The URL can be used to link to this page

Home My WebLink AboutRESPONSE - RFP - 8292 PHOTO VOLTAIC SOLAR FOR UTILITIES ADMINISTRATION BUILDINGMay 20, 2016 Response to RFP: Solicitation Number 8292 City of Fort Collins - Purchasing Photovoltaic Solar For Utilities Administration Building 222 Laporte Avenue, Fort Collins, CO 80524 Due: May 20, 2016 Prior to 3:00 PM Prepared for: City of Fort Collins Stu Reeve (Energy Manager) & Elliot Dale (Buyer) Financial Services - Purchasing Division 215 N. Mason St. 2nd Floor PO Box 580.Fort Collins, CO 80522 P: 970-221-6775 E: Purchasing@fcgov.com Custom Solar, LLC Willie Mein, Owner/Manager 2840 Wilderness Place, Suite F Boulder, CO 80301 P: 303-859-8597 F: 303-379-6543 E: RFP@customsolar.us www.CustomSolar.us Authorized by: ____________________________ Transmittal Letter/Cover Letter Thank you for the opportunity to bid on the PV system for the new Utilities Administration Building. We are excited to have the opportunity to work with the City once again as we have had great experiences working with City staff on previous projects. Custom Solar has carefully read all the provisions in the RFP, completed an onsite walk through and has received 2 addendums. Custom Solar accepts the conditions of the RFP. Custom Solar plans to complete the work with all in-house staff. The following proposal is to design, supply, and install a fully integrated PV system for the City of Fort Collins. The system design has been put together to meet the Cities project goals in a timely manner with a high quality installation. Our integrated “design/build” service model includes a team of in-house licensed professional engineers, NABCEP certified installers and ICC Class A General Building contractors, making Custom Solar uniquely qualified to successfully fulfill our commitment to install the highest-value, most-reliable solar electric system for the City of Fort Collins. We bring the highest level of professionalism to every project. This solar project aligns with our core competencies as solar EPC contractors and project developers. Our management team is very experienced in design/build for commercial solar projects for large government entities with multiple stakeholders. The lead and principal contact person is Travis Lenberg (projects@customsolar.us). Willie Mein (accounts@customsolar.us) is the person having proper authority to make formal commitment on behalf of Custom Solar, and Kay Anderson (accounts@customsolar.us) is responsible for communication and accounting. Custom Solar’s principal place of business is located at 2840 Wilderness Place, Suite F, Boulder, Colorado 80301. Custom Solar can be reached by phone at 303-859-8597. Thank you for allowing us to participate in this opportunity. Willie Mein, PE Professional Engineer, CO, CA ICC Certified Class A General Building Contractor 2840 Wilderness Place, Suite F Boulder, CO 80301 P: 303-859-8597 F: 303-379-6543 Contents Transmittal Letter/Cover Letter ......................................................................................................................... 1 Contents ............................................................................................................................................................. 1 Custom Solar Background .................................................................................................................................. 1 Company Profile ................................................................................................................................................. 3 Project Team ................................................................................................................................................ 3 Quality .......................................................................................................................................................... 3 Safety Record ............................................................................................................................................... 4 Insurance & Bonding .................................................................................................................................... 4 Solar Project Experience .............................................................................................................................. 4 Recent Projects ............................................................................................................................................ 5 References ................................................................................................................................................... 5 Project Approach ................................................................................................................................................ 6 Project Schedule & PV Availability ............................................................................................................... 6 Technical Approach and Product/Technology Description ................................................................................ 7 System Design .............................................................................................................................................. 7 Technology Overview .................................................................................................................................. 8 PV Modules .................................................................................................................................................. 8 Inverters ....................................................................................................................................................... 9 Rooftop Mounting Systems ......................................................................................................................... 9 System Performance and Monitoring .............................................................................................................. 10 Performance Estimation ............................................................................................................................ 10 Performance Verification & Monitoring .................................................................................................... 11 System Maintenance and Support ............................................................................................................ 13 Warranty and Service Information ................................................................................................................... 13 Roof Warranty Costs ......................................................................................................................................... 13 Purchase Cost ................................................................................................................................................... 14 Power Purchase Agreement ............................................................................................................................. 15 Integrate Battery Load Management System .................................................................................................. 16 Appendix ........................................................................................................................................................... 17 Bonding, and Insurance ............................................................................................................................. 18 Team Bios and Commercial References .................................................................................................... 19 Product Specification Sheets and Warranties ............................................................................................. 1 1 Custom Solar Background Custom Solar is a leading, experienced renewable energy contractor providing complete, high-value energy services and solutions for residential, commercial and municipal customers using a triple-bottom-line approach. Custom Solar has been in business for over eight years and employs twenty people full time depending on project commitments throughout the year. Custom Solar’s management has over twenty years experience with design/build engineering of solar electric systems. Custom Solar has a reputation for completing projects on-time and within budget requirements. Triple-Bottom-Line Approach Custom Solar prides itself on its triple-bottom-line approach, considering the environment, economic and social factors in business decisions. Custom Solar is in the process of incorporating as a B Corporation to reflect our triple-bottom-line ethos. Custom Solar is a non-smoking company committed to environmentally-sustainable business practices. Employees are encouraged to bike or rideshare to work. Project coordinators factor carbon footprint and resource utilization when scheduling projects, optimizing resources and minimizing waste. Custom Solar supports local manufacturing and service businesses, making purchasing decisions considering carbon footprint and embodied energy. Through our partnership with The Center for Resource Conservation, we have brought educational opportunities to schools where we have and are installing solar systems. Additionally, Custom Solar has provided many solar grants for educational institutions and nonprofits. 2 Management has invested in a fleet of fuel-efficient trucks, is procuring a used 2014 Chevy Volt for sales and service, and has installed a solar-powered-electric-car charging station at our offices for both company and public use. Sales and engineering (especially regarding solar thermal systems) are encouraged to consider repurposing and/or reusing components of systems that we are contracted to repair and restore. Leftover materials are reused or recycled at a local recycling center. In the office, Custom Solar minimizes paper by emailing proposals and manuals to customers and by encouraging employees to limit printing. We have a reputation for working with a light touch and minimizing disturbances, noise (no boom boxes) and environmental impacts, especially with larger ground mounts. Our successful 500kW installation of a ballasted ground mount for Denver Public Schools, on a closed landfill, in a residential neighborhood demonstrated our sensitivities to the local community and our commitment to minimize impacts through creative engineering and our collaborative design/build process. Custom Solar contributes as leaders in the local community, founding, organizing and sponsoring environmental stewardship events such as The Flagstaff Trash Bash, an annual grassroots trash cleanup event for the past 15 years in partnership with the City of Boulder. Custom Solar is also a member of the Colorado Green Building Guild, partner to The Center for Resource Conservation, and since 2007 a contributing member of COSEIA (Colorado Solar Energy Industry Association), an award winning nonprofit committed to expanding solar opportunities. Willie Mein, owner and founder of Custom Solar has a ten-year history of service as a board member for the Flatirons Climbing Council (President, VP and Treasurer), a local nonprofit advocating for responsible use of natural resources with the City of Boulder. He has served in advisory capacity to the Governor’s Energy Task force under Governor Ritter, and is currently a member of the COSEIA board. Custom Solar has successfully completed many commercial solar projects with high-technical and administrative challenges and worked on many projects with high-security clearance requirements, such as the United States Mint in Denver and the Boulder County Jail. Custom Solar goes beyond OSHA guidelines for safety and demonstrates the highest service standard on every job, especially at sites providing public services during regular operating hours. 