB) Note: IQ8 Microinverters cannot be mixed together with previous generations of Enphase microinverters (IQ7 Series, IQ6 Series, etc) in the same system. © 2022 Enphase Energy. All rights reserved. Enphase, the Enphase logo, IQ8 Microinverters, and other names are trademarks of Enphase Energy, Inc. Data subject to change. *Only when installed with IQ System Controller 2, meets UL 1741. **IQ8M and IQ8A support split-phase, 240V installations only. Part of the Enphase Energy System, IQ8 Series Microinverters integrate with the IQ Battery, IQ Gateway, and the Enphase App monitoring and analysis software. IQ8 Series Microinverters redefine reliability standards with more than one million cumulative hours of power-on testing, enabling an industry-leading limited warranty of up to 25 years. Connect PV modules quickly and easily to IQ8 Series Microinverters using the included Q-DCC-2 adapter cable with plug-n-play MC4 connectors. IQ8 Series Microinverters are UL listed as PV Rapid Shutdown Equipment and conform with various regulations, when installed according to manufacturer’s instructions. IQ8MA-12A-DS-0069-02-EN-US-2022-12-02 (1) Pairing PV modules with wattage above the limit may result in additional clipping losses. See the compatibility calculator at https://link.enphase.com/module-compatibility. (2) Nominal voltage range can be extended beyond nominal if required by the utility. (3) Limits may vary. Refer to local requirements to define the number of microinverters per branch in your area. IQ8M and IQ8A Microinverters IQ8M-72-2-US IQ8A-72-2-US W 260 – 460 295 – 500 V 54-cell / 108 half-cell, 60-cell / 120 half-cell, 66-cell / 132 half-cell and 72-cell / 144 half-cell 30 – 45 32 – 45 V 16 – 58 V 22 / 58 V 60 A 12 A 25 A 20 II mA 0 1 x 1 Ungrounded array; No additional DC side protection required; AC side protection requires max 20A per branch circuit IQ8M-72-2-US IQ8A-72-2-US VA 330 366 VA 325 349 V 240 / 211 – 264 A 1.35 1.45 Hz 60 Hz 47 – 68 Arms 2 11 <5% III mA 30 1.0 0.85 leading – 0.85 lagging %97.8 97.7 %97.5 97 mW 60 -40°C to +60°C (-40°F to +140°F) 4% to 100% (condensing) MC4 212 mm (8.3”) x 175 mm (6.9”) x 30.2 mm (1.2”) 1.08 kg (2.38 lbs) Natural convection – no fans Yes PD3 Class II double-insulated, corrosion resistant polymeric enclosure NEMA Type 6 / outdoor INPUT DATA (DC) Commonly used module pairings1 Module compatibility MPPT voltage range Operating range Min. / Max. start voltage Max. input DC voltage Max. continuous input DC current Max. input DC short-circuit current Max. module Isc Overvoltage class DC port DC port backfeed current PV array configuration OUTPUT DATA (AC) Peak output power Max. continuous output power Nominal (L-L) voltage / range2 Max. continuous output current Nominal frequency Extended frequency range AC short circuit fault current over 3 cycles Max. units per 20 A (L-L) branch circuit3 Total harmonic distortion Overvoltage class AC port AC port backfeed current Power factor setting Grid-tied power factor (adjustable) Peak efficiency CEC weighted efficiency Night-time power consumption MECHANICAL DATA Ambient temperature range Relative humidity range DC Connector type Dimensions (H x W x D) Weight Cooling Approved for wet locations Pollution degree Enclosure Environ. category / UV exposure rating COMPLIANCE Certifications CA Rule 21 (UL 1741-SA), UL 62109-1, IEEE 1547:2018 (UL 1741-SB), FCC Part 15 Class B, 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. IQ8MA-12A-DS-0069-02-EN-US-2022-12-02 901 E Grovemont St- 101118284 & 201821233/21/2024 X-IQ-AM1-240-4 X2-IQ-AM1-240-4 (IEEE 1547:2018) The IQ Combiner 4/4C with IQ Gateway and integrated LTE-M1 cell modem (included only with IQ Combiner 4C) consolidates interconnection equipment into a single enclosure. It streamlines IQ Microinverters and storage installations by providing a consistent, pre-wired solution for residential applications. It offers up to four 2-pole input circuits and Eaton BR series busbar assembly. IQ Combiner 4/4C Data Sheet Enphase Networking Smart • Includes IQ Gateway for communication and control • Includes Mobile Connect cellular modem (CELLMODEM-M1-06-SP-05), included only with IQ Combiner 4C • Includes solar shield to match Enphase IQ Battery aesthetics and deflect heat • Supports Wi-Fi, Ethernet, or cellular connectivity • Optional AC receptacle available for PLC bridge • Provides production metering and consumption monitoring Simple • Mounts on single stud with centered brackets • Supports bottom, back and side conduit entry • Allows up to four 2-pole branch circuits for 240VAC plug-in breakers (not included) • 80A total PV or storage branch circuits Reliable • Durable NRTL-certified NEMA type 3R enclosure • Five-year limited warranty • Two years labor reimbursement program coverage included for both the IQ Combiner SKU's • UL listed • X2-IQ-AM1-240-4 and X2-IQ-AM1-240-4C comply with IEEE 1547:2018 (UL 1741-SB, 3rd Ed.) X-IQ-AM1-240-4C X2-IQ-AM1-240-4C (IEEE 1547:2018) To learn more about Enphase offerings, visit enphase.com IQ-C-4-4C-DS-0103-EN-US-12-29-2022 © 2022 Enphase Energy. All rights reserved. Enphase, the Enphase logo, IQ Combiner 4/4C, and other names are trademarks of Enphase Energy, Inc. Data subject to change. MODEL NUMBER IQ Combiner 4 X-IQ-AM1-240-4 X2-IQ-AM1-240-4 (IEEE 1547:2018) IQ Combiner 4 with IQ Gateway printed circuit board for integrated revenue grade PV production metering (ANSI C12.20 ± 0.5%) and consumption monitoring (± 2.5%). Includes a silver solar shield to match the IQ Battery and IQ System Controller 2 and to deflect heat. IQ Combiner 4C X-IQ-AM1-240-4C X2-IQ-AM1-240-4C (IEEE 1547:2018) IQ Combiner 4C with IQ Gateway printed circuit board for integrated revenue grade PV production metering (ANSI C12.20 ± 0.5%) and consumption monitoring (± 2.5%). Includes Mobile Connect cellular modem (CELLMODEM-M1-06-SP-05), a plug-and-play industrial-grade cell modem for systems up to 60 microinverters. (Available in the US, Canada, Mexico, Puerto Rico, and the US Virgin Islands, where there is adequate cellular service in the installation area.) Includes a silver solar shield to match the IQ Battery and IQ System Controller and to deflect heat. ACCESSORIES AND REPLACEMENT PARTS (not included, order separately) Supported microinverters IQ6, IQ7, and IQ8. (Do not mix IQ6/7 Microinverters with IQ8) - Includes COMMS-KIT-01 and CELLMODEM-M1-06-SP-05 with 5-year Sprint data plan - 4G based LTE-M1 cellular modem with 5-year Sprint data plan - 4G based LTE-M1 cellular modem with 5-year AT&T data plan Communications Kit COMMS-CELLMODEM-M1-06 CELLMODEM-M1-06-SP-05 CELLMODEM-M1-06-AT-05 Circuit Breakers BRK-10A-2-240V BRK-15A-2-240V BRK-20A-2P-240V BRK-15A-2P-240V-B BRK-20A-2P-240V-B Supports Eaton BR210, BR215, BR220, BR230, BR240, BR250, and BR260 circuit breakers. Circuit breaker, 2 pole, 10A, Eaton BR210 Circuit breaker, 2 pole, 15A, Eaton BR215 Circuit breaker, 2 pole, 20A, Eaton BR220 Circuit breaker, 2 pole, 15A, Eaton BR215B with hold down kit support Circuit breaker, 2 pole, 20A, Eaton BR220B with hold down kit support XA-SOLARSHIELD-ES Replacement solar shield for IQ Combiner 4/4C XA-PLUG-120-3 Accessory receptacle for Power Line Carrier in IQ Combiner 4/4C (required for EPLC-01) X-IQ-NA-HD-125A Hold-down kit for Eaton circuit breaker with screws Consumption monitoring CT (CT-200-SPLIT/CT-200-CLAMP) A pair of 200A split core current transformers ELECTRICAL SPECIFICATIONS Rating Continuous duty System voltage Eaton BR series busbar rating 120/240VAC, 60 Hz 125A 65AMax. continuous current rating Max. continuous current rating (input from PV/storage)64A Max. fuse/circuit rating (output) Branch circuits (solar and/or storage) 90A Up to four 2-pole Eaton BR series Distributed Generation (DG) breakers only (not included) Max. total branch circuit breaker rating (input) IQ Gateway breaker 80A of distributed generation/95A with IQ Gateway breaker included 10A or 15A rating GE/Siemens/Eaton included Production metering CT 200A solid core pre-installed and wired to IQ Gateway MECHANICAL DATA 37.5 cm x 49.5 cm x 16.8 cm (14.75 in x 19.5 in x 6.63 in). Height is 53.5 cm (21.06 in) with mounting brackets. 7.5 kg (16.5 lbs) -40ºC to +46ºC (-40ºF to 115ºF) Natural convection, plus heat shield Outdoor, NRTL-certified, NEMA type 3R, polycarbonate construction Dimensions (WxHxD) Weight Ambient temperature range Cooling Enclosure environmental rating Wire sizes • 0A to 50A breaker inputs: 14 to 4 AWG copper conductors • 0A breaker branch input: 4 to 1/0 AWG copper conductors • ain lug combined output: 10 to 2/0 AWG copper conductors • eutral and ground: 14 to 1/0 copper conductors • lways follow local code requirements for conductor sizing. Up to 3,000 meters (9,842 feet)Altitude INTERNET CONNECTION OPTIONS Integrated Wi-Fi IEEE 802.11b/g/n Cellular Ethernet CELLMODEM-M1-06-SP-05, CELLMODEM-M1-06-AT-05 (4G based LTE-M1 cellular modem). Note that an Mobile Connect cellular modem is required for all Enphase Energy System installations. Optional, IEEE 802.3, Cat5E (or Cat6) UTP Ethernet cable (not included) COMPLIANCE Compliance, IQ Combiner CA Rule 21 (UL 1741-SA) IEEE 1547:2018 - UL 1741-SB, 3rd Ed. (X2-IQ-AM1-240-4 and X2-IQ-AM1-240-4C) CAN/CSA C22.2 No. 107.1, Title 47 CFR, Part 15, Class B, ICES 003 Production metering: ANSI C12.20 accuracy class 0.5 (PV production) Consumption metering: accuracy class 2.5 Compliance, IQ Gateway UL 60601-1/CANCSA 22.2 No. 61010-1 IQ Combiner 4/4C IQ-C-4-4C-DS-0103-EN-US-12-29-2022 901 E Grovemont St- 101118284 & 201821233/21/2024 snapnrack.com Ultra Rail Industry leading Wire Management Solutions Single Tool Installation Mounts available for all roof types All SnapNrack Module Clamps & Accessories are compatible with both raiil profi les Start Installing Ultra Rail Today UR-40 UR-60 The Ultimate Value in Rooftop Solar Solar Mounting Solutions © 2016 by SnapNrack Solar Mounting Solutions. All rights reserved 877-732-2860 www.snapnrack.com contact@snapnrack.com SnapNrack_Ultra Rail Sales Brochure_v.1.4 SnapNrack Solar Mounting Solutions are engineered to optimize material use and labor resources and improve overall installation quality and safety. Quality. Innovative. Superior. Unparalleled Wire Management Open rail channel provides room for running wires resulting in a long-lasting quality install Industry best wire management o ering includes Junction Boxes, Universal Wire Clamps, MLPE Attachment Kits, and Conduit Clamps System is fully bonded and listed to UL 2703 Standard © 2019 by SnapNrack Solar Mounting Solutions. All rights reserved 877-732-2860 www.snapnrack.com contact@snapnrack.com SnapNrack Ultra Rail System A sleek, straightforward rail solution for mounting solar modules on all roof types. Ultra Rail features two rail profi les; UR-40 is a lightweight rail profi le that is suitable for most geographic regions and maintains all the great features of SnapNrack rail, while UR-60 is a heavier duty rail profi le that provides a larger rail channel and increased span capabilities. Both are compatible with all existing mounts, module clamps, and accessories for ease of install. The Entire System is a Snap to Install New Ultra Rail Mounts include snap-in brackets for attaching rail Compatible with all the SnapNrack Mid Clamps and End Clamps customers love Universal End Clamps and snap-in End Caps provide a clean look to the array edge Heavy Duty UR-60 Rail UR-60 rail profi le provides increased span capabilities for high wind speeds and snow loads Taller, stronger rail profi le includes profi le- specifi c rail splice and end cap All existing mounts, module clamps, and accessories are retained for the same great install experience 901 E Grovemont St- 101118284 & 201821233/21/2024 REENIIGER LARUTCURTS AINROFILACFOETATS GNELANOISSEFORPDERETSEHCAZHTENEKL N AP Exp. 3-31-25 No. S3878 R U 901 E Grovemont St- 101118284 & 201821233/21/2024 snapnrack.com Certification Details SnapNrack Ultra Rail system has been evaluated by Underwriters Laboratories (UL) and Listed to UL/ANSI Standard 2703 for Grounding/Bonding, Mechanical Loading, and Fire Classification. The Ultra Rail system has been designed in compliance with UL Standard 2703 Section 9.1 Exception, which permits accessible components that are not part of the fault current ground path to not be electrically bonded to the mounting system (e.g. roof attachments, array skirt, etc.). For more details on the integrated grounding functionality see the Grounding Specifications section. This racking system may be