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HomeMy WebLinkAbout1402 W Meriday Ln - PlanCODE INFORMATION APPLICABLE CODES, LAWS AND REGULATIONS CODE INFORMATION APPLICABLE CODES, LAWS AND REGULATIONS 2022 CALIFORNIA BUILDING CODE (CBC) 2022 CALIFORNIA RESIDENTIAL CODE (CRC) 2022 CALIFORNIA FIRE CODE (CFC) 2022 CALIFORNIA ELECTRICAL CODE (CEC) 2022 CALIFORNIA MECHANICAL CODE (CMC) 2022 CALIFORNIA PLUMBING CODE (CPC) PROJECT INSTALLER 1 4 1 4 H A R B O U R W A Y S O U T H R I C H M O N D , C A 9 4 8 0 4 ( 5 1 0 ) 5 4 0 - 0 5 5 0 C O R P O R A T I O N , S Y S T E M S R E V I S I O N S SO L A R I N D I V I D U A L P E R M I T P A C K A G E GR I D - T I E D P H O T O V O L T A I C S Y S T E M REV DESCRIPTION DATE DB DRAWN BY: DATE DRAWN SCALE 1 AHJ REDLINE 05/07/23 IA LU I S A S A N C H E Z 14 0 2 M E R I D A Y L N SA N T A A N A , C A L I F O R N I A 9 2 7 0 6 RP-377049 4. 3 5 k W SPRI - ANAHEIM 01-17-2023 I. Atienza IAN ATIENZA (N ) 1 3 k W h S U N V A U L T E N E R G Y S T O R A G E S Y S T E M (N) GRID TIED PHOTOVOLTAIC SYSTEM SOLAR INDIVIDUAL PERMIT PACKAGE LUISA SANCHEZ 1402 MERIDAY LN 3107173457 SANTA ANA, CALIFORNIA 92706 4.35 kW AHJ: SANTA ANA CITY UTILITY: SOUTHERN CALIFORNIA EDISON CO (N) 13 kWh SUNVAULT ENERGY STORAGE SYSTEM SATELLITE IMAGE CO V E R S H E E T PROJECT LOCATION NTS SHEET INDEX SCOPE OF WORK - (N) 4.350 kW PHOTOVOLTAIC SYSTEM & (N) 13 kWh ENERGY STORAGE SYSTEM - (10) SunPower SPR-M-435-H-AC PV MODULES - POINT OF INTERCONNECTION AT MAIN SERVICE PANEL WITH CIRCUIT BREAKER NOTES SHEET PVA-0 ARCHITECTURAL DRAWINGS ELECTRICAL DRAWINGS PVE-1 ELECTRICAL SINGLE-LINE DIAGRAM & PVE-2 ELECTRICAL CALCULATION PVE-3 ELECTRICAL DATA & SPECIFICATIONS SPECIFICATIONS PVE-4 PVE-5 BRANCH DIAGRAM STRUCTURAL DRAWINGS PVS-1 STRUCTURAL INFORMATION & PVA-0 COVER SHEET PVA-1 ARRAY LAYOUT EQUINOX GROUNDING DETAILS PV MOUNTING DETAILS PVE-6 BREAKER SCHEDULE PVS-2 ESS MOUNTING DETAILS BLDG# 101117563 ELEC# 20181605 Issued 01/09/2024 Approvals ELEC- MSmith 1402 W Meriday Ln - 201816051/10/2024 20 psf 95 mph C 0 psf Exposure Cat: Ground Snow: Code:2022 California Building Code ASCE 7-16 Live Load: Ult Wind Speed: Design Criteria: 1/19/2023 Attn.: To Whom It May Concern re: Job LUISA SANCHEZ: 1402 MERIDAY LN, SANTA ANA, CALIFORNIA 92706 The following calculations are for the structural engineering design of the photovoltaic panels. All PV mounting equipment shall be designed and installed per manufacturer's approved installation specifications. If you have any questions, don't hesitate to contact. 51 Rio Roble, San Jose, CA 95134 | 1-408-240-5500 Steven Procter Digitally signed by Steven Procter Date: 2023.01.19 14:34:49 -06'00' 1402 W Meriday Ln - 201816051/10/2024 Date :1/19/2023 Job Code: LUISA SANCHEZ 2 of 6 Structrure Geometry: Mean Roof Height, hn =13 ft Eave Height, he =8 ft Buiding Length, L =63.92 ft Building Width, B =54.75 ft Module Area =20.8 ft² Roof Properties: Roof Pitch (deg) = Roofing Type = Sheathing Type = Wood Species = Wood Fb (psf) = Wood Fv (psf) = Wood E (psf) = Wood Lag Withdrawal (lb/in) = Framing Type = Framing OC Spacing (in.) = Section Thickness, b (in.) = Section Depth, d (in.) = Section Modulus, Sx (in.^3) = Beam Span (ft) = Pen Trib Width (ft) = Rail Span (ft) = CD (Wind) = CD (Snow) = CLS = CM = Ct = CL = CF = Cfu = Ci = Cr = Mallowable_Wind (lb-ft) = Mallowable_snow (lb-ft) = 634 456 1.0 1.15 1.5 1.0 1.0 1.0 1.00 1.0 1.6 1.15 4.00 3.07 6.5 3.50 3.06 1.50 2x4 Rafter 24 230400000 266 129600 25920 5/8 OSB Sheathing Doug Fir-Larch #2 2 Layers Comp 21 Roof 1 51 Rio Roble, San Jose, CA 95134 | 1-408-240-5500 1402 W Meriday Ln - 201816051/10/2024 Date :1/19/2023 Job Code: LUISA SANCHEZ 3 of 6 Dead Load: 6.0 2.0 0.6 1.0 Total Roof 1 DL 9.6 psf 2.4 psf Roof_Dist_DL = M_Roof_Dist_DL = Def_Roof_Dist_DL = PV_uni_Dist_DL = M_PV_uni_Dist_DL = Def_PV_uni_Dist_DL = Total_uni_DL = M_Total_uni_DL = Def_Total_uni_DL = Rail_Down_DL = Rail_M_DL = Pens_Down_DL = Pens_Side_DL = Wind Load: Ultimate Wind Speed =95 mph Directionality Factor, kd =0.85 Topographic Factor, kzt =1 Velocity Pressure Exposure Factor, kz =0.85 Ground Elevation Factor, ke =1.00 psf Velocity Pressure, qz =16.67 Solar Equalization Factor, γa =0.60 11 8 28 7 0.0088 22 118 24 0.0018 0.0070 4 18 95 PV DL Roof 1 2 Layers Comp 5/8 OSB Sheathing 2x4 Rafter @ 24" OC Misc (Insulation etc) 51 Rio Roble, San Jose, CA 95134 | 1-408-240-5500 1402 W Meriday Ln - 201816051/10/2024 Date :1/19/2023 Job Code: LUISA SANCHEZ 4 of 6 Array Edge Factor, γE = External Pressure Up, GCp_1 = External Pressure Up, GCp_2 = External Pressure Up, GCp_3 = External Pressure Down, GCp = psf Design Pressure Up, p_1 = psf Design Pressure Up, p_2 = psf Design Pressure Up, p_3 = psf Design Pressure Down, p = uni_Dist_W_up = M_uni_Dist_W_up = Def_uni_Dist_W_up = uni_Dist_W_down = M_uni_Dist_W_down = Def_uni_Dist_W_down = Module_Up_W1 = Module_Up_W2 = Module_Down_W = Rail_Up_W1 = Rail_Up_W2 = Rail_Down_W = Rail_M_Up_W1 = Rail_M_Up_W2 = Rail_M_Down_W = Pens_Up_W1 = Pens_Up_W2 = Pens_Down_W = Module Check: Roof 1 Down = 16 psf <125 psf OK Roof 1 Up z1 = 14 psf <75 psf OK Roof 1 Up z2 = 20 psf <75 psf OK -405 197 55 -276 -77 -113 -101 49 16 -69 -23 -33 169 0.0125 -0.0176 32 -45 -238 -34.51 16.00 -22.51 -33.01 -2.30 0.60 -1.50 -2.20 Roof 1 1.5 51 Rio Roble, San Jose, CA 95134 | 1-408-240-5500 1402 W Meriday Ln - 201816051/10/2024 Date :1/19/2023 Job Code: LUISA SANCHEZ 5 of 6 Rail Check (LRFD): Roof 1 1.4D :11 lb-ft <548 lb-ft OK Roof 1 1.2D + 1.6S + 0.5W :37 lb-ft <548 lb-ft OK Roof 1 1.2D + 0.5S + 1.0W :64 lb-ft <548 lb-ft OK Roof 1 0.9D + 1.0W (Up z1) :70 lb-ft <548 lb-ft OK Roof 1 0.9D + 1.0W (Up z2) :106 lb-ft <548 lb-ft OK Attachment Check (ASD): Roof 1 1.0D + 0.6W :146 lbs <803 lbs OK Roof 1 1.0D + 0.75*[1.0S + 0.6W] :116 lbs <803 lbs OK Roof 1 1.0D + 1.0S :28 lbs <803 lbs OK Roof 1 0.6D + 0.6W (Up z1) :149 lbs <803 lbs OK Roof 1 0.6D + 0.6W (Up z2) :227 lbs <803 lbs OK Lag Screw Uplift Check (ASD): Roof 1 Lag Screw Withdrawl Value =266 lbs 5/16 Dia. Roof 1 Lag Screw Penetration =2.5 Roof 1 0.6D + 0.6W (Up z1) : 149 lbs <665 lbs OK Roof 1 0.6D + 0.6W (Up z2) : 227 lbs <665 lbs OK Framing Check (ASD): Roof 1 uni 1.0D + 0.6W :220 lb-ft <634 lb-ft OK Roof 1 uni 1.0D + 0.75*[1.0S + 0.6W] :194 lb-ft <634 lb-ft OK Roof 1 uni 1.0D + 1.0S :118 lb-ft <456 lb-ft OK Roof 1 uni 0.6D + 0.6W (Up z1) :72 lb-ft <634 lb-ft OK Seismic Check: Stucco 10.0 psf 2x4 Studs @ 16"2.0 psf Gypsum 3.0 psf Misc. (Insulation, etc.)2.0 psf 51 Rio Roble, San Jose, CA 95134 | 1-408-240-5500 1402 W Meriday Ln - 201816051/10/2024 Date :1/19/2023 Job Code: LUISA SANCHEZ 6 of 6 17 psf 1899 ft^2 32278 lbs 10 psf 3500 ft^2 33602 lbs 46 lbs 10 455 lbs %increase = (Wexisting + Wadditional) / Wexisting =OK Limits of Scope of Work and Liability 0.69% The increase in weight as a result of the solar system is less than 10% of the existing structure and therefore no further seismic analysis is required. The calculations produced for this dwelling's assessment are only for the proposed solar panel installation referenced in the stamped plan set and were made according to generally recognized structural anlaysis standards and procedures. Total Roof Area = Total Roof W =Existing Weight PV Panel W = Number of Panels = Total PV W =Additional Weight Total Wall DL = Total Wall Area = Total Wall W =Existing Weight Total Roof DL = 51 Rio Roble, San Jose, CA 95134 | 1-408-240-5500 1402 W Meriday Ln - 201816051/10/2024 Rev: 7/15/2021 RESIDENTIAL PHOTOVOLTAIC 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: Signature: Phone Number: Date: Email 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 1402 MERIDAY LN SANTA ANA CA 92706 SUNPOWER CORPORATION SYSTEMS 890895 Type text here FRITCHIE LOSIÑADA 4082404243 04/14/2023 Permitting.Ontario@sunpowercorp.com 1402 W Meriday Ln - 201816051/10/2024 sunpower.com Datasheet SunPower®SunVault™ Energy Storage System (ESS): SunVault 13 and SunVault 26 Performance t 3 t 6 Model Number SV-BASE13-12-0 or SV-BASE13-12-A SV-BASE13-12-A and SV-ENERGY13-12-A DC Rated Energy 13 kWh (128 Ah) 26 kWh (256 Ah) Max. Usable Energy1 (DC) 12 kWh (118 Ah) 24 kWh (236 Ah) Individual DC Breaker Rating 125 A / two pole Nom. Internal Battery Voltage 51.2 V Nom. AC Voltage (L–N–L) 120 / 240 VAC 60 Hz, split phase CEC Weighted RTE Efficiency2 > 86% Max. Backup Discharge Power (cont./5 min./10 sec.) 6.8 kW / 7.5 kW / 8.5 kW Max. AC Continuous Backup Output Current 28.5 A Max. AC Output Fault Current 35 A Max. Short Circuit Rating 10 kA AC Overcurrent Protection Device 40 A / two pole Max. Split-Phase Imbalance L–N 4800 W Power Factor (full-rated power) ± 0.85 Battery Cell Chemistry Lithium iron phosphate (LiFePO4) Overvoltage Category II Pollution Degree III Protection Class I Max. Continuous Charge Power (Grid tied / Backup) 6.4 kW Max. Continuous Discharge Power (Grid tied) 6.0 kW Max. AC Continuous Output Current (Grid tied) 27 A 1 Some energy reserved for internal consumption. 2 Tested at 6 kW, 25°C conditions. 3 Extended exposure reduces battery performance. 4 Two enclosures for 26 kWh. 5 Additional hardware details in installation guide. Some parameters can vary depending on site-specific conditions. See the SunVault Storage Installation Guide for guidelines. See www.sunpower.com/facts for additional reference information. Specifications included inthis datasheet are subjectto change withoutnotice. © 2020SunPowerCorporation.AllRightsReserved.SUNPOWER, the SUNPOWERlogo, and SUNVAULT are trademarks or registered trademarks of SunPower Corporation in the U.S. and other countries as well. 1-800-SUNPOWER. Environmental Seismic Rating IEEE 693-2005, AC-156 Environmental Rating Indoor and outdoor rated Acoustic Noise Level < 50 dBA @ 1 m distance, 86°F (30°C) Recommended Operating Temp. 32°F to 86°F (0°C to 30°C) Ambient Operating Temp. 14°F to 113°F (í10°C to 45°C) Shelf Ambient Temp.3 í4°F to 113°F (í20°C to 45°C) Initial Energy Reserve 30% Humidity 0–95% condensing Enclosure Type / Ingress Rating NEMA Type 3R / IP54 Max. Elevation 6560 ft (2000 m) Mechanical User Interface Mobile App, LED Panel Dimensions 64.5 h × 26 w × 14.8 in. d (164 × 66 × 38 cm)4 Weight x x SV-BASE13: 270 lb (122.5 kg) w/inverter; 528 lb (239.5 kg) fully assembled SV-ENERGY13: 400 lb (181.4 kg) fully assembled Mounting Options Wall or floor5 536812 RevB Warranties, Certifications, and Compliance Warranty 10 years Certifications and Compliance x x x x x x x FCC Part 15 Subclass B IEEE 1547 UL 1642 UL 1973 UL 1741 UL 1741 SA (CA Rule 21) UL 9540 x UN 38.3 AUTHORIZATION TO MARK Applicant: Address: Country: Manufacturer: Address: Country: Contact: Contact: Phone: Phone: FAX: FAX: Email: Email: 1 Standard(s): Product: Brand Name: Models: This document supersedes all previous Authorizations to Mark for the noted Report Number. This Authorization to Mark is for the exclusive use of Intertek's Client and is provided pursuant to the Certification agreement between Intertek and its Client. Intertek's responsibility and liability are limited to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or damage occasioned by the use of this Authorization to Mark. Only the Client is authorized to permit copying or distribution of this Authorization to Mark and then only in its entirety. Use of Intertek’s Certification mark is restricted to the conditions laid out in the agreement and in this Authorization to Mark. Any further use of the Intertek name for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. Initial Factory Assessments and Follow up Services are for the purpose of assuring appropriate usage of the Certification mark in accordance with the agreement, they are not for the purposes of production quality control and do not relieve the Client of their obligations in this respect. Intertek Testing Services NA Inc. 545 East Algonquin Road, Arlington Heights, IL 60005 Telephone 800-345-3851 or 847-439-5667 Fax 312-283-1672 Standard For Energy Storage Systems And Equipment [ANSI/CAN/UL 9540:2016 Ed.1] Energy Storage System EQS-BASE 13-11-A, SV-BASE13-12-0, SV-BASE13-12-A, SV-BASE13-12-B Equinox and SunVault Party Authorized To Apply Mark: Report Issuing Office: Control Number:5017349 Authorized by: for L. Matthew Snyder, Certification Manager SunPower Corporation 51 Rio Robles, San Jose, CA 95134 USA Brian Kuhn (512)) 9 -4420 na regulatory@sunpowercorp.com Dalsin Industries 9111 Grand Avenue South, Bloomington, MN, 55420 USA George Buechler Gary Rachey (952)) 7 -3643 (952)) 7 -3658 na gbuechler@dalsinind.com grachey@dalsinind.com Same as Manufacturer Intertek Testing Services NA, Inc., Cortland, NY This authorizes the application of the Certification Mark(s) shown below to the models described in the Product(s) Covered section when made in accordance with the conditions set forth in the Certification Agreement and Listing Report. This authorization also applies to multiple listee model(s) identified on the correlation page of the Listing Report. This document is the property of Intertek Testing Services and is not transferable. The certification mark(s) may be applied only at the location of the Party Authorized To Apply Mark. Page 1 of 1 ATM for Report 104054868CRT-001 ATM Issued: 15-Nov-2021 ED 16.3.15 (16-Oct-2021) Mandatory /LVWLQJ6XQ9DXOW%DWWHU\(668/ 1402 W Meriday Ln - 201816051/10/2024 Datasheet SunPower®SunVault™ Hub+™ Electrical Model Number SV-HUB-01-B / SV-HUB-01-C Applications Self-supply, backup, and cost savings Special Features PCS, Remote Power Off Supported Backup Configurations x Whole home (up to 200 A service) x Partial home (up to 400 A service) Max. Allowed Service / Disconnect Rating 200 A Nom. Allowed Service Voltage 120 / 240 V 60 Hz, split phase Short Circuit Rating1 10 kA / 22 kA2 Overcurrent Protection Device Allowed3 100–200 A / service entrance rated AC Metering Solar meter: ANSI C12.20, < 0.5% RGM | Site meter: < 2% Connectivity Ethernet, WiFi, and cellular Backup Transition Seamless Load / Generation Breakers4 Refer to installation guide for available spaces Overvoltage Category OV IV Pollution Degree III Protection Class I Scalability5 Supports multiple storage and PV systems in parallel 1 Higher short circuit rating is compatible with external suitable rated equipment. 2 With external J-Class fuse or CSR breaker. See the SunVault Installation Guide for guidelines. 3 Recommended service-rated circuit breaker type must be installed. 4 See the SunVault Installation Guide for guidelines. 