3 Company Profile Custom Solar was founded in 2008 and is Privately held staffing 15-25 employees throughout the year. Custom Solar does business nationally and has installed projects in the following states: Colorado, Minnesota, Utah, Wyoming, South Dakota, California, Puerto Rico. Custom Solar works with residential, commercial and government clients. Custom Solar is in good financial standing and can meet both the performance bonding and insurance requirements described in the RFP and addendums. Custom Solar has been owned by the same person and doing business as Custom Solar since its founding. Additionally the company has been financially stable and profitable from its start. (Financial Statements can be provided upon request.) Project Team The lead and principal contact person for the entire proposal is Travis Lenberg. Travis Lenberg Mechanical Engineer - University of Colorado - Boulder NABCEP Certified PV Install and Designer 2840 Wilderness Place, Suite F Boulder, CO 80301 P: 303-859-8597 F: 303-379-6543 Travis Lenberg (projects@customsolar.us) will serve as the Project Manager for the project with support from Ben Felson and Cody Arnold for developing technical permitting documentation, procurement and installation management. This team will also serve as the quality assurance and O&M team. Gardner "Willie" Mein (accounts@customsolar.us) is the General Manager for Custom Solar over seeing all operations and is the person having proper authority to make formal commitment on behalf of Custom Solar. Kay Anderson (accounts@customsolar.us) is responsible for communication and accounting. Custom Solar and its team hold a handful of licenses and certification which include but are not limited to licensed professional engineers, NABCEP certified PV installers, licensed electricians and ICC Class A General Building contractors. Bios have been attached for the entire team whom may be involved in the design, permitting and installation of the PV system. Bios can be found in the Appendix. Quality Custom Solar business model is centered around delivering high quality systems and customer service. Since 2008 Custom Solar has grown organically through word of mouth referrals with very little marketing. Custom Solar performs onsite site inspections prior to developing final plan sets to ensure smooth installations in the field. Our installation teams are lead by a NABCEP certified installers and all projects are reviewed following the installation by our O&M team to make sure the installation meets our quality standards. All of our projects are equipped with data monitoring systems and are monitored by our O&M team through the duration of our warranty. All projects installed under a PPA will have an annual O&M plan in place to review and maintain the system. 4 Safety Record Custom Solar will provide a site specific safety plan for the project. This plan will detail personal protection equipment for the duration of the job, roof safety and electrical safety. It is our practice as a company to provide site specific safety plans for every job we install, detailing appropriate roof safety and directions in case of an emergency. We strive to keep a safe working environment for our team and those around us. Insurance & Bonding Custom Solar can meet all requirements and provide workers comp and insurance documentation. Sample insurance certificate indicating compliance with insurance requirements is attached in the appendix. Custom Solar can meet the requirements for performance bonding if required on the project. A letter from our agent can be found in the appendix. Contact info is below for our bonding agent: Bonding Company: Allstar Financial Group. Agent: Stefan E. Tauger (Branch Manager) Address: 19751 E. Main Street, Suite 255, Parker CO 80138 Phone Number: 303-694-4404 Solar Project Experience Custom Solar has installed over 500 solar systems throughout Colorado and other states in the past eight years. Our team has experience financing, owning, operating and maintaining PV systems of similar size and complexity, under power Purchase Agreements. Custom solar has experience working successfully with federal, state, municipal and other public entities. Custom Solar has installed many systems under a Power Purchase Agreement (PPA), either through self financing the projects or working with another financing partner. Custom Solar currently owns and operates 4 PV systems operated under a PPA with different entities such as Boulder County, Boulder Valley School District and the Urban Land Conservancy. Custom Solar has a great deal of experience working with all of the utility companies across the Front Range including Fort Collins Utilities. We have worked with Norm Weaver on several residential and commercial projects in the past and can assist the City with any necessary documentation required for the system interconnection. We have full time staff members dedicated to working with local utilities to submit for available incentives and interconnection requirements. Custom Solar has and installed capacity of 5 MW with approximately 2-3MW of installed commercial in the past 3 years. Custom Solar has experience installing the same product used in this proposal on at least 6 commercial projects in the past year including the St Vrain building for Boulder County. Custom Solar takes pride in our workmanship quality, and customer relations. We have built our business organically based on customer referrals and repeat customers rather than extensive marketing efforts. We provide 10 year workmanship warranties on all of the systems we install and actively monitor them to resolve issues prior to our customers reporting them to us. 5 Recent Projects Custom Solar has secured financing and installed many systems under a PPA. Custom Solar currently owns several systems that were developed, installed and are currently maintained by Custom Solar. Some of these systems include but are not limited to: • St Vrain Building o Role – Developer/EPC contractor (Develop, Finance, Design, Engineering, Material Procurement, Installation, Commissioning and Utility Interconnection) o Customer – Boulder County o Date Installed – 9/2015 o System Size - 92 kWdc o Location – Longmont, CO o Application Type – Roof Mount – Ballasted on TPO  Tramway Non-Profit Center o Role – Developer/EPC contractor (Develop, Finance, Design, Engineering, Material Procurement, Installation, Commissioning and Utility Interconnection) o Customer – Urban Land Conservancy o Date Installed – 3/2013 (Installed in 2 Phases) o System Size - 204 kWdc o Location – Denver, CO o Application Type – Roof Mount – Attached System on TPO • Boulder Valley School District (Boulder Preparatory High School) o Role – Developer/EPC contractor (Develop, Finance, Design, Engineering, Material Procurement, Installation, Commissioning and Utility Interconnection) o Customer – Boulder Valley School District o Date Installed – 1/2015 o System Size - 22 kWdc o Location – Boulder, CO o Application Type – Roof Mount – Ballasted on EPDM • Place Bridge Middle School o Role –EPC contractor (Design, Engineering, Material Procurement, Installation, Commissioning and Utility Interconnection) o Customer – Denver Public School System and Oak Leaf Energy o Date Installed – 9/2012 o System Size - 500 kWdc o Location – Denver, CO o Application Type – Ballasted Ground Mount on Landfill References You can find some of our commercial references attached in the appendix. 6 Project Approach Custom Solar approaches projects strategically by organizing an overall plan and timeline for each project, setting goals and quality assurance measures for each department of work. From sales to procurement, to project planning and installation, our diversified team is constantly working and planning every stage of a job from start to completion. Custom Solar will work the City of Fort Collins to determine the best design to fit the building and will work with the team to make sure all applicable warranties are maintained. Custom Solar will work with the team to set up the proper networking to establish good data monitoring communications and will train City staff at the end of the project. Staff training will include hazard identification, system shut down procedures, identification of performance issues and monitoring portal access. An O&M manual will be left onsite for City staff use as well as for the maintenance team. Project Schedule & PV Availability Custom Solar has the resource to complete the installation of the PV system within the timeline outlined below. Custom Solar will work to accelerate this schedule where feasible. Custom Solar project management provides quality and up-to-date information to all clients throughout the design/build process. Weekly updates are provided during the design process and daily updates while the build process is underway. The onsite installation time is expected to be 3 weeks with in the working hours of 8am-5PM Monday-Friday . Anticipated Schedule: 5/20/2016 Proposals Due 5/30/2016 Notify Consultants to be Interviewed 6/6/2016 Interviews 6/13/2016 Selection Announcement (Estimated) 6/27/2016 Contract Signed (Estimated) 6/27/2016 Anticipated Design Start 7/5/2016 Permit Submitted/Materials Ordered 8/29/2016 Roof Ready for PV installation 8/29/2016 Construction Start Date (Can be pushed up if roof is ready) 9/16/2016 Onsite Construction Activities Complete/Inspections 9/23/2016 City of Fort Collins Energy Meters Installed 9/23/2016 System Commissioning and Commercial Operation Date 10/7/2016 UAB Construction Project Completed 7 Technical Approach and Product/Technology Description The system detailed below will comply with all of the current RFP and contract specifications. System Design Custom Solar has designed the system utilizing all American made components in a high density southern facing format. . The system has been designed as a turnkey installation including permits, utility interconnections material procurement and installation. Custom Solar will work the City of Fort Collins to determine the best design to fit the building. Custom Solar will work with the team to set up the proper networking to establish good data monitoring communications and will train City staff at the end of the project. Staff training will include hazard identification, system shut down procedures, identification of performance issues and monitoring portal access. An O&M manual will be left onsite for City staff use as well as for the maintenance team. Custom Solar will work the City of Fort Collins team to determine the best design to fit the building and will work with the team to make sure all roofing warranties are maintained within the scope of the proposal. Custom Solar will work with the City to schedule onsite work and coordinate efforts requiring assistance of IT staff such as IT setup for proper networking to establish good data monitoring communications. Additionally Custom Solar will train staff at the end of the project on system operation and data monitoring viewing. The system