used to ground and/or mount a PV module complying with UL 1703 only when the specific module has been evaluated for grounding and/or mounting in compliance with the included instructions. See the Grounding Specifications for the list of modules tested with the Ultra Rail system for integrated grounding. Ground Lugs have been evaluated to both UL 467 and UL 2703 Listing requirements. Ultra Rail has been listed with a number of Module Level Power Electronic (MLPE) devices. A complete list can be found in the Grounding Specifications section. The mounting system Bonding Listing is only valid when installed with a Non-Separately Derived PV system. The PV system is required to have a direct electrical connection to another source, such as connecting to the grid via a grid interactive inverter. SnapNrack recommends that bare copper never come into contact with aluminum. Grounding/Bonding The Ultra Rail system is Listed for mechanical loading for different load ratings depending on the mounting configuration and PV module installed. For more details on the mechanical loading details see the Mechanical Loading Specifications section. SnapNrack engineered systems should only be used with SnapNrack components and hardware. Any application outside of those specified in this Installation Manual and the Structural Engineering Report may void the warranty and structural certification could become invalid. If the module clamps have been engaged and need to be loosened and reengaged, SnapNrack recommends moving the module frame 3mm to engage the bonding pin in a new location. The UL Listing covers mechanical load ratings for the various span lengths, module orientations and positive, negative, and side load ratings. These values can be found in the Mechanical Loading Specifications section. SnapNrack recommends a periodic re-inspection of the completed installation for loose components, loose fasteners, and any corrosion, such that if found, the affected components are to be immediately replaced. Mechanical Loading Fire The Ultra Rail system has been evaluated for a Class A System Fire Classification for a Steep-Sloped Roof (≥ 2:12 pitch) using Type 1 and Type 2 modules. In order to maintain the System Classification, modules are clamped to the mounting rails between 0 and 12 inches from the top and bottom edges of the module. The Ultra Rail system has been evaluated for a Class A System Fire Classification for a Low-Sloped Roof (< 2:12 pitch) using Type 1 and Type 2 modules. In order to maintain the System Classification, modules are clamped to the mounting rails be- tween 0 and 16.3 inches from the top and bottom edges of the module. The optional Array Skirt accessory has also been evaluated and the Ultra Rail system will maintain the Class A System Fire Classification detailed above if installed with the Skirt. Because the system was tested at 5 inches above the test roof fixture Ultra Rail can be installed without any height restric- tions and will maintain the Class A System Fire Classification. See Rail Installation section for potential module-specific height restrictions due to module temperature. 901 E Grovemont St- 101118284 & 201821233/21/2024 snapnrack.com 56 Grounding Specifications Ultra Rail has been tested with the following UL Listed modules: The Ultra Rail System employs top-down clamps which have been evaluated for frame-to-system bonding, at specific mounting torques and with the specific modules listed below. The system has been assessed to a maximum Over-Current Device (OCD) protection level of 20 amps. The UL file number is included in parentheses below. Hyundai Heavy Industries Co Ltd (E325005) - HiS-MXXXRG Series where XXX is 235 to 275; HiS-SXXXRG where XXX is 245 to 295; HiS-SXXXRW where XXX is 250 to 265; HiS-MXXXMG where XXX is 210 to 270; HiS-SXXXMG where XXX is 220 to 275. All may be followed by the suffix BK or blank. Jinko Solar (E362479) - JKMXXXP-60, JKMXXXPP-60, JKMXXXP-60-V, JKMXXXP-60-J4, JKMXXXP-60B-J4 where XXX is 200 to 290; JKMXXXP-72, JKMXXXPP-72, JKMXXXP-72-V, JKMXXXPP-72-V where XXX is 250 to 360; JKMXXXM-60 where XXX is 200 to 305; JKMXXXM-72 where XXX is 250 to 365; JKMXXXM-60L where XXX is 305-325; JKMXXXM-60HBL (310-330); JKMXXXM-72L-V( 370-390); JKMXXXM-72HL-V (380-400). Kyocera (E467150) - KU-60 1000 V Series - KUXXX, where XXX is 250 to 275, followed -6BCA, -6BFA, -6BPA, -6DCA, -6DFA, -6DPA, -6MCA, -6MPA, -6XCA, -6XPA, -6ZCA, -6ZPA, -6ZPB, -6ZCB, -6ZPC, -6ZCC, -6ZPD, -6ZCD, -6ZPE, 6ZCE, -6MPC, -6MCC, -6MPB or -6MCB; KU-80 1000 V Series - KUXXX, where XXX is 315 to 335, followed by -8BCA, -8BFA or -8BPA. LG (E329725) – LGXXXQ1C-A5 where XXX is 340 to 385; LGXXXQ1K-A5 where XXX is 315 to 375; LGXXXN1C-V5 where XXX is 320 to 350; LGXXXN1K-V5 where XXX is 320 to 340; LGXXXQ1C-V5 where XXX is 340 to 375; LGXXXQ1K where XXX is 350 to 365. Panasonic (E181540) – VBHNXXXSA16 where XXX is 320 to 335; VBHNXXXKA01 and VBHNXXXKA02 where XXX is 310 to 325, VBHNXXXKA03 and VBHNXXXKA04 where XXX is 310 to 325; VBHNXXXSA17 and VBHNXXXSA18 where XXX is 325 to 335; VBHNXXXSA17E where XXX is 325 to 330. REC Solar AS (E308147) - RECXXX, where XXX is 214 to 270, all may be followed by PE, PE(BLK), PE-US, PE-US(BLK), PEQ2 or PEQ3. Renesola Jiangsu Ltd (E312637) - JCXXXM-24/Bb Series where XXX is 200 to 270; JCXXXM-24/BBh Series where XXX is 235 to 270. Suniva Inc (E333709) - MVX-XXX-60-5-YYY where XXX is 235 to 265 and YYY is 701 or 7B1; OPT-XXX-60-4-YYY where XXX is 250 to 275 and YYY is 800 or 8B0. *Sunpower (E246423)- Gen 3 or Gen 5 frame models SPR-XYY-### where YY represents numbers 18, 19, 20, 21 or 22, and ### represents any number from 365 to 310 and 274 to 233; Gen 3 or Gen 5 frame models SPR-EYY-### where YY represents numbers 18, 19, 20, 21 or 22, and ### represents any number from 345 to 285 and 250 to 225. Talesun Solar (E359349) – TP660P-XXX where XXX is 235 to 285; TP660M-XXX where XXX is 240 to 300; TP672P-XXX where XXX is 280 to 345; TP672M-XXX where XXX is 290 to 360; TP672M-XXX where XXX is 360; TP660M-XXX where XXX is 295- 300. GROUNDING MARKING DETAILS All components included in the Ultra Rail UL 2703 Listing for grounding/bonding are packaged and marked with the UL logo, SnapNrack File E359313, and “PV Mounting System” The SnapNrack Ground Lug is marked with the ground symbol Ilsco Ground Lugs have green colored set screws or bolts to indicate connection to the grounding electrode conductor snapnrack.comGrounding Specifications Talesun Solar (E349638) – TP660P-XXX where XXX is 210 to 255; TP660M-XXX where XXX is 215 to 260; TP672P-XXX where XXX is 260 to 300; TP672M-XXX where XXX is 270 to 310; all may be followed by “B”. Trina Solar Ltd (E306515) – TSM-XXXPA05, TSM-XXXPA05.05, TSM-XXXPA05.08, where XXX is 215 to 260; TSM-XXXPD05, TSM-XXXPD05.05, TSM-XXXPD05.08 where XXX is 240 to 280; TSM-XXXPD05.08D where XXX is 245 to 275; TSM- XXXXDD05A(II), TSM-XXXDD05A.05(II), TSM-XXXDD05A.08(II) where XXX is 260 to 300. All may be followed by Black or White. Yingli Energy (China) Co Ltd (E320066) – YLXXXP-29b where XXX is 215 to 260; YLXXXA-29b where XXX is 220 to 255. NRTL Listed PV Modules: Boviet Solar - BVM6610P-XXX where XXX is 225 to 275; BVM6610M-XXX where XXX is 235 to 280; BVM6612P-XXX where XXX is 270 to 330; BVM6612M-XXX where XXX is 280 to 340. Canadian Solar - CS6P-XXX-P, CS6P-XXX-M where XXX is 200 to 300; CS6P-XXX-P-SD, CS6K-XXX-P-SD where XXX is 240 to 300; CS6K-XXX-M, CS6K-XXX-MS, CS6K-XXX-M-SD where XXX is 240 to 305; CS6K-XXX-P where XXX is 220 to 300; CS6X- XXX-P where XXX is 250 to 360; CS6V-XXX-M where XXX is 215 to 225; CS6V-XXX-P where XXX is 250 to 255; CS3K-XXX-P where XXX is 250 to 310; CS3K-XXX-MS where XXX is 280 to 330; CS1K-XXX-MS where XXX is 285 to 345, CS1H-XXX-MS, CS1H- XXX-MS-AB where XXX is 310 to 350. ET Solar - ET-P660XXXBB where XXX is 200 to 265; ET-P660XXXWB where XXX is 200 to 265; ET-P660XXXWW where XXX is 200 to 265; ET-P660XXXWWG where XXX is 235 to 265; P660XXXWB/WW where XXX is 200 to 265 and may be followed by WB or WW; P660XXXWWG where XXX is 240 to 250; M660XXXBB where XXX is 250 to 265; M660XXXWW where XXX is 200 to 270. *Hanwha Q Cells - B.LINE PLUS BFR-G4.1-XXX, B.LINE PRO BFR-G4.1-XXX, Q.BASE GY-XXX, Q.PEAK G4-XXX, Q.PLUS BFR- G3.1-XXX, Q.PLUS BFR-G4-XXX, Q.PLUS BFR-G4.1-XXX, Q.PLUS BFR-G4.1/TAA-XXX, Q.PLUS BRF-GY-XXX, Q.PLUS GY-XXX, Q.PLUS G4-XXX, Q.PRO BFR-G4-XXX, Q.PRO BFR-G4.1-XXX, Q.PRO BFR-G4.3-XXX, Q.PRO BFR-GY-XXX, Q.PRO BLK-GY-XX, Q.PRO G4-XXX, Q.PRO GY-XXX, Q.PRO GY/SC-XXX, where XXX is 245 to 295; Q.PEAK BLK-G3.1-XXX, Q.PEAK BLK-G4.1-XXX, Q.PEAK BLK-G4.1/TAA-XXX, Q.PEAK G3.1-XXX, Q.PEAK G4.1-XXX, Q.PEAK G4.1/MAX-XXX, Q.PEAK G4.1/TAA-XXX where XXX is 270 to 325; Q.PEAK DUO BLK-G5-XXX, Q.PEAK DUO G5-XXX, Q.PLUS DUO-G5-XXX where XXX is 290 to 360; Q.PEAK DUO-G7-XXX, Q.PEAK DUO-G7.2-XXX where XXX is 310 to 350; Q.PEAK DUO-BLK-G7-XXX where XXX is 290 to 350; Q.PEAK DUO-G6-XXX, Q.PEAK DUO-G6+-XXX where XXX is 320 to 360; Q.PEAK DUO-BLK-G6-XXX, Q.PEAK DUO-BLK-G6+-XXX where XXX is 310 to 350; Q.PEAK DUO-G8-XXX, Q.PEAK DUO-BLK-G8-XXX, Q.PEAK DUO-G8+-XXX, Q.PEAK DUO-BLK-G8+-XXX where XXX is 290 to 360; Q.PLUS L-G4-XXX, Q.PLUS L-G4.1-XXX, Q.PLUS L-G4.2-XXX where XXX is 280 to 355; Q.PEAK L-G4.1- XXX, Q.PEAK L-G4.2-XXX where XXX is 330-390; Q.PLUS DUO-L-G5-XXX, Q.PLUS DUO-L-G5.1-XXX, Q.PLUS DUO-L-G5.2-XXX, Q.PLUS DUO-L-G5.3-XXX where XXX is 340 to 425; Q.PEAK DUO-L-G5.2-XXX, Q.PEAK DUO-L-G5.3-XXX where XXX is 360 to 425; Q.PEAK DUO-L-G7-XXX, Q.PEAK DUO-L-G7.1-XXX, Q.PEAK DUO-L-G7.2-XXX, Q.PEAK DUO-L-G7.3-XXX where XXX is 360 to 415; Q.PEAK DUO-L-G6-XXX, Q.PEAK DUO-L-G6.2-XXX, Q.PEAK DUO-L-G6.3-XXX, Q.PEAK DUO-L-G8-XXX, Q.PEAK DUO-L- G8.1-XXX, Q.PEAK DUO-L-G8.2-XXX, Q.PEAK DUO-L-G8.3-XXX where XXX is 360 to 430. Hanwha SolarOne - HSL60P6-PB-X-YYYQ where X is 2 or 4, and YYY is 230 to 270, may be followed by additional su ffixes. JA Solar - JAP6-60-XXX/3BB where XXX is 235 to 265; JAM6-60-XXX/SI where XXX is 250 to 270; JAP72S01-XXX/SC where XXX is 315 to 335; JAP6(k)-72-XXX/4BB where XXX is 305 to 325. LG Electronics Inc. - LGXXXS1C-G4 where XXX is 250 to 300; LGXXXN1K-G4 where XXX is 280 to 300; LGXXXN1C-G4 where XXX is 280 to 340; LGXXXN2C-G4, LGXXXN2W-G4, where XXX is 360 to 395; LGXXXN2K-G4, where XXX is 360 to 385; LGXXXS2C-G4, LGXXXS2W-G4, where XXX is 300 to 360; LGXXXN2C-B3, LGXXXN2W-B3, where XXX is 330 to 400; LGXXXS1C-A5 where XXX is 280 to 320; LGXXXN1C-A5 where XXX is 320 to 345; LGXXXN1K-A5 where XXX is 310 to 335. Longi Green Energy Technology Co., Ltd.: LR6-60-XXXM, LR6-60BK-XXXM, LR60-HV-XXXM, where XXX is 270 to 300; LR6- 60PB-XXXM, LR6-60PE-XXXM, LR6-60PH-XXXM, where XXX is 280 to 320; LR6-60HPB-XXXM where XXX is 295 to 320; LR6- 60HPH-XXXM where XXX is 300 to 320. 