5 See the SunVault Installation Guide for guidelines. Refer to www.sunpower.com/facts for additional reference information. For more details, see extended datasheet www.sunpower.com/datasheets. Specifications included in this datasheet are subject to change without notice. ©2022 SunPower Corporation. All Rights Reserved. SUNPOWER, the SUNPOWER logo, SUNVAULT, and Hub+ are trademarks or registered trademarks of SunPower Corporation in the U.S. and other countries as well. 1-800-SUNPOWER. Environmental Ambient Operating Temp. í4°F to 122°F (í20°C to 50°C) Shelf Ambient Temp. í22°F to 140°F (í30°C to 60°C) Humidity 0–95% (non-condensing) Enclosure Type / Ingress Rating NEMA Type 3R / IP54 Max. Elevation 6560 ft (2000 m) Environment Indoor / Outdoor Mechanical Dimensions 17 w × 46 h × 6 in. d (43 × 117 × 15 cm) Weight 80 lb (36 kg) Mounting Options Indoor / Outdoor Conduit Entry Multiple; up to 3 in. (7.6 cm) Warranties, Certifications, and Compliance Warranty 10 years Certifications and Compliance x ANSI C12.20 (Class 0.5) x CSA C22.2 No. 107.1 x FCC Part 15 Subclass B x UL 67 x UL 869A x UL 1741 x UL 1741 CRD PCS 55 33 66 88 11 33 ReRe vv DD AUTHORIZATION TO MARK Applicant: Address: Country: Manufacturer: Address: Country: Syncro Corporation 1030 Sundown Drive NW Arab, Alabama 35016 USA 1265701 1 Product: Brand Name: Models: SunPower Corporation 51 Rio Robles San Jose, CA 95134 USA Same as Manufacturer Intertek Testing Services NA, Inc., Cortland, NY Party Authorized To Apply Mark: Report Issuing Office: Control Number:5016932 Authorized by: for L. Matthew Snyder, Certification Manager This document supersedes all previous Authorizations to Mark for the noted Report Number. This Authorization to Mark is for the exclusive use of Intertek's Client and is provided pursuant to the Certification agreement between Intertek and its Client. Intertek's responsibility and liability are limited to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or damage occasioned by the use of this Authorization to Mark. Only the Client is authorized to permit copying or distribution of this Authorization to Mark and then only in its entirety. Use of Intertek’s Certification mark is restricted to the conditions laid out in the agreement and in this Authorization to Mark. Any further use of the Intertek name for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. Initial Factory Assessments and Follow up Services are for the purpose of assuring appropriate usage of the Certification mark in accordance with the agreement, they are not for the purposes of production quality control and do not relieve the Client of their obligations in this respect. Intertek Testing Services NA Inc. 545 East Algonquin Road, Arlington Heights, IL 60005 Telephone 800-345-3851 or 847-439-5667 Fax 312-283-1672 Panelboard EQS-HUB-01-A, SV-HUB-01-A, SV-HUB-01-B, SV-HUB-01-C Standard(s): Standard for Safety Panelboards [UL 67:2018 Ed.13+R:31Jul2020] Reference Standard for Service Equipment [UL 869A:2006 Ed.4+R:24Jun2020] Inverters, Converters, Controllers And Interconnection System Equipment For Use With Distributed Energy Resources [UL 1741:2010 Ed.2+R:15Feb2018] Power Conversion Equipment [CSA C22.2#107.1:2016 Ed.4] SUNPOWER This authorizes the application of the Certification Mark(s) shown below to the models described in the Product(s) Covered section when made in accordance with the conditions set forth in the Certification Agreement and Listing Report. This authorization also applies to multiple listee model(s) identified on the correlation page of the Listing Report. This document is the property of Intertek Testing Services and is not transferable. The certification mark(s) may y: f L M tth S d C tifi ti M Page 1 of 1 ATM for Report 104106139CRT-001 ATM Issued: 26-Jul-2022 ED 16.3.15 (1-Jul-2022) Mandatory 1402 W Meriday Ln - 201816051/10/2024 420-440W Residential AC Module SunPower® Maxeon® Technology %XLOWVSHFLȴFDOO\IRUXVHZLWKWKH6XQ3RZHU(TXLQR[®V\VWHPWKHRQO\IXOO\ LQWHJUDWHGVRODUVROXWLRQGHVLJQHGHQJLQHHUHGDQGZDUUDQWHGE\RQHFRPSDQ\ Highest Power AC Density Available. 7KHSDWHQWHGVROLGFRSSHUIRXQGDWLRQ0D[HRQ*HQFHOOLVRYHU ODUJHUWKDQSULRUJHQHUDWLRQVGHOLYHULQJWKHKLJKHVWHɝFLHQF\ $&VRODUSDQHODYDLODEOH1 Highest Lifetime Energy and Savings 'HVLJQHGWRGHOLYHUPRUHHQHUJ\RYHU\HDUVLQ UHDOZRUOGFRQGLWLRQVOLNHSDUWLDOVKDGHDQGKLJKWHPSHUDWXUHV Best Reliability, Best Warranty :LWKPRUHWKDQPLOOLRQDQG*:PRGXOHVGHSOR\HGDURXQG WKHZRUOG6XQ3RZHUWHFKQRORJ\LVSURYHQWRODVW7KDWȇVZK\ZH VWDQGEHKLQGRXUPRGXOHDQGPLFURLQYHUWHUZLWKWKHLQGXVWU\ȇV EHVW\HDU&RPELQHG3RZHUDQG3URGXFW:DUUDQW\ Datasheet 50 10 15 20 25 150% 140% 130% 120% 110% 100% 90% 80% 70% 60%25 - y e a r E n e r g y Y i e l d p e r W a t t Years of Operation Up to 60% More Lifetime Energy Conventional Panel M-Series Part of the SunPower Equinox® Solar System •&RPSDWLEOHZLWK P\6XQ3RZHU70PRQLWRULQJ •6HDPOHVVDHVWKHWLFV Factory-integrated Microinverter •+LJKHVWSRZHULQWHJUDWHG $&PRGXOHLQVRODU •(QJLQHHUHGDQGFDOLEUDWHG E\6XQ3RZHUIRU6XQ3RZHU $&PRGXOHV     L Q >      P P @     L Q >    P P @ 5% larger 1-800-SUNPOWER | sunpower.com M-Series: M440 | M435 | M430 | M425 | M420 6XQ3RZHU®5HVLGHQWLDO$&0RGXOH %DVHGRQGDWDVKHHWUHYLHZRIZHEVLWHVRIWRSPDQXIDFWXUHUVSHU:RRG0DFNHQ]LH8639/HDGHUERDUG4 0D[HRQ:HɝFLHQWFRPSDUHGWRD&RQYHQWLRQDO3DQHORQVDPHVL]HGDUUD\V :HɝFLHQW DSSUR[Pt PRUHHQHUJ\SHUZDWW EDVHGRQ396\VWSDQȴOHVIRUDYJ86FOLPDWH \UVORZHU GHJUDGDWLRQUDWH -RUGDQHWDOȊ5REXVW39'HJUDGDWLRQ0HWKRGRORJ\DQG$SSOLFDWLRQȋ396&  9ROWDJHUDQJHFDQEHH[WHQGHGEH\RQGQRPLQDOLIUHTXLUHGE\WKHXWLOLW\ /LPLWVPD\YDU\5HIHUWRORFDOUHTXLUHPHQWVWRGHȴQHWKHQXPEHURIPLFURLQYHUWHUVSHUEUDQFKLQ\RXUDUHD )DFWRU\VHWWRΖ(((DGHIDXOWVHWWLQJV&$5XOHGHIDXOWVHWWLQJVSURȴOHVHWGXULQJFRPPLVVLRQLQJ 6WDQGDUG7HVW&RQGLWLRQV :PtLUUDGLDQFH$0r& $OO'&YROWDJHLVIXOO\FRQWDLQHGZLWKLQWKHPRGXOH 8//LVWHGDV3956(DQGFRQIRUPVZLWK1(&DQG1(&DQG&5XOH5DSLG 6KXWGRZQRI396\VWHPVIRU$&DQG'&FRQGXFWRUVZKHQLQVWDOOHGDFFRUGLQJWRPDQXIDFWXUHUȇVLQVWUXFWLRQV 3OHDVHUHDGWKHVDIHW\DQGLQVWDOODWLRQLQVWUXFWLRQVIRUPRUHLQIRUPDWLRQUHJDUGLQJORDGUDWLQJVDQG PRXQWLQJFRQȴJXUDWLRQV 6HHZZZVXQSRZHUFRPFRPSDQ\IRUPRUHUHIHUHQFHLQIRUPDWLRQ 6SHFLȴFDWLRQVLQFOXGHGLQWKLVGDWDVKHHWDUHVXEMHFWWRFKDQJHZLWKRXWQRWLFH k6XQ3RZHU&RUSRUDWLRQ$OOULJKWVUHVHUYHG68132:(5WKH68132:(5ORJR(48Ζ12;DQG 0<68132:(5DUHWUDGHPDUNVRUUHJLVWHUHGWUDGHPDUNVRI6XQ3RZHU&RUSRUDWLRQLQWKH860$;(21LVD UHJLVWHUHGWUDGHPDUNRI0D[HRQ6RODU7HFKQRORJLHV/WG)RUPRUHLQIRUPDWLRQYLVLWZZZPD[HRQFRPOHJDO AC Electrical Data ΖQYHUWHU0RGHO7\SH+ (QSKDVHΖ4+6  #9$& #9$& 3HDN2XWSXW3RZHU 9$   0D[&RQWLQXRXV2XWSXW3RZHU 9$   1RP /Ȃ/ 9ROWDJH5DQJH 9 Ȃ Ȃ 0D[&RQWLQXRXV2XWSXW&XUUHQW $UPV   0D[8QLWVSHU$ /Ȃ/ %UDQFK&LUFXLW  &(&:HLJKWHG(ɝFLHQF\   1RP)UHTXHQF\+] ([WHQGHG)UHTXHQF\5DQJH Ȃ+] $&6KRUW&LUFXLW)DXOW&XUUHQW2YHU&\FOHV $UPV 2YHUYROWDJH&ODVV$&3RUW ΖΖΖ $&3RUW%DFNIHHG&XUUHQW P$ 3RZHU)DFWRU6HWWLQJ  3RZHU)DFWRU DGMXVWDEOH  LQGXFWLYH  FDSDFLWLYH DC Power Data 6350 +$& 6350 +$& 6350 +$& 6350 +$& 6350 +$& 1RP3RZHU 3QRP :      3RZHU7ROHUDQFH ȫ 0RGXOH(ɝFLHQF\      7HPS&RHI 3RZHU ȫr& 6KDGH7ROHUDQFH ΖQWHJUDWHGPRGXOHOHYHOPD[SRZHUSRLQWWUDFNLQJ Tested Operating Conditions 2SHUDWLQJ7HPS r)WRr) r&WRr& 0D[$PELHQW7HPS r) r&  0D[7HVW/RDG:LQGSVI3DNJPtEDFN 6QRZSVI3DNJPtIURQW 0D['HVLJQ/RDG :LQGSVI3DNJPtEDFN 6QRZSVI3DNJPtIURQW ΖPSDFW5HVLVWDQFH LQFK PP GLDPHWHUKDLODWPSK PV Mechanical Data 6RODU&HOOV 0D[HRQ*HQ )URQW*ODVV +LJKWUDQVPLVVLRQWHPSHUHGJODVVZLWKDQWLUHȵHFWLYHFRDWLQJ (QYLURQPHQWDO5DWLQJ 2XWGRRUUDWHG )UDPH &ODVVEODFNDQRGL]HG KLJKHVW$$0$UDWLQJ :HLJKW OE NJ 5HFRPPHQGHG0D[ 0RGXOH6SDFLQJ LQ PP Warranties, Certifications, and Compliance :DUUDQWLHV ȏ\HDUOLPLWHGSRZHUZDUUDQW\ ȏ\HDUOLPLWHGSURGXFWZDUUDQW\ &HUWLȴFDWLRQV DQG &RPSOLDQFH ȏ8/Ζ((( ȏ8/$&0RGXOH 7\SHȴUHUDWHG ȏ8/ ȏ8/Ζ(& ȏ)&&3DUW&ODVV% ȏΖ&(6&ODVV% ȏ&$1&6$&12 ȏ&$5XOH 8/6$ 5 LQFOXGHV9ROW9DUDQG5HDFWLYH3RZHU3ULRULW\ ȏ8//LVWHG395DSLG6KXWGRZQ(TXLSPHQW (QDEOHVLQVWDOODWLRQLQDFFRUGDQFHZLWK ȏ1(& $&PRGXOH ȏ1(&5DSLG6KXWGRZQ LQVLGHDQGRXWVLGHWKH DUUD\ ȏ1(&$&&RQQHFWRUV $ Ȃ (  :KHQXVHGZLWK$&PRGXOH4&DEOHVDQGDFFHVVRULHV 8/DQG8/  ȏ5DWHGIRUORDGEUHDNGLVFRQQHFW :KHQXVHGZLWKΖQYLVL0RXQWUDFNLQJDQGΖQYLVL0RXQW DFFHVVRULHV 8/  ȏ0RGXOHJURXQGLQJDQGERQGLQJWKURXJKΖQYLVL0RXQW ȏ&ODVV$ȴUHUDWHG 3Ζ'7HVW 9Ζ(& Packaging Configuration 0RGXOHVSHUSDOOHW  3DFNDJLQJER[GLPHQVLRQV ™™ ™™PP 3DOOHWJURVVZHLJKW OE NJ 3DOOHWVSHUFRQWDLQHU  1HWZHLJKWSHUFRQWDLQHU OE NJ 1-800-SUNPOWER | sunpower.com 5HY' $SULO 3OHDVHUHDGWKHVDIHW\DQGLQVWDOODWLRQLQVWUXFWLRQVIRUGHWDLOV 1402 W Meriday Ln - 201816051/10/2024 COMP MOUNTS Pegasus Solar Inc 100 West Ohio Avenue, Richmond, CA 94804 T: 510.210.3797 www.pegasussolar.com WATERTIGHT FOR LIFE Pegasus Solar's Comp Mounts are a cost effective, high-quality option for rail installations on composition shingle roofs. Designed to last decades, the one-piece flashing with elevated cone means there is simply nothing to fail. A BETTER DAY ON THE JOB Simple 3-piece design for rapid installation Encapsulating design raises the water seal 0.9" above roof deck One-piece flashing with elevated cone – No press-fits or deck-level EPDM washers to fail 25-year Warranty Manufactured with advanced materials and coatings to outlast the roof itself Superior Waterproong Tested to AC286 without sealant 0.9" elevated water seal Code Compliant Fully IBC/CBC Code Compliant Exceeds ASCE 7-16 Standards All-In-One Kit Packaging Flashings, L-Feet and SS lags with bonded EPDM washers are included in each 24-pack COMP MOUNTS Pegasus Solar Inc 100 West Ohio Avenue, Richmond, CA 94804 T: 510.210.3797 www.pegasussolar.com 1.Drill pilot hole in center of rafter. 3.Place L-Foot over cone and install lag with washer through L-Foot. 2.Optional: Apply a "U-shape" of sealant to underside of flashing and postition under 2nd shingle course, cone over pilot hole. 4.Drive lag to required depth. Attach rail per rail manufacturer's instructions. Comp Mount Install Kits tents PendinBoxes per Palletg. All rPa ights reserved. 2019 Pegasus Solar Inc PSCR-CBB0 Closed Slot L-Foot, Flashing, 5/16"x 4-1/2" SS Lag with metalized EPDM washer PSCR-UBB0 Open Slot L-Foot, Flashing, 5/16"x 4-1/2" SS Lag with metalized EPDM washer SPCR-CBBH Closed Slot L-Foot, Flashing, 5/16"x 4-1/2" SS Lag with metalized EPDM washer and M10 Hex Bolt Black L-Foot and Black Flashing Most Composition Shingle IBC, ASCE/SEI 7-16, AC286 Railed Systems Galvalume Plus Aluminum 24 72 L-Foot Type Kit Contents SKU Kit Quantity L-Foot Material Flashing Material Compatible Rail Install Application Certifications Roof Type Finish Closed Slot PSCR-CMM0 L-Foot, Flashing, 5/16"x 4-1/2" SS Lag with metalized EPDM washer Mill L-Foot and Mill Flashing Painted Galvalume Plus PSCR-UMM0 Open Slot L-Foot, Flashing, 5/16"x 4-1/2" SS Lag with metalized EPDM washer 1402 W Meriday Ln - 201816051/10/2024 SunPower® InvisiMount™ | Residential Mounting System Simple and Fast Installation • Integrated module-to-rail grounding • Pre-assembled mid and end clamps • Levitating mid clamp for easy placement • Mid clamp width facilitates consistent, even module spacing • UL 2703 Listed integrated grounding Flexible Design • Addresses sloped and low-sloped residential roofs ȏ 'HVLJQLQODQGVFDSHDQGSRUWUDLWZLWKXSWRɒ rail span • Pre-drilled rails and rail splice • Rails enable easy obstacle management Customer-Preferred Aesthetics • Best-in-class system aesthetics • Black anodized components ȏ /RZSURȴOHPLGFODPSVDQGFDSSHGȵXVK end clamps Part of Superior System • Best-in-class system reliability and aesthetics • Optional URRIWRSWUDQVLWLRQȵDVKLQJUDLO mounted J-box, and wire management rail clips • Combine with SunPower modules and mySunPower® monitoring app Elegant Simplicity SunPower® InvisiMount™ is a SunPower-designed rail-based mounting system. The InvisiMount system addresses residential sloped roofs and combines faster LQVWDOODWLRQWLPHGHVLJQȵH[LELOLW\DQGVXSHULRUDHVWKHWLFV &ODVVLFΖQYLVL0RXQWLVVSHFLȴFDOO\HQYLVLRQHGDQGHQJLQHHUHG to pair with SunPower modules; Universal InvisiMount is compatible with a wide range of modules. The resulting V\VWHPOHYHODSSURDFKDPSOLȴHVWKHLQVWDOODWLRQDQG DHVWKHWLFEHQHȴWVȃIRUKRPHRZQHUVDQGIRULQVWDOOHUV sunpower.com Datasheet SunPower® InvisiMount™ | Residential Mounting System InvisiMount Component Details Classic mid clamp Black oxide stainless steel 300 series 63 g (2.2 oz) Universal mid clamp Black anodized aluminum 6000 series 60 g (2.1 oz) Classic end clamp Black anodized aluminum 6000 series 110 g (3.88 oz) Universal end clamp Black anodized aluminum 6000 series 103 g (3.63 oz) Rail Black anodized aluminum 6000 series 830 g/m (9 oz/ft) Rail splice Aluminum alloy 6000 series 830 g/m (9 oz/ft) Rail bolt M10-1.5 × 25 mm; custom T-head SS304 18 g (0.63 oz) Rail nut M10-1.5; DIN 6923 SS304 nominal Ground lug assembly SS304; A2-70 bolt; tin-plated copper lug 106.5 g (3.75 oz) Row-to-row grounding clip SS 301 with SS 304 M6 bolts 75 g (2.6 oz) Row-to-row grounding jumper Stainless steel 300 series 10 g (0.35 oz) Row-to-row spacer Black POM-grade plastic 5 g (0.18 oz) Roof Attachment BOM • InvisiMount Comp Shingle Attachment with Pegasus • InvisiMount Flat Tile Replacement Attachment with Pegasus • InvisiMount S-Tile Replacement Attachment with Pegasus • InvisiMount W-Tile Replacement Attachment with Pegasus InvisiMount Operating Conditions Temperature ȫr&WRr& ȫr)WRr) Roof Attachment Hardware Warranties Refer to roof attachment hardware manufacturer’s documentation. ΖQYLVL0RXQW:DUUDQWLHV$QG&HUWLȴFDWLRQV Warranties • 25-year product warranty • \HDUȴQLVKZDUUDQW\ &HUWLȴFDWLRQV • UL 2703 Listed • Class A Fire Rated Professional Engineer (PE) must then stamp all calculations. If you have any questions please contact SunPower Technical Support at 1-855-977-7867. © 2022 SunPower Corporation. All Rights Reserved. SUNPOWER, the SUNPOWER logo, EQUINOX, and INVISIMOUNT are trademarks or registered trademarks of SunPower Corporation. $OORWKHUWUDGHPDUNVDUHWKHSURSHUW\RIWKHLUUHVSHFWLYHRZQHUV6SHFLȴFDWLRQVLQFOXGHGLQWKLVGDWDVKHHWDUHVXEMHFWWRFKDQJHZLWKRXWQRWLFH InvisiMount Components Mid Clamp End Clamp Rail and Rail SpliceGround Lug Assembly sunpower.com 509506 RevG ¹ With Classic InvisiMount, a module frame that is compatible with the InvisiMount system is required for hardware interoperability; modules without this frame may be used with Universal InvisiMount. ² SunPower recommends that all Equinox™, InvisiMount™, and AC module systems always be designed using the InvisiMount Span Tables #524734. If a designer decides to instead use the component capacities listed in this document to design a system, note that the capacities shown are Load and Resistance Factor Design (LRFD) design loads, and are NOT to be used for Allowable Stress Design (ASD) calculations; and that a licensed InvisiMount Component LRFD Capacities² Classic Mid clamp Uplift 664 lbf Shear 540 lbf Universal Mid clamp Uplift 962 lb Shear 437 lb Classic End clamp Uplift 899 lbf Shear 220 lbf Universal End clamp Uplift 605 lb Shear 242 lb Rail Moment: upward 548 lbf-ft Moment: downward 580 lbf-ft Rail splice Moment: upward 548 lbf-ft Moment: downward 580 lbf-ft L-foot Uplift 1000 lbf Shear 390 lbf Datasheet Row-to-Row Spacer Row-to-Row Grounding Clip Universal End ClampRow-to-row Grounding Jumper (DynoBond) Universal Mid ClampRail and Rail SpliceGround Lug Assembly Universal InvisiMount Classic InvisiMount 1402 W Meriday Ln - 201816051/10/2024 Improve Support, Reduce Costs An intuitive monitoring website enables you to: • • • • See a visual map of customer sites Remotely manage hundreds of sites Remotely diagnose and troubleshoot system issues Drill down for the status of individual devices Add Value for Customers With mySunPower™ monitoring customers can: • • • • • Track their energy production by day, month, year and in GL΍HUHQWZHDWKHUFRQGLWLRQV See their energy use and estimated bill savings Maximize their savings with automatic system alerts and tips Customize storage settings and easily monitor and track available battery power Receive elective system reports SunPower® Monitoring — Plug-and-Play Installation This complete solution for residential monitoring and control includes the SunPower® PV Supervisor (PVS) which improves the installation process, overall system reliability, and customer experience: • • • • • • • • • Compact footprint for improved aesthetics Robust cloud connectivity and comprehensive local connectivity )OH[LEOHFRQȴJXUDWLRQRIGHYLFHVGXULQJLQVWDOODWLRQ Consumption metering Revenue-quality production metering Web-based commissioning Remote diagnostics of PVS and inverters Durable UL Type 3R enclosure helps reduce maintenance costs Easy integration with SunPower eBOS Robust Cloud Connectivity Multiple options to maintain optimal connectivity: • • • Hardwired Ethernet WiFi Cellular backup sunpower.com SunPower® Monitoring | Residential SunPower PV Supervisor Operating Conditions Temperature • ȫr)WRr) ȫr&WRr& Humidity (max.)• 95%, non-condensing :DUUDQW\DQG&HUWLȴFDWLRQV Warranty • \HDU/LPLWHG:DUUDQW\ &HUWLȴFDWLRQV • 8/F8/&(8/DQG)&&3DUW (Class B) Mechanical Weight • OE NJ Dimensions • ™™LQ ™™FP Enclosure rating • 8/(7\SH5 Site Requirements Number of modules supported per PVS •  6XQ3RZHU$&PRGXOHV Internet access • High-speed internet access via accessible router or switch Power • Ȃ9$& /Ȃ1 RU+] • 9$& /Ȃ/LQSKDVH +] Communication RS-485 • Supports string inverters, external meters, and other auxiliary devices Integrated metering • One channel of revenue-quality production metering • Two channels of consumption metering Ethernet • /$1 RURSWLRQDO:$1 SRUW PLC • Supports SunPower AC modules WiFi • EJQ*+]DQG*+] Cellular • /7(&DW0*8076 ZigBee • Ζ(((0$&*+]Ζ60EDQG Data storage • GD\V Upgrades • $XWRPDWLFȴUPZDUHXSJUDGHV Web and Mobile Device Support Customer site • mysunpower.com Partner site • monitor.sunpower.com Browsers • Firefox, Safari, and Chrome Mobile devices • iPhone®, iPad®, and Android™ Customer app 1 Create account online at mysunpower.com 2 On a mobile device, download the SunPower Monitoring app from Apple App 6WRUHRU*RRJOH3OD\Ƞ6WRUH 3 Sign in using account email and password SunPower® AC ModulesPVSSunPower® Pro Fleet Management for Installers mySunPowerTM for Homeownes k6XQ3RZHU&RUSRUDWLRQ$OO5LJKWV5HVHUYHG68132:(5WKH68132:(5ORJRDQG 0<68132:(5DUHWUDGHPDUNVRUUHJLVWHUHGWUDGHPDUNVRI6XQ3RZHU&RUSRUDWLRQLQWKH U.S. and other countries as well. All other logos and trademarks are the properties of their respective owners. 