has been designed to 103.9kW-dc to meet the requested size of 100kW. The proposed system will be installed as to provide the best solar access to the panels while maintaining appropriate clearances between mechanical equipment and roof edges to maintain space for maintenance personnel and provide paths for fire access. The PV system is designed to sit 4' from the parapet walls and has a 4' fire access down the center of the building. The proposed roof layout is below. The system has been designed using (301) American made Solarworld 345W solar panels to make up a 103.9kW-dc system. The panels will be paired with (3) Solectria Transformerless Inverters for an AC system rating of 100kW with a favorable 1.03 DC/AC ratio. The inverters have been proposed to be installed on the roof of the building so as to comply with the NEC rapid shutdown requirements and simplify 8 maintenance requirements. Installing the inverters on the roof will reserve space in the mechanical yard for future facility upgrade. The rough electrical layout has been provided below in the form of a basic one-line diagram. Custom Solar has observed the existing 3” conduit from the roof to the Mechanical yard and the existing 150A breaker for the PV system. Custom Solar plans on pulling wire from the roof to the electrical room and installing all of the necessary disconnects and meters required at ground level per NEC code and Utility requirements. Technology Overview The products used for this project have proven themselves to be very reliable. The project uses standard monocrystalline panels which have a proven track record and have been install for decades. While the technology is nothing new, the products have greatly improved in both performance and quality. Additionally due to the minimal shading concerns seen with the site Custom Solar has chosen to install 3 centralized inverters to reduce the risk of failures seen with DC optimizers and Micro inverter products seen within the last decade. The centralized inverters operate at up to 1000V both decreasing voltage drop along the strings and increasing the efficiency and performance of the inverters. Additionally the inverters used can be mounted in interior locations or exterior next to the PV arrays to me rapid shutdown requirements if necessary. Either option is available based on the current pricing. PV Modules The PV modules used in this project are manufactured by Solar World an American Tier 1 manufacture. The model of the panels is a SW 345 XL Mono which is guaranteed to have a power output of 0 to +5W over the labeled power rating upon delivery. The PV modules are manufactured with monocrystalline cells and do not use toxic Cadmium. The panels have been designed for wind and snow loads up to 178 psf. Spec sheets are attached in the "Supplementary Equipment Documentation". Custom Solar has been installing Canadian Solar panels since 2008 with great success. The PV modules performance will be verified during the construction of the system by testing string voltages and comparing the system output to the expected output. Each string will be tested for insulation resistance, short circuit current, open circuit voltage and ground continuity. 9 Inverters The inverters used in this system are the Solectria 3-Phase Transformerless String Inverters. The max efficiency of the inverter is 98.6%-98.4% depending on the inverter size. The data sheets can be found in the "Supplementary Equipment Documentation". Custom Solar has been using the Solectria products since 2008 and has experienced high reliability with the product. The inverter can be ballast mounted near the PV panels if required to meet rapid shutdown requirements. The Solectria inverters are Smart Grid ready with many different variables able to be adjusted through modbus communications with the addition of a SCADA system. Some but not all of the available controls include: Inverter shutdown, Power limiting, Reactive Power, Power Factor, frequency control, etc. Manufacture documentation has been included in the appendix detailing the additional features. Rooftop Mounting Systems The ballasted mounting system to be used for the installation of the PV array is the American made Polar Bear III racking system manufactured by Panel Claw for commercial roofing systems. The racking system is a fully ballasted design that requires no roof penetrations to eliminate modifications required to the existing roof membrane. The product comes with an optional (included) Rubber roof pad that connects to the base of the racking to serve as the contact point for the roof. This rubber roof pad serves as the single contact point on the roof and protects the roof from expansion/contraction and vibration damage. This system has been tested for wind speeds up to 150 mph and will meet the local wind and snow load requirements. The systems design weight will fall below the maximum 10 psf roof load allowed per building specs. The racking design allows for wiring to be cleanly ran between rows without wiring running through free air. 10 System Performance and Monitoring Performance Estimation The systems first year total energy production estimate is shown in the table below. The system is expected to produce 137,974 in the first year of serves given past weather data for the area. The annual system degradation is expected to be no more than 3% in the first year and 0.5% for every year following. The production estimates have been generated using NREL's PVwatts calculator with site specific and equipment specific data. 11 Performance Verification & Monitoring The monitoring system provided for this system is manufactured by Solectria the inverter manufacture. The monitoring system has been used on several commercial sites to provide information on the inverters performance and health of the system. The monitoring included in this system will include the temperature and irradiance accessories. The monitoring system will report instantaneous power production information accessible via a web based portal with access given to the installer, owner and any third party users. The basic monitoring will record both energy and power of the inverters onsite and keep a history of all operational codes the inverter sends out. The system will send alerts to the maintenance staff when the system is underperforming or when the system is down so that issues can be immediately resolved. The monitoring system will be connected to irradiance meters, ambient temp sensors, and panel temp sensors which will be used to evaluate the system production. The weather data will be used to adjust the systems production values given the current weather conditions so that the production can be accurately compared to the systems expected performance. Custom Solar plans to connect the monitoring system via an Ethernet connection to the Cities internet network to establish the most reliable internet connection available. The system performances will be measured and compared to the expected performance by comparing the actual performance to the expected performance as calculated in the following formula: System Adjustment Factors: 1. PV Array DC Capacity (kW) = P 2. Temperature Adjustment = (1-(Tpanel°C-25°C) x (Tcoeff)) = T 3. Irradiance Adjustment = (IRR / 1000W/m^2) = I 4. Inverter Efficiency = E 5. Mismatch and DC and AC wire Losses (~4%) = .96 = M 6. Soiling (0% at time of install) = 1.0 = S Inverter Expected Power = P x T x I x E x M x S The end user interface is an easy to use web-based portal that displays both current and past performance. There is a friendly public view website as well as a more comprehensive portal used for maintaining the system and analyzing the performance of the system. The portal keeps track of individual inverter performance, alarms, status alongside weather data. Examples of both view are shown below: 12 13 System Maintenance and Support Custom Solar has a team of 3 people dedicated to technical/customer support. This staff responds to both commercial and residential customer support issues. Our staff reviews all installed systems monthly to ensure all systems are operational. Additionally systems are setup to alert staff in the event of system issues. System availability on all system monitored has been historically above 98%. Issues related to Custom Solar's standard workman warranty are covered by Custom Solar including assistance in claiming manufacture warranties. Custom Solar will handle all O&M if the system is pursued under the terms of a PPA for the full term of the PPA. Under the terms of a PPA it is in Custom Solar’s best interest to respond to and repair all system alerts/issues promptly to insure the system is operating at full capacity and generating a return on the investment. Custom Solar responds to all down systems within 24 hours of an issue being reported by a monitoring system or customer. Phone response hours are limited to 8 am to 5 pm Monday through Friday with emails monitored through the weekends. Depending on the severity of the issue Custom Solar can deploy staff on the weekends to resolve and issue. Warranty and Service Information Under a Power Purchase Agreement Custom Solar will operate and maintain the system for the full PPA term. If the system is purchased Custom Solar warrants the workmanship for 10 years from the original install date and provides assistance in obtaining manufacture warranties for the life of the system. Data sheets and warranties included for all equipment in the Appendix Solar World (Panels) Warranty • 10 Year Workmanship Warranty • 25 Year Linear Production Warranty • Degradation: First year actual output power will be no less than 97% of labeled power output. From year 2 to year 25, the actual annual power decline will be no more than 0.7 %. By the end of year 25, the actual power output will be no less than 80.2 % of the labeled power output. Solectria (Inverter) Warranty • 10 Year Warranty Standard • Custom Solar has included the 20 year warranty extension in the PPA cost. Panel Claw - Polar Bear III (Racking) Warranty • 25 Year Warranty Roof Warranty Costs Custom Solar has included the installation of Panel Claw roof pads to maintain the warranty and integrity of the roofing surface. The roofing pads can be substituted at no cost for TPO slip sheets (non-adhered) to provide the barrier between the racking and roof membrane. Custom Solar has included time for working with the roofer/Firestone roofing manufacture to make sure all warranties are maintained. Custom Solar has reviewed the Firestone warranty procedures/documents for installing PV. Custom Solar has set aside $750 for the Post Warranty inspection required by Firestone and will submit all applicable installation details to them prior to installing the system to confirm compliance. 