901 E Grovemont St- 101118284 & 201821233/21/2024 snapnrack.com 58 Mission Solar: Models MSEXXXSO5T where XXX is 260 to 290; MSEXXXSO5K where XXX is 270 to 290; MSEXXXSQ5T where XXX is 280 to 300; MSEXXXSQ5K where XXX is 285 to 305; MSEXXXMM4J and MSEXXXMM6J where XXX is 320 to 330; MSEXXXSO6W where XXX is 320 to 340; MSEXXXSO4J and MSEXXXSO6J where XXX is 320 to 350; MSEXXXSQ4S and MSEXXXSQ6S where XXX is 345 to 365; MSEXXXSQ8K where XXX is 290 to 315; MSEXXXSQ8T where XXX is 285 to 310. REC Solar PTE. LTD. - RECXXXPE where the XXX is 214 to 280; RECXXXTP where XXX is 260 to 300; RECXXXTP2 where XXX is 260 to 300; RECXXXTP IQ where XXX is 260 to 300; All may be followed by BLK; RECXXXTP72 where XXX is 330 to 345; RECXXX where XXX is 285 to 325, followed by PE72, PE72BLK, PE72 Q2 or PE72 Q3; RECXXXPE72XV where XXX is 295 to 325, followed by PE72 XV, PE72 XV Q2 or PE72 XV Q3; RECXXXNP, where XXX is 310-330; RECXXXTP2M, where XXX is 300- 315. Silfab - SLAXXX-M, where XXX is 280 to 300; SLGXXX-M, where XXX is 335 to 360; SLAXXX-P, where XXX is 250 to 265; SLGXXX-P, where XXX is 300 to 315; SSAXXX-M, where XXX is 280 to 300; SSGXXX-M, where XXX is 335 to 360; SSAXXX-P, where XXX is 250 to 260; SSGXXX-P, where XXX is 300 to 315. Solaria: Solaria PowerXT-XXXR-PD and Solaria PowerXT-XXXR-BD, where XXX is 315 to 385. Solar World - SWXXX-Mono where XXX is 200 to 300; SWXXX-Mono XL where XXX is 320 to 350. All may be followed by Black. Suniva Inc – OPTXXX-60-4-YYY where XXX is 240 to 300 and YYY is 100; OPTXXX-60-4-YYY where XXX is 235 to 300 and YYY is 1B0. Trina Solar Ltd - - TSM-XXXPD05.002, TSM-XXXPD05.082, TSM-XXXPD05.05S, TSM-XXXPD05.08S where XXX is 215 to 275; TSM-XXXDD05A.082(II) where XXX is 260 to 315; all may be followed by Black. Ultra Rail has been tested with the following Module Level Power Electronic (MLPE) devices: Celestica International – Listed, Rapid Shutdown Device models DG-006-F001201x and DG-006-F001401x. Enphase – R/C (QIKH2) (QIMS2), Microinverter Models M250, M215 and C250. Provided with or without Enphase R/C (QIMS2) Model EFM-XXMM frame mount kit and Enphase R/C (QIMS2) Engage Cable Model ETXX-240, ETXX-208 or ETXX-277; NRTL Listed, IQ6-60-2-US, IQ6PLUS-72-2-US, IQ7-60-2-US, IQ7-60-B-US, IQ7PLUS-72-2-US, IQ7PLUS-72-B-US. Ginlong Technologies – NRTL Listed, Rapid Shutdown Device Model Solis-RSD-1G; Solis-MLRSD-R1-1G and Solis-MLRSD-R2-1G. SolarEdge – NRTL Listed, Optimizer Models P300-5NC4ARS, P320-5NC4ARS, P300-5NC4AFS, P320-5NC4AFS, P370- 5NC4AFS, or P400-5NC4AFS. Note: Ginlong Solis-MLRSD-R1-1G and Solis-MLRSD-R2-1G have not been investigated for bonding since the enclosures are constructed entirely of polymeric materials. All MLPE models noted above have been evaluated for use with SnapNrack MLPE Rail Attachment Kit and MLPE Frame Attachment Kit except SolarEdge Models P300-5NC4ARS and P320-5NCARS. The following MLPE devices have been evaluated for use with the SnapNrack MLPE Rail Attachment Kit only: SMA – Rapid Shutdown Device Model RSB-2S-US-10 Only bonding to the backplates of these devices was evaluated. Functionality of the devices was not considered. The SolarEdge Microinverter Frame Mounted Bracket of Models P300-5NC4AFS and P320-5NC4AFS has been evaluated for all modules within flange thickness range of 1.5 mm to 2.3 mm. When adding modules for bonding, consideration must be given to the SolarEdge Microinverter Frame Mounted Models P300- 5NC4AFS and P320-5NC4AFS. This product clamps onto the module flange using an integral bracket. Suniva modules were not evaluated for bonding to the Mounting Bracket. Additional MLPE devices were evaluated for attachment to the module frames through the device mounting means. These devices have not been evaluated for bonding: Tigo – Monitoring Device models TS4-R-F, TS4-R-M, TS4-R-O, TS4-R-S, TS4-R-M-DUO, TS4-R-O-DUO, TS4-R-S-DUO 901 E Grovemont St- 101118284 & 201821233/21/2024 901 E Grovemont St- 101118284 & 201821233/21/2024 0 REVISIONS DOC ID: PROJECT SUMMARY GR I D - T I E D S O L A R P O W E R S Y S T E M SSPR-013 90 1 G R O V E M O N T S T R E E T , DATE: 01/22/24 CONTRACTOR: PAUL NAKHLE COMPANY: SOLECTRIC SOLUTION SA N T A A N A , C A 9 2 7 0 6 AP P E N D I X DIRECTORY PAGE 0 PROJECT SUMMARY 01-PV-0.0 SITE PLAN AND FIRE SETBACKS 05-E-1.0 SINGLE-LINE DIAGRAM 01-PV-1.0 SAFETY LABELS 02-S-1.0 ATTACHMENT PLAN 02-S-1.1 ATTACHMENT DETAILS MODULE DATASHEET MICROINVERTER DATASHEET DISCONNECT DATASHEET COMBINER DATASHEET MOUNTING SYSTEM DATASHEET MOUNTING SYSTEM ENGINEERING LETTER UL 1703 CLASS A FIRE CERTIFICATION UL 2703 GROUND AND BONDING CERTIFICATION ANCHOR DATASHEET PROJECT DETAILS PROPERTY ADDRESS 901 GROVEMONT STREET, SANTA ANA, CA 92706 ZONING RESIDENTIAL USE AND OCCUPANCY CLASSIFICATION ONE OR TWO-FAMILY DWELLING GROUP (GROUP R3) UTILITY COMPANY SOUTHERN CALIFORNIA EDISON CO. ELECTRIC CODE 2022 CEC FIRE CODE 2022 CFC OTHER BUILDING CODES 2022 CA BUILDING CODE 2022 CA RES. BUILDING CODE 2022 CA PLUMBING CODE 2022 CA MECHANICAL CODE 2022 CA ENERGY CODE CONTRACTOR INFORMATION COMPANY SOLECTRIC SOLUTION ADDRESS 6083 ANDREWS CT, FONTANA, CA 92336 CONTRACTOR SIGNATURE CONTRACTOR LICENSE C10 1006294 SCOPE OF WORK THIS PROJECT INVOLVES THE INSTALLATION OF A PHOTOVOLTAIC POWER SYSTEM. SOLAR PANELS WILL BE RACKED USING A PREENGINEERED RACKING SYSTEM. THE RACKED MODULES WILL BE ELECRTICALLY CONNECTED WITH DC TO AC POWER INVERTERS AND INTERCONNECTED TO THE LOCAL UTILITY USING MEANS AND METHODS CONSISTENT WITH THE RULES ENFORCED BY THE LOCAL UTILITY AND PERMITTING JURISDICTION. THIS DOCUMENT HAS BEEN PREPARED FOR THE PURPOSE OF DESCRIBING THE DESIGN OF A PROPOSED PV SYSTEM WITH ENOUGH DETAL TO DEMONSTRATE THE COMPLIANCE WITH APPLICABLE CODES AND REGULATIONS. THE DOCUMENT SHALL NOT BE RELIED UPON AS A SUBSTITUTE FOR FOLLOWING MANUDACTURER INSTALLATION INSTRUCTIONS. THE SYSTEM SHALL COMPLY WITH ALL MANUFACTURERS LISTING AND INSTALLATION INSTRUCTIONS. AS WELL AS ALL APPLICABLE CODES. NOTHING IN THIS DOCUMENT SHALL BE INTERPRETED IN A WAT THAT OVERRIDES THEM. CONTRACTOR IS RESPONSIBLE FOR VERIFICATION OF ALL CONDITIONS, DIMENSIONS, AND DETAILS IN THIS DOCUMENT. SYSTEM DETAILS DESCRIPTION NEW GRID INTERACTIVE PV SYSTEM DC RATING OF SYSTEM 6.4 KW AC RATING OF SYSTEM 5.58 KW INVERTER(S)16 ENPHASE IQ8A-72-2-US MODULE 16 APTOS SOLAR TECHNOLOGY LLC, DNA-108-BF10-400W ARRAY WIRING 2 STRINGS OF 8 INTERCONNECTION DETAILS POINT OF CONNECTION NEW LOAD-SIDE AC CONNECTION PER CEC 705.12(B)(2)(3)(2) AT MSP UTILITY SERVICE 120/240V 1Φ LOCATION MAIN SERVICE PANEL 200A MCB W/200A BUSBAR. SITE DETAILS ASHRAE EXTREME LOW -6°C ASHRAE 2% HIGH 39°C WIND SPEED RISK CATEGORY II WIND EXPOSURE CATEGORY C GROUND SNOW LOAD 0 PSF 1 PV-1 LOCAL NTS 9°5. MPH VSE Project Number: U3998.0088.241 651 W. galena park blvd. ste. 101 draper, Utah 84020 phone (801) 990-1775 www.vectorse.com ® Vector Structural Engineering has reviewed the existing structure with loading from the solar array and screw connections to the existing framing. The design of the racking system, racking connections, and all other structural is by others. Mechanical, architectural, and all other nonstructural aspects of the design are by others. Electrical is by others, unless stamped by Dean Levorsen. 01/29/2024 The scope of the plans is for the installation of the solar photovoltaic system only and the approval is subject to compliance with all applicable city and state codes and regulations regarding construction. The approval of the plans does not constitute any certification of the accuracy, completeness, or building permit status of the existing buildings and structures as shown. Bldg#: 101118284 Elec#: 20182123 901 E Grovemont St- 101118284 & 201821233/21/2024 01-PV-0.0 REVISIONS DOC ID: PROJECT SUMMARY GR I D - T I E D S O L A R P O W E R S Y S T E M SSPR-013 90 1 G R O V E M O N T S T R E E T , DATE: 01/22/24 CONTRACTOR: PAUL NAKHLE COMPANY: SOLECTRIC SOLUTION SA N T A A N A , C A 9 2 7 0 6 GENERAL NOTES 1 EQUIPMENT LIKELY TO BE WORKED UPON WHILE ENERGIZED SHALL BE INSTALLED IN LOCATIONS THAT SATISFY MINIMUM WORKING CLEARANCES PER CEC 110.26 2 CONTRACTOR SHALL USE ONLY COMPONENTED LISTED BY A NATIONALLY RECOGNIZED TESTING LABORATORY FOR THE INTENDED USE. 3 CONTRACTOR IS RESPONSIBLE FOR FURNISHING ALL EQUIPMENT, CABLES, ADDITIONAL CONDUITS, RACEWAYS, AND OTHER ACCESSORIES NECESSARY FOR A COMPLETE AND OPERATIONAL PV SYSTEM. 4 WHERE DC PV SOURCE OR DC PV OUTPUT CIRCUITS ARE RUN INSIDE THE BUILDING, THE SHALL BE CONTAINED IN METAL RACEWAYS, TYPE MC METAL-CLAD CABLE, OR METAL ENCLOSURES FROM THE POINT OF PENETRATION INTO THE BUILDING TO THE FIRST READILY ACCESSIBLE DISCONNECTING MEANS PER CEC 690.31(G) 5 ALL EMT CONDUIT FITTINGS SHALL BE LISTED AS WEATHERPROOF FITTINGS AND INSTALLED TO ENSURE A RAINTIGHT FIT, PER CEC 358.42. CONDUIT SHALL BE PAINTED TO MATCH EXTERIOR SURFACE. 6 CONDUIT, WIRING SYSTEMS AND RACEWAYS FOR PV CIRCUITS SHALL BE LOCATED AS CLOSE AS POSSIBLE TO RIDGES, HIPS OR VALLEYS AND SHALL TAKE THE SHORTEST PATHS POSSIBLE BETWEEN ARRAYS AND ELECTRICAL EQUIPMENT TO REDUCE TRIP HAZARDS AND MAXIMIZE VENTILATION OPPORTUNITIES. PV ELECTRICAL EQUIPMENT BE LOCATED SUCH THAT CONDUIT RUNS ARE MINIMIZED IN THE PATHWAYS BETWEEN ARRAYS. DC WIRING SHALL BE INSTALLED IN METALLIC CONDUIT OR RACEWAYS WHEN LOCATED WITHIN ENCLOSED SPACES IN A BUILDING. CONDUIT SHALL RUN ALONG THE BOTTOM OF LOAD BEARING MEMBERS. (CFC 1204.2.3) 7 AT LEAST TWO 36"-WIDE PATHWAYS ON SEPARATE ROOF PLANES, FROM LOWEST ROOF EDGE TO RIDGE, SHALL BE PROVIDED ON ALL BUILDINGS. THERE SHALL BE AT LEAST ONE PATHWAY ON THE STREET OR DRIVEWAY SIDE OF THE ROOF. FOR EACH ROOF PLANE WITH A PV ARRAY, AT LEAST ONE SUCH PATHWAY SHALL BE PROVIDED ON THE SAME ROOF PLANE, OR ON AN ADJACENT ROOF PLANE, OR STRADDLING THE SAME AND ADJACENT ROOF PLANES. (CFC 1204.2.1.1) 8 FOR PV ARRAYS OCCUPYING 1/3 OR LESS OF THE PLAN VIEW TOTAL ROOF AREA, A MIN. 18"-WIDE SETBACK IS REQUIRED ON BOTH SIDES OF A HORIZONTAL RIDGE. (CFC 1204.2.1.2) 9 PV MODULES SHALL NOT BE INSTALLED CLOSER THAN 18" TO A HIP OR A VALLEY WHERE MODULES ARE INSTALLED ON BOTH SIDES OF A HIP OR VALLEY. WHERE MODULES ARE INSTALLED ON ONLY ONE SIDE OF A HIP OR VALLEY THAT IS OF EQUAL LENGTH, NO SETBACK SHALL BE REQUIRED. (CFC 1204.1.2.4) 10 CABLES, WHEN RUN BETWEEN ARRAYS, SHALL BE ENCLOSED IN CONDUIT. 11 APPROVED SMOKE AND CARBON MONOXIDE ALARMS ARE REQUIRED WITHIN THE DWELLING UNIT AND SHALL BE FIELD VERIFIED EITHER THROUGH FINAL BUILDING INSPECTION OR A COUNTY OF SAN BERNARDINO SELF-CERTIFICATION FORM. SMOKE ALARMS ARE REQUIRED TO BE INSTALLED IN ALL BEDROOMS, OUTSIDE EACH BEDROOM, AND AT LEAST ONE ON EACH FLOOR OF THE HOUSE. CARBON MONOXIDE ALARMS ARE REQUIRED OUTSIDE EACH BEDROOM AND AT LEAST ONE ON EACH FLOOR OF THE HOUSE [R314.1, R315.1] 12 NOTIFY SERVING UTILITY BEFORE ACTIVATION OF PV SYSTEM ROADWAY (N) PROPOSED ROOF-MOUNTED PHOTOVOLTAIC ARRAY. 6:12 (28°) AND 4:12(17°) SLOPED ROOF,14 PV MODULES, (E) GAS METER, OUTDOOR. NO NEW ELECTRICAL EQUIPMENT SHALL BE INSTALLED WITHIN 36 INCHES OF CENTER OF GAS METER OR RISER. (E)MAIN SERVICE PANEL (MSP), OUTDOOR (E) UTILITY METER, OUTDOOR (N)MICROINVERTERS UNDER EACH PANEL, OUTDOOR (N) VISIBLE, LOCKABLE, READILY-ACCESSIBLE AC DISCONNECT LOCATED WITHIN 10 FT OF UTILITY METER, OUTDOOR 3 FT. PATH OF ACCESS TO ROOF 18 IN. WIDE SMOKE-VENTILATION SETBACK, PER CFC 1204.2.1.2 PV MODULES INSTALLED ON ROOF WITH SNAPNRACK ULTRA RAIL MOUNTING SYSTEM. THE MOUNTING SYSTEM IS UL1703 CLASS A FIRE RATED ON A 6:12 AND 4:12 SLOPED ROOF WHEN INSTALLED WITH TYPE 1 OR 2 MODULES. THE APTOS SOLAR TECHNOLOGY LLC, DNA-108-BF10-400W IS TYPE 1. 1 2 3 4 5 6 7 8 9 1 PV-2 SITE PLAN AND FIRE SETBACKS SCALE: 1":20' 10 11 ROOF DETAILS TOTAL ROOF AREA (SQFT)2191 SOLAR PANEL AREA (SQFT)20.97 NUMBER OF SOLAR PANELS 16 TOTAL SOLAR PANEL AREA (SQFT)335.5 AREA TAKEN BY PANELS 15.31% (N) PROPOSED ROOF-MOUNTED PHOTOVOLTAIC ARRAY. 4:12 (17°) SLOPED ROOF,2 PV MODULES, 182° AZIMUTH 12 (N) AC COMBINER WITH GATEWAY, OUTDOOR13 (N) TRANSITION BOX, OUTDOOR, OUTPUT CIRCUIT CONDUCTORS SHALL BE RUN IN EMT CONDUIT OVER ROOF NO CLOSER THAN 7/8" ABOVE ROOF SURFACE. 179° AZIMUTH 01/29/2024 VSE Project Number: U3998.0088.241 651 W. galena park blvd. ste. 101 draper, Utah 84020 phone (801) 990-1775 www.vectorse.com ® Vector Structural Engineering has reviewed the existing structure with loading from the solar array and screw connections to the existing framing. The design of the racking system, racking connections, and all other structural is by others. Mechanical, architectural, and all other nonstructural aspects of the design are by others. Electrical is by others, unless stamped by Dean Levorsen. 901 E Grovemont St- 101118284 & 201821233/21/2024 01-PV-2.0 REVISIONS DOC ID: PROJECT SUMMARY GR I D - T I E D S O L A R P O W E R S Y S T E M SSPR-013 90 1 G R O V E M O N T S T R E E T , DATE: 01/22/24 CONTRACTOR: PAUL NAKHLE COMPANY: SOLECTRIC SOLUTION SA N T A A N A , C A 9 2 7 0 6 SW1 - DISCONNECT (SQUARE D DU222RB) POINT-OF-INTERCONNECTION OR AT MAIN SERVICE DISCONNECT (MSP) ! CAUTION ! CEC 690.56(C)(1) AND CFC1204.5.1, 1204.5.1 ! WARNING ! CEC 690.13(B) INSTALLED BY SOLECTRIC SOLUTION AC SOLAR DISCONNECT (SW1)AC DISCONNECT (SW1) PV SYSTEM DISCONNECT CEC 690.13(B) MAXIMUM AC OPERATING CURRENT:23A MAXIMUM AC OPERATING VOLTAGE: 240V CEC 690.54 ! WARNING ! CEC 705.12(B)(3) 4 5 6 8 5 6 4 2 TURN RAPID SHUTDOWN SWITCH TO THE 'OFF' POSITION TO SHUT DOWN PV SYSTEM AND REDUCE SHOCK HAZARD IN THE ARRAY. SOLAR BREAKER (MSP) CEC 705.12(B)(2)(3)(2) MSP - MAIN SERVICE PANEL DC RACEWAYS 1 3 7 LABELING NOTES 1 ALL PLAQUES AND SIGNAGE REQUIRED BY 2019 CEC AND 2019 CFC WILL BE INSTALLED AS REQUIRED 2 LABELS, WARNING(S) AND MARKING SHALL COMPLY WITH ANSI Z535.4, WHICH REQUIRES THAT DANGER, WARNING, AND CAUTION SIGNS USED THE STANDARD HEADER COLORS, HEADER TEXT, AND SAFETY ALERT SYMBOL ON EACH LABEL. THE ANSI STANDARD REQUIRES A HEADING THAT IS AT LEAST 50% TALLER THAN THE BODY TEXT, IN ACCORDANCE WITH CEC 110.21(B). 3 A PERMANENT PLAQUE OR DIRECTORY SHALL BE INSTALLED PROVIDING THE LOCATION OF THE SERVICE DISCONNECTING MEANS AND THE PHOTOVOLTAIC SYSTEM DISCONNECTING MEANS IF NOT IN THE SAME LOCATION IN ACCORDANCE WITH CEC 690.56(B). 