5HY' 1402 W Meriday Ln - 201816051/10/2024 Equinox Junction Boxes SunPower®Equinox™ Accessories SPECIFICATIONS Model RMJ v2 Comp Shingle Transition J-Box Kit Part Number 530167 530168 Max. Voltage Rating 600 V (AC or DC) Ambient Temp. Range í35°C to 75°C (í31°F to 167°F) Enclosure Material Flame-retardant, UV-resistant, high-impact resistant resin Attachment/Flashing Material 304 stainless steel Steel w/zinc-aluminum coating Cavity Dimensions 150 × 150 × 62 mm (5.91” × 5.91” × 2.13”) Enclosure Volume 1150 cc (70 in3) Attachment/Flashing Finish Black oxide Black powder coat Compatibility InvisiMount rail Comp shingle roofs Assembled Weight 0.78 kg (1.7 lb) 1.27 kg (2.8 lb) Certifications & Ratings •Watertight, UL Type 4 •UL 94 5VA •UL 1741 •UL 2703 (with InvisiMount) •Watertight, UL Type 4 •UL 94 5VA •UL 1741 Additional Hardware Included •3/4Ǝcord grip •Lay-in lug •3/4Ǝ cord grip •#12 screws with EPDM washer Composition Shingle Roof Transition Junction Box Datasheet InvisiMount™ Rail-Mounted Junction Box (RMJ) v2 •70% larger than original InvisiMount J-box. •Integrated grounding to InvisiMount rail, replacing grounding lug assembly. •Snap-on attachment for fast and secure installation. •Enables transitioning conductors directly through the roof. •Integrated flashing for peace of mind. •Compatible with composition shingle roofs. COMPONENT DIMENSIONS J- B o x E n c l o s u r e (u s e d i n b o t h R M J a n d T r a n s i t i o n J - b o x ) Fl a s h i n g (u s e d o n l y w i t h T r a n s i t i o n J - B o x ) Equinox Junction Boxes SunPower®Equinox™ Accessories Datasheet 539382 RevA 1402 W Meriday Ln - 201816051/10/2024 M08-0026-003 Q 08/08 Printed in Mexico IMPORTANT! PLEASE READ CAREFULLY AND SAVE. This user’s manual contains important information about your Heat Alarm’s operation. If you are installing this Heat Alarm for use by others, you must leave this manual—or a copy of it—with the end user. TABLE OF CONTENTS Basic Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 Fire Safety Tips . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 Before You Install This Heat Alarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 How This Heat Alarm Works . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2 How To Install This Heat Alarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-3 Locking Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Weekly Testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Regular Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 If You Suspect a Problem . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Understanding the Indicator Lights and Alarm Horn Patterns . . . . . . . . .5 If This Heat Alarm Sounds . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 What To Do In Case Of Fire . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Using the Silence Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Latching Alarm Indicator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 Recommended Locations For Heat Alarms . . . . . . . . . . . . . . . . . . . . . .6-7 Locations To Avoid For Heat Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Special Compliance Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Limitations of Heat Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Limited Warranty . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 © 2008 BRK Brands, Inc. All rights reserved. Distributed by BRK Brands, Inc. 3901 Liberty Street Road, Aurora, IL 60504-8122 Consumer Affairs: (800) 323-9005 www.brkelectronics.com • www.firstalert.com INTRODUCTION Thank you for choosing First Alert®for your Heat Alarm needs. You have purchased a state-of-the-art Heat Alarm designed to provide you with early warning of increased temperatures that may be the result a fire. Key features include: 135º F Fixed and 15º F/Minute Rate of Rise–Programmed to alarm when temperature reaches 135ºF or when the microprocessor senses a temperature rise of 15º F per minute. This allows the unit to sense a heat rise and alarm prior to reaching the fixed temperature of 135º F, providing a more rapid response to a potential fire. Exclusive IR* Remote Control Feature–Lets you Test or Silence the Heat Alarm using most commonly available remote controls. Latching Alarm Indicator–Microprocessor controlled feature automatically identifies and remembers which unit in an interconnected series initiated an alarm, even after the alarm condition has ended. Two Silence Features: 1. Temporarily silences the low battery chirp for up to 8 hours without removing the battery. 2. Temporarily silences an unwanted nuisance alarm for up to 15 minutes. Battery Compartment–swings out for quicker, easier battery installation even when unit is mounted. Interconnectable–Can be interconnected with BRK Smoke Alarms. *Infrared (IR) remote controls like those used for TV’s and VCRs. 1 USER’S MANUAL 120V AC/DC POWERED 135ºF FIXED AND 15ºF/MINUTE RATE-OF-RISE HEAT ALARM WITH BATTERY BACK-UP • This device is not intended to alert hearing impaired residents. Smoke Alarms specifically designed for the hearing impaired, which feature devices like flashing strobe lights, are available to alert the hearing impaired in case of fire. • Installation of this Heat Alarm must conform to the electrical codes in your area; Articles 210 and 300.3 (B) of the National Electrical Code (NFPA 70), NFPA 72, NFPA 101; SBC (SBCCI); NBC (BOCA); OTFDC (CABO), and any other local or building codes that may apply. Wiring and installation must be performed by a licensed electrician. Failure to follow these guidelines may result in injury or property damage. • This Heat Alarm is not a Smoke Alarm. This unit is not suitable protection when used alone. Do not use this unit as the only means of fire detection in a home. This unit is intended for use as a supplement to Smoke Alarms. • This Heat Alarm must have AC or battery power to operate. If the AC power fails, battery back-up will allow the alarm to operate for a limited time. If AC power fails and the battery is dead or missing, the alarm cannot operate. • This unit must be powered by a 24-hour, 120VAC 60Hz circuit. Be sure the circuit cannot be turned off by a switch, dimmer, or ground fault circuit interrupter. Failure to connect this unit to a 24-hour circuit and keeping fresh batteries installed, may prevent it from providing constant protection. • Never disconnect the power from an AC powered unit to stop an unwanted alarm. Doing so will disable the unit and remove your protection. In the case of a true unwanted alarm, use the Silence Feature by using an IR remote control or by pressing the Test/Silence button or fan the heat away from the unit. The alarm will reset automatically when it returns to normal operation. • NEVER ignore any alarm. Read “If Your Heat Alarm Sounds” for more information on how to respond to an alarm. Failure to respond can result in injury or death. •Test this Heat Alarm once a week. If it ever fails to test correctly, have it replaced immediately! If the Alarm is not working properly, it cannot alert you to a problem. • Connect this Heat Alarm ONLY to other compatible units. See “Special Requirements for Interconnected Heat Alarms” for details. Do not connect it to any other type of alarm or auxiliary device. Connecting anything else to this unit may damage it or prevent it from operating properly. • DO NOT stand too close to the unit when the alarm is sounding. It is loud to alert you in an emergency. Exposure to the horn at close range may harm your hearing. When testing the unit, step back when the horn starts sounding. • Do not paint over the Heat Alarm. Paint may clog the openings to the sensor and prevent the Heat Alarm from operating properly. 120V AC ~60 Hz 0.07Amps FIRE SAFETY TIPS Follow safety rules and prevent hazardous situations: 1) Use smoking materials properly. Never smoke in bed. 2) Keep matches or lighters away from children; 3) Store flammable materials in proper containers; 4) Keep electrical appliances in good condition and don’t overload electrical circuits; 5) Keep stoves, barbecue grills, fireplaces and chimneys grease- and debris- free; 6) Never leave anything cooking on the stove unattended; 7) Keep portable heaters and open flames, like candles, away from flammable materials; 8) Don’t let rubbish accumulate. Keep alarms clean, and test them weekly. Replace alarms immediately if they are not working properly. Heat and Smoke Alarms that do not work cannot alert you to a fire. Keep at least one working fire extinguisher on every floor, and an additional one in the kitchen. Have fire escape ladders or other reliable means of escape from an upper floor in case stairs are blocked. BEFORE YOU INSTALL THIS HEAT ALARM IMPORTANT! Read “Recommended Locations for Heat Alarms” and “Locations to Avoid for Heat Alarms” before beginning. This unit monitors the air, and when heat reaches its sensing chamber, it alarms. It can give you more time to escape before fire spreads. This unit can ONLY give an early warning of developing fires if it is installed, maintained and located where heat can reach it, and where all residents can hear it, as described in this manual. This unit will not sense gas, smoke, or flame. It cannot prevent or extinguish fires. Know Where To Install Your Heat Alarms See “Recommended Locations For Heat Alarms” and “Locations To Avoid For Heat Alarms” for details. Know What Heat Alarms Can and Can’t Do A Heat Alarm can help alert you to fire, giving you precious time to escape. It can only sound an alarm once heat reaches the sensor. See “Limitations of Heat Alarms” for details. Check Your Local Building Codes This Heat Alarm is designed to be used in a typical single-family home. It alone will not meet requirements for boarding houses, apartment buildings, hotels or motels. See “Special Compliance Considerations” for details. Model HD6135FB LISTED TO UL 539 STANDARD 1402 W Meriday Ln - 201816051/10/2024 The Mounting Bracket: To remove the mounting bracket from the Heat Alarm base, hold the Heat Alarm base firmly and twist the mounting bracket counterclockwise. The mounting bracket installs onto the junction box. It has a variety of screw slots to fit most boxes. The Power Connector: The power connector plugs into a power input block on the Heat Alarm. It supplies the unit with AC power. • The black wire is “hot.” • The white wire is neutral. • The orange wire is used for interconnect. If you need to remove the power connector, disconnect AC power at the electrical panel; insert a flat screwdriver blade between the power connector and the security tab inside the power input block. Gently pry back the tab and pull the connector free. 1 2 3 2 9 8 7 3 5 6 4 The Parts of This Unit 1 Mounting Bracket 2 Mounting Slots and Screws 3 Locking Pins (break out of bracket) 4 Hot (Black) AC Wire 5 Neutral (White) AC Wire 6 Interconnect (Orange) Wire 7 Latch to Open Battery Compartment 8 Swing-Out Battery Compartment 9 Quick-Connect Power Connector HOW TO INSTALL THIS HEAT ALARM THE PARTS OF THIS HEAT ALARM This Heat Alarm is designed to be mounted on any standard wiring junction box to a 4-inch (10 cm) size, on either the ceiling or wall (if allowed by local codes). Read “Recommended Locations For Heat Alarms” and “Locations to Avoid For Heat Alarms” before you begin installation. Tools you will need: • Needle-nose pliers or utility knife •Standard Flathead screwdriver. Fixed Temperature and Rate-of-Rise. This Heat Alarm monitors the air and when heat reaches the sensor, it alarms. The unit will alarm either when the temperature reaches a fixed 135º F (57º C) or the microprocessor detects a 15º F (8.3º C) per minute rate of rise temperature change. This allows the unit to sense a heat rise and alarm prior to reaching the fixed temperature of 135º F (57º C), providing quicker response to a potential fire. Heat Alarms are intended for use as supplemental safety devices with Smoke Alarms. Heat Alarms are designed for use in areas where Smoke Alarms cannot be installed due to temperature and environmental conditions, as in unheated garages and crawl spaces. A Heat Alarm can only give early warn- ing of a developing fire if it is properly installed and maintained and located where heat can reach it. The unit will not sense gas, smoke or flame. Heat Alarms cannot prevent or extinguish fires. This Heat Alarm is approved for use in single-family residences. It is NOT designed for marine or RV use. THE COVER OF YOUR HEAT ALARM 1. Power Light, Test/Silence Button 2. Remote Control “Eye”: Aim an infrared remote control at the “Eye” on the Alarm to test or silence the unit. (Works with most infrared remote controls.) 3. Air Vents 4. (Behind the Cover) Alarm Horn: 85 dB audible alarm for test, alarm, and unit malfunction warning. 5. Heat Sensor 1 2 3 4 5 HOW THIS HEAT ALARM WORKS Make sure the Alarm is not receiving excessive noisy power. Examples of noisy power could be major appliances on the same circuit, power from a generator or solar power, light dimmer on the same circuit or mounted near fluorescent lighting. Excessive noisy power may cause damage to your Alarm. 2 1402 W Meriday Ln - 201816051/10/2024 The basic installation of this Heat Alarm is the similar whether you want to install one Heat Alarm, or interconnect more than one Heat Alarm. If you are interconnecting more than one Heat Alarm, you MUST read “Special Requirements for Interconnected Heat Alarms” below before you begin installation. ELECTRICAL SHOCK HAZARD. Turn off power to the area where you will install this unit at the circuit breaker or fuse box before beginning installation. Failure to turn off the power before installation may result in serious electrical shock, injury or death. 1. Remove the mounting bracket from the base. Position the screw slots on the mounting bracket over the screws in the junction box. Tighten the screws. 2. Using wire nuts, connect the power connector to the household wiring. Improper wiring of the power connector or the wiring leading to the power connector will cause damage to the Alarm and may lead to a non-functioning Alarm. 3. Plug the power connector into the back of the Heat Alarm. 4.Position the base of the Alarm over the mounting bracket and turn. The Alarm can be positioned over the bracket every 60°. Turn the Alarm clockwise (right) until the unit is in place. 5. Check all connections. ELECTRICAL SHOCK HAZARD. Do not restore power until all Heat Alarms are completely installed. Restoring power before installation is complete may result in serious electrical shock, injury or death. 6. Make sure the Heat Alarm is receiving AC power. Under normal operation, the green light (LED) will shine continuously. 7. If the green power indicator light does not light, TURN OFF POWER TO THE JUNCTION BOX and recheck all connections. If all connections are correct and the power indicator still does not light when you restore the power, the unit should be replaced immediately. 