14 Purchase Cost The system as designed is a 103.85kW-dc system designed utilizing all American made products. The system will be ballasted mounted to the roof with no penetrations and interconnected to the buildings electrical service. Turn Key Purchase Price: $218,000 • Pricing Includes Performance Bonding • Pricing Excludes City, County or State Taxes (These should not apply) • Pricing does not take into account 30% Federal Income Tax Credit • Expected Total kWh Output in the 1st year is 137,974 kWh • Inverter warranty can be extended to 20 years for an additional $5,200 15 Power Purchase Agreement Under a PPA the city would pay for only the power produced by the PV system at a predetermined rate. All maintenance and operation cost would be taken care of by the system owner. Power Purchase Agreement costs are detailed below. PPA Rate (1 st Year) = $0.135/kWh (Assumes project is eligible for $10,000 utility rebate) Annual Escalator = 2.9% Year 7 buyout option = $270,305 The buyout value at year seven (or any year thereafter) is determined by the Net Present Value of anticipated future income from system generation at a 3% discount. PPA Rate Schedule for 20 years: End of Term Options – Includes option for host to extend PPA Agreement or have system removed by Provider. A. Extension Includes two options to extend PPA term by five years. B. Removal Upon the end of the Term the Agreement (except in the case where the Term ends as a result of the purchase by the Purchaser of the Generating Facility by reason of exercise of the Purchase Option granted herein), Provider will sever, disconnect, and remove the Generating Facility and all other Provider property from the Site. Provider may abandon in place conductors between the roof and the electrical room, and any other components installed within finished walls of the Building. All removal, repair and restoration will be at Provider’s sole expense. It is assumed that the new TPO roofing system installed on the facility will meet or exceed the 20 year PPA term and that there will be no requirement during the PPA term to remove and reinstall the PV system. Custom Solar will work with the Roofing Company and Firestone Roof Manufacture to maintain all roof warranties. 16 Integrate Battery Load Management System Custom Solar can provide and install a battery load management system manufactured by Sonnen Batterie in partnership with Ideal Power. The battery system specified for the building is a Sonnen Batterie Pro unit capable of supply 30kW continuously to reduce building peak loads, smooth demand for cloud transient response and manage energy export. As designed the system is equipped with a 48 kWh battery bank built out of Lithium Ion batteries. The system is highly expandable on both the battery storage capabilities and system output given its modular design. As is the system can handle up to an additional 24kWh of storage to be added or could be size up to a 90kW/240kWh system. Below is an example of how the unit load shift demand to lower demand periods. The Sonnen Batterie Pro 30kW/48kWh unit comes with a 10 year/10,000 cycle battery and allows for the batteries to be 100% discharged on a regular basis. The unit is Nema 1 rated and has a foot print of 68”W x 55”H x 25”D. The unit will need to be located in an interior space (electrical room or exterior shed). The unit is designed to connect to the main service panel via a breaker and monitoring the building loads in order to respond to the varying demands. Turn Key Purchase Price: $84,500 • Pricing Includes Performance Bonding (Assumes contract is combined with PV purchase) • Pricing Excludes City, County or State Taxes (These should not apply) • 10 year/10,000 Cycle Manufactures Warranty • 5 year Custom Solar Workmanship Warranty 17 Appendix 18 Bonding, and Insurance The ACORD name and logo are registered marks of ACORD CERTIFICATE HOLDER © 1988-2014 ACORD CORPORATION. All rights reserved. ACORD 25 (2014/01) AUTHORIZED REPRESENTATIVE CANCELLATION CERTIFICATE OF LIABILITY INSURANCE DATE (MM/DD/YYYY) JECT LOC PRO- POLICY GEN'L AGGREGATE LIMIT APPLIES PER: CLAIMS-MADE OCCUR COMMERCIAL GENERAL LIABILITY PREMISES (Ea occurrence) $ DAMAGE TO RENTED EACH OCCURRENCE $ MED EXP (Any one person) $ PERSONAL & ADV INJURY $ GENERAL AGGREGATE $ PRODUCTS - COMP/OP AGG $ DED RETENTION $ CLAIMS-MADE OCCUR $ AGGREGATE $ UMBRELLA LIAB EACH OCCURRENCE $ EXCESS LIAB DESCRIPTION OF OPERATIONS / LOCATIONS / VEHICLES (ACORD 101, Additional Remarks Schedule, may be attached if more space is required) INSR LTR TYPE OF INSURANCE POLICY NUMBER POLICY EFF (MM/DD/YYYY) POLICY EXP (MM/DD/YYYY) LIMITS PER STATUTE OTH- ER E.L. EACH ACCIDENT E.L. DISEASE - EA EMPLOYEE E.L. DISEASE - POLICY LIMIT $ $ $ ANY PROPRIETOR/PARTNER/EXECUTIVE If yes, describe under DESCRIPTION OF OPERATIONS below (Mandatory in NH) OFFICER/MEMBER EXCLUDED? WORKERS COMPENSATION AND EMPLOYERS' LIABILITY Y / N AUTOMOBILE LIABILITY ANY AUTO ALL OWNED SCHEDULED HIRED AUTOS NON-OWNED AUTOS AUTOS AUTOS COMBINED SINGLE LIMIT BODILY INJURY (Per person) The ACORD name and logo are registered marks of ACORD CERTIFICATE HOLDER © 1988-2014 ACORD CORPORATION. All rights reserved. ACORD 25 (2014/01) AUTHORIZED REPRESENTATIVE CANCELLATION CERTIFICATE OF LIABILITY INSURANCE DATE (MM/DD/YYYY) JECT LOC PRO- POLICY GEN'L AGGREGATE LIMIT APPLIES PER: CLAIMS-MADE OCCUR COMMERCIAL GENERAL LIABILITY PREMISES (Ea occurrence) $ DAMAGE TO RENTED EACH OCCURRENCE $ MED EXP (Any one person) $ PERSONAL & ADV INJURY $ GENERAL AGGREGATE $ PRODUCTS - COMP/OP AGG $ DED RETENTION $ CLAIMS-MADE OCCUR $ AGGREGATE $ UMBRELLA LIAB EACH OCCURRENCE $ EXCESS LIAB DESCRIPTION OF OPERATIONS / LOCATIONS / VEHICLES (ACORD 101, Additional Remarks Schedule, may be attached if more space is required) INSR LTR TYPE OF INSURANCE POLICY NUMBER POLICY EFF (MM/DD/YYYY) POLICY EXP (MM/DD/YYYY) LIMITS PER STATUTE OTH- ER E.L. EACH ACCIDENT E.L. DISEASE - EA EMPLOYEE E.L. DISEASE - POLICY LIMIT $ $ $ ANY PROPRIETOR/PARTNER/EXECUTIVE If yes, describe under DESCRIPTION OF OPERATIONS below (Mandatory in NH) OFFICER/MEMBER EXCLUDED? WORKERS COMPENSATION AND EMPLOYERS' LIABILITY Y / N AUTOMOBILE LIABILITY ANY AUTO ALL OWNED SCHEDULED HIRED AUTOS NON-OWNED AUTOS AUTOS AUTOS COMBINED SINGLE LIMIT BODILY INJURY (Per person) 19 Team Bios and Commercial References 1 Team Information Key Personnel Gardner “Willie” Mein, PE – Owner and General Manager, NABCEP Certified Solar Thermal Installer, ICC Certified Class A General Contractor, Licensed Professional Engineer Willie has broad-based expertise in renewable energy engineering and integration, and more than twenty years experience in the construction industry as a carpenter, general contractor and engineer. Willie designed and built his first solar thermal hot water system and solar oven in 1978. He has worked as an engineer for The City of San Francisco Department of Public Works and for small private engineering firm, InSituTech. From 1999 to 2007, Willie managed the engineering systems at the Laboratory for Atmospheric and Space Physics, a solar science research arm of the University of Colorado. Prior to launching Custom Solar, Willie served as General Manager for Simple Solar and as VP of Operations for Lighthouse Solar. Willie has a B.A. in Mathematics from the University of Colorado and a B.S. in Civil Engineering from San Francisco State University. Willie is an ICC Certified Class A General Contractor, a former NABCEP certified solar thermal installer, and a former NABCEP certified solar PV installer. He is a licensed Professional Engineer in good standing in the states of California and Colorado. Kay Anderson – Business Manager Kay brings twenty-five years of business management to Custom Solar. She has extensive experience setting up small businesses administratively. This includes contract negotiations, systems setup and maintenance, accounting setup/oversight and general business planning/troubleshooting. Most recently, her focus has been to support green small businesses and non-profits. Her past experience includes set up and overseeing the administrative needs of a new and rapidly growing natural foods grocery store chain with over 1,000 employees, 10 stores and sales of $100 million a year. She also co-owned a chiropractic business for ten years. Kay grew up in a suburb of Minneapolis, Minnesota and studied business and accounting at the University of Minnesota and at Metro State College in Denver Colorado. Kay oversees all business and financial aspects of Custom Solar projects, including accounting, payroll and contract review. Travis Lenberg – Project Manager, Mechanical Engineer, NABCEP Certified Solar Thermal, PV Installer Travis is a NABCEP Certified PV and ST Installer who holds a B.S. in Mechanical Engineering with a Minor in Business Management from the University of Colorado. He brings expertise in construction, engineering and PV design as Custom Solar’s lead PV project manager. He has designed and managed over 300 projects of varying sizes and designs over the past five years of employment. Travis worked as a crew manager for five years at Discount Tire Co. and with Kiewit Western Co., managing large industrial construction projects. Travis has been responsible for the successful completion of Custom Solar's installation at the Alamosa Recreation Center, Place Middle School, and was the lead project manager on commercial installations for the Laramie County School District in Wyoming and the Philips Center. Cody Arnold – Project Support Specialist, Mechanical Engineer Cody is a jack of all trades and recent graduate of the University of Colorado. Cody’s past experience includes working on advanced manufacturing techniques for Abengoa Solar on concentrated solar power designs and academic exercises designing solar electric panels that track light sources. He joins the Custom Solar team in a system designer and project support specialist role. Benjamin Felson – Project Designer and Sales Support - NABCEP Certified PV Installer Ben is an project designer with a strong knowledge in system design and integration who has been working in the industry for the past 3 years. He has completed training from SEI for the design and installation of grid tied PV systems and battery based systems. Much of his work experience comes from working in 2 Nicaragua on rural battery based off-grid solar installations. He worked on the design, implementation and maintenance of the systems with a primary focus of troubleshooting and repairing systems. Corey Niemeyer – Project Support and Warehouse Manager Corey earned his Master’s Degree with Merit in International Operations and Supply Chain Management from Glasgow Caledonian University and possesses a B.Sc. in Business Administration with a specialization in Human Resource Management and a Minor in Psychology. At Custom Solar he applies his Yellow Belt in Lean Management to warehouse and project operations to improve efficiency and streamline processes. Talmath Lakai – Lead Installer, NABCEP Certified Installer Talmath has over twenty years of experience in the renewable energy industry, including solar thermal and solar electric. He brings years of industry experience as the owner for New Gen Energy in Crestone for seven years who primary focus was in off-grid solar applications with batteries. Before entering the renewable energy space, Talmath owned and managed his own construction company, MudCrafters Construction. Joe Callahan - Offgrid System Design Expert, NABCEP Certified PV Installer Joe has been in the renewable energy field for over 20 years, originally starting his own company in 1994 which specialized in the design and installation of offgrid battery based PV systems. More recently he has been working on a Nepal Initiative to help build small community power systems for business and homes in Nepal. Joe has a background in electrical engineering from the University of Boulder. Joe has been a key player in the design of many of Custom Solar's more complex battery systems such as our mobile irrigation trailers built for the City of Boulders Open Space and Mountian Parks division which had high demand loads requiring special electronics