4 LABEL(S) WITH MARKING, "TURN RAPID SHUTDOWN SWITCH TO THE 'OFF' POSITION TO SHUT DOWN PV SYSTEM AND REDUCE SHOCK HAZARD IN THE ARRAY," SHALL BE LOCATED WITHIN 3 FT OF SERVICE DISCONNECTING MEANS THE TITLE SHALL UTILIZE CAPITALIZED LETTERS WITH A MINIMUM HEIGHT OF 3/8” IN BLACK ON A YELLOW BACKGROUND, AND REMAINING TEXT SHALL BE CAPITALIZED WITH A MINIMUM HEIGHT OF 3/16” IN BLACK ON WHITE BACKGROUND 5 LABEL(S) WITH MARKING, "WARNING PHOTOVOLTAIC POWER SOURCE," SHALL BE LOCATED AT EVERY 10 FEET OF EACH DC RACEWAY AND WITHIN ONE FOOT OF EVERY TURN OR BEND AND WITHIN ONE FOOD OF EVERY TURN OR BEND AND WITHIN ONE FOOT ABOVE AND BELOW ALL PENETRATIONS OF ROOF/CEILNG ASSEMBLIES, WALLS AND BARRIERS. THE LABEL SHALL HAVE 3/8" TALL LETTERS AND BE REFLECTIVE WITH WHITE TEXT ON A RED BACKGROUND POWER TO THIS BUILDING IS ALSO FROM ROOF MOUNTED SOLAR ARRAYS WITH SAFETY DISCONNECTS AS SHOWN ELECTRIC SHOCK HAZARD. TERMINALS ON BOTH LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION DUAL POWER SOURCE, SECOND SOURCE IS PHOTOVOLTAIC SYSTEM. ANY AC ELECTRICAL PANEL THAT IS FED BY BOTH THE UTILITY AND THE PHOTOVOLTAIC SYSTEM (MSP) EACH DISCONNECTING MEANS FOR PHOTOVOLTAIC EQUIPMENT (SW1,I1) PHOTOVOLTAIC SYSTEM EQUIPPED WITH RAPID SHUTDOWN 2 7 8 SOLAR ELECTRIC PV PANELS SEE NOTE NO. 5 (DC RACEWAYS) WARNING CEC 690.31(G)(3) 3 PHOTOVOLTAIC POWER SOURCE ! WARNING ! INVERTER OUTPUT CONNECTION. DO NOT RELOCATE THIS OVERCURRENT DEVICE. 1 SEE NOTE NO. 4 (MSP) 901 E Grovemont St- 101118284 & 201821233/21/2024 P-159436 GR I D - T I E D S O L A R P O W E R S Y S T E M ATTACHMENT DETAILS DOC ID:159436-196540-1 DATE: 03/20/2023 CREATOR: REVIEWER: REVISIONS 02-S-1.0 901 G R O V E M O N T S T . , SA N T A A N A , C A 9 2 7 0 6 Paul Nakhle 10/9/22 VSE Project Number: U3998.0088.241 651 W. galena park blvd. ste. 101 draper, Utah 84020 phone (801) 990-1775 www.vectorse.com ® Vector Structural Engineering has reviewed the existing structure with loading from the solar array and screw connections to the existing framing. The design of the racking system, racking connections, and all other structural is by others. Mechanical, architectural, and all other nonstructural aspects of the design are by others. Electrical is by others, unless stamped by Dean Levorsen. 01/29/2024 901 E Grovemont St- 101118284 & 201821233/21/2024 B7 B8 B2 B3 B4 B5 B6 B1 A8 A7 A6 A5 A1 A2 A3 A4 02-S-1.0 REVISIONS DOC ID: PROJECT SUMMARY GR I D - T I E D S O L A R P O W E R S Y S T E M SSPR-013 90 1 G R O V E M O N T S T R E E T , DATE: 01/22/24 CONTRACTOR: PAUL NAKHLE COMPANY: SOLECTRIC SOLUTION SA N T A A N A , C A 9 2 7 0 6 1 PV-5 ATTACHMENT PLAN SCALE: 1" = 10' MOUNTING SYSTEM PROPERTIES RAIL MODEL SNAPNRACK UR-40 ANCHOR MODEL SNAPNRACK SPEEDSEAL 242-02163 FASTENING METHOD 2.5 INCH EMBEDMENT INTO TRUSSES WITH (1) 5/16IN DIA. FASTENER MAX. ALLOW. RAIL SPAN 77 IN (ZONE 1) 63 IN (ZONE 2) 50 IN (ZONE 3) MAX. MOUNT SPACING 48 IN (ZONE 1,ZONES 2 AND 3) MAX. ALLOW. CANTILEVER 26 IN (ZONE 1) 21.0 IN (ZONE 2) 17.0 IN (ZONE 3) GROUNDING AND BONDING INTEGRAL GROUNDING CERTIFIED TO UL2703 REQUIREMENTS DEAD LOAD CALCULATIONS LOAD QTY LBS TOTAL LBS MODULES 16 48.5 776.0 MICROINVERTER 16 2.38 38.1 LINEAR FEET OF RAIL 112 0.4 44.8 ANCHORS 36 1.7 61.2 MISC. HARDWARE 9.8 9.8 TOTAL ARRAY WEIGHT 929.9 AREA NAME QTY SQFT TOTAL SQFT MODULES 16 20.97 335.5 POINT LOAD (TOTAL ARRAY WEIGHT / ANCHORS) (LBS)25.8 DIST. LOAD (TOTAL ARRAY WEIGHT/ TOTAL MODULES AREA) (PSF)2.8 ROOF PROPERTIES ROOF MATERIAL SHINGLE(1 LAYER) SLOPE 6:12 (28°); 4:12 (17°) MEAN ROOF HEIGHT 15 FT DECK SHEATING 15/32" OSB CONSTRUCTION TRUSSES (2X TP[ CHORD), 24 IN OC MODULE MECHANICAL PROPERTIES MODEL APTOS SOLAR TECHNOLOGY LLC, DNA-108-BF10-400W DIMENSIONS 67.7IN X 44.6IN X 1.38IN (20.97 SQFT) WEIGHT 48.5 LBS NOTES 1 TRUSS LOCATIONS ARE APPROXIMATE. ACTUAL LOACTIONS MAR DIFFER AND CONTRACTOR MAY NEED TO ADJUST MOUNT LOCATIONS. IN NO CASE SHALL THE MOUNT SPACING EXCEED "MAX. MOUNT SPACING" STRING A - 8 MODULES STRING B - 8 MODULES 24 01/29/2024 VSE Project Number: U3998.0088.241 651 W. galena park blvd. ste. 101 draper, Utah 84020 phone (801) 990-1775 www.vectorse.com ® Vector Structural Engineering has reviewed the existing structure with loading from the solar array and screw connections to the existing framing. The design of the racking system, racking connections, and all other structural is by others. Mechanical, architectural, and all other nonstructural aspects of the design are by others. Electrical is by others, unless stamped by Dean Levorsen. 901 E Grovemont St- 101118284 & 201821233/21/2024 MODULES REF.QTY.MAKE AND MODEL PMAX (W) PTC (W)ISC IMP VOC VMP TEMP. COEFF. OF VOC FUSE RATING PM1-16 16 APTOS SOLAR TECHNOLOGY LLC, DNA-108BF10-400W 400 373.2 13.79A 12.9A 37.1V 31V -0.12V/°C (-0.28%/°C)20A DISCONNECTS REF.QTY.MAKE AND MODEL RATED CURRENT (A)MAX RATED VOLTAGE SW1 1 SQUARE D DU222RB OR EQUIV.60 240VAC INVERTERS REF.QTY.MAKE AND MODEL AC VOLTAGE GROUND MAX OCPD RATING RATED POWER MAX OUTPUT CURRENT MAX INPUT CURRENT MAX INPUT VOLTAGE CEC WEIGHTED EFFICIENCY I1-16 16 ENPHASE IQ8A-72-2-US 240V NOT SOLIDLY GROUNDED 20A 349W 1.45 15.0A 60V 97.0% PASS-THRU BOXES AND COMBINERS REF.QTY.MAKE AND MODEL RATED CURRENT MAX RATED VOLTAGE C1 1 ENPHASE X-IQ-AM1-240-4 OR EQUIVALENT(AC COMBINER WITH GATEWAY)65A 240VAC MICRO- INVERTER I1-16 8 IN BRANCH 8 IN BRANCH 1 2 3 4 5 6 7 AC COMBINER C1 2 F1 20A F2 20A PV DISCONNECT SW1 60A 3 8 LOADS MAIN SERVICE PANEL AC GEC KWHRKWHR UTILITY METER (E) 240/120V 1ɸ, 3W 200A MAIN BREAKER 200A BUSBAR (E) 200A 9 10 SYSTEM SUMMARY BRANCH 1 BRANCH 2 INVERTERS PER BRANCH 8 8 MAX AC CURRENT (A)11.6 11.6 MAX AC POWER OUTPUT (W)2784.0 2784.0 ARRAY STC POWER (W)6400 ARRAY PTC POWER (W)5971 MAX AC POWER OUTPUT(W)5568.0 MAX AC CURRENT(A)23.2 NOTES 1 2 3 4 5 6 7 8 9 10 LOADS LOADS PV MODULE PM1-16 400W CB1 30A 11 11 JUNCTION BOX NEMA 3R (READILY ACCESSIBLE) CONDUCTOR AND CONDUIT SCHEDULE W/ELECTRICAL CALCULATIONS ID TYPICAL CONDUCTOR CONDUIT / CABLE CURRENT-CARRYING CONDUCTORS IN CONDUIT / CABLE OCPD (A)EGC TEMP. CORR. FACTOR FILL FACTOR CONT. CURRENT (A) MAX. CURRENT (125%) BASE AMP.DERATED AMP. TERM. TEMP. RATING AMP. @ TERM. TEMP. RATING LENGTH (FT)RESISTANCE/FT VOLTAGE DROP 1 1 10 AWG THWN-2, COPPER 0.75" EMT 4 N/A 10 AWG THWN-2, COPPER 0.58 61°C 1.0 11.6 11.6 40 23.2 75°C 35 30 0.0003951 0.07% 2 1 10 AWG THWN-2, COPPER 0.75" EMT 3 N/A 10 AWG THWN-2, COPPER 0.91 39°C 1.0 23.2 29.0 40 36.4 75°C 35 8 0.0003951 0.04% 3 1 10 AWG THWN-2, COPPER 0.75" EMT 3 30A 10 AWG THWN-2, COPPER 0.91 39°C 1.0 23.2 29.0 40 36.4 75°C 35 8 0.0003951 0.04% 1 E1.0 REVISIONS DOC ID: PROJECT SUMMARY GR I D - T I E D S O L A R P O W E R S Y S T E M SSPR-013 90 1 G R O V E M O N T S T R E E T , DATE: 01/22/24 CONTRACTOR: PAUL NAKHLE COMPANY: SOLECTRIC SOLUTION SA N T A A N A , C A 9 2 7 0 6 GENERAL ELECTRICAL NOTES 1 UTILITY HAS 24-HR UNRESTRICTED ACCESS TO ALL PHOTOVOLTAIC SYSTEM COMPONENTS LOCATED AT THE SERVICE ENTRANCE. 2 CONDUCTORS EXPOSED TO SUNLIGHT SHALL BE LISTED AS SUNLIGHT RESISTANT PER NEC ARTICLE 300.6 (C) (1) AND ARTICLE 310.10 (D). 3 CONDUCTORS EXPOSED TO WET LOCATIONS SHALL BE SUITABLE FOR USE IN WET LOCATIONS PER NEC ARTICLE 310.10 (C). GROUNDING NOTES 1 ALL EQUIPEMENT SHALL BE PROPERLY GROUNDED PER THE REQUIREMENTS OF NEC ARTICLE 250 AND 690 2 PV MODULES SHALL BE GROUNDED TO MOUNTING RAILS USING MODULE LUGS OR RACKING INTEGRATED GROUNDING CLAMPS AS ALLOWED BY LOCAL JURISDICTION. ALL OTHER EXPOSED METAL PARTS SHALL BE GROUNDED USING UL-LISTED LAY-IN LUGS 3 INSTALLER SHALL CONFIRM THAT MOUNTING SYSTEM HAS BEEN EVALUATED FOR COMPLIANCE WITH UL 2703 "GROUNDING AND BONDING" WHEN USED WITH PROPOSED PV MODULE 4 IF THE EXISTING MAIN SERVICE PANEL DOES NOT HAVE A VERIFIABLE GROUNDING ELECTRODE, IT IS THE CONTRACTOR'S RESPONSIBILITY TO INSTALL A SUPPLEMENTAL GROUNDING ELECTRODE. 5 AC SYSTEM GROUNDING ELECTRODE CONDUCTOR (GEC) SHALL BE A MINIMUM SIZE #8AWG WHEN INSULATED, #6AWG IF BARE WIRE. 6 EQUIPMENT GROUNDING CONDUCTORS SHALL BE SIZED ACCORDING TO NEC ARTICLE 690.45, AND BE A MINIMUM OF #10AWG WHEN NOT EXPOSED TO DAMAGE, AND #6AWG SHALL BE USED WHEN EXPOSED TO DAMAGE 7 GROUNDING AND BONDING CONDUCTORS, IF INSULATED, SHALL BE COLOR CODED GREEN, OR MARKED GREEN IF #4AWG OR LARGER. 1 PV-3 SINGLE-LINE DIAGRAM NTS 901 E Grovemont St- 101118284 & 201821233/21/2024 Expedited Permit Process for PV Systems - Micro-Inverter1 Expedited Permit Process for PV Systems Micro-Inverter The Solar America Board for Codes and Standards (Solar ABCs) Expedited Permit Pro- cess provides a means to differentiate systems that can be permitted quickly and easily due to their similarity with the majority of small-scale PV systems. Those systems with unique characteristics may be handled with small additions to this Expedited Permit Process or may require much more information, depending on the uniqueness of the installation. The following pages contain forms for the Micro-Inverter to use with the Expedited Per- mit Process. The Standard String, AC Module, and Supply-Side Connection forms are also available as interactive PDF files at www.solarabcs.org/permitting. In jurisdic- tions that have adopted the Expedited Permit Process for PV Systems, these forms can be filled out electronically and submitted in either printed form and via email. An elec- tronic format is used so that the supplied information is standardized and legible for the local jurisdiction. 901 E Grovemont St- 101118284 & 201821233/21/2024 Expedited Permit Process for PV Systems — Micro-Inverter 2 Expedited Permit Process for Small-Scale PV Systems Micro-Inverter The information in this guideline is intended to help local jurisdictions and contractors identify when PV system installations are simple, needing only a basic review, and when an installation is more complex. It is likely that 50%-75% of all residential systems will comply with these simple criteria. For projects that fail to meet the simple criteria, resolution steps have been suggested to provide as a path to permit approval. Required Information for Permit: 1.Site plan showing location of major components on the property. This drawing need not be exactly to scale, but it should represent relative location of components at site (see supplied example site plan). PV arrays on dwellings with a 3’ perimeter space at ridge and sides may not need separate fire service review. 2.Electrical diagram showing PV array configuration, wiring system, overcurrent protection, inverter, disconnects, required signs, and ac connection to building (see supplied standard electrical diagram). 3.Specification sheets and installation manuals (if available) for all manufactured components including, but not limited to, PV modules, inverter(s), combiner box, disconnects, and mounting system. Step 1: Structural Review of PV Array Mounting System Is the array to be mounted on a defined, permitted roof structure? l Yes l No If No due to non-compliant roof or a ground mount, submit completed worksheet for the structure WKS1. Roof Information: 1.Is the roofing type lightweight (Yes = composition, lightweight masonry, metal, etc…)__________________________ ____________________________________________________________________________________________________ If No, submit completed worksheet for roof structure WKS1 (No = heavy masonry, slate, etc…). 2.Does the roof have a single roof covering?l Yes l No If No, submit completed worksheet for roof structure WKS1. 3.Provide method and type of weatherproofing roof penetrations (e.g. flashing, caulk).____________________________ Mounting System Information: 1.Is the mounting structure an engineered product designed to mount PV modules with no more than an 18” gap beneath the module frames? l Yes l No If No, provide details of structural attachment certified by a design professional. 2.For manufactured mounting systems, fill out information on the mounting system below: a.Mounting System Manufacturer ___________Product Name and Model#________________________________ b.Total Weight of PV Modules and Rails ___________lbs c.Total Number of Attachment Points____________ d.Weight per Attachment Point (b÷c)_________________lbs (if greater than 45 lbs, see WKS1) e.Maximum Spacing Between Attachment Points on a Rail ______________inches (see product manual for maximum spacing allowed based on maximum design wind speed) f.Total Surface Area of PV Modules (square feet)_________________ ft2 g.Distributed Weight of PV Module on Roof (b÷f)_______________ lbs/ft2 If distributed weight of the PV system is greater than 5 lbs/ft2, see WKS1. Step 2: Electrical Review of PV System (Calculations for Electrical Diagram) In order for a PV system to be considered for an expedited permit process, the following must apply: 1.PV modules, utility-interactive inverters, and combiner boxes are identified for use in PV systems. 