8. Test each Heat Alarm. Press the Test/Silence button until you hear a brief acknowledge (or feedback) chirp. The alarm will sound: 3 beeps, pause, 3 beeps, pause. When testing a series of interconnected units you must test each unit individually. Make sure all units alarm when each one is tested. If any unit in the series does not alarm, TURN OFF POWER and recheck connections. If it does not alarm during testing when you restore power, replace it immediately. SPECIAL REQUIREMENTS FOR INTERCONNECTED HEAT ALARMS • Failure to meet any of these requirements could damage the units and cause them to malfunction, removing your protection. Interconnected units can provide earlier warning of fire than stand-alone units, especially if a fire starts in a remote area of the dwelling. If any unit in the series senses heat, all units will alarm. Interconnect units within a single family residence only. Otherwise all house- holds will experience unwanted alarms when you test any unit in the series. Interconnected units will only work if they are wired to compatible units and all requirements are met. This unit is designed to be compatible with: First Alert®Smoke Alarm Models SA4120, SA4121B, SA4919B, SA100B and BRK Electronics®Smoke Alarm Models 100S, 2002RAC, 4120, 4120B, 4120SB, 4919, 5919, 5919TH; BRK Electronics®Smoke/CO Alarm Model SC6120B. Interconnected units must meet ALL of the following requirements: • A maximum of 18 compatible Smoke, Heat or CO Alarms may be interconnected. To comply with NFPA limits, no more than 12 of the 18 alarms may be Smoke Alarms. • The same fuse or circuit breaker must power all interconnected units. • All wiring must conform to all local electrical codes and NFPA 70 (NEC). Refer to NFPA, Chapter 2 and/or your local building code for further connection requirements. FOLLOW THESE INSTALLATION STEPS STAND-ALONE ALARM ONLY: • Connect the white wire on the power connector to the neutral wire in the junction box. • Connect the black wire on the power connector to the hot wire in the junction box. • Tuck the orange wire inside the junction box. It is used for interconnect only. INTERCONNECTED UNITS ONLY: Strip off about 1/2” (12 mm) of the plastic coating on the orange wire on the power connector. • Connect the white wire on the power connector to the neutral wire in the junction box. • Connect the black wire on the power connector to the hot wire in the junction box. •Connect the orange wire on the power connector to the interconnect wire in the junction box. Repeat for each unit you are interconnecting. Never connect the hot or neutral wires in the junction box to the orange interconnect wire. Damage may result. • Never cross-connect hot and neutral wires between interconnected Alarms. Damage will result. STAND-ALONE ALARM ONLY: • If you are only installing one Heat Alarm, restore power to the junction box. INTERCONNECTED UNITS ONLY: • If you are interconnecting multiple Heat Alarms, repeat steps 1-5 for each Heat Alarm in the series. When you are finished, restore power to the junction box. 6 7 8 4 3 1 5 4 3 1 5 2 A B}} A. Unswitched 120VAC 60 Hz source B. To additional units; Maximum = 18 total (Maximum 12 Smoke Alarms) 1. Heat Alarm 2. Ceiling or Wall 3. Power Connector 4. Wire Nut 5. Junction Box 6. Neutral Wire (Wht) 7. Interconnect Wire(Orange) 8. Hot Wire (Blk) 3 1402 W Meriday Ln - 201816051/10/2024 4 LOCKING FEATURES The locking features are designed to discourage unauthorized removal of the battery or alarm. It is not necessary to activate the locks in single-family households where unauthorized battery or alarm removal is not a concern. These Heat Alarms have two separate locking features: one to lock the battery compartment, and the other to lock the Heat Alarm to the mounting bracket. You can choose to use either feature independently, or use them both. Tools you will need:• Needle-nose pliers or utility knife • Standard Flathead screwdriver. Both locking features use locking pins, which are molded into the mounting bracket. Using needle nose pliers or a utility knife, remove one or both pins from the mounting bracket, depending on how many locking features you want to use. To permanently remove either lock insert a flathead screwdriver between the locking pin and the lock, and pry the pin out of the lock. Locking Pin TO LOCK THE BATTERY COMPARTMENT Do not lock the battery compartment until you have activated the battery and tested the battery back-up. 1. Activate the battery back-up by removing the “Pull to Activate Battery Back-Up” tab. DO NOT remove the battery activation until AC power is turned on to conserve battery power. 2. Press the Test/Silence button until you hear a brief acknowledge (or feedback) chirp. The alarm will sound: 3 beeps, pause, 3 beeps, pause. If the unit does not alarm during testing, DO NOT lock the battery compartment! Install a new battery and test again. If the Heat Alarm still does not alarm, replace it immediately. 3. Using needle-nose pliers or a utility knife, detach one locking pin from the mounting bracket. 4. Push the locking pin through the black dot on the label on the back of the Heat Alarm. TO UNLOCK THE BATTERY COMPARTMENT Once the Heat Alarm is installed, you must disconnect it from the AC power before unlocking the battery compartment. ELECTRICAL SHOCK HAZARD. Turn off the power to the area where the Heat Alarm is installed before removing it from the mounting bracket. Failure to turn off the power first may result in serious electrical shock, injury or death. Turn off the AC power at the circuit breaker or fuse box. 1. Remove the Heat Alarm from the mounting bracket. If the unit is locked to the bracket, see the section “To Unlock the Mounting Bracket.” 2. Disconnect the power connector by gently prying it away from the back of the Heat Alarm. 3. Insert a flathead screwdriver under the head of the locking pin, and gently pry it out of the battery compartment lock. (If you plan to relock the battery compartment, save the locking pin.) 4. To relock the battery compartment, close the battery door and reinsert locking pin in lock. 5. Reconnect the power connector to the back of the Alarm, reattach the Heat Alarm to the mounting bracket, and restore the power. When replacing the battery, always test the Heat Alarm before relocking the battery compartment. TO UNLOCK THE MOUNTING BRACKET ELECTRICAL SHOCK HAZARD. Turn off the power to the area where the Heat Alarm is installed before removing it from the mounting bracket. Failure to turn off the power first may result in serious electrical shock, injury or death. Always discharge the branch circuit before servicing an AC or AC/DC Heat Alarm. First, turn off the AC power at the circuit breaker or fuse box. Next, remove the battery from Alarms with battery back-up. Finally, press the test button to discharge the branch circuit. 1. Insert a flathead screwdriver between the mounting bracket pin and the mounting bracket. 2. Pry the Heat Alarm away from the bracket by turning both the screw- driver and the Heat Alarm counterclockwise (left) at the same time. TO LOCK THE MOUNTING BRACKET 1. Using needle-nose pliers, detach one locking pin from mounting bracket. 2. Insert the locking pin into the lock located on the pivoting hinge of the battery door. 3. When you attach the Alarm to the mounting bracket, the locking pin’s head will fit into a notch on the bracket. 1402 W Meriday Ln - 201816051/10/2024 WEEKLY TESTING • NEVER use an open flame of any kind to test this unit. You might accidentally damage or set fire to the unit or to your home. The built- in test switch accurately tests the unit’s operation as required by Underwriters Laboratories, Inc. (UL). • If the Alarm ever fails to test properly, replace it immediately. Products under warranty may be returned to the manufacturer for replacement. See “Limited Warranty” at the end of this manual. • DO NOT stand close to the Alarm when the horn is sounding. Exposure at close range may be harmful to your hearing. When testing, step away when horn starts sounding. It is important to test this unit every week to make sure it is working properly.Press and hold the test button until the alarm sends a test command acknowledge “chirp” just before it sounds continuously (the unit will continue to alarm for a few seconds after you release the button). If it does not alarm, make sure it is receiving power and has a fresh battery, and test it again. If it still does not alarm, it should be replaced immediately. When testing one unit, all interconnected alarms will sound. If they don’t, check the connection with power to the units turned off, restore power and try again. Test all units in a series, not just one. Using the test button is the ONLY correct way to test the Heat Alarm. USING THE REMOTE CONTROL WEEKLY TEST/SILENCE FEATURE Using the VOLUME or CHANNEL buttons on most remote controls, you can test or silence this Alarm from up to 12 feet (3.7 meters) away. To Test (or Silence) the Alarm: 1. Make sure you have a clear path between you and the alarm, free of any obstructions. 2. Point the remote at the front of the Alarm. 3. Press the VOLUME or CHANNEL button for at least 2 seconds. You will hear a brief acknowledge “chirp” when the Alarm receives the test (or silence) command. If the Alarm does not respond to your remote control: • You may be standing too far away. • Your remote may not be compatible. • You did not hold the button on your remote for at least 2 seconds. REGULAR MAINTENANCE This unit has been designed to be as maintenance-free as possible, but there are a few simple things you must do to keep it working properly. Use only the replacement batteries listed below. The unit may not operate properly with other batteries. Never use rechargeable batteries since they may not provide a constant charge. • Test it at least once a week. • Clean the Heat Alarm at least once a month; gently vacuum the outside of the Heat Alarm using your household vacuum’s soft brush attachment. Test the Heat Alarm. Never use water, cleaners or solvents since they may damage the unit. • If the Heat Alarm becomes contaminated by excessive dirt, dust and/or grime, and cannot be cleaned to avoid unwanted alarms, replace the unit immediately. • Relocate the unit if it sounds frequent unwanted alarms. See “Locations to Avoid for Heat Alarms” for details. • When the battery becomes weak, the Heat Alarm unit will “chirp” about once a minute (the low battery warning). You should replace the battery immediately to continue your protection. Choosing a replacement battery: Your Heat Alarm’s battery back-up requires one standard 9V battery. The following batteries are acceptable as replacements. This list supplements the list on the Heat Alarm battery door: Eveready #522 (Energizer); Duracell #MN1604, MX1604 (Ultra). You may also use a Lithium battery like the Ultralife U9VL-J for longer service life between battery changes. These batteries are available at many local retail stores. Actual service life depends on the Heat Alarm and the environment in which it is installed. Constant exposures to high or low temperatures or high humidity may reduce battery life. All the batteries specified above are acceptable replacement batteries for this unit. Use of a different battery may have a detrimental effect on Alarm operation. Regardless of the manufacturer’s suggested battery life, you MUST replace the battery immediately once the unit starts “chirping” (the “low battery warning”). IF YOU SUSPECT A PROBLEM Heat Alarms may not operate properly because of dead, missing or weak batteries, a build-up of dirt, dust or grease on the Heat Alarm cover, or installation in an improper location. Clean the Heat Alarm as described in “Regular Maintenance,” and install a fresh battery, then test the Heat Alarm again. If it fails to test properly when you use the test button, or if the problem persists, replace the Heat Alarm immediately. • If you hear a “chirp” once a minute, replace the battery. • If you experience frequent non-emergency alarms try relocating the Heat Alarm. • If the alarm sounds when no smoke is visible, try cleaning or relocating the Heat Alarm. The cover may be dirty. •If the alarm does not sound during testing, make sure it is receiving AC power from the household current. Always discharge the branch circuit before servicing an AC or AC/DC Heat Alarm. First, turn off the AC power at the circuit breaker or fuse box. Next, remove the battery from Heat Alarms with battery back-up. Finally, press the test button to discharge the branch circuit. If the Heat Alarm is still not operating properly, and it is still under warranty, please see “How to Obtain Warranty Service” in the Limited Warranty. Do not try fixing the alarm yourself – this will void your warranty! 5 MALFUNCTION (Unit MUST be replaced) LED flashes RED rapidly three times, in sync with three horn “chirps”, once every minute Horn “chirps” three times, in sync with three LED flashes ALARM CONDITION* (Initiating Unit) LED flashes RED, the same pattern as the horn Audible alarm: 3 beeps, pause, repeating horn pattern AC POWER ON (Normal operation) LED shines GREEN continuously Silent; no audible alarm RESUME AC POWER GREEN LED turns ON Horn “chirps” one time to signal resumption of AC power Condition LED Horn LATCHING ALARM ACTIVE**(Under AC or DC Power) LED flashes RED once every 5 seconds Silent; no audible alarm ALARM SILENCE LED flashes RED once every 5 seconds No signal LOW BATTERY GREEN LED flashes once every minute Horn “chirps” once per minute, in sync with LED. NOTE: If the battery is VERY LOW, the horn may either chirp once per second, or sound continuously DC POWER (Battery back-up active) LED flashes GREEN once per minute while battery powers unit One horn “chirp” to signal loss of AC power DURING TESTING (Under AC or DC power) LED flashes RED, the same pattern as the horn Audible alarm: 3 beeps, pause, repeating horn pattern UNDERSTANDING THE INDICATOR LIGHTS AND ALARM HORN PATTERNS *When any Heat Alarm in an interconnected series triggers an alarm, its red LED will flash rapidly. The red LEDs will not flash on any remaining alarms in the series. This feature helps responders identify which unit(s) triggered the alarm. **The Latching Alarm indicator is activated after an Alarm is exposed to alarm levels of heat. After heat levels drop below alarm levels, the LED begins to flash RED once every 5 seconds. See “The Latching Alarm Indicator” for details. 1402 W Meriday Ln - 201816051/10/2024 6 IF THIS HEAT ALARM SOUNDS RESPONDING TO AN ALARM During an alarm, you will hear a loud, repeating horn pattern: 3 beeps, pause, 3 beeps, pause. • If the unit alarms and you are not testing the unit, it is warning you of a potentially dangerous situation that requires your immediate attention. NEVER ignore any alarm. Ignoring the alarm may result in injury or death. • Never disconnect the AC power or remove the battery back-up to quiet an unwanted alarm. Disconnecting the power disables the alarm so it cannot sense heat. This will remove your protection. • If the unit alarms and you are not absolutely certain of the source of the heat, get everyone out of the house immediately. •ELECTRICAL SHOCK HAZARD: Attempting to disconnect the power connector from the unit when the power is on may result in electrical shock, serious injury or death. When an interconnected system of units is in alarm, the Red LED on the unit(s) that initiated the alarm will flash in sync with the horn. The LED will not flash on any remaining units. WHAT TO DO IN CASE OF FIRE • Don’t panic; stay calm. Follow your family escape plan. • Get out of the house as quickly as possible. Don’t stop to get dressed or collect anything. • Feel doors with the back of your hand before opening them. If a door is cool, open it slowly. Don’t open a hot door. Keep doors and windows closed, unless you must escape through them. • Cover your nose and mouth with a cloth (preferably damp). Take short, shallow breaths. • Meet at your planned meeting place outside your home, and do a head count to make sure everybody got out safely. • Call the Fire Department as soon as possible from outside. Give your address, then your name. • Never go back inside a burning building for any reason. • Contact your Fire Department for ideas on making your home safer. USING THE SILENCE FEATURES If you are absolutely certain the alarm is caused by a non-emergency, non-fire situation, you may use the Silence Feature to silence the Alarm. The Silence Feature on this unit can temporarily quiet an unwanted alarm for up to 15 minutes. The Silence Feature is for your convenience only and will not correct a problem. The Silence Feature is intended to temporarily silence the Alarm horn. It will not extinguish a fire. To temporarily silence the alarm: 1.Option 1:Press the Test/Silence button on the cover of the Heat Alarm that initiated the alarm.