logic to manage the batteries and inverter. Eric Opela - Lead Installer, NABCEP Certified Solar Thermal Installer Eric Opela has been installing solar for over eight years and is a leading expert in the solar thermal industry. He has installed over 850kW of residential and small commercial systems throughout Colorado. Eric has also trained numerous employees in the “how to” of installing solar thermal and PV systems in accordance to state and local requirements, while maintaining high standards in quality and workmanship. Casey Ilg – Master Electrician Casey has over eight years of experience as a residential and commercial electrician. He has worked with Custom Solar on many commercial and residential projects for the past two years. Casey is a student of the solar electric trade, quick to reference electrical code (specifically NEC Section 690) and the applicable standard for every project. Randy Laird – Master Electrician (Enlighten Electric), NABCEP Certified PV Installer Mr. Laird has worked as an Electrician for twenty years, ten as Master Electrician. He has served the Greater Boulder Area and Surrounding Mountain Communities for over ten years. Mr. Laird and Mr. Mein have been working together on residential and commercial solar electric systems installations for over four years. Mr. Laird is regarded as one of the most experienced and knowledgeable solar electricians in the state. He has installed over one hundred PV systems and 600kW over the past four years including many residential and commercial installations. Randy is a NABCEP certified PV installer and a Licensed Master Electrician in the State of Colorado. Greg Iovan – Master Electrician Mr. Iovan has over ten years experience as an residential and commercial electrician. He has worked with custom solar on many commercial and residential projects. 3 Houston Sherer – Lead Installer Houston works with our implementation team as a PV crew lead. He holds a B.S. in Environmental Technology and Management with emphasis on life cycle analysis and environmental impact. He has three years experience installing solar electric systems for Custom Solar. Sam Bass – Journeyman, Installer Sam has over twenty-five years in the construction trade. He has installed over 200 renewable energy systems ranging from small residential to large commercial. In addition to framing and concrete work, Sam has experience working on day lighting and lighting retrofit projects. Eric Verdier – Sales Support Eric is a member of our sales team. His role includes putting together quotes and proposals for clients, as well as meeting with them on site visits. He has past work experience installing and maintaining solar hot-water heating systems, along with sales and marketing for a Vermont custom greenhouse company. Eric attended the University of Vermont where he obtained a B.S. in Environmental Science with emphasis on ecological design and green building. Nicolas Alonso-Harper - Project Manager (In Training) Nicolas is currently working as both an installer to learn basics of solar installation and office assistant to quickly gain a working knowledge of the solar field. Nicolas joined Custom Solar with a background in Project Management in which he communicated directly with customers and directed teams to install configure products according to the customer's needs. Nicolas attended the University of Vermont where he obtained a B.S. in Community and International Development. Nicolas joined the ca background in project management Jessie Lopez - Master Electrician Jessie is our Master Electrician in Alamosa who has worked on many commercial projects including the 100kW installation completed for the Alamosa Recreation Center. He is Custom Solar main electrician for Southern Colorado. Stefan Christie – Journeyman Carpenterand PV installer Stefan works on our implementation team crew as a PV installer. He holds a BS from the University of Vermont in Environmental Studies. Glen Charnoski – General Labor Glen is a internationally recognized extreme athlete who brings enthusiasm and focus to every installation. Chris Kolodey – General Labor Chris brings to the Custom Solar installation team his many years in the construction trade as builder and as a skilled welder. Chris is a production oriented work horse with proficiency in the construction trade. 1 Commercial References Tramway Nonprofit Center Phase 2 - 102 kW PV System – 3/2013  Developed and Financed by Custom Solar Under a PPA  Installed By Custom Solar  Owned, Operated and Maintained By Custom Solar  Timeline: 1 Month (Each Phase) Project Value: $320,000 Project Manager: Travis Lenberg Contact: Aaron Miripol – (CEO of the Urban Land Conservancy) Phone: (303) 570-1679 St Vrain Building (529 Coffman) - 92 kW PV System – 9/2015  Installed Under a Power Purchase Agreement (PPA)  Ballasted System on TPO Roof Membrane  Timeline: 1 months Project Value: $230,000 Contact: Ron Diederichsen (Senior Project Coordinator) Phone: (303) 441-3186 2 Place Middle School Project - 500 kW PV System – 9/2012  Ballasted Ground Mount System on Landfill  Timeline: 2 months Project Value: $1,300,000 Contact: Jim Faes (Director of Sustainability, Denver Public Schools) Phone: (720) 837 8369 Railhead Partners - 80 kW PV System – 06/2012  8 Subsystems, 8 Meter Interconnections  Awning & Ballasted Mount  Timeline: 6 Weeks Project Value: $360,054.08 Project Manager: Travis Lenberg Contact: Andy Cookler (Property Owner) Phone: (303) 258 3577 3 Other Past Commercial Clients: Denver Federal Mint National Park Service Boulder County Grand County City of Boulder City of Fort Collins City of Westminster City of Aurora City of Alamosa City of Thornton Denver Public School District Cheyenne Public School District Saint Vrain Valley School District Boulder Valley School District The Urban Land Conservancy Clinica Family Health Center Center for Resource Conservation Laramie County School District #1 Alta Vista Elementary School 59 kW PV System – 04/2012  Flush Mount & Ballasted Mount  Elevated 45° Standing Seam Metal Roof  Timeline: 6 weeks Project Value: $233,000 Contact: Micheal Peel (Planning and Construction Supervisor) Phone: (307) 286 0214 Product Specification Sheets and Warranties solarworld.com SW 340-350 XL MONO Designed to withstand heavy accumulations of snow and ice Every component is tested to meet 3 times IEC requirements Sunmodule Positive performance tolerance 25-year linear performance warranty and 10-year product warranty Glass with anti-reflective coating -0/+5 Wp Anti-Reflective Coating TUV Power controlled: Lowest measuring tolerance in industry World-class quality Fully-automated production lines and seamless monitoring of the process and material ensure the quality that the company sets as its benchmark for its sites worldwide. SolarWorld Plus-Sorting Plus-Sorting guarantees highest system efficiency. SolarWorld only delivers modules that have greater than or equal to the nameplate rated power. 25-year linear performance guarantee and extension of product warranty to 10 years SolarWorld guarantees a maximum performance digression of 0.7% p.a. in the course of 25 years, a significant added value compared to the two-phase warranties common in the industry, along with our industry-first 10-year product warranty.* *in accordance with the applicable SolarWorld Limited Warranty at purchase. www.solarworld.com/warranty geprüte Sicherheit • Qualified, IEC 61215 • Safety tested, IEC 61730 • Blowing sand resistance, IEC 60068-2-68 • Ammonia resistance, IEC 62716 • Salt mist corrosion, IEC 61701 • Periodic inspection • Periodic inspection • Power controlled SW-01-7540US-I 160324 All units provided are imperial. SI units provided in parentheses. SolarWorld AG reserves the right to make specification changes without notice. Module current [A] Module voltage [V] 1000 W/m² 800 W/m² 600 W/m² 400 W/m² 200 W/m² 100 W/m² ISC VOC COMPONENT MATERIALS Cells per module 72 Front Low-iron tempered glass with ARC (EN 12150) Cell type Monocrystalline Frame Clear anodized aluminum Cell dimensions 6.17 in x 6.17 in (156.75 x 156.75 mm) Weight 47.6 lbs (21.6 kg) PERFORMANCE UNDER STANDARD TEST CONDITIONS (STC)* SW 340 SW 345 SW 350 Maximum power Pmax 340 Wp 345 Wp 350 Wp Open circuit voltage Voc 47.6 V 47.8 V 48.0 V Maximum power point voltage Vmpp 38.0 V 38.2 V 38.4 V Short circuit current Isc 9.69 A 9.75 A 9.82 A Maximum power point current Impp 9.01 A 9.10 A 9.17 A Module efficiency m 17.04 % 17.29 % 17.54 % *STC: 1000W/m², 25°C, AM 1.5 PERFORMANCE AT 800 W/M2, NOCT, AM 1.5 SW 340 SW 345 SW 350 Maximum power Pmax 259.3 Wp 263.8 Wp 267.2 Wp Open circuit voltage Voc 41.5 V 41.8 V 42.0 V Maximum power point voltage Vmpp 34.9 V 35.2 V 35.4 V Short circuit current Isc 8.05 A 8.10 A 8.16 A Maximum power point current Impp 7.42 A 7.50 A 7.56 A Minor reduction in efficiency under partial load conditions at 25 C: at 200 W/m2, 100% of the STC efficiency (1000 W/m2) is achieved. THERMAL CHARACTERISTICS NOCT 46 C TCIsc 0.042 % / C TCVoc -0.304 % / C TCPmpp -0.43 % / C Operating temp -40 to +85 °C ADDITIONAL DATA Power sorting -0 Wp/+5 Wp J-Box IP65 Connector PV wire per UL4703 with H4/UTX connectors Module fire performance (UL 1703) Type 1 PARAMETERS FOR OPTIMAL SYSTEM INTEGRATION Maximum system voltage SC II / NEC 1000 V Maximum reverse current 25 A Number of bypass diodes 3 Design loads* Two rail system 113 psf downward, 64 psf upward Design loads* Edge mounting 178 psf downward, 23 psf upward * Please refer to the Sunmodule installation instructions for the details associated with these load cases. • Compatible with both "Top-Down" and "Bottom" mounting methods • Grounding Locations: – 4 locations along the length of the module in the extended flange. 25-YEAR LIMITED WARRANTY Valid from 03.25.2015 Plus By purchasing the solar modules (hereafter referred to as: products) from SolarWorld Americas Inc. (“SolarWorld”), you have chosen a level of quality, which meets the highest requirements. SolarWorld assumes that use in accordance with regulations will reliably maintain the function of the products to produce electricity (hereinafter referred to as: functional capability) as well as reliably maintaining the performance of the products. As a sign of our confidence in this quality, SolarWorld is happy to grant you as the end-user of the products (i. e., the person who put the products into operation correctly for the first time or the person who has legitimately purchased the products from such an end-customer without any modifications) the rights which are presented below: A - Limited product warranty: 1. SolarWorld provides you with a warranty for the functional capability of the products until ten years has elapsed since the purchase of the product and that the product: • will not suffer from any mechanical adverse effects, which limit the stability of the solar module. A condition for this is correct installation and use in accordance with regulations, as described in the installation instructions enclosed with the product. • will not be subject to any clouding or discoloration of the glass. • with its cable and connector plug will remain safe and operational, if they are installed profes- sionally and are not permanently positioned in water (puddle). However, damage to the cable, which is caused by abrasion on a rough lower surface owing to insufficient fixing or owing to unprotected running of the cable over sharp edges, is excluded. Any damage caused by animals (e. g., rodent bites, birds, insects) is also exempted. • with its aluminium frames will not freeze up when it is frosty if it is installed correctly. The ap- pearance of the product as well as any scratches, stains, mechanical wear, rust, mould, optical deterioration, discoloration and other changes, which occurred after delivery by SolarWorld, do not represent defects, insofar as the change in appearance does not lead to a deterioration in the functional capability of the product. A claim in the event of glass breakage arises only to the extent that there was no external influence. 