2.The PV array is composed of 4 series strings or less per inverter. 3.The total inverter capacity has a continuous ac power output 13,440 Watts or less 4.The ac interconnection point is on the load side of service disconnecting means (690.64(B)). 5.One of the standard electrical diagrams (E1.1, E1.1a, E1.1b, or E1.1c) can be used to accurately represent the PV system. Interactive PDF diagrams are available at www.solarabcs.org/permitting. Fill out the standard electrical diagram completely. A guide to the electrical diagram is provided to help the applicant understand each blank to fill in. If the electrical system is more complex than the standard electrical diagram can effectively communicate, provide an alternative diagram with appropriate detail. 901 E Grovemont St- 101118284 & 201821233/21/2024 E x p e d i t e d P e r m i t P r o c e s s f o r P V S y s t e m s 3 Micro-Inverter Site Plan 901 E Grovemont St- 101118284 & 201821233/21/2024 E x p e d i t e d P e r m i t P r o c e s s f o r P V S y s t e m s 4 Micro-Inverter Electrical Diagram Contractor Name, Address and Phone:One-Line Standard Electrical Diagram for Micro-Inverter PV Systems Site Name: Site Address: System AC Size: SIZE FSCM NO DWG NO REV E1.1a SCALE NTS Date: SHEET Drawn By: Checked By: DESCRIPTION OR CONDUCTOR TYPE USE-2 or PV WIRE GEC EGC X ALL THAT APPLY EXTERIOR CABLE LISTED W/ INV. THWN-2 or XHHW-2 or RHW-2 GEC EGC X ALL THAT APPLY NO DC GEC IF 690.35 SYSTEM THWN-2 or XHHW-2 or RHW-2 GEC EGC X ALL THAT APPLY TAG 1 2 3 4 5 CONDUIT AND CONDUCTOR SCHEDULE COND. GAUGE MFG MFG NUMBER OF CONDUCTORS MFG Cable MFG Cable CONDUIT TYPE N/A N/A N/A SAME SAME CONDUIT SIZE N/A N/A N/A SAME SAME DESCRIPTION PV DC or AC MODULE DC/AC INVERTER (MICRO) J-BOX (IF USED) PV ARRAY AC COMB. PANEL (IF USED) GEN METER (IF USED) AC DISCONNECT (IF USED) SERVICE PANEL TAG 1 2 3 4 5 6 7 8 PART NUMBER NOTES FOR UNUSED MODULES PUT "N/A” in BLANK ABOVE 1 1 3 2 3 EQUIPMENT SCHEDULE 2 _____ MICRO-INVERTERS IN BRANCH- CIRCUIT MOD ____ DC AC MOD ____ DC AC MOD ____ DC AC MOD ____ DC AC MOD ____ DC AC MOD ____ DC AC J-BOX 4 AC DISCO M BUILDING GROUNDING ELECTRODE G M UTILITY SERVICE MAIN SERVICE PANEL MAIN OCPD INVERTER OCPD 6 7 8 5 4 5 G SEE GUIDE APPENDIX D FOR INFORMATION ON MODULE AND ARRAY GROUNDING AC COMBINER PANEL G ____ MICRO-INVERTERS IN BRANCH- CIRCUIT 901 E Grovemont St- 101118284 & 201821233/21/2024 E x p e d i t e d P e r m i t P r o c e s s f o r P V S y s t e m s 5 Contractor Name, Address and Phone:Notes for One-Line Standard Electrical Diagram for Single-Phase PV Systems Site Name: Site Address: System AC Size: SIZE FSCM NO DWG NO REV E1.2a SCALE NTS Date: SHEET Drawn By: Checked By: MAX POWER-POINT CURRENT (IMP) MAX POWER-POINT VOLTAGE (VMP) OPEN-CIRCUIT VOLTAGE (VOC) SHORT-CIRCUIT CURRENT (ISC) MAX SERIES FUSE (OCPD) MAXIMUM POWER (PMAX) MAX VOLTAGE (TYP 600VDC) VOC TEMP COEFF (mV/oC or %/oC ) IF COEFF SUPPLIED, CIRCLE UNITS MODULE MAKE MODULE MODEL PV MODULE RATINGS @ STC (Guide Section 5) MAX DC VOLT RATING MAX POWER @ 40oC NOMINAL AC VOLTAGE MAX AC CURRENT MAX OCPD RATING INVERTER MAKE INVERTER MODEL INVERTER RATINGS (Guide Section 4) 1) IF UTILITY REQUIRES A VISIBLE-BREAK SWITCH, DOES THIS SWITCH MEET THEREQUIREMENT? YES NO N/A 2) IF GENERATION METER REQUIRED, DOES THIS METER SOCKET MEET THE REQUIREMENT? YES NO N/A 3) SIZE PHOTOVOLTAIC POWER SOURCE (DC) CONDUCTORS BASED ON MAX CURRENT ON NEC 690.53 SIGN OR OCPD RATING AT DISCONNECT 4) SIZE INVERTER OUTPUT CIRCUIT (AC) CONDUCTORS ACCORDING TO INVERTER OCPD AMPERE RATING. (See Guide Section 9) 5) TOTAL OF ______ INVERTER OUTPUT CIRCUIT OCPD(s), ONE FOR EACH MICRO-INVERTER CIRCUIT. DOES TOTAL SUPPLY BREAKERS COMPLY WITH 120% BUSBAREXCEPTION IN 690.64(B)(2)(a)? YES NO NOTES FOR INVERTER CIRCUITS (Guide Section 8 and 9): 1.) LOWEST EXPECT AMBIENT TEMPERATURE BASED ON ASHRAE MINIMUM MEAN EXTREME DRY BULB TEMPERATURE FOR ASHRAE LOCATION MOST SIMILAR TO INSTALLATION LOCATION. LOWEST EXPECTED AMBIENT TEMP ____oC 2.) HIGHEST CONTINUOUS AMBIENT TEMPERATURE BASED ON ASHRAE HIGHEST MONTH 2% DRY BULB TEMPERATURE FOR ASHRAE LOCATION MOST SIMILAR TO INSTALLATION LOCATION. HIGHEST CONTINUOUS TEMPERATURE ____oC 2.) 2009 ASHRAE FUNDAMENTALS 2% DESIGN TEMPERATURES DO NOT EXCEED 47oC IN THE UNITED STATES (PALM SPRINGS, CA IS 44.1oC). FOR LESS THAN 9 CURRENT-CARRYING CONDUCTORS IN ROOF-MOUNTED SUNLIT CONDUIT AT LEAST 0.5" ABOVE ROOF AND USING THE OUTDOOR DESIGN TEMPERATURE OF 47oC OR LESS (ALL OF UNITED STATES), a) 12 AWG, 90oC CONDUCTORS ARE GENERALLY ACCEPTABLE FOR MODULESWITH Isc OF 7.68 AMPS OR LESS WHEN PROTECTED BY A 12-AMP OR SMALLER FUSE.b) 10 AWG, 90oC CONDUCTORS ARE GENERALLY ACCEPTABLE FOR MODULESWITH Isc OF 9.6 AMPS OR LESS WHEN PROTECTED BY A 15-AMP OR SMALLER FUSE. NOTES FOR ARRAY CIRCUIT WIRING (Guide Section 6 and 8 and Appendix E): OCPD = OVERCURRENT PROTECTION DEVICE NATIONAL ELECTRICAL CODE®REFERENCES SHOWN AS (NEC XXX.XX) NOTES FOR ALL DRAWINGS: SIGNS–SEE GUIDE SECTION 7 SIGN FOR DC DISCONNECT SIGN FOR INVERTER OCPD AND AC DISCONNECT (IF USED) No sign necessary since 690.51 marking on PV module covers needed information AC OUTPUT CURRENT NOMINAL AC VOLTAGE SOLAR PV SYSTEM AC POINT OF CONNECTION THIS PANEL FED BY MULTIPLE SOURCES (UTILITY AND SOLAR) Notes for Micro-Inverter Electrical Diagram 901 E Grovemont St- 101118284 & 201821233/21/2024 City of Santa Ana I Building and Safety Division Homeowner Authorization letter for solar permits for: 901 Grovemont Street, Santa Ana, CA, 92706 To whom this may concern, Homeowner Hung Nguyen authorizes Solectric Solution to install solar panels on roof of 901 Grovemont Street, Santa Ana, CA, 92706. Please contact homeowner Hung at 714 837-1739, nguyen_kien_hung@yahoo.com or contractor Paul Nakhle at 909 524-7774, solectricsolution@gmail.com for further information Homeowner signature ___________________________ Date: Contractor signature _____________________________ Date: 1/22/24 01/22/2024 901 E Grovemont St- 101118284 & 201821233/21/2024 ® VSE Project Number: U3998.0088.241 January 29, 2024 Solectric Solution 6083 Andrews Court Fontana, CA 92336 REFERENCE: Grovemont Residence: 901 Grovemont Street, Santa Ana, CA 92706 Solar Array Installation To Whom It May Concern: We have reviewed the existing structure at the above referenced site.The purpose of our review was to determine the adequacy of the existing structure to support the proposed installation of solar panels on the roof as shown on the panel layout plan. Based upon our review, we conclude that the existing structure is adequate to support the proposed solar panel installation. Design Parameters Code: California Residential Code, 2022 Edition (2021 IRC) Risk Category: II Design wind speed, Vult: 95 mph (3-sec gust) Wind exposure category: C Seismic design category: D Existing Roof Structure Roof structure: 2x4 manufactured trusses @ 24" o.c. Roofing material: composite shingles Roof pitch: 6:12 Connection to Roof Mounting connection: (1) 5/16" lag screw w/ min. 2.5" threaded embedment into framing at max. 48" o.c. along rails Install (2) rails per row of panels, evenly spaced; panel length perpendicular to the rails shall not exceed 68 in Rail cantilever shall not exceed the lesser of 50% of the connection spacing or maximum cantilever allowed by manufacturer At flat hip framing, if occurs, reduce connection spacing listed above by 50% or see attached detail for blocking option. Connections shall be staggered so as not to overload any existing structural member Conclusions Based upon our review,we conclude that the existing structure is adequate to support the proposed solar panel installation. In the area of the solar array,other live loads will not be present or will be greatly reduced (2022 CRC,Section R324.4.1.1). The gravity loads,and thus the stresses of the structural elements,in the area of the solar array are either decreased or increased by no more than 5%.Therefore,the requirements of Section 503.3 of the 2022 CEBC are met and the structure is permitted to remain unaltered. 651 W. Galena Park Blvd., Ste. 101 / Draper, UT 84020 / T (801) 990-1775 / F (801) 990-1776 / www.vectorse.com 901 E Grovemont St- 101118284 & 201821233/21/2024 ® VSE Project Number: U3998.0088.241 Grovemont Residence 1/29/2024 The solar array will be flush-mounted (no more than 10"above the roof surface)and parallel to the roof surface.Thus,we conclude that any additional wind loading on the structure related to the addition of the proposed solar array is negligible. The attached calculations verify the capacity of the connections of the solar array to the existing roof against wind (uplift), the governing load case.Regarding seismic loads,we conclude that any additional forces will be small.Conservatively neglecting the weight of existing wall materials,the installation of the solar panels represents an increase in the total weight (and resulting seismic load)of 2.9%.Increases in lateral forces less than 10%are considered acceptable.Thus the existing lateral force resisting system is permitted to remain unaltered. Limitations Installation of the solar panels must be performed in accordance with manufacturer recommendations.All work performed must be in accordance with accepted industry-wide methods and applicable safety standards.The contractor must notify Vector Structural Engineering,LLC should any damage,deterioration or discrepancies between the as-built condition of the structure and the condition described in this letter be found.The use of solar panel support span tables provided by others is allowed only where the building type,site conditions,site-specific design parameters,and solar panel configuration match the description of the span tables.The design of the solar panels,solar racking (mounts,rails,etc.)and electrical engineering is the responsibility of others.Waterproofing around the roof penetrations is the responsibility of others.Vector Structural Engineering assumes no responsibility for improper installation of the solar array.Vector Structural Engineering shall be notified of any changes from the approved layout prior to installation. VECTOR STRUCTURAL ENGINEERING, LLC 01/29/2024 _______________________________________________________ Jacob Proctor, P.E. CA License: 70567 - Expires: 06/30/2025 Project Engineer Enclosures JSP/jsj 01/29/2024 651 W. Galena Park Blvd., Ste. 101 / Draper, UT 84020 / T (801) 990-1775 / F (801) 990-1776 / www.vectorse.com 901 E Grovemont St- 101118284 & 201821233/21/2024 ® 01/29/2024 901 E Grovemont St- 101118284 & 201821233/21/2024 JOB NO.:U3998.0088.241 SUBJECT:SEISMIC LOADS ® PROJECT:Grovemont Residence CHECK INCREASE IN OVERALL SEISMIC LOADS 15.6 psf 3.0 psf 15% 16.0 psf 2.9% Equiv. Total Dead Load Estimated Roof Dead Load Solar Dead Load % Roof Covered Conservatively neglecting the weight of existing wall materials, the installation of the solar panels represents an increase in the total weight (and resulting seismic load) of 2.9%. Because the increase is less than 10%, this addition meets the requirements of the exception in Section 503.4 of the 2022 CEBC. Thus the existing structure is permitted to remain unaltered. Addt'l Seismic Weight 901 E Grovemont St- 101118284 & 201821233/21/2024 JOB NO.:U3998.0088.241 SUBJECT:WIND PRESSURE ® PROJECT:Grovemont Residence Label:Note: Calculations per ASCE 7-16 SITE-SPECIFIC WIND PARAMETERS: Basic Wind Speed [mph]:95 Notes: Exposure Category:C Risk Category:II Importance Factor, I: ADDITIONAL INPUT & CALCULATIONS: Height of Roof, h [ft]:15 (Approximate) Comp/Cladding Location:Hip Roofs 20° < θ ≤ 27° Enclosure Classification: Zone 1 GCp:1.37 Zone 1 γa:0.78 Zone 2e, 2r, 3 GCp:1.96 Zone 2e, 2r, 3 γa:0.78 γa:0.40 γa:0.40 α:9.5 Table 26.11-1 zg [ft]:900 Table 26.11-1 Kh:0.85 Table 26.10-1 Ke:0.99 Table 26.9-1 Kzt:1 Equation 26.8-1 Kd:0.85 Table 26.6-1 Velocity Pressure, qh [psf]:16.6 Equation 26.10-1 γE:1.50 Section 29.4.4 γC:0.94 Section 29.4.4 γP:1.20 Section 29.4.4 p = q h (GC p )(γ E )(γ a ) p = q h (GC rn ), (GC rn ) = (γ p )(γ c )(γ E )(GC rn )nom Zone 1, p [psf]:26.4 psf (1.0 W) Zone 2e, 2r, 3, p [psf]:37.8 psf (1.0 W) (a =3 ft) Fig. 29.4-8 WIND PRESSURES:Equation 29.4-7 Solar Panel Array Enclosed Buildings Figure 30.3-2G (negative coeff.) Components and Cladding Wind Calculations 901 E Grovemont St- 101118284 & 201821233/21/2024 JOB NO.:U3998.0088.241 SUBJECT:CONNECTION ® PROJECT:Grovemont Residence Calculate Uplift Forces on Connection Pressure (0.6 Dead -0.6 Wind) (psf) Max Trib. Width1 (ft) Max Trib. Area2 (ft2) Max Uplift Force (lbs) Zone 1 14.1 4.0 11.3 159 Zone 2e, 2r, 3 20.9 4.0 11.3 237 Calculate Connection Capacity Lag Screw Size [in]:5/16 Cd:1.6 NDS Table 2.3.2 Embedment3 [in]:2.5 Grade: Nominal Capacity [lbs/in]:205 NDS Table 12.2A Number of Screws:1 Prying Coefficient:1.4 Total Capacity [lbs]:586 Determine Result Maximum Demand [lbs]:237 Lag Screw Capacity [lbs]:586 Result:Capacity > Demand, Connection is adequate. Notes 1. 