* 2.Option 2:Point a universal IR remote control at the Heat Alarm that initiated the alarm* and press the channel or volume button until the alarm is silent. (See “Using the Remote Control Weekly Test/Silence Feature” for details). An acknowledge tone will be issued by the Alarm to let you know that the silence command has been received. *To silence Heat Alarms in an interconnected series: To silence multiple Alarms in an interconnected series, you must press the Test/Silence button on the unit(s) that triggered the alarm. Pressing the Test/ Silence button on a unit that did not trigger the alarm will only silence that Alarm. NOTE:The red light under the Silence button on the initiating alarm will flash in sync with the horn. The red light will be off on all other Heat Alarms. If any unit will not silence and no heat is present install a new battery and re-test it. If it still will not silence, the unit should be replaced immediately. LOW BATTERY SILENCE FEATURE If AC power is on, briefly press the Test/Silence button or use a Remote Control to silence the low battery “chirp” for up to 8 hours. A brief “chirp” will let you know that the Alarm has accepted the Low Battery Silence command. The Alarm will continue to operate as long as AC power is supplied. However, replace the battery as soon as possible, to maintain protection in event of a power outage. “LATCHING ALARM” INDICATOR GARAGE BEDROOMBEDROOM HALLLIVING ROOM KITCHEN BASEMENT BEDROOM LATCHING ALARM: Unit was exposed to alarm levels of Smoke or Heat LATCHING NOT ACTIVATED: Unit was not exposed to alarm levels of Smoke or Heat KEY: The Latching Alarm Indicator is activated after an Alarm is exposed to alarm levels of heat. After heat levels drop below alarm levels, the red LED will begin to flash once every 5 seconds. It will continue to flash or “latch” until you clear it using the Test/Silence button. Press and hold the Test/Silence button until the horn sounds. This feature helps emergency responders, investigators, or service technicians identify which unit(s) in your home were exposed to alarm levels of heat. This can help investigators pinpoint the initiating alarm. RECOMMENDED LOCATIONS FOR HEAT ALARMS In Single-Family Residences. For minimum coverage, BRK Brands, Inc. recommends you install Heat Alarms in any area not suitable for smoke alarms such as garages, kitchens, utility/laundry rooms, furnace rooms and crawl spaces. Install where tempera- tures normally remain between –10º F and 100º F (–23º C and 38º C). For National Fire Protection Association (NFPA) information, see “Agency Placement Recommendations for Heat Alarms and Smoke Alarms.” RECOMMENDED PLACEMENT Heat Alarms Recommended in New Home Construction • The recommended location for a Heat Alarm is at the center of the ceil- ing. At this location, the Heat Alarm is closest to all areas of the room. • If it is not practical to install the Heat Alarm in the center of the room, use an off-center location not less than 4 inches (102 mm) from the sidewall. • If it is not practical to install the Heat Alarm on the ceiling, the next logical location is on a sidewall. A Heat Alarm mounted on a sidewall should have the top of the unit between 4 and 12 inches (102 mm and 305 mm) from the ceiling. • The smooth ceiling distance between Heat Alarms shall not exceed spacings as determined by UL fire tests. This Heat Alarm has a 50 foot (15 meter) spacing. • Reduced spacing may be required due to factors such as exposed joists, drafts, ceiling heights greater than 10 feet (3 meters), and other structural characteristics that may affect Heat Alarm operation. Walls, partitions, doorways, and joists interrupt the normal flow of heat creating new areas to be protected. Continued... GARAGE BEDROOMBEDROOM HALLLIVING ROOM KITCHEN BASEMENT BEDROOM INTERCONNECTED HEAT ALARMS IN GARAGES, KITCHENS, UTILITY/LAUNDRY ROOMS, FURNACE ROOMS AND CRAWL SPACES AND ONLY AS A SUPPLEMENT TO SMOKE ALARMS. FOR MAXIMUM PROTECTION USE INTERCONNECTED SMOKE ALARMS WITH BATTERY BACK-UP AS SHOWN. 25 ft. (7.8 m) 25 ft. (7.8 m) 25 ft. (7.8 m) 50 ft. (15 m) 25 ft. (7.8 m) 12.5 ft. (3.8 m) 12.5 ft. (3.8 m) Heat Alarms should be mounted on the bottom of the joists and not up in the joist channels. 1402 W Meriday Ln - 201816051/10/2024 AGENCY PLACEMENT RECOMMENDATIONS FOR HEAT AND SMOKE ALARMS NFPA Appendix A-2-5.2.2: While Chapter 2 does not require heat detectors as part of the basic protection scheme, it is recommended that the householder consider the use of additional heat detectors...The additional areas lending themselves to protection with heat detectors are: kitchen, dining room, attic (finished or unfinished), furnace room, utility room, basement and integral or attached garages. For bedrooms, the installation of a smoke detector is preferable to the installation of a heat detector. The following recommendations reference location and usage of Smoke Alarms. Heat Alarms are intended as supplemental safety devices. Do not rely solely on Heat Alarms to alert you to fire. NFPA 72 (National Fire Code) Smoke Alarms shall be installed in each separate sleeping room, outside each sleeping area in the immediate vicinity of the bedrooms and on each additional story of the family living unit, including basements and excluding crawl spaces and unfinished attics. In new construction, Alarms shall be so arranged that operation of any one Alarm shall cause the operation of all Alarms within the dwelling. Smoke Detection-Are More Smoke Alarms Desirable? The required number of Smoke Alarms might not provide reliable early warning protection for those areas separated by a door from the areas protected by the required Smoke Alarms. For this reason, it is recommended that the householder consider the use of additional Smoke Alarms for those areas for increased protection. The additional areas include the basement, bedrooms, dining room, furnace room, utility room, and hallways not protected by the required Smoke Alarms. The installation of Smoke Alarms in kitchens, attics (finished or unfinished), or garages is not normally recommended, as these locations occasionally experience conditions that can result in improper operation. California State Fire Marshal (CSFM) Early warning detection is best achieved by the installation of fire detection equipment in all rooms and areas of the household as follows: A Smoke Alarm installed in each separate sleeping area (in the vicinity, but outside bedrooms), and Heat or Smoke Alarms in the living rooms, dining rooms, bedrooms, kitchens, hallways, finished attics, furnace rooms, closets, utility and storage rooms, basements, and attached garages. Additional local building and regulatory codes may apply in your area. Always check compliance requirements before beginning any installation. Specific requirements for Heat or Smoke Alarm installation vary from state to state and from region to region. Check with your local Fire Department for current requirements in your area. If you install AC or AC/DC units, it is recom- mended they be interconnected for added protection. Interconnect Smoke and Heat Alarms for added protection. RECOMMENDED PLACEMENT, Continued NFPA Standard 72 Appendix A-2-5.2.2.2 part c-d (c) The Spacing of Detectors: Where a room is too large for protection by a single detector, several detectors should be used. It is important that they be properly located so all parts of the room are covered. (d) Where the Distance Between Detectors Should Be Further Reduced: The distance between detectors is based on data obtained from the spread of heat across a smooth ceiling. Where the ceiling is not smooth, the placement of the detector should be tailored to the situation. For instance, with open wood joists, heat travels freely down the joist channels so that the maximum distance between detectors [50 ft (15 m)] may be permitted to be used. However, heat has trouble spreading across the joists, so the distance in this direction should be 1/2 the distance allowed between detectors, as shown in the illustration above (“Heat Alarms Recommended in New Home Construction”) and the distance to the wall is reduced to 12-1/2 ft. (3.8 m). Since 1/2 x 50 ft. (15 m) is 25 ft. (7.6 m), the distance between detectors across open wood joists should not exceed 25 ft. (7.6 m), as shown in “Heat Alarms Recommended in New Home Construction,” and the distance to the wall is reduced [1/2 x 25 ft. (7.6 m)] to 12.5 ft. (3.8 m). Paragraph 2-5.2.2.4 requires that detectors be mounted on the bottom of the joists and not up in joist channels. Walls, partitions, doorways, ceiling beams, and open joists interrupt the normal flow of heat, thus creating new areas to be protected. LOCATIONS TO AVOID FOR HEAT ALARMS This unit works best when it’s clean and nothing interferes with the sensor. If exposed to dirt, grease, extreme temperatures not caused by fire (especially in attics where daily temperatures can exceed the 135º F (57º C) alarm level or high humidity, it may sound “unwanted” alarms. If Heat Alarms are installed where heat can’t reach them–like in “dead air spaces” or near fans–they may not be able to provide an early enough warning in case of fire. For best performance, do not install the Heat Alarm: In a location where it could be easily triggered when using your remote to operate your TV, VCR, or other remote controlled appliances. • Where temperatures are regularly below –20º F (–29º C) or above 115º F (46º C), including unheated buildings, outdoor rooms, or porches. • Do not install a Heat Alarm directly over the stove or range. Clean a laundry room unit frequently to keep it free of dirt or lint. • Near fresh air vents, ceiling fans, or in very drafty areas. Drafts can blow heat away from the unit, preventing it from reaching the sensing chamber. • In “dead air” spaces. Install units according to “Avoiding Dead Air Spaces”. • Less than 12 inches (305 mm) away from fluorescent lights. Electrical “noise” can interfere with the sensor. SPECIAL COMPLIANCE CONSIDERATIONS The following recommendations reference location and usage of Smoke Alarms. Heat Alarms are only intended as supplemental safety devices. Do not rely solely on Heat Alarms to alert you to fire. This unit alone is not a suitable substitute for complete fire detection systems in places housing many people—like apartment buildings, condominiums, hotels, motels, dormitories, hospitals, long-term health care facilities, nursing homes, day care facilities, or group homes of any kind—even if they were once single-family homes. It is not a suitable substitute for complete fire detection systems in warehouses, industrial facilities, commercial buildings, and special-purpose non-residential buildings which require special fire detection and alarm systems. Depending on the building codes in your area, this unit may be used to provide additional protection in these facilities. For your reference: The following is information on Smoke Alarm usage in various residences and institutions. The following information applies to all five types of buildings listed below: In new construction, most building codes require the use of AC or AC/DC powered Smoke Alarms only. AC, AC/DC, or DC powered Smoke Alarms can be used in existing construction as specified by local building codes. Refer to NFPA 72 (National Fire Alarm Code) and NFPA 101 (Life Safety Code), local building codes, or consult your Fire Department for detailed fire protection requirements in buildings not defined as “households.” 1. Single-Family Residence: Single family home, townhouse. It is recommended Smoke Alarms be installed on every level of the home, in every bedroom, and in each bedroom hallway. 2. Multi-Family or Mixed Occupant Residence: Apartment building, condominium. This Smoke Alarm is suitable for use in individual apartments or condos, provided a primary fire detection system already exists to meet fire detection requirements in common areas like lobbies, hallways, or porches. Using this Smoke Alarm in common areas may not provide sufficient warning to all residents or meet local fire protection ordinances/regulations. 3. Institutions: Hospitals, day care facilities, long-term health care facilities. This Smoke Alarm is suitable for use in individual patient sleeping/resident rooms, provided a primary fire detection system already exists to meet fire detection requirements in common areas like lobbies, hallways, or porches. Using this Smoke Alarm in common areas may not provide sufficient warning to all residents or meet local fire protection ordinances/regulations. 4. Hotels and Motels: Also boarding houses and dormitories. This Smoke Alarm is suitable for use inside individual sleeping/resident rooms, provided a primary fire detection system already exists to meet fire detection requirements in common areas like lobbies, hallways, or porches. Using this Smoke Alarm in common areas may not provide sufficient warning to all residents or meet local fire protection ordinances/regulations. 5. Warehouses/Commercial Buildings: DO NOT use this Alarm in warehouses, industrial or commercial buildings, special-purpose non-residential buildings, RVs, boats, or airplanes. This Alarm is specifically designed for residential use, and may not provide adequate protection in non-residential applications. AVOIDING DEAD AIR SPACES “Dead air” spaces may prevent heat from reaching the Heat Alarm. To avoid dead air spaces, follow installation instructions in the “Recommended Locations for Heat Alarms” (refer to NFPA72 for details). For wall mounting (if allowed by building codes), the top edge of Heat Alarms should be placed between 4 inches (102 mm) and 12 inches (305 mm) from the wall/ceiling line, below typical “dead air” spaces. 7 1402 W Meriday Ln - 201816051/10/2024 LIMITATIONS OF HEAT ALARMS This Heat Alarm is not a Smoke Alarm. This unit is not suitable protection when used alone. Do not use this unit as the only means of fire detection in a home. This unit is intended for use as a supplement to Smoke Alarms. Heat Alarms are not life safety devices. Heat Alarms are intended for use as supplements to Smoke Alarms. Because this unit cannot detect smoke, carbon monoxide or other toxic gases, do not rely solely on this Heat Alarm in a fire emergency. Slow developing fires may produce smoke and toxic gasses without a significant increase in room temperatures. For this reason, Heat Alarms are only to be installed as supplementary protection with Smoke Alarms. Heat Alarms cannot work without power.AC powered Heat Alarms and Smoke Alarms cannot work if the AC power is cut off for any reason (open fuse or circuit breaker, failure along a power line or at a power station, electrical fire that burns the electrical wires, etc.). AC units with battery (DC) back-up: will operate if electricity fails, provided the batteries are fresh and correctly installed. AC and AC/DC units must be installed by a qualified electrician. Heat Alarms for Solar or Wind Energy users and battery backup power systems:AC powered Heat Alarms should only be operated with true or pure sine wave inverters. Operating this Heat Alarm with most battery-powered UPS (uninterruptible power supply) products or square wave or “quasi sine wave” inverters will damage the Alarm. If you are not sure about your inverter or UPS type, please consult with the manufacturer to verify. Heat Alarms cannot sense fires if the heat does not reach them.Heat from fires in chimneys or walls, on roofs, or on the other side of closed doors may not reach the sensing chamber and set off the alarm. That is why one unit should be installed on every floor, in the attic, basement and garage and only as a supplement to Smoke Alarms. Heat Alarms may not sense heat from a fire on another level of the home. Example: a stand-alone unit on the second floor may not detect heat from a fire in a crawl space until the fire spreads. This may not give you enough time to escape safely. That is why recommended minimum protection is at least one Smoke Alarm on every level of your home and Heat Alarms in any areas not suitable for Smoke Alarms. Even with a unit on every floor, stand-alone units may not provide as much protection as interconnected units, especially if the fire starts in a remote area. Interconnected units may provide earlier warning than stand-alone units since all units alarm when one senses heat or smoke. Heat Alarms may not be heard. The alarm horn loudness meets or exceeds the current UL standard. However, if the device is installed outside the bed- room, it may not wake up a sound sleeper or one who has recently used drugs or has been drinking alcoholic beverages. This is especially true if the door is closed or only partly open. Even persons who are awake may not hear the alarm horn if the sound is blocked by distance or closed doors. Noise from traffic, stereo, radio, television, air conditioner, or other appliances may also prevent alert persons from hearing the alarm horn. This alarm device is not intended for people who are hearing impaired. Heat Alarms may not have time to alarm before the fire itself causes damage, injury, or death, since heat from some fires may not reach the unit immediately. Examples of this include persons smoking in bed, children playing with matches, or fires caused by violent explosions resulting from escaping gas. This Heat Alarm is not foolproof.Like any electronic device, Heat Alarms are made of components that can wear out or fail at any time. You must test the unit weekly to ensure your continued protection. Heat Alarms cannot prevent or extinguish fires. They are not a substitute for property or life insurance. Heat Alarms have a limited life.The unit should be replaced immediately if it is not operating properly. In no case should it be used for more than 10 years. 