2. If the products exhibit one of the above mentioned defects during this period and this has an effect on the functional capability of the product, SolarWorld will repair the defective products, supply replacement products or provide the customer with an appropriate residual value of the products as compensation at its discretion. B - Limited performance guarantee: 1. SolarWorld guarantees that the actual output of the product will amount to at least 97 % of effec- tive output during the first year after purchase of the product and as of the second year after pur- chase of the product, the effective output will decline annually by no more than 0.7 % for a period of 24 years, so that by the end of the 25th year after purchase an actual output of at least 80.2 % of effective output will be achieved. In the event of a negative deviation of actual product performance from the so-called threshold values, SolarWorld will either supply you with replacement products, which make it possible to maintain actual performance, carry out repairs, which make it possible to achieve actual performance or provide you with financial compensation for the lower performance of the product. During the first 15 years of the guarantee period SolarWorld will exclusively either supply replacement products, which make it possible to maintain the actual performance or carry out repairs, which make such an actual performance possible. After 15 years of the guarantee period SolarWorld is free to also grant financial compensation for the lower performance of the products. 2. When replacement products are supplied, there is no entitlement for the use of new products or those which are as good as new. On the contrary, SolarWorld is authorized to also supply used and/ or repaired products as replacements. C - Further conditions of entitlement: 1. The period of the performance guarantee under B) is restricted to a period of 25 years from the purchase of the product and will not be extended even in the event of a repair or exchange of a product. 2. The effective output and the actual output of the products are to be determined for the verification of any guarantee case using standard test conditions, as described under IEC 60904. The decisive measurement of performance is carried out by a recognized measuring institute or through SolarWorld’s own measurements (the assessment of measurement tolerances is undertaken in accordance with EN 50380). The guarantee does not cover transport costs to return the products or for a new delivery of repaired or replacement products. It also does not cover the costs of the instal- lation or reinstallation of products, as well as other expenditure by the end-customer or seller. 3. Ownership of all products which have been replaced passes to SolarWorld. Maximize Power Density The spacing between rows of modules is a critical design decision when it comes to system production. Polar Bear® III offers multiple row-spacing options to optimize designs and maximize power density. The new Five Degree system inherits roof protection and accelerated construction features from the existing Polar Bear III platform and provides the best ground coverage ratio on the market. Polar Bear III 5 Degree Flat Roof Mounting System panelclaw.com Drawing on experience from 500 MW of installed solar PV on commercial rooftops, PanelClaw continues to drive down total installed cost. BEST GROUND COVERAGE RATIO Best Power Density Polar Bear® III offers the best ground coverage ratio on the market. The tight- row spacing option allows for maximum roof capacity while the single module tilt up and walkway path facilitate system maintenance. Most Trusted on the Roof The engineered design emphasizes built- in features to provide long-term roof protection: • Mechanically secured rubber roof pads • Fully captured ballast blocks • Thermal compensation • System allows free water flow Timesaving Project Accessories Speed up total project completion with accessories for wire management, micro- inverter and solar optimizer attachment and shim pads to accommodate uneven areas of the roof. Polar Bear III 5 Degree Flat Roof Mounting System (978) 688.4900 | sales@panelclaw.com Three Components Support • Universal, light-weight component for quick and easy roof placement • Integrated recycled rubber roof protection pads • Pre-drilled holes for wire management cabling options • Two row-spacing options to optimize ground coverage ratio Ballast Tray • Locking end-tab to fully capture ballast blocks • Adjustable mounting location to fit all major module brands • Nested design to provide high packaging density Claw • Attachment to module using standard module mounting holes • UL 2703 certified for electrical bonding and grounding Applications Flat roof (max slope 5°) Fully ballasted or mechanically attached Module Tilt Angle 5° nominal Module Orientation Landscape Module Attachment Standard module mounting holes Basic Wind Speed Up to 150 mph (>150 mph by 250 West 96th Street – Indianapolis, IN 46260 1-800-428-4442 * 1-317-575-7000 * FAX 1-317-575-7100 www.firestonebp.com Post Warranty Alteration Form Date: FBPCO #: Warranty #: Expiration Date: Building Identification: Building Address: Owner: Contractor Name: Contractor License #: PV Manufacturer: PV Installation Date: Type of Post Warranty Alteration: General Roof Alterations Garden Roof System Photovoltaic Installation Thank you for your notice of alterations to the Warranted Firestone roof assembly on the above referenced building. Under our current procedures and conditions, all attempts must be made to involve the original installing contractor to make the necessary repairs. Only currently licensed Firestone contractors will be allowed to perform alterations on a warranted roof system. A Post-Warranty Alterations (PWA) inspection of the roof may be required by Warranty Services upon review of the submitted documents. Firestone will require the following information to be submitted in order to update the existing Firestone warranted project and in order for the existing warranty to remain in full force: **Alterations over $10,000.00** YES NO General Alterations or Garden Roof only: I certify the following is attached to this document: (Please be sure all boxes are checked.) Firestone license number and name of contractor to perform work Before and After photos clearly showing scope of work performed Submit description of work performed including all flashing and/or other details to be used Roof Drawing indicating location of Alterations or Additions Photovoltaic (PV) projects only: Once the PV system has been installed, a Post-Warranty Alteration inspection may be required after review of the submitted documents and completion photos at the discretion of QBS Warranty Services Department. A pre-installation inspection of the roof is not required. The PWA inspection verifies only that new flashings or other alterations to the warranted roofing system were installed in accordance with Firestone technical standards and details. I certify the following information is attached to this document: (Please be sure all boxes are checked.) Name of PV Manufacturer PV Install start Date Drawing to include proposed PV layout and Roof Plan Proposed protection/slip sheet materials Overburden waiver completed and signed by the Building Owner ONLY PV rack manufacturer’s detail drawing for the installed PV system. **All alterations over $10,000 will require an inspection by a Firestone Representative** The charge for the required inspection is $750.00 payable to Firestone. No payments will be accepted prior to submission of a Firestone invoice. The invoice will be directed to the owner listed on the warranty unless a third party company is responsible for payment and has included separate billing information. The purpose of the inspection is for verification of new membrane flashings or other membrane related alterations only and to ensure compliance to Firestone written recommendations for repairs. Name of Submitter: Date: Representative of (Company): Email: Upon successful review of the completed work and receipt of the content of this form, the existing warranty will remain in full force. Failure to follow the procedures outlined in this document, including failing to notify Firestone, may disrupt your warranty coverage on this project. Firestone has the right to rely on the information submitted with this form, and submittal of this form is authorization for Firestone to review the submitted material. The person submitting this form has requisite power and authority to submit the information and make the request(s) in this form. ** Please submit this form and all required documentation and photos to georgeben@qbsg.net ** FAILURE TO FOLLOW THESE PROCEDURES OUTLINED ABOVE, INCLUDING NON‐NOTIFICATION TO FIRESTONE, MAY DISRUPT YOUR WARRANTY COVERAGE. 01132016 3-PH TRANSFORMERLESS STRING INVERTERS Yaskawa - Solectria Solar’s PVI 14TL, PVI 20TL, PVI 23TL, PVI 28TL, and PVI 36TL are compact, transformerless three-phase inverters with a dual MPP tracker. These inverters come standard with AC and DC disconnects, user-interactive LCD, and an 8-position string combiner. Its small, lightweight design makes for quick and easy installation and maintenance. These inverters include an enhanced DSP control, comprehensive protection functions, and advanced thermal design enabling highest reliability and uptime. They also come with a standard 10 year warranty with options for 15 and 20 years. Options include web-based monitoring, shade cover, DC/AC disconnect covers, DC combiners bypass, and roof mount array bracket. FEATURES • 600 or 1000 VDC • Best in class efficiency • Touch-safe fuses • Dual & wide MPP tracking zones • Modbus communications • Integrated DC fused string combiner • DC arc-fault protection • PVI 36TL - HECO and Rule 21 compliant OPTIONS • Web-based monitoring • Shade cover • DC/AC disconnect covers • Roof mount array brackets • DC combiners bypass SOLECTRIA.COM 3-PH TRANSFORMERLESS PVI 14TL STRING INVERTERS PVI 20TL PVI 23TL PVI 28TL PVI 36TL Copyright © Yaskawa - Solectria Solar. All information subject to change without notice. February 2016 DOCR-070252-R SPECIFICATIONS PVI 14TL PVI 20TL PVI 23TL PVI 28TL PVI 36TL DC Input Absolute Maximum Open Circuit Voltage 600 VDC 1000 VDC Operating Voltage Range 180-580 VDC 260-580 VDC 300-900 VDC 200-950 VDC Max Power Input Voltage Range (MPPT) 300-540 VDC 300-550 VDC 480-800 VDC 500-800 VDC 540-800 VDC MPP Trackers 2 with 4-fused inputs per tracker Maximum Operating Input Current 25 A per MPPT (50 A) 35 A per MPPT (70 A) 25 A per MPPT (50 A) 29 A per MPPT (58 A) 35 A per MPPT (70 A) Maximum Available PV Current (Isc x 1.25) 45 A per MPPT (90 A) 45.5 A per MPPT (91 A) 41 A per MPPT (82 A) 48 A per MPPT (96 A) 53.5 A per MPPT (107 A) Maximum PV Power (per MPPT) 9.5 kW 13.5 kW 15.5 kW 19 kW 27 kW Strike Voltage 300 V 330 V AC Output Nominal Output Voltage 208 VAC, 