'Max Trib. Width' is the width along the rails tributary to the connection. 3. Embedment is measured from the top of the framing member to the beginning of the tapered tip of the lag screw. Embedment in sheathing or other material is not effective. The length of the tapered tip is not part of the embedment length. 2. 'Max Trib Area' is the product of the 'Max. Trib Width' and 1/2 the panel width/height perpendicular to the rails. (2) rails per row of panels. Length of panels perpendicular to the rails shall not exceed 68". SPF (G = 0.42) 901 E Grovemont St- 101118284 & 201821233/21/2024 VECTOR STRUCTURAL ENGINEERS JOB NO.:U3998.0088.241 SUBJECT:GRAVITY LOADS ® PROJECT:Grovemont Residence GRAVITY LOADS Roof Pitch: 6.0 :12 ROOF DEAD LOAD (D) Increase due to pitch Material weight [psf] Composite Shingles 1.12 2.0 1/2" Plywood 1.12 1.0 Framing 1.00 3.0 Insulation 1.00 0.5 1/2" Gypsum Clg.1.12 2.0 M, E & Misc 1.00 6.5 Total Existing Roof DL PV Array DL 1.12 3 DL:1.12 ROOF LIVE LOAD (Lr) Existing Design Roof Live Load [psf]20 ASCE 7-16 Table 4.3-1 Roof Live Load With PV Array [psf]0 SNOW LOAD (S):w/ Solar Array Roof Slope [x:12]:6.0 Roof Slope [°]:27 Ground Snow Load, pg [psf]:0 ASCE 7-16, Section 7.2 Terrain Category:C ASCE 7-16, Table 7.3-1 Exposure of Roof:Fully Exposed ASCE 7-16, Table 7.3-1 Exposure Factor, Ce:0.9 ASCE 7-16, Table 7.3-1 Thermal Factor, Ct:1.1 ASCE 7-16, Table 7.3-2 Risk Category:II ASCE 7-16, Table 1.5-1 Importance Factor, Is:1.0 ASCE 7-16, Table 1.5-2 Flat Roof Snow Load, pf [psf]:0 ASCE 7-16, Equation 7.3-1 Minimum Roof Snow Load, pm [psf]:0 ASCE 7-16, Section 7.3.4 Unobstructed Slippery Surface?Yes ASCE 7-16, Section 7.4 Slope Factor Figure:Figure 7-2b ASCE 7-16, Section 7.4 Roof Slope Factor, Cs:0.72 ASCE 7-16, Figure 7.4-1 Sloped Roof Snow Load, ps [psf]:0 ASCE 7-16, Equation 7.4-1 Design Snow Load, S [psf]:00 6.0 27 0 C Fully Exposed 0.9 1.1 II 1.0 0 0 No Figure 7-2b 1.00 0 Design material weight [psf] 2.2 1.1 3.0 0.5 2.2 6.5 15.6 3.4 #VALUE! 2022 CRC, Section R324.4.1.1 Existing 901 E Grovemont St- 101118284 & 201821233/21/2024 JOB NO.:U3998.0088.241 SUBJECT:LOAD COMPARISON ® PROJECT:Grovemont Residence Summary of Loads Existing With PV Array D [psf]16 19 Lr [psf]20 0 S [psf]0 0 Maximum Gravity Loads: Existing With PV Array (D + Lr) / Cd [psf]28 21 ASCE 7-16, Section 2.4.1 (D + S) / Cd [psf]17 21 ASCE 7-16, Section 2.4.1 Maximum Gravity Load [psf]:28 21 Ratio Proposed Loading to Current Loading:74%OK The gravity loads, and thus the stresses of the structural elements, in the area of the solar array are either decreased or increased by no more than 5%. Therefore, the requirements of Section 503.3 of the 2022 CEBC are met and the structure is permitted to remain unaltered. (Cd = Load Duration Factor = 0.9 for D, 1.15 for S, and 1.25 for Lr) 901 E Grovemont St- 101118284 & 201821233/21/2024 Rev: 7/15/2021 RESIDENTIAL PHOTOVOLTAIC CHECKLIST SOL-01 CBC 2019 Solar Photovoltaic (PV) Checklist for Detached SINGLE FAMILY RESIDENCES Only Instructions: The licensed contractor of record shall complete all sections, answer the ten questions and sign the certification section below. A copy of this form shall be attached to each of TWO sets of plans, of minimum 11” x 17” size. If answering NO to any of the questions, plan check shall be required. Project Address: Contractor Company Name: Contractor License Number: YES NO Are the following applicable to the proposed project? 1. Will the PV system layout provide the required three-foot wide clear access pathways per Section 605.11 of the California Fire Code, and is this shown on the roof plan? 2. Will the PV system be installed on a roof having only one roofing layer with no overlays? 3.Will the PV array be flush mounted to the existing roof so that the plane of the modules (panels) are parallel to the plane of the roof? 4.Will the PV system weigh maximum 4 pounds per square feet or less? 5.Will the PV system be installed where the modules do not overhang any roof edges (such as eaves, gabled ends, ridges and hips)? 6.Will the PV system be installed with a space of 2” minimum to 10” maximum between the underside of modules and the surface of the roof? 7.Will the PV system be installed without using any ballast system or counter-weight system? 8.Will the anchors be installed with a maximum horizontal anchor spacing of 6 feet and is this maximum horizontal spacing shown on the plans? 9.Will the minimum 5/16” lag screws be installed with a minimum of 2 -1/2 inch embedment into roof rafters (with pre-drilled holes) and is this minimum embedment shown on the plans? 10. Are ALL the structural pages of the plans stamped and signed by a California licensed professional engineer? (including project specific site plan, PV layout, anchorage spacing, anchorage details and manufacturer’s PV support information.) I certify under penalty of perjury under the laws of the State of California that the above is true: Print Name: S ignature: Phone Number: Date: Em ail Address: Planning & Building Agency Building Safety Division 20 Civic Center Plaza P.O. Box 1988 (M-19) Santa Ana, CA 92702 (714) 647-5800 www.santa-ana.org 901 Grovemont Street, Santa Ana, California, 92706, Solectric Solution 1006294 x x x x x x x x x x PAUL NAKHLE 909 524 7774 1/21/24 solectricsolution@gmail.com 901 E Grovemont St- 101118284 & 201821233/21/2024 DNA TM 108 Bifacial Solar for Innovators Residential I Commercial Features 023 __£) 000 ...,.,.000 vooo Advanced Technology Designed & Engineered in Silicon Valley 400Wl405Wl410W Our DNA Split Cell Series uses advanced selective emitter PERC technology with thin film layers to improve heat tolerance, increase photon capture, minimize resistive loss, and use 5% more of the available active area for optimal power performance. Our panels exceed IEC standards and come with an industry leading, 30-year warranty. 98% 97% 90.7% 83.7% 80.2% 76.7% Linear Performance Warranty Standard Warranty Optional Extended Warranty --82.4% I +49%··-o !---------+-------+----=~ --_ _ I +5 7% 1 year 10 years Q Aptos Warranty 20 years 25 years 30 years • Industry Standard Maximum Panel Density Patented DNA™ technology boosts power performance & module efficiency 1111111111 1 1 111111111 1 Advanced split cell technology with 10 ultra-thin busbars allows for less resistance and more photon capture Durable Design Robust product design is resilient in extreme weather. Up to 5400 Pa snow load and 5400 Pa wind load 2081 Business Center Drive, Ste 100 Irvine, CA 92612 www.aptossolar.com I info@aptossolar.com @J A Safe Investment Industry leading 30 year warranty 35mm, 1.3in Electrical Specifications DNA-108-BF10-400W DNA-108-BF10-405W DNA-108-BF10-410W STC Rated Output P mpp (W) 400W 405W 410W Module Efficiency 20.50% 20.70% 21.00% Open Circuit Voltage Vvoc (V) 37.10 37.20 37.30 Short Circuit Current 150 (A) 13.79 13.87 13.95 Rated Voltage V mp (V) 31.00 31.20 31.50 Rated Voltage Imp (Al 12.90 12.98 13.04 Standard Test Conditions for front -face of panel: 1000 W/mL, 25°C, measurement uncertainty _:::_3% Bifacial Output-Rearside Power Gain 5%-Maximum Power (Pmax) 5%-Module Efficiency STC(%) 15%-Maximum Power (Pmax) 15%-Module Efficiency STC(%) 25%-Maximum Power (Pmax) 25%-Module Efficiency STC(%) Test Operating Conditions Maximum Series Fuse Maximum System Voltage Maximum Load Capacity (Per UL 1703) Fire Performance Class Temperature Coefficients 420W 19.46% 460W 21.32% 500W 23.17% 425W 19.71% 466W 21.58% 506W 23.46% 431W 19.95% 472W 21.85% 513W 23.75% 30A 1,500 VDC (UL&IEC) 5400 PA Snow Load / 5400 Pa Wind Load Class C/Type 1 Packaging Configuration E E LO (') A-A 72:T 35mm E E LO (') B-B 72:T 35mm Mechanical Properties Cell Type Glass Frame Junction Box Monocrystalline 3.2mm, anti-refiection coating, high transmission, low iron, tempered glass Anodized Aluminum Alloy 300mm Dimensions 1722 X 1134 X 35 mm, 67.7 X 44.6 X 1.3 in Output Cable 4mm2 (EU)12AWG,39.37in.(1200mm) Weight Cable Length 1-V Curve SOOW/m' 600W/m 2 4 00W/m' 200W/m 2 Vol tage (V) Certifications 22.0kg 1200mm Temperature Coefficients P mp -0.350%/°C Modules per Pallet 31 •· Temperature Coefficients I" +0.048%/°C Pallets per 40ft. Container 26 Temperature Coefficients V oc -0.280%/°C Pallet Dimensions 1752 X 1130 X 1264 mm Normal Operating Cell Temperature (NOCT) 45°C±2°C Pallet Weight (kg) 720 Modules per 40ft. Container 806 Aptos Solar Technology reserves the right to make specification changes without notice lntertek IEC61730 UL 61730 C US IEC 61215,IEC 61730 UL61730 901 E Grovemont St- 101118284 & 201821233/21/2024 DATA SHEET IQ8M and IQ8A Microinverters Our newest IQ8 Microinverters are the industry’s first microgrid-forming, software defined microinverters with split-phase power conversion capability to convert DC power to AC power efficiently. The brain of the semiconductor-based microinverter is our proprietary application specific integrated circuit (ASIC) which enables the microinverter to operate in grid-tied or off-grid modes. This chip is built in advanced 55nm technology with high speed digital logic and has superfast response times to changing loads and grid events, alleviating constraints on battery sizing for home energy systems. Easy to install • Lightweight and compact with plug-n- play connectors • Power Line Communication (PLC) between components • Faster installation with simple two-wire cabling High productivity and reliability • Produce power even when the grid is down* • More than one million cumulative hours of testing • Class II double-insulated enclosure • Optimized for the latest high-powered PV modules Microgrid-forming • Complies with the latest advanced grid support** • Remote automatic updates for the latest grid requirements • Configurable to support a wide range of grid profiles • Meets CA Rule 21 (UL 1741-SA) and IEEE 1547:2018 (UL 1741-SB) Note: IQ8 Microinverters cannot be mixed together with previous generations of Enphase microinverters (IQ7 Series, IQ6 Series, etc) in the same system. © 2022 Enphase Energy. All rights reserved. Enphase, the Enphase logo, IQ8 Microinverters, and other names are trademarks of Enphase Energy, Inc. Data subject to change. *Only when installed with IQ System Controller 2, meets UL 1741. **IQ8M and IQ8A support split-phase, 240V installations only. Part of the Enphase Energy System, IQ8 Series Microinverters integrate with the IQ Battery, IQ Gateway, and the Enphase App monitoring and analysis software. IQ8 Series Microinverters redefine reliability standards with more than one million cumulative hours of power-on testing, enabling an industry-leading limited warranty of up to 25 years. Connect PV modules quickly and easily to IQ8 Series Microinverters using the included Q-DCC-2 adapter cable with plug-n-play MC4 connectors. IQ8 Series Microinverters are UL listed as PV Rapid Shutdown Equipment and conform with various regulations, when installed according to manufacturer’s instructions. IQ8MA-12A-DS-0069-02-EN-US-2022-12-02 (1) Pairing PV modules with wattage above the limit may result in additional clipping losses. See the compatibility calculator at https://link.enphase.com/module-compatibility. (2) Nominal voltage range can be extended beyond nominal if required by the utility. (3) Limits may vary. Refer to local requirements to define the number of microinverters per branch in your area. IQ8M and IQ8A Microinverters IQ8M-72-2-US IQ8A-72-2-US W 260 – 460 295 – 500 V 54-cell / 108 half-cell, 60-cell / 120 half-cell, 66-cell / 132 half-cell and 72-cell / 144 half-cell 30 – 45 32 – 45 V 16 – 58 V 22 / 58 V 60 A 12 A 25 A 20 II mA 0 1 x 1 Ungrounded array; No additional DC side protection required; AC side protection requires max 20A per branch circuit IQ8M-72-2-US IQ8A-72-2-US VA 330 366 VA 325 349 V 240 / 211 – 264 A 1.35 1.45 Hz 60 Hz 47 – 68 Arms 2 11 <5% III mA 30 1.0 0.85 leading – 0.85 lagging %97.8 97.7 %97.5 97 mW 60 -40°C to +60°C (-40°F to +140°F) 4% to 100% (condensing) MC4 212 mm (8.3”) x 175 mm (6.9”) x 30.2 mm (1.2”) 