8 Printed in Mexico M08-0026-003 Q 08/08 BRK®is a registered trademark of BRK Brands, Inc. First Alert®is a registered trademark of the First Alert Trust. LIMITED WARRANTY BRK Brands, Inc., ("BRK") the maker of BRK®brand and First Alert®brand products warrants that for a period of ten years from the date of purchase, this product will be free from defects in material and workmanship. BRK, at its option, will repair or replace this product or any component of the product found to be defective during the warranty period. Replacement will be made with a new or remanufactured product or component. If the product is no longer available, replacement may be made with a similar product of equal or greater value. This is your exclusive warranty. This warranty is valid for the original retail purchaser from the date of initial retail purchase and is not transferable. Keep the original sales receipt. Proof of purchase is required to obtain warranty performance. BRK dealers, service centers, or retail stores selling BRK products do not have the right to alter, modify or any way change the terms and conditions of this warranty. This warranty does not cover normal wear of parts or damage resulting from any of the following: negligent use or misuse of the product, use on improper voltage or current, use contrary to the operating instructions, disassembly, repair or alteration by anyone other than BRK or an authorized service center. Further, the warranty does not cover Acts of God, such as fire, flood, hurricanes and tornadoes or any batteries that are included with this unit. BRK shall not be liable for any incidental or consequential damages caused by the breach of any express or implied warranty. Except to the extent prohibited by applicable law, any implied warranty of merchantability or fitness for a particular purpose is limited in duration to the duration of the above warranty. Some states, provinces or jurisdictions do not allow the exclusion or limitation of incidental or consequential damages or limitations on how long an implied warranty lasts, so the above limitations or exclusion may not apply to you. This warranty gives you specific legal rights, and you may also have other rights that vary from state to state or province to province. How to Obtain Warranty Service Service:If service is required, do not return the product to your retailer. In order to obtain warranty service, contact the Consumer Affairs Division at 1-800-323-9005, 7:30 AM - 5:00 PM Central Standard Time, Monday through Friday. To assist us in serving you, please have the model number and date of purchase available when calling. For Warranty Service return to:BRK Brands, Inc., 25 Spur Drive, El Paso, TX 79906 Battery:BRK Brands, Inc. make no warranty, express or implied, written or oral, including that of merchantability or fitness for any particular purpose with respect to battery. Please record Date and Where Purchased: ________________________________________________________________ 1402 W Meriday Ln - 201816051/10/2024 Technical Notification Title SunVault™ RPO Switch and System Disconnecting Means, 651031 RevA Date July 12, 2023 Authors SunVault Applications Engineering Application SunVault Storage System Overview This Tech Note is intended for use by designers, and individuals or organizations responsible for permitting and inspecting SunPower SunVault™ Storage Systems. It provides responsive descriptions of how the following National Electrical Code (NEC) (NFPA 70) requirements are met for SunVault: • PV system rapid shutdown (RSD) • Emergency shutdown (ESD) • Disconnecting means 2023 NEC Article 690.12 Rapid Shutdown of Solar Systems on Buildings ® Article 690.12 requires an RSD function for all solar system circuits installed on buildings. The RSD function reduces the shock hazard for firefighters, as these first responders must contend with elements of a solar system that remain energized after the service disconnect is turned OFF (opened). The solar system RSD requirement reduces the potential for shock to a person within 30 seconds of activation of the solar system shutdown. In accordance with 690.12 (A) through (D), an initiation device shall be provided to initiate the solar system’s rapid shutdown function. A permanent label must be located at the service equipment location and must indicate the location of the RSD initiation device(s). This label must include a simple diagram of the building with a roof, and include the following words [690.12(D)]: SOLAR PV SYSTEM IS EQUIPPED WITH RAPID SHUTDOWN. TURN THE RAPID SHUTDOWN SWITCH TO THE “OFF” POSITION TO SHUT DOWN. PV SYSTEM AND REDUCE SHOCK HAZARD IN ARRAY. For SunVault systems that have backup and non-backup side solar systems, a detailed plan view diagram of the roof must be placed at the service equipment and include a dotted line around the specific area where each RSD device shuts down, upon initiation [690.12(D)(1)]. For these projects, the RSD initiation device for the ACPV circuits located at the Hub+ generation pan (backup side) can be one of the following: 1402 W Meriday Ln - 201816051/10/2024 • RPO switch • Individual ACPV circuit breakers • Installed knife blade handle disconnect switch located in series with all backup side solar sources The RSD initiation devices for the non-backup side circuits can be one of the following: • Manufacturer-specific RSD initiation device • Main service breaker (if PV inverter(s) are located within the array boundary (i.e., microinverters, etc.)) • Individual solar circuit breakers • Installed knife blade handle disconnect switch located in series with all non-backup solar sources The rapid shutdown switch must have a label that includes the following wording located on or no more than three feet from the switch [690.12(D)(2)]: RAPID SHUTDOWN SWITCH FOR SOLAR PV SYSTEM 2023 NEC Article 706.15 Disconnecting Means Means shall be provided to disconnect the SunVault systems power output circuit(s) from all premises wiring. The disconnecting means must be readily accessible and must comply with at least one of the following: 1. Located within the SunVault enclosure. 2. Located within sight AND within 10 feet of the SunVault enclosure. 3. Where the disconnecting means is not located within sight AND within 10’ of the SunVault enclosure, the disconnecting means must be capable of being locked in the open position. Note: The ESS disconnect is the 40 A ESS breaker located in the Hub+ backup pan, and can be locked open with the Eaton BRLW handle lockoff installation accessory part. See the Additional Information section below. 1402 W Meriday Ln - 201816051/10/2024 For one- and two-family dwellings, the SunVault system must include an emergency shutdown function to cease the export of power from the SunVault system to premises wiring of other systems. An initiation device must be located at a readily accessible location outside the building and must plainly indicate whether in the OFF or ON position. The OFF position of the device must perform the ESS emergency shutdown (ESD) function. Note: The RPO switch and the ESS disconnect are both able to serve as a SunVault ESD initiation device. See the ESS disconnecting means flowcharts in Appendix A and Appendix B. For one- and two-family dwellings, the SunVault system must include an emergency shutdown function to cease the export of power from the SunVault system to premises wiring of other systems. An initiation device must be located at a readily accessible location outside the building and must plainly indicate whether in the OFF or ON position. The OFF position of the device must perform the ESS emergency shutdown (ESD) function. Note: The RPO switch and the ESS disconnect are both able to serve as a SunVault ESD initiation device. See the ESS disconnecting means flowcharts in Appendix A and Appendix B. 2023 NEC Article 690.12 and 706.15 Compliance The RPO switch is not a disconnecting means, but it does comply with two important NEC requirements: 1. Initiates SunVault PV system rapid shutdown [690.12(C)]. 2. Initiates SunVault system (ESS) emergency shutdown [706.15(B)]. Note: The Hub+ 40 A ESS circuit breaker and/or SunVault’s integrated AC rotary disconnect switch can serve as the ESS’s disconnecting means and ESD initiation device [706.15]. The RPO switch is an ideal RSD and ESD initiation device, as it is small and easy to install. Incorporated within the SunVault system, the RPO switch can serve as the building’s PV RSD initiation device and SunVault’s ESD initiation device. The device that initiates SunVault’s ESD function does not have to be the RPO switch— it can also be a circuit breaker or disconnect switch—but the ESD device selected must be installed outside of the building at a readily accessible location. Although not required per code, the preferred location for SunVault’s ESD is always adjacent to the main service emergency disconnect (typically the main service breaker) as this enables the first responder to quickly shut down all sources of power to the building during an emergency event. 1402 W Meriday Ln - 201816051/10/2024 5322SHUDWLRQ 7KHIROORZLQJDFWLRQVRFFXULPPHGLDWHO\XSRQ532FLUFXLWDFWLYDWLRQ • The SunVault operating mode switches to a standby state, which instantly ceases SunVault power export to the premises wiring system (i.e., emergency shutdown) [706.15(B)]. • The Hub+ microgrid interconnect device (MID) contactor opens, which instantly isolates source voltage output to the Hub+ generation pan; this then rapidly shuts down all of the connected ACPV source circuits [690.12(C)]. RPO Switch Compliance with NEC Requirements RPO switch Important! The RPO switch is not a substitute for the AC and DC breakers at the site. • The RPO is a manual initiation device that can be used for both system rapid shutdown and ESS emergency shutdown. • The OFF position of the RPO button performs the ESS emergency shutdown. • The RPO switch clearly indicates whether it is in the OFF or ON position. • The RPO enclosure includes a transparent cover that provides protection from inadvertent manual activation and deactivation. • The RPO protective enclosure has a lockable cover, which ensures the RPO switch remains in the open position. Note: The provisions for locking the RPO always remain in place with or without a lock being installed. 1402 W Meriday Ln - 201816051/10/2024 Additional Information The Hub+ 40 A ESS circuit breaker (Eaton 2-pole Type BR) can be equipped with a permanently-attached breaker handle lockoff (Eaton BRLW padlockable device accessory) to ensure the breaker handle can be locked in the open position per NEC Article 110.25: Where not located within sight of the ESS, the disconnecting means, or the enclosure providing access to the disconnecting means, must be capable of being locked in accordance with NEC 110.25: If you have any questions, please contact SunPower Technical Support. 1402 W Meriday Ln - 201816051/10/2024 February 10, 2023 SunPower 77 Rio Robles San Jose, CA 95134 TEL: (408) 514-4063 Attn: Sunpower – Engineering Department Re: Engineering Certification for the SunPower Corporation Invisimount Mounting System Span Tables and Design Methodology PZSE, Inc.-Structural Engineers has reviewed the SunPower Invisimount Mounting System Span Tables Revision F published September 21, 2021 and Revision G published August 25, 2022 and their design methodology. This certification covers the module clamp, rail analysis, and attachment Tile hook/L bracket components. All information, data and analysis contained within are based on, and comply with, the following building codes and typical specifications: Building Codes: 1. Minimum Design Loads for Buildings and other Structures, ASCE/SEI 7-16 2. 2022 California Building Code, by California Building Standard Commission 3. 2022 California Residential Code, by California Building Standard Commission 4. 2021 International Building Code, by International Code Council, Inc 5. 2015 Aluminum Design Manual, by The Aluminum Association 6. CPP Wind Tunnel report number 9790, dated 16 February 2017. 7. SEAOC PV-2, 2017 8. 2018 NDS, by the American Wood Council 9. UL 2703 Testing report for PV solar panels. 10. AC428, Acceptance Criteria for Modular Framing Systems Used to Support Photovoltaic (PV) Panels, November 1, 2012 by ICC-ES Component and Cladding Roof Zones: The Components and Cladding Roof Zones shall be determined based on ASCE 7 Chapter 30, and CPP Wind Tunnel test number 9790, dated 16 February 2017. Notes: 1) Racking system and panels shall be installed per manufacturer’s specifications. 2) Design assumptions are specified in the Inputs pages of attached span tables. 3) Attachment design is based on 5/16” Dia. Lag Screw with 2.5” Embedment into SPF#2 or equivalent per NDS. Designer shall be responsible for verifying project specific site conditions. 4) Wind speeds are LRFD values. 5) Attachment spacing(s) apply to seismic design category E or less. 1402 W Meriday Ln - 201816051/10/2024 Design Responsibility: These tables are intended to be used under the responsible charge of a registered design professional where required by the authority having jurisdiction. In all cases, these tables should be used under the direction of a design professional with sufficient structural engineering knowledge and experience to be able to: • Evaluate whether these tables are applicable to the project, and • Understand and determine the appropriate values for all input parameters of these tables. This letter certifies that the loading criteria and design basis SunPower Invisimount Mounting System Span Tables are in compliance with the Codes above. This certification excludes the capacity check of the building structure to support the loads imposed on the building by the array, such as bending strength of roof rafters spanning between supports. This requires additional knowledge of the building and is outside the scope of the design tool and our review. If you have any questions on the above, do not hesitate to call. Prepared By: PZSE, Inc. - Structural Engineers Roseville, CA REENIIGER LARUTCURTS AINROFILACFOETATS GNELANOISSEFORPDERETSEHCAZHTENEKL N AP Exp. 3-31-25 No. S3878 R U DIGITALLY SIGNED 1402 W Meriday Ln - 201816051/10/2024 SUNPOWER CORPORATION Document #524734 Rev G SPAN TABLES, INVISIMOUNT Template FILE-074910, Ed. 2 SPAN TABLES, INVISIMOUNT 22 SQ. FT. MODULE WITH COMPOSITE SHINGLE - MOUNTING ROOF ATTACHMENT ASCE 7-16 VERSION Item Number: 524734 8-25-22 Ethan Ely x Initial Release x Exposure D added. C DCO-010454 x A-Series Modules Added. x Color coding of Span Tales Added. 6-11-19 D DCR-003763 x CA Only x ASCE 7-16 Update 2-20-20 E DCR-003794 x Module Pressure Capacities Increased x Expanded for all States 4-27-20 x M-series module added x Version for Universal InvisiMount system 1. Tables in this document have been generated from the Excel tool, item #524735 2. See the Engineering Certification Letter for Professional Engineer stamp. Delete this first page when printing. The Span Tables are split among several volumes due to the various combinations of Modules + Attachments + Applicable Codes. 1402 W Meriday Ln - 201816051/10/2024 SUNPOWER CORPORATION Document #524734 Rev G SPAN TABLES, INVISIMOUNT Template FILE-074910, Ed. 2 List of Volumes 1. 22 Sq. Ft. Module + Composite Shingle Attachment w/ ASCE 7-10 2. 22 Sq. Ft. Module + Composite Shingle Attachment w/ ASCE 7-16 3. 22 Sq. Ft. Module + Tile Attachment w/ ASCE 7-10 4. 