3-Ph 480 VAC, 3-Ph AC Voltage Range (Standard) -12%/+10% Continuous Output Power 14 kW 20 kW 23 kW 28 kW 36 kW Maximum Output Current 39 A 25.5 A 27.7 A 33.7 A 43.5 A Maximum Backfeed Current 0 A Nominal Output Frequency 60 Hz Output Frequency Range 59.3-60.5 Hz (adjustable 55-65 Hz) 57-63 Hz Power Factor Unity, >0.99 (±0.8 adjustable) Unity, >0.99 (±0.9 adjustable) Unity, >0.99 (±0.8 adjustable) Fault Current Contribution (1 Cycle RMS) 70.4 A 43.3 A 69.6 A 73.2 A Total Harmonic Distortion (THD) @ Rated Load < 3% Grid Connection Type 3ø+/N/GND (4-wire) Efficiency Peak Efficiency 96.9% 97.4% 98.6% 98.4% CEC Efficiency 96.0% 97.0% 98.0% Tare Loss 4 W 2 W Integrated String Combiner 8 Fused Positions (4 positions per MPPT) 15 A (fuse by-pass available) 15 or 30 A (30 A only for combined inputs) Temperature Ambient Temperature Range -13°F to +140°F (-25°C to +60°C) Derating occurs over +50°C -13°F to +140°F (-25°C to +60°C) Derating occurs over +45°C Storage Temperature Range -22°F to +158°F (-30°C to +70°C) -40°F to +158°F (-40°C to +70°C) Relative Humidity (non-condensing) 0-95% Operating Altitude 13,123 ft/4,000 m (derating from 6,562 ft/2,000 m) 13,123 ft/4,000 m (derating from 9,800 ft/3,000 m) Data Monitoring Optional SolrenView Web-based Monitoring Integrated Optional Revenue Grade Monitoring External External Communication Interface RS-485 Modbus RTU Roof Protection Pads Technical Specification panelclaw.com © 2015 PanelClaw, Inc. Proper Protection Solar mounting equipment can rub roof membranes and cause excessive wear if not properly protected. Numerous conditions have the potential to affect movement of PV racking systems on a roof such as roof slope, roof membrane material, water and temperature. PanelClaw products include integrated roof protection pads to securely position racking while at the same time protect the roof membrane against damage. Polar Bear® Gen II 5 and 10 degree Polar Bear® III Five Degree Polar Bear® III 10 Degree For Product and Sales Information (978) 688.4900 sales@panelclaw.com Roof Protection Pads Technical Specification PanelClaw’s Polar Bear® flat roof mounting systems feature a mechanically attached recycled rubber pad that protects roof membranes and increases the coefficient of friction. This protective layer is designed to minimally impact roof structures while allowing for natural flow of water. The pads are made from recycled rubber thus far keeping 2+ million tires out of landfills. panelclaw.com Styrene Butadiene (SBR) Ryvec Black 100% post-consumer recycled rubber MD-400 CAS# 101-68-8 CAS# 26447-40-5 CAS# 9016-87-9 4400 C > 2000 C 1.047 Density and Specific Gravity ASTM D792-91, Method A Accelerated Weathering Test ASTM D-4587 Abrasion Resistance FED-STD-141C, method 6192.1 Color Composition Binder Material Diphenylmethane-4,4 Diisocyanate Diphenylmethane-2,2 Diisocyanate Polymethlene Polyphenyl Isocanate Self-ignition Temperature Melting Point Temperature Specific Gravity Product Tensile Testing ASTM D412-92 UV Exposure and Tensile Properties ASTM D624-92 Tear Strength ASTM D 624-91 Testing Standards © 2015 PanelClaw, Inc. For Product and Sales Information WEB-BASED MONITORING SolrenViewTM monitoring provides PV system owners a highly accurate and real time web-based monitoring solution to maximize efficiency and profitability of their solar assets. Yaskawa - Solectria Solar’s SolrenView web-based monitoring solution is available for use with residential, commercial and utility-scale inverters, allowing for real-time, seamless recording and reporting of PV system production. The SolrenView data logger comes standard and fully-integrated within all commercial and utility-scale inverters. A standalone SolrenView system features inverter direct monitoring, revenue grade monitoring, agency reporting, SolZoneTM sub-array current monitoring, XML feed, kiosk view and weather station monitoring. FEATURES • Inverter direct & revenue grade monitoring • Performance charting • Real-time status notifications • Detailed system data • Reliable, safe & secure data storage • SunSpec compatible OPTIONS • Site privacy • XML Feed • Sub-array monitoring (SolZone) • Weather station • Automated agency reporting SOLECTRIA.COM WEB-BASED MONITORING SOLRENVIEW SolrenViewTM Inverter Direct STANDARD MONITORING PACKAGE SolrenView Inverter Direct monitoring allows customers to see detailed operational inverter data (DC and AC) using a web enabled device. This standard package allows customers to view daily, weekly, monthly, and annual graphs up to 5 years into the past, viewing single events or long- term performance trends. The package includes e-mail and cell phone alerts with detailed descriptions of system issues and a recommended course of action. SolrenView Revenue Grade Energy Production OPTIONAL MONITORING PACKAGE SolrenView Revenue Grade Energy Production Monitoring package option keeps track of lifetime energy produced by a customer’s PV system. This package option also includes e-mail and cell phone alerts with detailed descriptions of system problems and a recommended course of action. Compatible with third-party inverters. SolrenView Agency Reporting OPTION SolrenView Agency Reporting is for customers that require a revenue grade energy production report to be sent to an agency such as NEPOOL, WREGIS, MassCEC, PG&E, SCE, CCSE, IID, or PaCE. A report is generated from SolrenView Revenue Grade metering outputs and sent directly to the agency of choice. Yaskawa - Solectria Solar’s monitoring team works directly with agencies to activate and maintain solar production credit accounts. SolrenView Kiosk View (Animated View) STANDARD WITH ALL SOLRENVIEW PACKAGES The Kiosk View (Animated View) provides customers with a quick and easy access to a customer’s PV system performance. This is a great tool for advertising and public viewing. When the “Animated View” button is clicked on the SolrenView screen, SolrenView will continuously loop through the site overview, environmental footprint, project details, site analytics, and if applicable, the detailed analytics page. SolrenView AIR OPTION The SolrenView AIR option permits customers to take advantage of SolrenView web-based monitoring features via a fully-integrated 4G cellular modem when standard internet access is not available at a site. SolrenView AIR may be factory integrated for any inverter 50kW and greater (PVI 50-100KW, SGI 225-500PE, SGI 500XT, SGI 500/750XTM inverters; not available for PVI 3800-7600TL or PVI 14-36TL inverters). SolrenView SolZoneTM DC Current Sub-Array Monitoring OPTION SolZone provides an extra level of granularity to see multiple sub-array DC currents. SolZone has the ability to compare individual PV zones against each other based on the number of sub-array fuses or ‘zones’ built into a Yaskawa - Solectria Solar factory-installed DC subcombiner. Inverter hardware required for SolZone. This package option also includes e-mail and cell phone alerts with detailed descriptions of system problems and a recommended course of action. Compatible with all third-party inverters. SolZone is also compatible with most third-party monitoring systems. SolrenView XML Feed OPTION SolrenView XML feed option provides a reporting framework for customers with a need to display real-time monitoring information about their PV system within their applications/website or using third- party monitoring. WEATHER MONITORING The real-time weather station allows customers to view accurate readings for crucial environmental information. The weather station contains a solar irradiance sensor and temperature sensors for ambient and module measurements. Wind speed and direction sensors are options that may be added to the weather station. The weather station is a great educational tool and is compatible with many third-party monitoring systems. The SolrenViewTM Weather Station is compliant with the RS-485 SunSpec Environmental Sensor System. FEATURES • Solar irradiance sensor • Ambient temperature sensor • Module temperature sensor • Accurate readings • Detailed system data • Type 4X enclosure • RS-485 Modbus RTU for external communication interface OPTIONS • Wind speed sensor • Wind direction sensor SOLECTRIA.COM WEATHER MONITORING SOLRENVIEW WEATHER STATION MADE IN THE USA Copyright © Yaskawa - Solectria Solar. All information subject to change without notice. November 2015 DOCR-070249-D Yaskawa - Solectria Solar’s weather station can withstand the harshest weather conditions. SolrenView outputs and displays weather station information including outside temperature, irradiance, wind speed, wind direction, cloud cover, and module temperature. SPECIFICATIONS Weather Station Enclosure Ambient Temperature Range -40°F to +131°F (-40°C to +55°C) Dimensions (H x W x D) 12 in. x 10 in. x 4 in. (304.8 mm x 254 mm x 101.6 mm) Enclosure Rating NEMA 4X Solar Irradiance Temperature Sensor Repeatability ±1% Cosine Response 45° zenith angle: ±1%; 75° zenith angle: ±5% Sensor Wire Length 197 in. (5004 mm) Ambient Temperature Range -13°F to +131°F (-25°C to +55°C) Ambient Temperature Sensor Range -40°F to +257°F (-40°C to +125°C) Accuracy ±1˚C (±33.8˚F) Sensor Wire Length 120 in. (3048 mm) Module Temperature Sensor Range -40°F to +257°F (-40°C to +125°C) Accuracy ±1˚C (±4˚F) Mounting Location back of module Sensor Wire Length 120 in. (3048 mm) Wind Speed Sensor Accuracy ±2.5 mph Speed Range 2.5 mph to 125+ mph (5 km/h to 200+ km/h) Sensor Wire Length 300 in. (7620 mm) Wind Direction Sensor Sensor Range 360˚, zero deadband Sensor Wire Length 300 in. (7620 mm) Please see the SolrenView datasheet for more information and specifications about web-based monitoring: www.solectria.com/support/documentation www.solectria.com | inverters@solectria.com | 978.683.9700 Power Control /Smart Grid Features and Registers 1.1.1 Remote power on/off Register: 0x1000 Unit: Null Type: uint16 Read/Write: Yes Multiplier: 1 Description: Inverter power on and power off command: 0xAAAA power on and 0X5555 power off 1.1.2 Inverter Active Control Register: 0x001D Unit: kW Type: uint16 Read/Write: Read Multiplier: 0.1 Description: You can read the active power from the inverter LCD panel or from a Modbus Read command. Register: “Active Power” in the Data mapping: 1.1.3 Remote Dispatch Register: 0x1046 Unit: Null Type: uint16 Read/Write: Yes Multiplier: 1 Description: The Inverter has two different responses: local dispatch and remote dispatch. Before using this command you must set the Register “Remote dispatch” (Register 0x1046) to an “Enable” state. 1.1.4 Temporary Power Limit Control Register: 0x1001 Unit: kW Type: uint16 Read/Write: Yes Multiplier: 0.01kW Description: Before using this command you must set the Register “Remote dispatch” (Register 0x1046) to an “Enable” state. 1.1.5 Remote Reactive Power Mode (Q Mode) Register: 0x1047 Unit: Null Type: uint16 Read/Write: Yes Multiplier: 1 Description: The Inverters have five different reactive modes. Select one of the reactive modes before attempting to adjust reactive dispatch: 0 = None, 1=Q, 2=PF, 3=PFP, 4=QU Before using this command you must set the Register “Remote dispatch” (Register 0x1046) to an “Enable” state. 