1.08 kg (2.38 lbs) Natural convection – no fans Yes PD3 Class II double-insulated, corrosion resistant polymeric enclosure NEMA Type 6 / outdoor INPUT DATA (DC) Commonly used module pairings1 Module compatibility MPPT voltage range Operating range Min. / Max. start voltage Max. input DC voltage Max. continuous input DC current Max. input DC short-circuit current Max. module Isc Overvoltage class DC port DC port backfeed current PV array configuration OUTPUT DATA (AC) Peak output power Max. continuous output power Nominal (L-L) voltage / range2 Max. continuous output current Nominal frequency Extended frequency range AC short circuit fault current over 3 cycles Max. units per 20 A (L-L) branch circuit3 Total harmonic distortion Overvoltage class AC port AC port backfeed current Power factor setting Grid-tied power factor (adjustable) Peak efficiency CEC weighted efficiency Night-time power consumption MECHANICAL DATA Ambient temperature range Relative humidity range DC Connector type Dimensions (H x W x D) Weight Cooling Approved for wet locations Pollution degree Enclosure Environ. category / UV exposure rating COMPLIANCE Certifications CA Rule 21 (UL 1741-SA), UL 62109-1, IEEE 1547:2018 (UL 1741-SB), FCC Part 15 Class B, 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. IQ8MA-12A-DS-0069-02-EN-US-2022-12-02 901 E Grovemont St- 101118284 & 201821233/21/2024 X-IQ-AM1-240-4 X2-IQ-AM1-240-4 (IEEE 1547:2018) The IQ Combiner 4/4C with IQ Gateway and integrated LTE-M1 cell modem (included only with IQ Combiner 4C) consolidates interconnection equipment into a single enclosure. It streamlines IQ Microinverters and storage installations by providing a consistent, pre-wired solution for residential applications. It offers up to four 2-pole input circuits and Eaton BR series busbar assembly. IQ Combiner 4/4C Data Sheet Enphase Networking Smart • Includes IQ Gateway for communication and control • Includes Mobile Connect cellular modem (CELLMODEM-M1-06-SP-05), included only with IQ Combiner 4C • Includes solar shield to match Enphase IQ Battery aesthetics and deflect heat • Supports Wi-Fi, Ethernet, or cellular connectivity • Optional AC receptacle available for PLC bridge • Provides production metering and consumption monitoring Simple • Mounts on single stud with centered brackets • Supports bottom, back and side conduit entry • Allows up to four 2-pole branch circuits for 240VAC plug-in breakers (not included) • 80A total PV or storage branch circuits Reliable • Durable NRTL-certified NEMA type 3R enclosure • Five-year limited warranty • Two years labor reimbursement program coverage included for both the IQ Combiner SKU's • UL listed • X2-IQ-AM1-240-4 and X2-IQ-AM1-240-4C comply with IEEE 1547:2018 (UL 1741-SB, 3rd Ed.) X-IQ-AM1-240-4C X2-IQ-AM1-240-4C (IEEE 1547:2018) To learn more about Enphase offerings, visit enphase.com IQ-C-4-4C-DS-0103-EN-US-12-29-2022 © 2022 Enphase Energy. All rights reserved. Enphase, the Enphase logo, IQ Combiner 4/4C, and other names are trademarks of Enphase Energy, Inc. Data subject to change. MODEL NUMBER IQ Combiner 4 X-IQ-AM1-240-4 X2-IQ-AM1-240-4 (IEEE 1547:2018) IQ Combiner 4 with IQ Gateway printed circuit board for integrated revenue grade PV production metering (ANSI C12.20 ± 0.5%) and consumption monitoring (± 2.5%). Includes a silver solar shield to match the IQ Battery and IQ System Controller 2 and to deflect heat. IQ Combiner 4C X-IQ-AM1-240-4C X2-IQ-AM1-240-4C (IEEE 1547:2018) IQ Combiner 4C with IQ Gateway printed circuit board for integrated revenue grade PV production metering (ANSI C12.20 ± 0.5%) and consumption monitoring (± 2.5%). Includes Mobile Connect cellular modem (CELLMODEM-M1-06-SP-05), a plug-and-play industrial-grade cell modem for systems up to 60 microinverters. (Available in the US, Canada, Mexico, Puerto Rico, and the US Virgin Islands, where there is adequate cellular service in the installation area.) Includes a silver solar shield to match the IQ Battery and IQ System Controller and to deflect heat. ACCESSORIES AND REPLACEMENT PARTS (not included, order separately) Supported microinverters IQ6, IQ7, and IQ8. (Do not mix IQ6/7 Microinverters with IQ8) - Includes COMMS-KIT-01 and CELLMODEM-M1-06-SP-05 with 5-year Sprint data plan - 4G based LTE-M1 cellular modem with 5-year Sprint data plan - 4G based LTE-M1 cellular modem with 5-year AT&T data plan Communications Kit COMMS-CELLMODEM-M1-06 CELLMODEM-M1-06-SP-05 CELLMODEM-M1-06-AT-05 Circuit Breakers BRK-10A-2-240V BRK-15A-2-240V BRK-20A-2P-240V BRK-15A-2P-240V-B BRK-20A-2P-240V-B Supports Eaton BR210, BR215, BR220, BR230, BR240, BR250, and BR260 circuit breakers. Circuit breaker, 2 pole, 10A, Eaton BR210 Circuit breaker, 2 pole, 15A, Eaton BR215 Circuit breaker, 2 pole, 20A, Eaton BR220 Circuit breaker, 2 pole, 15A, Eaton BR215B with hold down kit support Circuit breaker, 2 pole, 20A, Eaton BR220B with hold down kit support XA-SOLARSHIELD-ES Replacement solar shield for IQ Combiner 4/4C XA-PLUG-120-3 Accessory receptacle for Power Line Carrier in IQ Combiner 4/4C (required for EPLC-01) X-IQ-NA-HD-125A Hold-down kit for Eaton circuit breaker with screws Consumption monitoring CT (CT-200-SPLIT/CT-200-CLAMP) A pair of 200A split core current transformers ELECTRICAL SPECIFICATIONS Rating Continuous duty System voltage Eaton BR series busbar rating 120/240VAC, 60 Hz 125A 65AMax. continuous current rating Max. continuous current rating (input from PV/storage)64A Max. fuse/circuit rating (output) Branch circuits (solar and/or storage) 90A Up to four 2-pole Eaton BR series Distributed Generation (DG) breakers only (not included) Max. total branch circuit breaker rating (input) IQ Gateway breaker 80A of distributed generation/95A with IQ Gateway breaker included 10A or 15A rating GE/Siemens/Eaton included Production metering CT 200A solid core pre-installed and wired to IQ Gateway MECHANICAL DATA 37.5 cm x 49.5 cm x 16.8 cm (14.75 in x 19.5 in x 6.63 in). Height is 53.5 cm (21.06 in) with mounting brackets. 7.5 kg (16.5 lbs) -40ºC to +46ºC (-40ºF to 115ºF) Natural convection, plus heat shield Outdoor, NRTL-certified, NEMA type 3R, polycarbonate construction Dimensions (WxHxD) Weight Ambient temperature range Cooling Enclosure environmental rating Wire sizes • 0A to 50A breaker inputs: 14 to 4 AWG copper conductors • 0A breaker branch input: 4 to 1/0 AWG copper conductors • ain lug combined output: 10 to 2/0 AWG copper conductors • eutral and ground: 14 to 1/0 copper conductors • lways follow local code requirements for conductor sizing. Up to 3,000 meters (9,842 feet)Altitude INTERNET CONNECTION OPTIONS Integrated Wi-Fi IEEE 802.11b/g/n Cellular Ethernet CELLMODEM-M1-06-SP-05, CELLMODEM-M1-06-AT-05 (4G based LTE-M1 cellular modem). Note that an Mobile Connect cellular modem is required for all Enphase Energy System installations. Optional, IEEE 802.3, Cat5E (or Cat6) UTP Ethernet cable (not included) COMPLIANCE Compliance, IQ Combiner CA Rule 21 (UL 1741-SA) IEEE 1547:2018 - UL 1741-SB, 3rd Ed. (X2-IQ-AM1-240-4 and X2-IQ-AM1-240-4C) CAN/CSA C22.2 No. 107.1, Title 47 CFR, Part 15, Class B, ICES 003 Production metering: ANSI C12.20 accuracy class 0.5 (PV production) Consumption metering: accuracy class 2.5 Compliance, IQ Gateway UL 60601-1/CANCSA 22.2 No. 61010-1 IQ Combiner 4/4C IQ-C-4-4C-DS-0103-EN-US-12-29-2022 901 E Grovemont St- 101118284 & 201821233/21/2024 snapnrack.com Ultra Rail Industry leading Wire Management Solutions Single Tool Installation Mounts available for all roof types All SnapNrack Module Clamps & Accessories are compatible with both raiil profi les Start Installing Ultra Rail Today UR-40 UR-60 The Ultimate Value in Rooftop Solar Solar Mounting Solutions © 2016 by SnapNrack Solar Mounting Solutions. All rights reserved 877-732-2860 www.snapnrack.com contact@snapnrack.com SnapNrack_Ultra Rail Sales Brochure_v.1.4 SnapNrack Solar Mounting Solutions are engineered to optimize material use and labor resources and improve overall installation quality and safety. Quality. Innovative. Superior. Unparalleled Wire Management Open rail channel provides room for running wires resulting in a long-lasting quality install Industry best wire management o ering includes Junction Boxes, Universal Wire Clamps, MLPE Attachment Kits, and Conduit Clamps System is fully bonded and listed to UL 2703 Standard © 2019 by SnapNrack Solar Mounting Solutions. All rights reserved 877-732-2860 www.snapnrack.com contact@snapnrack.com SnapNrack Ultra Rail System A sleek, straightforward rail solution for mounting solar modules on all roof types. Ultra Rail features two rail profi les; UR-40 is a lightweight rail profi le that is suitable for most geographic regions and maintains all the great features of SnapNrack rail, while UR-60 is a heavier duty rail profi le that provides a larger rail channel and increased span capabilities. Both are compatible with all existing mounts, module clamps, and accessories for ease of install. The Entire System is a Snap to Install New Ultra Rail Mounts include snap-in brackets for attaching rail Compatible with all the SnapNrack Mid Clamps and End Clamps customers love Universal End Clamps and snap-in End Caps provide a clean look to the array edge Heavy Duty UR-60 Rail UR-60 rail profi le provides increased span capabilities for high wind speeds and snow loads Taller, stronger rail profi le includes profi le- specifi c rail splice and end cap All existing mounts, module clamps, and accessories are retained for the same great install experience 901 E Grovemont St- 101118284 & 201821233/21/2024 REENIIGER LARUTCURTS AINROFILACFOETATS GNELANOISSEFORPDERETSEHCAZHTENEKL N AP Exp. 3-31-25 No. S3878 R U 901 E Grovemont St- 101118284 & 201821233/21/2024 snapnrack.com Certification Details SnapNrack Ultra Rail system has been evaluated by Underwriters Laboratories (UL) and Listed to UL/ANSI Standard 2703 for Grounding/Bonding, Mechanical Loading, and Fire Classification. The Ultra Rail system has been designed in compliance with UL Standard 2703 Section 9.1 Exception, which permits accessible components that are not part of the fault current ground path to not be electrically bonded to the mounting system (e.g. roof attachments, array skirt, etc.). For more details on the integrated grounding functionality see the Grounding Specifications section. This racking system may be used to ground and/or mount a PV module complying with UL 1703 only when the specific module has been evaluated for grounding and/or mounting in compliance with the included instructions. See the Grounding Specifications for the list of modules tested with the Ultra Rail system for integrated grounding. Ground Lugs have been evaluated to both UL 467 and UL 2703 Listing requirements. Ultra Rail has been listed with a number of Module Level Power Electronic (MLPE) devices. A complete list can be found in the Grounding Specifications section. The mounting system Bonding Listing is only valid when installed with a Non-Separately Derived PV system. The PV system is required to have a direct electrical connection to another source, such as connecting to the grid via a grid interactive inverter. SnapNrack recommends that bare copper never come into contact with aluminum. Grounding/Bonding The Ultra Rail system is Listed for mechanical loading for different load ratings depending on the mounting configuration and PV module installed. For more details on the mechanical loading details see the Mechanical Loading Specifications section. SnapNrack engineered systems should only be used with SnapNrack components and hardware. Any application outside of those specified in this Installation Manual and the Structural Engineering Report may void the warranty and structural certification could become invalid. If the module clamps have been engaged and need to be loosened and reengaged, SnapNrack recommends moving the module frame 3mm to engage the bonding pin in a new location. The UL Listing covers mechanical load ratings for the various span lengths, module orientations and positive, negative, and side load ratings. These values can be found in the Mechanical Loading Specifications section. SnapNrack recommends a periodic re-inspection of the completed installation for loose components, loose fasteners, and any corrosion, such that if found, the affected components are to be immediately replaced. Mechanical Loading Fire The Ultra Rail system has been evaluated for a Class A System Fire Classification for a Steep-Sloped Roof (≥ 2:12 pitch) using Type 1 and Type 2 modules. In order to maintain the System Classification, modules are clamped to the mounting rails between 0 and 12 inches from the top and bottom edges of the module. The Ultra Rail system has been evaluated for a Class A System Fire Classification for a Low-Sloped Roof (< 2:12 pitch) using Type 1 and Type 2 modules. In order to maintain the System Classification, modules are clamped to the mounting rails be- tween 0 and 16.3 inches from the top and bottom edges of the module. The optional Array Skirt accessory has also been evaluated and the Ultra Rail system will maintain the Class A System Fire Classification detailed above if installed with the Skirt. Because the system was tested at 5 inches above the test roof fixture Ultra Rail can be installed without any height restric- tions and will maintain the Class A System Fire Classification. See Rail Installation section for potential module-specific height restrictions due to module temperature. 