22 Sq. Ft. Module + Tile Attachment w/ ASCE 7-16 5. High Wind Speeds: 22 Sq. Ft. Module + Composite Shingle Attachment w/ ASCE 7-10 6. High Wind Speeds: 22 Sq. Ft. Module + Composite Shingle Attachment w/ ASCE 7-16 7. High Wind Speeds: 22 Sq. Ft. Module + Tile Attachment w/ ASCE 7-16 8. High Wind Speeds: 20 Sq. Ft. Module + Composite Shingle Attachment w/ ASCE 7-10 9. High Wind Speeds: 20 Sq. Ft. Module + Composite Shingle Attachment w/ ASCE 7-16 10. High Wind Speeds: 20 Sq. Ft. Module + Tile Attachment w/ ASCE 7-16 1402 W Meriday Ln - 201816051/10/2024 SUNPOWER CORPORATION Document #524734 Rev G SPAN TABLES, INVISIMOUNT Template FILE-074910, Ed. 2 Document #524734 Rev G, Vol. 2 1 SunPower Proprietary InvisiMount Span Tables Engineering Summary Letter V 2 7-16 22 Sq. Ft. Module Composite Shingle No No The Span Tables are divided into two Parts: x Part 1: Simplified Tables (Wind Tunnel Loads) x Part 2: General Tables (ASCE 7 Analytical Method) Part 1 features spans based on forces on the InvisiMount system using exposure coefficients, GCp, provided by a Wind Tunnel Test Report by Cermak, Petrka, & Petersen (CPP). These values provide a more accurate and economical solution but apply to less configurations. It is recommended to use these values whenever possible, and when not, to use the spans provided in Part 2. The following span tables are adequate for the following roof attachments: x SunPower InvisiMount L-Foot attachment x Pegasus Composite Shingle Roof Attachment o And roof attachments with capacities equal to or greater than all of the following Load and Resistance Factor Design (LRFD) values: ƒ Tension – 1000lb ƒ Compression – 1000lb ƒ Shear – 390lb x Module orientations: Portrait & Landscape x Gable and Hip roofs only with modules not in the overhang sections of the roof x Roof heights o 30ft (Part 1 only) o 20-60ft (Part 2 only) x Roof Slope o 4:12 to 8:12 (Part 1 only) o 2:12 to 12:12 (Part 2 only) x Exposures Categories B, C, D x Basic Wind Speeds: o ASCE 7-10: 110-140mph – High Wind: 145-180mph o ASCE 7-16: 90-130mph – High Wind: 135-180mph x Ground Snow Loads: o 0-60psf (10psf increments) o High Snow Volumes: 80-200psf (20psf increments) o High Wind Volumes: 0psf 1402 W Meriday Ln - 201816051/10/2024 SUNPOWER CORPORATION Document #524734 Rev G SPAN TABLES, INVISIMOUNT Template FILE-074910, Ed. 2 Document #524734 Rev G, Vol. 2 2 SunPower Proprietary x These tables are applicable to modules with the following dimensions: o Maximum length: 6.56 ft. (2.00 m) o Maximum surface area: 22 sq. ft. (2.04 sq. m) o Maximum height: 1.57 in. (40 mm) x These tables d include a check of the module’s capacity. A module check must be performed by the user in addition to identifying the appropriate span. x In the Part 1 (Wind Tunnel-based) span tables, module pressures are provided adjacent to the corresponding spans. These module pressures are derived from the Wind Tunnel Test Report for each output condition. The user must confirm that the design capacities of the module to be used are greater than both the uplift and downforce pressured identified. x For the Part 2 span tables, pressure on the module must be calculated per the appropriate ASCE code (7-10 or 7-16). x A summary of the equations required to calculate these values is provided in the following section. 1402 W Meriday Ln - 201816051/10/2024 SUNPOWER CORPORATION Document #524734 Rev G SPAN TABLES, INVISIMOUNT Template FILE-074910, Ed. 2 Document #524734 Rev G, Vol. 2 3 SunPower Proprietary M x The following equations reflect ASCE-prescribed calculations, with values specific to InvisiMount included where possible. x Note that some conservative assumptions have been made and, in some cases, the resulting values may be more conservative than a site-specific iteration of the ASCE-based calculations. x The below equations are applicable only to modules with an area equal to or greater than 19.5 ft^2. x See below glossary for definitions of all referenced variables. x ASCE 7 §2.3 defines load combination equations for LRFD, which generate design load pressures. The controlling equations which define the design load on the module are: o =.+. o =.+.+. .+.+. x The process for solving for these equations is as follows: o Identify site-specific inputs: ƒ =[ ] ƒ =[ / / ] ƒ =[ ] ℎ ƒ =[ ] ƒ =[ ] ƒ =[ 1 / 2 / 3 ] o Select the following coefficients from the below Look-up Tables: ƒ =[ ] ƒ =[ ] ƒ =[ ] ƒ ,=[ ] ƒ ,=[ ] o Use the following equations to establish wind and snow loads: ƒ The minimum allowable value for & is 16 psf. ƒ Wind, Uplift: =.∗ ∗ , ƒ Wind, Downforce: =. ∗ ∗ ∗ , ƒ Snow: =,∗ () If ≥15°, ,= 0.84 ∗ ∗ If < 15° < 20 , ,= If < 15° > 20 , ,=20 0.84 ∗ ∗ o Add the resulting load pressures in the load combination equations (dead load is provided): ƒ =. +. ƒ =. +.+. . +.+. 1402 W Meriday Ln - 201816051/10/2024 SUNPOWER CORPORATION Document #524734 Rev G SPAN TABLES, INVISIMOUNT Template FILE-074910, Ed. 2 Document #524734 Rev G, Vol. 2 4 SunPower Proprietary x Look-up Tables o Exposure-based coefficients: o External pressure coefficients: ƒ These values are based on a minimum module size of 19.5 ft^2. ASCE 7--16 θ <= 20 θ <= 27 θ <= 45 θ <= 20 θ <= 27 ASCE 7--16 θ = 30.26 θ = 33.69 θ = 36.87 θ = 39.81 θ = 42.51 θ = 45 x Glossary of variables: o = o = o = = 2.7 o = () o = () o = () o = ℎℎ () o = (,, ) o = (ℎ) o = () o = ℎ () o = (1,2, 3) o = ℎℎ () o = o = o = o ,= , o ,= , o = o ,= , 1402 W Meriday Ln - 201816051/10/2024 Document #524734 Rev G, Vol. 2 5 SunPower Proprietary I The following tables list the allowable spacing of attachment points for the SunPower InvisiMount mounting system. The following building codes and standards were used in the calculations: x International Building Code (IBC 2018) x International Residential Code (IRC 2018) x Minimum Design Loads for Buildings and Other Structures (ASCE 7-16) x Aluminum Design Manual (ADM1), 2015 x National Design Specification (NDS) for Wood Construction, 2018 The International Building Code is either adopted fully or mostly by each state. The accompanying Engineering Certification Letter lists the building code for the state which this project. Loads on the system were calculated in accordance with ASCE 7-16, using the following parameters: x Risk Category II x Dead Load: System weight (including PV modules and rails) = 2.7 psf x Roof Live Load: 0psf – No live load acts on top of the PV modules x Roof Snow Load Data: o Ground snow load, pg, as indicated in the tables (Fig. 7-1) o Thermal factor, Ct = 1.2, ‘unheated and open-air structures’ (Table 7.3-2) o Exposure factor, Ce = 0.9, ‘fully exposed’ (Table 7.3-1) o Slope factor, Cs, varies with slope and assumes the array is an ‘unobstructed slippery surface’ where snow is free to slide off the array (Figure 7.4-1) x Wind Design Data (Designed per Chapter 30, Components & Cladding): o With modifications to GCp values per SEAOC PV2-2017 o Basic Design Wind speed, V, and exposure category as indicated in the tables (Figure 26.5-1B) o Roof height and slope as indicated in the tables (§26.2) o Topographic factor, Kzt = 1.0 (Table 26.6-1) o Directionality factor, Kd = 0.85 (Table 26.6-1) o Velocity Coefficient, Kh = 2.01(z/zg)^(2/a) (as indicated in Table 26.10-1) o Velocity Pressure Exposure Coefficient, Ke=1 (Table 26.9.1) o Pressure coefficients, GCp, per either wind tunnel testing or Chapter 30 (see notes below tables) x Earthquake Design Data (Designed per Chapter 13: Non-structural Components) o Seismic Design Category E, Soil Site Class D assumed o Mapped MCE Short Period, 0.2sec, Ss = 3.73g, maximum in the United States (Fig. 22-1) o Mapped MCE Short Period, 1sec, S1 = 1.39g (Fig. 22-2) o Importance Factor, Ip = 1.0 (§13.1.3) o Amplification Factor, ap=1.0 (Table 13.6-1) o Response Factor, Rp=1.5 (Table 13.6-1) x Load combinations per IBC §1605, using Load and Resistance Factor Design (LRFD) 1402 W Meriday Ln - 201816051/10/2024 Document #524734 Rev G, Vol. 2 6 SunPower Proprietary M The maximum allowable spans shown in the tables are based on a combination of dead, wind, seismic, and snow loads calculated from the inputs above and combined using LRFD combinations. The maximum forces are then compared to the minimum capacities determined in the following ways: x Rail bending and shear: ADM1 LRFD checks x Rail to roof attachment: SunPower Test Reports of the rail bolt between the rail and the roof attachment. x Roof attachment: Manufacturer product information x Roof attachment to rafter: Lag screw withdrawal and shear per NDS x The reported maximum spacing is the greatest allowed spacing, rounded down to the nearest rafter spacing increment, for which the demand/capacity ratios are less than or equal to 1.0, assuming both 16” and 24” rafter spacings. x These tables do not consider the strength of the supporting roof structure. In areas of low snow load, the weight of the array is often considered to offset the design live load of the roof, since personnel and equipment cannot be placed on top of the array. It is recommended to stagger attachment points, as shown in Figure 1, to evenly distribute loads to the rafters. Figure 1 x These tables assume that each module is installed centered over a pair of rails, as shown in Figure 2(a). In cases where one rail is closer to the midpoint of the module, as shown in Figure 2(b), adjustments to the spacing may be required. Figure 2 1402 W Meriday Ln - 201816051/10/2024 Document #524734 Rev G, Vol. G 29 SunPower Proprietary InvisiMount Span Tables Part 2: General Tables (ASCE 7 Analytical Method) How to Use These Tables x Determine the snow load and roof height for the site and select the corresponding table. x Determine the wind speed and roof slope for the site. The value in the table, for this wind speed and roof slope, is the allowable span between attachment points, in inches. x See figure below for locations of zones 1, 2 and 3. Dimension “a” is 10% of the least horizontal dimension or 0.4h, whichever is smaller, but not less than either 4% of the least horizontal dimension or 3 feet. 1402 W Meriday Ln - 201816051/10/2024 Notes: x Tables are based on strength of the InvisiMount rail and approved roof attachment in the Engineering Summary Letter of this document, in conformance with IBC and referenced standards. x Maximum allowable cantilever is equal to 1/3 of the allowable span. x Wind speeds are ultimate values in mph, as defined in ASCE 7. Wind pressure coefficients are derived from ASCE 7 Chapter 30. x User is responsible for verifying the strength of the roof. x User is responsible for verifying the capacity of the module. Refer to the section of this document titled “Module Pressure Calculation”, or the appropriate ASCE code (7-10 or 7-16), for instructions on calculating the uplift and downforce module pressures. Document #524734 Rev G, Vol. 2 95 SunPower Proprietary Exposure Ground Snow (psf) Roof Height (ft) INVISIMOUNT ALLOWABLE SPANS - ZONE 1 (IN) → ↓ INVISIMOUNT ALLOWABLE SPANS - ZONE 2 (IN) → ↓ INVISIMOUNT ALLOWABLE SPANS - ZONE 3 (IN) → ↓ 1402 W Meriday Ln - 201816051/10/2024 DocuSign Envelope ID: 30F1D73E-AEF6-4F93-846A-5C123B69E783 6/27/2023 1402 W Meriday Ln - 201816051/10/2024 NO NONO EGC: Bare CU #6 BRANCH CIRCUIT FROM PV ARRAY TO JUNCTION BOX #12 2A --1 CONDUCTOR / CONDUIT SCHEDULE DESCRIPTION & CONDUCTOR TYPE CONDUCTOR SIZE (AWG)CONDUIT/CABLE TYPE CONDUIT SIZENUMBER OF CONDUCTORS 1 TAG GROUNDED (INCLUDE GEC) UNGROUNDED9 INSTALLATION NOTES CHECK BOX FOR WHETHER SYSTEM IS GROUNDED OR UNGROUNDED: FOR UNGROUNDED SYSTEMS: x DC OCPD DISCONNECT BOTH CONDUCTORS OF EACH SOURCE CIRCUIT. x UNGROUNDED CONDUCTORS MUST BE IDENTIFIED PER 210.5(C). WHITE FINISHED CONDUCTORS ARE NOT PERMITTED. DC / DC CONVERTERS NO SOURCE CIRCUIT JUNCTION BOX SUNVAULT ESS SUNVAULT BATTERY INVERTER SOLAR LOAD CENTER PV PRODUCTION METER SEPARATE AC DISCONNECT HEAT DETECTOR YES NO BACK UP LOAD CENTER NON-BACK UP LOAD CENTER EV SUPPLY EQUIPMENT NO DESCRIPTION REMOTE POWER OFF SWITCH HUB+ x RELOCATE APPLICABLE BREAKERS FROM (E) MSP TO APPROPRIATE PANELS OF (N) HUB+. x INSTALL (N) 60A, 2P SUB FEED BREAKER IN THE (E) MSP AND FEED (N) HUB+ WITH THIS BREAKER. x INSTALL (N) 100A BACKUP LOAD CENTER. INSTALL (N) 50A, 2P BREAKER ON THE BACKUP BUS OF (N) HUB+ AND FEED (N) BACKUP LOAD CENTER WITH THIS BREAKER. x INSTALL A SECOND SET OF CONSUMPTION CTS IN PARALLEL AND BUNDLE THE REMAINING LOADS IN THE MSP. x INSTALL (N) HEAT DETECTOR. x RETAIN 30A, 2P AC AND 40A, 2P OVEN IN THE MSP. x NEED TO INSTALL 5/8" TYPE X GYPSUM BEHIND THE ESS AS A MINIMUM ON UNFINISHED WALLS. x SEE PVE-6 FOR DETAILS. 20A, 2PGRID SENSE IN ESS NO N - B A C K U P B U S (1 2 5 A M A X ) NO 15A, 1P HD YES 10 (1) #14 THHN (1) #14 THHN EGC MODEL: LOCATION: FIRST ALERT - HD6135FB ON CEILING DIRECTLY ABOVE ESS ENCLOSURE B JUNCTION BOX, NEMA-3R THWN-2 EGC: THWN-2 1 2B 3 #10 #10 EMT 3/4" #10 ROOFTOP ARRAY WIRING A DC AC Branch Circuit #1AC10 AC MODULES H (E) UTILITY BIDIRECTIONAL METER #: 222013-153384 EXISTING GROUND THWN-2 EGC: THWN-2 1 3 EMT#6 #10 3/4" MI D ETHERNET CONNECTION TO DSL/CABLE MODEM CA T 5 e PVS6 BACKUP BUS (200A MAX) (N) HUB+ 200A, 120/240 V, NEMA-3R MODEL: GE N E R A T I O N B U S (1 2 5 A M A X ) 10 YES LOCATION: SV-HUB-01-C 15A, 2P C C OUTSIDE MLO BOTTOM FED MCB GND INCOMING SOURCE FEED , 120/240 V, 1 PH, 3 W LOCATION: MANUF: GND 200A, 2P 60A, 2P 225A EXTERIOR WALL SQUARE D (E) MAIN SERVICE PANEL SUNPOWER AC MODULES INTERGRATED WITH MICROINVERTER 1 ACMSOLAR AC MODULE / BRANCH 1. DC CIRCUIT IS ISOLATED AND INSULATED FROM GROUND AND MEETS THE REQUIREMENT OF NEC 690.35. 2. SUNPOWER PROVIDED CABLES COMES WITH TWO (2) #12 AWG WIRE AND THIS IS BY DESIGN. NEUTRAL AND ADDITIONAL GROUND WIRE IS NOT REQUIRED FOR PROVIDED TRUNK AND EXTENSION CABLES. 3. SUNPOWER AC MODULES HAVE BEEN TESTED AND CERTIFIED TO UL 2703 FOR INTEGRATED GROUNDING AND HENCE A SEPARATE GROUND WIRE IS NOT REQUIRED WITHIN THE ARRAY. 4. USE ROW-TO-ROW GROUNDING CLIP PROVIDED TO GROUND ROWS OF MODULE. BOND SUB-ARRAYS BY RUNNING #6 AWG BARE CU WIRE AND GROUND LUGS AT A SINGLE POINT ON EACH SUB-ARRAY AND THEN TO THE JUNCTION BOX. REFER TO PVE-4 FOR ADDITIONAL DETAILS. 1. PROPER LISTING EXPECTED FOR CONDITIONS OF USE ON ALL LUGS, FITTINGS, CRIMPS, ETC. 2. ALL CONDUIT BEND RADII TO CONFORM TO THE NEC MINIMUM BEND RADII REQUIREMENTS. 3. MINIMUM CLEARANCE SHALL BE MAINTAINED PER NEC FOR ALL NEW EQUIPMENT TO BE INSTALLED. 4. EXISTING GROUNDING ELECTRODE SYSTEM MUST MEET NEC AND LOCAL UTILITY REQUIREMENTS. 5. COPPER CONDUCTORS SHALL BE USED UNLESS SPECIFIED. 6. TYPE NM (ROMEX) CONDUCTORS ARE ALLOWED FOR INTERNAL AND ATTIC RUNS AND SHALL BE INSTALLED MEETING NEC REQUIREMENTS. 7. IF MAIN SERVICE PANEL IS TO BE UPGRADED, IT WILL BE PERMITTED AND INSTALLED BY 3RD PARTY. 8. AC WIRING SHALL UPSIZE IF VOLTAGE DROP EXCEEDS 2%. 9. RUN CONDUCTORS IN EXISTING CONDUIT WHEN AVAILABLE PROVIDED IT HAS NO OTHER CONDUCTORS RUNNING THROUGH IT. 10. EQUIVALENT SPECIFICATION ON CABLES AND ELECTRICAL EQUIPMENT SPECIFIED ARE ACCEPTABLE. 11. AS DC POWER IS INTERNAL TO THE MODULE, GROUNDING ELECTRODE CONDUCTOR (GEC) FOR THE MODULE OR ARRAY IS NOT REQUIRED. AC MODULES NOTESELECTRICAL NOTES PV CERTIFICATIONS AND COMPLIANCE x UL 1741 / IEEE-1547 x UL 1741 AC MODULE (TYPE 2 FIRE RATED) x UL 62109-1 / IEC 62109-2 x UL LISTED PV RAPID SHUTDOWN EQUIPMENT ENABLES INSTALLATION IN ACCORDANCE WITH: x NEC 690.6 (AC MODULE) x NEC 690.12 RAPID SHUTDOWN (INSIDE AND OUTSIDE THE ARRAY) x NEC 690.15 AC CONNECTORS, 690.33(A)–(E)(1) SUNPOWER PROVIDED AC MODULES EXTENSION CABLE, LISTED AS AN ASSEMBLY MODEL: SPR-M-435-H-AC (240) | QTY: 10 MODEL: SPR-M-435-H-AC (240) [SI] | QTY: 10 NO 20A, 2P 6 YES YES 6.5 kWh BATTERY 6.5 kWh BATTERY INVERTER DC AC 5ENERGY STORAGE SYSTEM MODEL: 13 kWh, 6.8 kW SUNVAULT 125A, 2P 125A, 2P (3) #8 THWN (1) #10 THWN EGC (3) #12 COMM. CABLES 40A, 2P SV-BASE13-12-A MLO TO (E)LOADS (N) LOAD CENTER - BACKUP MIN., 120/240 V, M.L.O, NEMA-3R LOCATION: 11 THWN-2 EGC: THWN-2 1 3 EMT TO (E)LOADS #10 #8 3/4"D D OUTSIDE 100A 50A, 2P 30A, 2P 40A, 2POVEN AC SUBFEED BRANCH BREAKER: TYPE HOM INSTALL A SECOND SET OF CONSUMPTION CTS IN PARALLEL AND BUNDLE THE REMAINING LOADS IN THE MSP. YES PROJECT INSTALLER 1 4 1 4 H A R B O U R W A Y S O U T H R I C H M O N D , C A 9 4 8 0 4 ( 5 1 0 ) 5 4 0 - 0 5 5 0 C O R P O R A T I O N , S Y S T E M S R E V I S I O N S SO L A R I N D I V I D U A L P E R M I T P A C K A G E GR I D - T I E D P H O T O V O L T A I C S Y S T E M REV DESCRIPTION DATE DB DRAWN BY: DATE DRAWN SCALE 1 AHJ REDLINE 05/07/23 IA LU I S A S A N C H E Z 14 0 2 M E R I D A Y L N SA N T A A N A , C A L I F O R N I A 9 2 7 0 6 RP-377049 4. 3 5 k W SPRI - ANAHEIM 01-17-2023 I. Atienza IAN ATIENZA (N ) 1 3 k W h S U N V A U L T E N E R G Y S T O R A G E S Y S T E M SHEET NTS EL E C T R I C A L S I N G L E - L I N E D I A G R A M & S P E C I F I C A T I O N S PVE-1 1402 W Meriday Ln - 201816051/10/2024 ELECTRICAL CALCULATIONS BRANCH 1 NUMBER OF MODULES VOLTAGE RATED AC OUTPUT CURRENT: IOUT = MINIMUM WIRE AMPACITY: IMAX = IOUT x 1.25 CONDUCTOR DE-RATING MAXIMUM AMBIENT TEMPERATURE TEMPERATURE ADDER TEMPERATURE USED FOR AMPACITY DE-RATING TEMPERATURE DE-RATING COEFFICIENT FILL DE-RATING COEFFICIENT IWIREMIN = IOUT / TEMP_COEFF / FILL_COEFF WIRE SIZE AMPACITY CONDUCTOR SIZE CONDUCTOR SIZE ADJUSTED FOR VOLTAGE DROP OVERCURRENT PROTECTION MINIMUM OCPD = IOUT x 1.25 CALCULATED VOLTAGE DROP ONE WAY CIRCUIT LENGTH ROOF JCT BOX TO SUBPANEL WIRING #10 10 240 V 16 A 20.00 A 34 °C 22 °C 56 °C 0.71 1 22.54 A 40 A #10 #10 0.50% 20A, 2P 20.00 A 30 FT. Load Calculation - HUB+ (BACKUP BUS ONLY) 220.82(B)(1)General Lighting @ 3VA per square ft 1,230 ft^2 3690 VA Small Appliance 4 6000 VA Laundry 0 VA Microwave 1 1100 VA Refrigerator 0 VA Dishwasher/Garbage Disposal 0 VA FAU 0 VA Range 0 VA Oven 0 VA Dryer 0 VA Water Heater 0 VA SPA 0 VA Pool 0 VA EV Charging Equipment 0 VA Other 2P circuit 2 7680 VA Total 18470 VA 220.82(C) First 10,000 VA at 100%10000 VA Remainder @ 40%3388 VA Net General Load 13388 VA Heating and Air Conditioning AC#1 0 VA Heating #1 0 VA AC#2 0 VA Heating #2 0 VA AC#3 0 VA Heating #3 0 VA Total Heating and AC Load 0 VA Net Load 13,388 VA AMPS 55.78 A Minimum Service Required 60 A Load Calculation - BACKUP LOAD CENTER 220.82(B)(1)General Lighting @ 3VA per square ft 1,230 ft^2 3690 VA Small Appliance 4 6000 VA Laundry 0 VA Microwave 1 1100 VA Refrigerator 0 VA Dishwasher/Garbage Disposal 0 VA FAU 0 VA Range 0 VA Oven 0 VA Dryer 0 VA Water Heater 0 VA SPA 0 VA Pool 0 VA EV Charging Equipment 0 VA Other 2P circuit 0 VA Total 10790 VA 220.82(C) First 10,000 VA at 100%10000 VA Remainder @ 40%316 VA Net General Load 10316 VA Heating and Air Conditioning AC#1 0 VA Heating #1 0 VA AC#2 0 VA Heating #2 0 VA AC#3 0 VA Heating #3 0 VA Total Heating and AC Load 0 VA Net Load 10,316 VA AMPS 42.98 A Minimum Service Required 50 A PROJECT INSTALLER 1 4 1 4 H A R B O U R W A Y S O U T H R I C H M O N D , C A 9 4 8 0 4 ( 5 1 0 ) 5 4 0 - 0 5 5 0 C O R P O R A T I O N , S Y S T E M S R E V I S I O N S SO L A R I N D I V I D U A L P E R M I T P A C K A G E GR I D - T I E D P H O T O V O L T A I C S Y S T E M REV DESCRIPTION DATE DB DRAWN BY: DATE DRAWN SCALE 1 AHJ REDLINE 05/07/23 IA LU I S A S A N C H E Z 14 0 2 M E R I D A Y L N SA N T A A N A , C A L I F O R N I A 9 2 7 0 6 RP-377049 4. 3 5 k W SPRI - ANAHEIM 01-17-2023 I. Atienza IAN ATIENZA (N ) 1 3 k W h S U N V A U L T E N E R G Y S T O R A G E S Y S T E M SHEET EL E C T R I C A L C A L C U L A T I O N NTS PVE-2 1402 W Meriday Ln - 201816051/10/2024 x RAPID SHUTDOWN SWITCH FOR SOLAR PV SYSTEM SOLAR PV SYSTEM EQUIPPED WITH RAPID SHUTDOWN TURN RAPID SHUTDOWN SWITCH TO THE "OFF" POSITION TO SHUT DOWN AND REDUCE SHOCK HAZARD IN THE ARRAY SOLAR ELECTRIC PV PANELS SIGNAGE LOCATIONS: x SHALL BE LOCATED ON OR NO MORE THAN 1 M (3 FT) FROM THE SERVICE DISCONNECTING MEANS TO WHICH THE PV SYSTEMS ARE CONNECTED. CAUTION TRI POWER SOURCES SECOND SOURCE IS AC BATTERY THIRD SOURCE IS PV SYSTEM SIGNAGE LOCATIONS: x MAIN SERVICE PANEL ENERGY STORAGE SYSTEM CONTAINS ENERGIZED BATTERIES SIGNAGE LOCATIONS: x SUNVAULT ENERGY STORAGE SYSTEM ENERGY STORAGE SYSTEM DISCONNECT SIGNAGE LOCATIONS: x SUNVAULT ENERGY STORAGE SYSTEM 1. MATERIAL USED FOR THE SIGNAGE SHALL BE REFLECTIVE, WEATHER RESISTANT AND SUITABLE FOR THE ENVIRONMENT. 2. ALL SIGNAGE SHALL HAVE ALL CAPITAL LETTERS WITH MINIMUM 3 8" LETTER HEIGHT, WHITE ON RED BACKGROUND. 3. MAIN SERVICE DISCONNECT MARKING SHALL BE PLACED ADJACENT TO MAIN SERVICE DISCONNECT IN A LOCATION CLEARLY VISIBLE FROM THE LOCATION WHERE THE LEVER IS OPERATED. 4. MARKING IS REQUIRED ON ALL INTERIOR AND EXTERIOR DC CONDUIT, RACEWAYS, ENCLOSURES, CABLE ASSEMBLIES, AND JUNCTION BOXES TO ALERT THE FIRE SERVICE TO AVOID CUTTING THEM. MARKINGS SHALL BE PLACED EVERY 10', AT TURNS AND ABOVE AND/OR BELOW PENETRATIONS, AND AT ALL DC COMBINER AND JUNCTION BOXES. 5. DO NOT USE SCREWS FOR SIGNAGE ATTACHMENT. USE ONLY APPROVED ADHESIVE. SIGNAGE NOTES ELECTRICAL DATA & SPECIFICATIONS WARNING: THIS EQUIPMENT FED BY MULTIPLE SOURCES. TOTAL RATING OF ALL OVERCURRENT DEVICES EXCLUDING MAIN SUPPLY OVERCURRENT DEVICE SHALL NOT EXCEED AMPACITY OF BUSBAR. NEC 705.12(B)(2)(3)(c) SIGNAGE LOCATIONS: x MAIN SERVICE PANEL x NEW INDOOR / OUTDOOR LOAD CENTER x INDOOR / OUTDOOR SUBPANEL NO BRANCH CIRCUIT LOADS LARGER THAN AMPS MAY BE INSTALLED IN THIS SUBPANEL SIGNAGE LOCATIONS: x HUB+ BACKUP PAN x BACKUP LOAD CENTERS 35 x EMERGENCY DISCONNECT PROJECT INSTALLER 1 4 1 4 H A R B O U R W A Y S O U T H R I C H M O N D , C A 9 4 8 0 4 ( 5 1 0 ) 5 4 0 - 0 5 5 0 C O R P O R A T I O N , S Y S T E M S R E V I S I O N S SO L A R I N D I V I D U A L P E R M I T P A C K A G E GR I D - T I E D P H O T O V O L T A I C S Y S T E M REV DESCRIPTION DATE DB DRAWN BY: DATE DRAWN SCALE 1 AHJ REDLINE 05/07/23 IA 2 AHJ REDLINE 12/17/23 IA LU I S A S A N C H E Z 14 0 2 M E R I D A Y L N SA N T A A N A , C A L I F O R N I A 9 2 7 0 6 RP-377049 4. 3 5 k W SPRI - ANAHEIM 01-17-2023 I. Atienza IAN ATIENZA (N ) 1 3 k W h S U N V A U L T E N E R G Y S T O R A G E S Y S T E M SHEET EL E C T R I C A L D A T A & S P E C I F I C A T I O N S NTS PVE-3 2 1402 W Meriday Ln - 201816051/10/2024 x RAPID SHUTDOWN SWITCH FOR SOLAR PV SYSTEM SOLAR PV SYSTEM EQUIPPED WITH RAPID SHUTDOWN TURN RAPID SHUTDOWN SWITCH TO THE "OFF" POSITION TO SHUT DOWN AND REDUCE SHOCK HAZARD IN THE ARRAY SOLAR ELECTRIC PV PANELS SIGNAGE LOCATIONS: x SHALL BE LOCATED ON OR NO MORE THAN 1 M (3 FT) FROM THE SERVICE DISCONNECTING MEANS TO WHICH THE PV SYSTEMS ARE CONNECTED. CAUTION TRI POWER SOURCES SECOND SOURCE IS AC BATTERY THIRD SOURCE IS PV SYSTEM SIGNAGE LOCATIONS: x MAIN SERVICE PANEL ENERGY STORAGE SYSTEM CONTAINS ENERGIZED BATTERIES SIGNAGE LOCATIONS: x SUNVAULT ENERGY STORAGE SYSTEM ENERGY STORAGE SYSTEM DISCONNECT SIGNAGE LOCATIONS: x SUNVAULT ENERGY STORAGE SYSTEM 1. MATERIAL USED FOR THE SIGNAGE SHALL BE REFLECTIVE, WEATHER RESISTANT AND SUITABLE FOR THE ENVIRONMENT. 2. ALL SIGNAGE SHALL HAVE ALL CAPITAL LETTERS WITH MINIMUM 3 8" LETTER HEIGHT, WHITE ON RED BACKGROUND. 3. MAIN SERVICE DISCONNECT MARKING SHALL BE PLACED ADJACENT TO MAIN SERVICE DISCONNECT IN A LOCATION CLEARLY VISIBLE FROM THE LOCATION WHERE THE LEVER IS OPERATED. 4. MARKING IS REQUIRED ON ALL INTERIOR AND EXTERIOR DC CONDUIT, RACEWAYS, ENCLOSURES, CABLE ASSEMBLIES, AND JUNCTION BOXES TO ALERT THE FIRE SERVICE TO AVOID CUTTING THEM. MARKINGS SHALL BE PLACED EVERY 10', AT TURNS AND ABOVE AND/OR BELOW PENETRATIONS, AND AT ALL DC COMBINER AND JUNCTION BOXES. 5. DO NOT USE SCREWS FOR SIGNAGE ATTACHMENT. USE ONLY APPROVED ADHESIVE. SIGNAGE NOTES ELECTRICAL DATA & SPECIFICATIONS WARNING: THIS EQUIPMENT FED BY MULTIPLE SOURCES. TOTAL RATING OF ALL OVERCURRENT DEVICES EXCLUDING MAIN SUPPLY OVERCURRENT DEVICE SHALL NOT EXCEED AMPACITY OF BUSBAR. NEC 705.12(B)(2)(3)(c) SIGNAGE LOCATIONS: x MAIN SERVICE PANEL x NEW INDOOR / OUTDOOR LOAD CENTER x INDOOR / OUTDOOR SUBPANEL NO BRANCH CIRCUIT LOADS LARGER THAN AMPS MAY BE INSTALLED IN THIS SUBPANEL SIGNAGE LOCATIONS: x HUB+ BACKUP PAN x BACKUP LOAD CENTERS 35 x EMERGENCY DISCONNECT PROJECT INSTALLER 1 4 1 4 H A R B O U R W A Y S O U T H R I C H M O N D , C A 9 4 8 0 4 ( 5 1 0 ) 5 4 0 - 0 5 5 0 C O R P O R A T I O N , S Y S T E M S R E V I S I O N S SO L A R I N D I V I D U A L P E R M I T P A C K A G E GR I D - T I E D P H O T O V O L T A I C S Y S T E M REV DESCRIPTION DATE DB DRAWN BY: DATE DRAWN SCALE 1 AHJ REDLINE 05/07/23 IA 2 AHJ REDLINE 12/17/23 IA LU I S A S A N C H E Z 14 0 2 M E R I D A Y L N SA N T A A N A , C A L I F O R N I A 9 2 7 0 6 RP-377049 4. 3 5 k W SPRI - ANAHEIM 01-17-2023 I. Atienza IAN ATIENZA (N ) 1 3 k W h S U N V A U L T E N E R G Y S T O R A G E S Y S T E M SHEET EL E C T R I C A L D A T A & S P E C I F I C A T I O N S NTS PVE-3 2 1402 W Meriday Ln - 201816051/10/2024 PROJECT INSTALLER 1 4 1 4 H A R B O U R W A Y S O U T H R I C H M O N D , C A 9 4 8 0 4 ( 5 1 0 ) 5 4 0 - 0 5 5 0 C O R P O R A T I O N , S Y S T E M S R E V I S I O N S SO L A R I N D I V I D U A L P E R M I T P A C K A G E GR I D - T I E D P H O T O V O L T A I C S Y S T E M REV DESCRIPTION DATE DB DRAWN BY: DATE DRAWN SCALE 1 AHJ REDLINE 05/07/23 IA LU I S A S A N C H E Z 14 0 2 M E R I D A Y L N SA N T A A N A , C A L I F O R N I A 9 2 7 0 6 RP-377049 4. 3 5 k W SPRI - ANAHEIM 01-17-2023 I. Atienza IAN ATIENZA (N ) 1 3 k W h S U N V A U L T E N E R G Y S T O R A G E S Y S T E M M HUB+ ESS HD N-LC FIGURE 1: SUNPOWER EQUINOX GROUNDING DETAILS SHEET NTS POWER TO THIS BUILDING IS ALSO SUPPLIED FROM THE FOLLOWING SOURCES WITH DISCONNECT(S) LOCATED AS SHOWN: CAUTION: UTILITY METER PHOTOVOLTAICARRAY ON ROOF MAIN SERVICE PANEL BACKUP LOAD CENTER FIGURE 2: PLACARD IDENTIFYING LOCATION OF DISCONNECTS AND POWER SOURCES PL A C A R D / S U N P O W E R E Q U I N O X GR O U N D I N G D E T A I L S 1402 MERIDAY LN HUB+ ENERGY STORAGE SYSTEM PVE-4 1402 W Meriday Ln - 201816051/10/2024 RO O F 1 M HUB+ ESS HD N-LC PROJECT INSTALLER 1 4 1 4 H A R B O U R W A Y S O U T H R I C H M O N D , C A 9 4 8 0 4 ( 5 1 0 ) 5 4 0 - 0 5 5 0 C O R P O R A T I O N , S Y S T E M S R E V I S I O N S SO L A R I N D I V I D U A L P E R M I T P A C K A G E GR I D - T I E D P H O T O V O L T A I C S Y S T E M REV DESCRIPTION DATE DB DRAWN BY: DATE DRAWN SCALE 1 AHJ REDLINE 05/07/23 IA LU I S A S A N C H E Z 14 0 2 M E R I D A Y L N SA N T A A N A , C A L I F O R N I A 9 2 7 0 6 RP-377049 4. 3 5 k W SPRI - ANAHEIM 01-17-2023 I. Atienza IAN ATIENZA (N ) 1 3 k W h S U N V A U L T E N E R G Y S T O R A G E S Y S T E M 1ROOF AZIMUTH PITCH MODULE QTY. 4.5:12 270° 10 SHEET BR A N C H D I A G R A M NTS N PVE-5 PRINT NAME OF CREW LEAD ON SITE: _________________________________ CREW LEAD SIGNATURE: _________________________________ BRANCH VOLTAGES: 1. 2. 3. 4. 5. 6. 1402 W Meriday Ln - 201816051/10/2024 HUB+ Back Up Section 40A, 2P ESS Disconnect Solar Section 20A, 2P PV BREAKER Non Back Up Section 20A, 2P Grid Sense 20A, 1P UNLABELED 20A, 1P UNLABELED 20A, 1P UNLABELED 20A, 1P WATER HEATER 20A, 2P LIVING OUTLETS & FURNACE 20A, 1P BATHROOM OUTLET 15A, 1P BEDROOM LIGHTS 15A, 1P LIVING/BATH LIGHTS 20A, 1P MICRO 20A, 1P SUN ROOM 20A, 1P UNLABELED 20A, 1P UNLABELED 15A, 1P KITCHEN LIGHTS 20A, 1P DINING 20A, 1P KITCHEN OUTLETS 20A, 1P WALL AC 20A, 1P PATIO WP OUTLET (N) BACKUP LOAD CENTER 20A, 2P G. DISPOSAL & DISHWASHER 15A, 2P PVS6 20A, 1P KITCHEN OUTLETS 20A, 1P GARAGE 20A, 1P BEDROOM OUTLETS (E) MSP 50A, 2P (N) BACKUP LOAD CENTER 15A, 1P HEAT DETECTOR 40A, 2P OVEN 30A, 2P AC 60A, 2P HUB+ PROJECT INSTALLER 1 4 1 4 H A R B O U R W A Y S O U T H R I C H M O N D , C A 9 4 8 0 4 ( 5 1 0 ) 5 4 0 - 0 5 5 0 C O R P O R A T I O N , S Y S T E M S R E V I S I O N S SO L A R I N D I V I D U A L P E R M I T P A C K A G E GR I D - T I E D P H O T O V O L T A I C S Y S T E M REV DESCRIPTION DATE DB DRAWN BY: DATE DRAWN SCALE 1 AHJ REDLINE 05/07/23 IA LU I S A S A N C H E Z 14 0 2 M E R I D A Y L N SA N T A A N A , C A L I F O R N I A 9 2 7 0 6 RP-377049 4. 3 5 k W SPRI - ANAHEIM 01-17-2023 I. Atienza IAN ATIENZA (N ) 1 3 k W h S U N V A U L T E N E R G Y S T O R A G E S Y S T E M SHEET BR E A K E R S C H E D U L E NTS PVE-6 1402 W Meriday Ln - 201816051/10/2024 N RO O F 1 ME R I D A Y L N 36" 18" 18" 18" 18" 18" 18 " 18 " 36" ROOF ACCESS POINT ROOF ACCESS POINT (E) FENCE/GATE M HUB+ 63'-11" 54 ' - 9 " ESS HD (N) HUB+ LOCATION (EXT WALL MOUNTED) (N) ESS LOCATION (INT GARAGE WALL MOUNTED) (E) FENCE/GATE N-LC PROJECT INSTALLER 1 4 1 4 H A R B O U R W A Y S O U T H R I C H M O N D , C A 9 4 8 0 4 ( 5 1 0 ) 5 4 0 - 0 5 5 0 C O R P O R A T I O N , S Y S T E M S R E V I S I O N S SO L A R I N D I V I D U A L P E R M I T P A C K A G E GR I D - T I E D P H O T O V O L T A I C S Y S T E M REV DESCRIPTION DATE DB DRAWN BY: DATE DRAWN SCALE 1 AHJ REDLINE 05/07/23 IA LU I S A S A N C H E Z 14 0 2 M E R I D A Y L N SA N T A A N A , C A L I F O R N I A 9 2 7 0 6 RP-377049 4. 3 5 k W SPRI - ANAHEIM 01-17-2023 I. Atienza IAN ATIENZA (N ) 1 3 k W h S U N V A U L T E N E R G Y S T O R A G E S Y S T E M SHEET AR R A Y L A Y O U T 3/32" = 1'-0" NOTE: 1. FIELD ADJUSTMENTS OF FEWER THAN 6” MAY BE ALLOWED BASED ON SITE CONDITIONS AND MEASUREMENTS. N 1ROOF AZIMUTH PITCH MODULE QTY. 4.5:12 270° 10 PVA-1 1 QTY:SUNVAULTTM ENERGY STORAGE SYSTEM (ESS): BASE SUNPOWER SV-BASE13-12-A HUB+NEW HUB+ ESS NEW SUNVAULT ENERGY STORAGE SYSTEM MODULE: MICROINVERTER: QTY: QTY: ROOF TYPE:NO. OF STORIES: TOTAL ATTACHMENT COUNT: TOTAL ROOF AREA: TOTAL % OF ROOF COVERED BY SOLAR: TOTAL ARRAY AREA: COMP SHINGLE 1 - STORY 30 2561 sq.ft. 8% 212 sq.ft. SPR-M-435-H-AC (240) SPR-M-435-H-AC (240) [SI] 10 10 NEW HEAT DETECTORHD M L E G E N D JUNCTION BOX UTILITY SERVICE POINT AND METERING PROPERTY LINE FIRE ACCESS PATHWAY CONDUIT N-LC NEW BACKUP LOAD CENTER SEALED FOR ATTACHMENTS AND EXISTING FRAMING ONLY exp: 06/23 Steven Procter Digitally signed by Steven Procter Date: 2023.05.08 09:29:57 -05'00' 1402 W Meriday Ln - 201816051/10/2024 FIGURE 3: MOUNTING CLAMP POSITIONING DETAILSTABLE 2: PENETRATION GUIDE FOR INSTALL STACKED STAGGERED FULLY STAGGERED STACKED/STAGGEREDFULLY STAGGERED *CHECK TABLE 1 FOR MAX. PENETRATION SPACING AND PENETRATION PATTERN FOR EACH ARRAY. TWO OR MORE ROWS OF MODULES ONE ROW OF MODULES MID CLAMP L FOOT INVISIMOUNT RAIL 0.75" MIN. (E) RAFTER 5/16" S.S. LAG BOLT WITH 5/16" WASHER @ CENTER TYP. PRE-DRILL REQUIRED. 2- 1 / 2 " M I N . PV MODULE COMPOSITION SHINGLES FLASHING 3. 5 " 1. 8 " 1. 7 " INVISIMOUNT ROOF ATTACHMENT DETAILS HARDWARE: PEGASUS L-FOOT TABLE 1 – ARRAYS INFORMATION ROOF PITCH ROOFING TYPE ATTACHMENT TYPE NO. OF STORIES FRAMING TYPE (in.) MAX. RAFTER SPAN (ft.) PENETRATION PATTERN (in.) MAX. ATTACHMENT SPACING (in.) MAX. RAIL OVERHANG (in.) ROOF 1 21°2 Layers Comp Pegasus L-foot 1 2x4 Rafter @ 24" OC 6.5'Staggered 48" 16" ---- -- -- -- -- -- -- -- -- ---- -- -- -- -- -- -- -- -- ---- -- -- -- -- -- -- -- -- ---- -- -- -- -- -- -- -- -- ---- -- -- -- -- -- -- -- -- INVISIMOUNT RAIL PV MODULE 3.5"M A X 2"MIN EXTERNAL LOAD BEARING WALL INTERNAL LOAD BEARING WALL STRUCTURAL FRAMING SIDE DETAIL Roof 1 x RAILS SHALL BE POSITIONED IN THE NON-CROSS HATCHED REGIONS 66 CELL MODULE 2"11.8"2"11.8" 11 " 17 " 2" 26 " MI C R O I N V E R T E R E X C L U S I O N Z O N E PROJECT INSTALLER 1 4 1 4 H A R B O U R W A Y S O U T H R I C H M O N D , C A 9 4 8 0 4 ( 5 1 0 ) 5 4 0 - 0 5 5 0 C O R P O R A T I O N , S Y S T E M S R E V I S I O N S SO L A R I N D I V I D U A L P E R M I T P A C K A G E GR I D - T I E D P H O T O V O L T A I C S Y S T E M REV DESCRIPTION DATE DB DRAWN BY: DATE DRAWN SCALE 1 AHJ REDLINE 05/07/23 IA LU I S A S A N C H E Z 14 0 2 M E R I D A Y L N SA N T A A N A , C A L I F O R N I A 9 2 7 0 6 RP-377049 4. 3 5 k W SPRI - ANAHEIM 01-17-2023 I. Atienza IAN ATIENZA (N ) 1 3 k W h S U N V A U L T E N E R G Y S T O R A G E S Y S T E M SHEET ST R U C T U R A L I N F O R M A T I O N AN D M O U N T I N G D E T A I L S NTS PVS-1 SEALED FOR ATTACHMENTS AND EXISTING FRAMING ONLY exp: 06/23 Steven Procter Digitally signed by Steven Procter Date: 2023.05.08 09:30:04 -05'00' 1402 W Meriday Ln - 201816051/10/2024 PROJECT INSTALLER 1 4 1 4 H A R B O U R W A Y S O U T H R I C H M O N D , C A 9 4 8 0 4 ( 5 1 0 ) 5 4 0 - 0 5 5 0 C O R P O R A T I O N , S Y S T E M S R E V I S I O N S SO L A R I N D I V I D U A L P E R M I T P A C K A G E GR I D - T I E D P H O T O V O L T A I C S Y S T E M REV DESCRIPTION DATE DB DRAWN BY: DATE DRAWN SCALE 1 AHJ REDLINE 05/07/23 IA LU I S A S A N C H E Z 14 0 2 M E R I D A Y L N SA N T A A N A , C A L I F O R N I A 9 2 7 0 6 RP-377049 4. 3 5 k W SPRI - ANAHEIM 01-17-2023 I. Atienza IAN ATIENZA (N ) 1 3 k W h S U N V A U L T E N E R G Y S T O R A G E S Y S T E M SHEET ES S M O U N T I N G D E T A I L S NTS PVS-21 1402 W Meriday Ln - 201816051/10/2024