901 E Grovemont St- 101118284 & 201821233/21/2024 snapnrack.com 56 Grounding Specifications Ultra Rail has been tested with the following UL Listed modules: The Ultra Rail System employs top-down clamps which have been evaluated for frame-to-system bonding, at specific mounting torques and with the specific modules listed below. The system has been assessed to a maximum Over-Current Device (OCD) protection level of 20 amps. The UL file number is included in parentheses below. Hyundai Heavy Industries Co Ltd (E325005) - HiS-MXXXRG Series where XXX is 235 to 275; HiS-SXXXRG where XXX is 245 to 295; HiS-SXXXRW where XXX is 250 to 265; HiS-MXXXMG where XXX is 210 to 270; HiS-SXXXMG where XXX is 220 to 275. All may be followed by the suffix BK or blank. Jinko Solar (E362479) - JKMXXXP-60, JKMXXXPP-60, JKMXXXP-60-V, JKMXXXP-60-J4, JKMXXXP-60B-J4 where XXX is 200 to 290; JKMXXXP-72, JKMXXXPP-72, JKMXXXP-72-V, JKMXXXPP-72-V where XXX is 250 to 360; JKMXXXM-60 where XXX is 200 to 305; JKMXXXM-72 where XXX is 250 to 365; JKMXXXM-60L where XXX is 305-325; JKMXXXM-60HBL (310-330); JKMXXXM-72L-V( 370-390); JKMXXXM-72HL-V (380-400). Kyocera (E467150) - KU-60 1000 V Series - KUXXX, where XXX is 250 to 275, followed -6BCA, -6BFA, -6BPA, -6DCA, -6DFA, -6DPA, -6MCA, -6MPA, -6XCA, -6XPA, -6ZCA, -6ZPA, -6ZPB, -6ZCB, -6ZPC, -6ZCC, -6ZPD, -6ZCD, -6ZPE, 6ZCE, -6MPC, -6MCC, -6MPB or -6MCB; KU-80 1000 V Series - KUXXX, where XXX is 315 to 335, followed by -8BCA, -8BFA or -8BPA. LG (E329725) – LGXXXQ1C-A5 where XXX is 340 to 385; LGXXXQ1K-A5 where XXX is 315 to 375; LGXXXN1C-V5 where XXX is 320 to 350; LGXXXN1K-V5 where XXX is 320 to 340; LGXXXQ1C-V5 where XXX is 340 to 375; LGXXXQ1K where XXX is 350 to 365. Panasonic (E181540) – VBHNXXXSA16 where XXX is 320 to 335; VBHNXXXKA01 and VBHNXXXKA02 where XXX is 310 to 325, VBHNXXXKA03 and VBHNXXXKA04 where XXX is 310 to 325; VBHNXXXSA17 and VBHNXXXSA18 where XXX is 325 to 335; VBHNXXXSA17E where XXX is 325 to 330. REC Solar AS (E308147) - RECXXX, where XXX is 214 to 270, all may be followed by PE, PE(BLK), PE-US, PE-US(BLK), PEQ2 or PEQ3. Renesola Jiangsu Ltd (E312637) - JCXXXM-24/Bb Series where XXX is 200 to 270; JCXXXM-24/BBh Series where XXX is 235 to 270. Suniva Inc (E333709) - MVX-XXX-60-5-YYY where XXX is 235 to 265 and YYY is 701 or 7B1; OPT-XXX-60-4-YYY where XXX is 250 to 275 and YYY is 800 or 8B0. *Sunpower (E246423)- Gen 3 or Gen 5 frame models SPR-XYY-### where YY represents numbers 18, 19, 20, 21 or 22, and ### represents any number from 365 to 310 and 274 to 233; Gen 3 or Gen 5 frame models SPR-EYY-### where YY represents numbers 18, 19, 20, 21 or 22, and ### represents any number from 345 to 285 and 250 to 225. Talesun Solar (E359349) – TP660P-XXX where XXX is 235 to 285; TP660M-XXX where XXX is 240 to 300; TP672P-XXX where XXX is 280 to 345; TP672M-XXX where XXX is 290 to 360; TP672M-XXX where XXX is 360; TP660M-XXX where XXX is 295- 300. GROUNDING MARKING DETAILS All components included in the Ultra Rail UL 2703 Listing for grounding/bonding are packaged and marked with the UL logo, SnapNrack File E359313, and “PV Mounting System” The SnapNrack Ground Lug is marked with the ground symbol Ilsco Ground Lugs have green colored set screws or bolts to indicate connection to the grounding electrode conductor snapnrack.comGrounding Specifications Talesun Solar (E349638) – TP660P-XXX where XXX is 210 to 255; TP660M-XXX where XXX is 215 to 260; TP672P-XXX where XXX is 260 to 300; TP672M-XXX where XXX is 270 to 310; all may be followed by “B”. Trina Solar Ltd (E306515) – TSM-XXXPA05, TSM-XXXPA05.05, TSM-XXXPA05.08, where XXX is 215 to 260; TSM-XXXPD05, TSM-XXXPD05.05, TSM-XXXPD05.08 where XXX is 240 to 280; TSM-XXXPD05.08D where XXX is 245 to 275; TSM- XXXXDD05A(II), TSM-XXXDD05A.05(II), TSM-XXXDD05A.08(II) where XXX is 260 to 300. All may be followed by Black or White. Yingli Energy (China) Co Ltd (E320066) – YLXXXP-29b where XXX is 215 to 260; YLXXXA-29b where XXX is 220 to 255. NRTL Listed PV Modules: Boviet Solar - BVM6610P-XXX where XXX is 225 to 275; BVM6610M-XXX where XXX is 235 to 280; BVM6612P-XXX where XXX is 270 to 330; BVM6612M-XXX where XXX is 280 to 340. Canadian Solar - CS6P-XXX-P, CS6P-XXX-M where XXX is 200 to 300; CS6P-XXX-P-SD, CS6K-XXX-P-SD where XXX is 240 to 300; CS6K-XXX-M, CS6K-XXX-MS, CS6K-XXX-M-SD where XXX is 240 to 305; CS6K-XXX-P where XXX is 220 to 300; CS6X- XXX-P where XXX is 250 to 360; CS6V-XXX-M where XXX is 215 to 225; CS6V-XXX-P where XXX is 250 to 255; CS3K-XXX-P where XXX is 250 to 310; CS3K-XXX-MS where XXX is 280 to 330; CS1K-XXX-MS where XXX is 285 to 345, CS1H-XXX-MS, CS1H- XXX-MS-AB where XXX is 310 to 350. ET Solar - ET-P660XXXBB where XXX is 200 to 265; ET-P660XXXWB where XXX is 200 to 265; ET-P660XXXWW where XXX is 200 to 265; ET-P660XXXWWG where XXX is 235 to 265; P660XXXWB/WW where XXX is 200 to 265 and may be followed by WB or WW; P660XXXWWG where XXX is 240 to 250; M660XXXBB where XXX is 250 to 265; M660XXXWW where XXX is 200 to 270. *Hanwha Q Cells - B.LINE PLUS BFR-G4.1-XXX, B.LINE PRO BFR-G4.1-XXX, Q.BASE GY-XXX, Q.PEAK G4-XXX, Q.PLUS BFR- G3.1-XXX, Q.PLUS BFR-G4-XXX, Q.PLUS BFR-G4.1-XXX, Q.PLUS BFR-G4.1/TAA-XXX, Q.PLUS BRF-GY-XXX, Q.PLUS GY-XXX, Q.PLUS G4-XXX, Q.PRO BFR-G4-XXX, Q.PRO BFR-G4.1-XXX, Q.PRO BFR-G4.3-XXX, Q.PRO BFR-GY-XXX, Q.PRO BLK-GY-XX, Q.PRO G4-XXX, Q.PRO GY-XXX, Q.PRO GY/SC-XXX, where XXX is 245 to 295; Q.PEAK BLK-G3.1-XXX, Q.PEAK BLK-G4.1-XXX, Q.PEAK BLK-G4.1/TAA-XXX, Q.PEAK G3.1-XXX, Q.PEAK G4.1-XXX, Q.PEAK G4.1/MAX-XXX, Q.PEAK G4.1/TAA-XXX where XXX is 270 to 325; Q.PEAK DUO BLK-G5-XXX, Q.PEAK DUO G5-XXX, Q.PLUS DUO-G5-XXX where XXX is 290 to 360; Q.PEAK DUO-G7-XXX, Q.PEAK DUO-G7.2-XXX where XXX is 310 to 350; Q.PEAK DUO-BLK-G7-XXX where XXX is 290 to 350; Q.PEAK DUO-G6-XXX, Q.PEAK DUO-G6+-XXX where XXX is 320 to 360; Q.PEAK DUO-BLK-G6-XXX, Q.PEAK DUO-BLK-G6+-XXX where XXX is 310 to 350; Q.PEAK DUO-G8-XXX, Q.PEAK DUO-BLK-G8-XXX, Q.PEAK DUO-G8+-XXX, Q.PEAK DUO-BLK-G8+-XXX where XXX is 290 to 360; Q.PLUS L-G4-XXX, Q.PLUS L-G4.1-XXX, Q.PLUS L-G4.2-XXX where XXX is 280 to 355; Q.PEAK L-G4.1- XXX, Q.PEAK L-G4.2-XXX where XXX is 330-390; Q.PLUS DUO-L-G5-XXX, Q.PLUS DUO-L-G5.1-XXX, Q.PLUS DUO-L-G5.2-XXX, Q.PLUS DUO-L-G5.3-XXX where XXX is 340 to 425; Q.PEAK DUO-L-G5.2-XXX, Q.PEAK DUO-L-G5.3-XXX where XXX is 360 to 425; Q.PEAK DUO-L-G7-XXX, Q.PEAK DUO-L-G7.1-XXX, Q.PEAK DUO-L-G7.2-XXX, Q.PEAK DUO-L-G7.3-XXX where XXX is 360 to 415; Q.PEAK DUO-L-G6-XXX, Q.PEAK DUO-L-G6.2-XXX, Q.PEAK DUO-L-G6.3-XXX, Q.PEAK DUO-L-G8-XXX, Q.PEAK DUO-L- G8.1-XXX, Q.PEAK DUO-L-G8.2-XXX, Q.PEAK DUO-L-G8.3-XXX where XXX is 360 to 430. Hanwha SolarOne - HSL60P6-PB-X-YYYQ where X is 2 or 4, and YYY is 230 to 270, may be followed by additional su ffixes. JA Solar - JAP6-60-XXX/3BB where XXX is 235 to 265; JAM6-60-XXX/SI where XXX is 250 to 270; JAP72S01-XXX/SC where XXX is 315 to 335; JAP6(k)-72-XXX/4BB where XXX is 305 to 325. LG Electronics Inc. - LGXXXS1C-G4 where XXX is 250 to 300; LGXXXN1K-G4 where XXX is 280 to 300; LGXXXN1C-G4 where XXX is 280 to 340; LGXXXN2C-G4, LGXXXN2W-G4, where XXX is 360 to 395; LGXXXN2K-G4, where XXX is 360 to 385; LGXXXS2C-G4, LGXXXS2W-G4, where XXX is 300 to 360; LGXXXN2C-B3, LGXXXN2W-B3, where XXX is 330 to 400; LGXXXS1C-A5 where XXX is 280 to 320; LGXXXN1C-A5 where XXX is 320 to 345; LGXXXN1K-A5 where XXX is 310 to 335. Longi Green Energy Technology Co., Ltd.: LR6-60-XXXM, LR6-60BK-XXXM, LR60-HV-XXXM, where XXX is 270 to 300; LR6- 60PB-XXXM, LR6-60PE-XXXM, LR6-60PH-XXXM, where XXX is 280 to 320; LR6-60HPB-XXXM where XXX is 295 to 320; LR6- 60HPH-XXXM where XXX is 300 to 320. 901 E Grovemont St- 101118284 & 201821233/21/2024 snapnrack.com 58 Mission Solar: Models MSEXXXSO5T where XXX is 260 to 290; MSEXXXSO5K where XXX is 270 to 290; MSEXXXSQ5T where XXX is 280 to 300; MSEXXXSQ5K where XXX is 285 to 305; MSEXXXMM4J and MSEXXXMM6J where XXX is 320 to 330; MSEXXXSO6W where XXX is 320 to 340; MSEXXXSO4J and MSEXXXSO6J where XXX is 320 to 350; MSEXXXSQ4S and MSEXXXSQ6S where XXX is 345 to 365; MSEXXXSQ8K where XXX is 290 to 315; MSEXXXSQ8T where XXX is 285 to 310. REC Solar PTE. LTD. - RECXXXPE where the XXX is 214 to 280; RECXXXTP where XXX is 260 to 300; RECXXXTP2 where XXX is 260 to 300; RECXXXTP IQ where XXX is 260 to 300; All may be followed by BLK; RECXXXTP72 where XXX is 330 to 345; RECXXX where XXX is 285 to 325, followed by PE72, PE72BLK, PE72 Q2 or PE72 Q3; RECXXXPE72XV where XXX is 295 to 325, followed by PE72 XV, PE72 XV Q2 or PE72 XV Q3; RECXXXNP, where XXX is 310-330; RECXXXTP2M, where XXX is 300- 315. Silfab - SLAXXX-M, where XXX is 280 to 300; SLGXXX-M, where XXX is 335 to 360; SLAXXX-P, where XXX is 250 to 265; SLGXXX-P, where XXX is 300 to 315; SSAXXX-M, where XXX is 280 to 300; SSGXXX-M, where XXX is 335 to 360; SSAXXX-P, where XXX is 250 to 260; SSGXXX-P, where XXX is 300 to 315. Solaria: Solaria PowerXT-XXXR-PD and Solaria PowerXT-XXXR-BD, where XXX is 315 to 385. Solar World - SWXXX-Mono where XXX is 200 to 300; SWXXX-Mono XL where XXX is 320 to 350. All may be followed by Black. Suniva Inc – OPTXXX-60-4-YYY where XXX is 240 to 300 and YYY is 100; OPTXXX-60-4-YYY where XXX is 235 to 300 and YYY is 1B0. Trina Solar Ltd - - TSM-XXXPD05.002, TSM-XXXPD05.082, TSM-XXXPD05.05S, TSM-XXXPD05.08S where XXX is 215 to 275; TSM-XXXDD05A.082(II) where XXX is 260 to 315; all may be followed by Black. Ultra Rail has been tested with the following Module Level Power Electronic (MLPE) devices: Celestica International – Listed, Rapid Shutdown Device models DG-006-F001201x and DG-006-F001401x. Enphase – R/C (QIKH2) (QIMS2), Microinverter Models M250, M215 and C250. Provided with or without Enphase R/C (QIMS2) Model EFM-XXMM frame mount kit and Enphase R/C (QIMS2) Engage Cable Model ETXX-240, ETXX-208 or ETXX-277; NRTL Listed, IQ6-60-2-US, IQ6PLUS-72-2-US, IQ7-60-2-US, IQ7-60-B-US, IQ7PLUS-72-2-US, IQ7PLUS-72-B-US. Ginlong Technologies – NRTL Listed, Rapid Shutdown Device Model Solis-RSD-1G; Solis-MLRSD-R1-1G and Solis-MLRSD-R2-1G. SolarEdge – NRTL Listed, Optimizer Models P300-5NC4ARS, P320-5NC4ARS, P300-5NC4AFS, P320-5NC4AFS, P370- 5NC4AFS, or P400-5NC4AFS. Note: Ginlong Solis-MLRSD-R1-1G and Solis-MLRSD-R2-1G have not been investigated for bonding since the enclosures are constructed entirely of polymeric materials. All MLPE models noted above have been evaluated for use with SnapNrack MLPE Rail Attachment Kit and MLPE Frame Attachment Kit except SolarEdge Models P300-5NC4ARS and P320-5NCARS. The following MLPE devices have been evaluated for use with the SnapNrack MLPE Rail Attachment Kit only: SMA – Rapid Shutdown Device Model RSB-2S-US-10 Only bonding to the backplates of these devices was evaluated. Functionality of the devices was not considered. The SolarEdge Microinverter Frame Mounted Bracket of Models P300-5NC4AFS and P320-5NC4AFS has been evaluated for all modules within flange thickness range of 1.5 mm to 2.3 mm. When adding modules for bonding, consideration must be given to the SolarEdge Microinverter Frame Mounted Models P300- 5NC4AFS and P320-5NC4AFS. This product clamps onto the module flange using an integral bracket. Suniva modules were not evaluated for bonding to the Mounting Bracket. Additional MLPE devices were evaluated for attachment to the module frames through the device mounting means. These devices have not been evaluated for bonding: Tigo – Monitoring Device models TS4-R-F, TS4-R-M, TS4-R-O, TS4-R-S, TS4-R-M-DUO, TS4-R-O-DUO, TS4-R-S-DUO 901 E Grovemont St- 101118284 & 201821233/21/2024 901 E Grovemont St- 101118284 & 201821233/21/2024