1.1.6 Remote Reactive Dispatch Register: 0x1003 Unit: Null Type: uint16 Read/Write: Yes Multiplier: 0.10% Description: Before using this command you must set the Register “Remote dispatch” (Register 0x1046) to an “Enable” state, and Remote Reactive Power Mode (Q Mode) 1.1.7 Ramp rate control Register: 0x101D Unit: KW Type: uint16 Read/Write: Yes Multiplier: 0.01 Description: Soft Step Software control power step used for register ramp rate. 1.1.8 Temporary Power Factor Setting Register: 0x1002 Unit: Null Type: int16 Read/Write: Yes Multiplier: 0.001 Description: Inverter temporary Power Factor setting 1.1.9 Permanent Power Factor Setting Register: 0x1014 Unit: Null Type: int16 Read/Write: Yes Multiplier: 0.001 Description: Inverter permanent power factor setting register. 6ROHFWULD Inverter Model Data Mapping Specification For 39,7/ R&D Jake Lee V0.5 ABSTRACT This document describes the Solectria Inverter model specificaton. Change history Date Version Modification Author 2012-7-17 0.1 The initial version Jake Lee 2012-8-7 0.2 Update the data mapping Jake Lee 2012-9-25 0.3 1）Add CEI standard RW registers. 2）Add the descriptions for DDH and addressing model. Jake Lee 2012-11-7 0.4 Modify the register 0x0005 DD_MachVersion to D_FirmwareVersion. Jeffrey 2012-12-1 0.4C Add TFMaxTrip setting item Jakelee 2013-1-28 0.4D Add remote dispatch parameters , FaultCode3, FaultCode4 and the unit of VLvrtStart zhangzf 2013-3-28 0.5 Modify the units of DCIMax and GFCI zhangzf This document and the information contained herein is provided on an “AS IS” basis and Solectria DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION HEREIN WILL NOT INFRINGE ANY OWNERSHIP RIGHTS OR ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICLUAR PURPOSE. This document may be used, copied, and furnished to others, without restrictions of any kind, provided that this document itself may not be modified in anyway, except as needed by Solectria and as governed by the Solectria IPR policy. Copyright © Solectria - A Yaskawa Company 2015. All Rights Reserved. ESSENTIAL COMPLIANCE INFORMATION (1). In the Solectria MODBUS protocol, implementations should leave unused or unsupported data points set to the “Not Implemented” value specified in the model mapping. The Not Implemented value for different data type has different value, here are the defined: Not Implemented for a int8 is 0x80. Not Implemented for a uint8 is 0xFF. Not Implemented for a int16 is 0x8000. Not Implemented for a uint16 is 0xFFFF. Not Implemented for a int32 is 0x80000000. Not Implemented for a uint32 is 0xFFFFFFFF. Not Implemented for a string is 0x00. (2). 6ROHFWULD Units：Units and Scale Factors are defined by Solectria Units. As an alternative to floating point format, values are represented by integer values with a signed scale factor applied. For example: Start End Size R/W Name Type S Units Contents Description 0x001F 0x001F 1 RO Uab uint16 0.1V Grid voltage Uab The Uab unit is V, if current real-time value is Uab=389.5V, the value Uab in register 0x001F is 3895 decimal (0x0F37 hex). So 0.1V indicates that the Uint is V, and Scale factor was Magnified 10 times, so real-time value is 3895/10=389.5 (3).Scale Factor：As an alternative to floating point format, values are represented by integer values with a signed scaled factor applied. The scale factor explicitly shifts the decimal point to the left (negative value) or the right (positive value). Scale factors had been fixed and specified in the documentation of a value. Scale factor signed range:-10----10. For example Start End Size R/W Name Type Unit Scale Factor Description 0x001F 0x001F 1 RO Uab uint16 V -1 Grid voltage Uab The Uab unit is V, if current real-time value is Uab=389.5V, the value Uab in register 0x001F is 3895 decimal (0x0F37 hex). Scale Factor is -1, it explicitly shifts the decimal point to the left one bit, then real-time value is 389.5, （4）Data Encoding The MODBUS specification is not explicit on how to encode numbers other than 16-bit integers. Differences do exist between one manufacturer’s implementation and another’s. 32-bit intege Value Values are stored in big-endian order per the MODBUS specification and consist of a single register. MODBUS Register 1 2 byte 0 1 2 3 bits 31---24 23---16 15---8 7---0 64-bit integer Value 64-bit integers are stored using for registers in big-endian order. MODBUS Register 1 2 byte 0 1 2 3 bits 63---56 55---48 47---40 39---32 MODBUS Register 3 4 byte 4 5 6 7 bits 31---24 23---16 15---8 7---0 String Value Store variable length string values in a fixed size register range using a NULL (0 value) to terminate or pad the string. For example, up to 14 characters can be stored in 7 contiguous registers as follows: MODBUS Register 1 2 3 4 5 6 7 byte 0 1 2 3 4 5 6 7 8 9 10 11 12 13 character S C 1 0 0 K T L / C N 0 0 0 Not_Implemented value:all registers filled with 0x0000. (5) Basic register address is 0x0000. 1.0 Abbreviations ADU Application Data Unit IP Internet Protocol MB MODBUS MBAP MODBUS Application Protocol PDU Protocol Data Unit TCP Transport Control Protocol S Solectria uint8 unsigned char uint16 unsigned int uint32 unsigned long Int8 signed char int16 signed int int32 signed long 2.0 Inverter Input Registers Data Mapping The MODBUS read function code is 0x04, and the basic register address is 0x0000. Table 2-1 Input Registers Data Mapping Start End Size R/W Name Type 68QLWV Unit Scale factor Min value Max value Contents Description 0x0000 0x0000 1 RO Device uint16 1 NULL 0 0x4031/ 0x4032 0x4033 a value that uniquely identifies the type of device model 0x0001 0x0001 1 RO NodeNum uint16 1 NULL 0 0 0x00FF The data format of NodeNum is 0xAABB. AA indicates that there are 0xAA devices in front of this device, and BB indicates that there are 0xBB devices behind this device. This field is for internal use and can be neglected for third-party monitoring. 0x0002 0x0002 1 RO NextNodeAdd uint16 1 NULL 0 0 0xFFFF The start input register address of next device. If no device connected (BB =00), the value will be 0xFFFF. This field is for internal use and can be neglected for third-party monitoring. 0x0003 0x0003 1 RO RegNum uint16 1 registers 0 Number of readable registers(R/W= RO) supported by this device, count from the register ProVer to the last input register, and one register consists of 16-bit. 0x0004 0x0004 1 RO ProVer uint16 0.01 NULL -2 a value that identifies the latest supported communication protocol version. 0x0005 0x0005 1 RO FirmVer Uint16 0.01 NULL -2 A manufacturer specific value that identifies the firmware version of this device; The data format of FirmVer is 0xAABB. AA indicates DSP firmware revision, and BB indicates MCU firmware revision. 0x0006 0x0009 4 RO SN uint64 BCD NULL 0 a manufacturer specific value that uniquely identifies this device within the manufacturer name space.Remark: Serial number is composed of 16 characters (8 bytes)，the most significant 5 characters is not used, only used the left 11 characters. Such as 0X0000010091114001, it represents the inverter serial number is 10091114001 0x000a 0x0013 10 RO model string(20) 1 NULL 0 a value that identifies the current device model serial descriptor, e.g. SC20KTL-DO/IT 0x0014 0x0014 1 RO RWRegSum uint16 1 NULL 0 number of R/W registers supported by this device 0x0015 0x0015 1 RO RWRegAdd uint16 1 NULL 0 0x1000 R/W register start address offset 0x0016 0x0017 2 RO TYield uint32 1kWh Kwh 0 0 Total energy to grid 0x0018 0x0018 1 RO DYield uint16 0.1kWh Kwh -1 0 The accumulated kWh of that day 0x0019 0x0019 1 RO Eff uint16 0.01% % -4 0 1000 Inverter efficiency. When reading this register is 0x1F40, representing Eff= 0x1F40 *0.0001=0.8=80% 0x001A 0x001A 1 RO PF int16 0.001 NULL -3 1000 Power factor. When reading this register is 0x0320, representing PF=0x0320 *0.001=0.8 0x001B 0x001B 1 RO Pmax uint16 0.1kW Kw -1 AC maximum active power of that day 0x001C 0x001C 1 RO RunT uint16 0.1Min Min -1 Number of time the Inverter starts feeding to the grid 0x001D 0x001D 1 RO Pac uint16 0.1kW Kw -1 AC active power 0x001E 0x001E 1 RO Sac uint16 0.1kVA KVA -1 AC Apparent power 0x001F 0x001F 1 RO Uab uint16 0.1V V -1 Grid voltage Uab 0x0020 0x0020 1 RO Ubc uint16 0.1V V -1 Grid voltage Ubc 0x0021 0x0021 1 RO Uca uint16 0.1V V -1 Grid voltage Uca 0x0022 0x0022 1 RO Ia uint16 0.1A A -1 Grid A phase current 0x0023 0x0023 1 RO Ib uint16 0.1A A -1 Grid B phase current 0x0024 0x0024 1 RO Ic uint16 0.1A A -1 Grid C phase current 0x0025 0x0025 1 RO Upv1 uint16 0.1V V -1 PV voltage 0x0026 0x0026 1 RO Ipv1 uint16 0.1A A -1 PV current 0x0027 0x0027 1 RO Upv2 uint16 0.1V V -1 PV2 voltage 0x0028 0x0028 1 RO Ipv2 uint16 0.1A A -1 PV2 current 0x0029 0x0029 1 RO Upv3 uint16 0.1V V -1 PV3 voltage 0x002A 0x002A 1 RO Ipv3 uint16 0.1A A -1 PV3 current 0x002B 0x002B 1 RO Freq uint16 0.1Hz Hz -1 Grid frequency 0x002C 0x002C 1 RO Tmod int16 0.1C C -1 Module temperature 0x002D 0x002D 1 RO Tamb int16 0.1C C -1 Internal temperature 0x002E 0x002E 1 RO Tcoil int16 0.1C C -1 Transformer temperature 0x002F 0x002F 1 RO Mode uint16 1 NULL 0 Inverter mode code, for detail see "Inverter Work Mode Descriptor" 0x0030 0x0033 4 RO Time uint64 BCD NULL 0 Error timestamp(yyyy-mm-dd-hh-mm-ss-NULL) of model 0,eg.0x2012071615181000=2012-7-16 15:18:10 0x0034 0x0034 1 RO PFault uint16 1 NULL 0 permanent fautl code of model 0,for detail see "Inverter Events Descriptor" 0x0035 0x0035 1 RO Warn uint16 1 NULL 0 warn code of model 0,for detail see "Inverter Events Descriptor" 0x0036 0x0036 1 RO Fault0 uint16 1 NULL 0 fautl code0 of model 0 0x0037 0x0037 1 RO Fault1 uint16 1 NULL 0 fautl code1 of model 0 0x0038 0x0038 1 RO Fault2 uint16 1 NULL 0 fautl code2 of model 0 0x0039 0x0039 1 RO Fault3 uint16 1 NULL 0 fautl code3of model 0 0x003A 0x003A 1 RO Fault4 uint16 1 NULL 0 fautl code4 of model 0 3.0 Inverter Holding Registers Mapping The MODBUS read function code is 0x03,and write function codes are 0x06 and 0x10. Table 3-1 Holding Registers Data Mapping Start End Size R/W Name Type S Units UQLW Scale factor Min value Max value Contents Description 0x1000 0x1000 1 RW OnOff uint16 1 NULL 0 0x5555 0xAAAA 0x5555/ 0xAAAA device power on or off command, 0xAAAA power on, 0X5555 power off 0x1001 0x1001 1 RW PSet uint16 0.10% NULL -3 0 1000 Remote electric dispatch Active Power setting value, range [0.0%,100.%], E.g. 70.7%,then PSet =0x02c3 0x1002 0x1002 1 RW PFSet int16 0.001 NULL -3 -1000 1000 Remote electric dispatch Power factor Setting, Range [-1.000, -0.9000]U[0.9000, 1.000], E.g. 0.931, then PFSet = 0X03A3； -0.931 PFSet =0xFC5D 0x1003 0x1003 1 RW QSet uint16 0.10% NULL -1 0 1000 RemoteHlectricGispatch Reactive Power setting value, range [0.0%,100.%], E.g. 70.7%,then QSet =0x02c3 0x1004 0x1007 4 RW TimeSet uint64 BCD NULL 0 System time setting, format as: yyy-mm-dd-hh-mm-ss-NUL, eg.0x2012071615181000=2012-7 -16 15:18:10 0x1008 0x1008 1 RW FProtectII uint16 1 NULL 0 0 1 Enable of Protect FrepII（Only CEI-021） 0x1009 0x1009 1 RW Reserved uint16 1 NULL 0 0x100A 0x100A 1 RW Reserved uint16 1 NULL 0 0x100B 0x100B 1 RW TFMaxTrip uint16 0.01S S -2 Maximum grid frequency trip time 0x100C 0x100C 1 RW VMax uint16 0.1V V -1 Maximum operational grid voltage 0x100D 0x100D 1 RW TVmaxTrip uint16 0.01S S -2 Maximum grid voltage trip time 0x100E 0x100E 1 RW VMin uint16 0.1V V -1 Minimum operational grid voltage 0x100F 0x100F 1 RW TVminTrip uint16 0.01S S -2 Minimum grid voltage trip time 0x1010 0x1010 1 RW FMax uint16 0.01Hz Hz -2 Maximum operational grid frequency 0x1011 0x1011 1 RW FMin uint16 0.01Hz Hz -2 Minimum operational grid frequency 0x1012 0x1012 1 RW TFMinTrip uint16 0.01S S -2 Minimum grid frequency trip time 0x1013 0x1013 1 RW P_EE uint16 0.10% % -1 Local Active Power setting, range [0.0%,100.%], E.g. 70.7%,then P_EE =0x02c3 0x1014 0x1014 1 RW PF_EE int16 0.001 NULL -3 Local Power Factor Setting, Rang[-1.000，-0.9000]U[0.9000， 1.000],E.g. 0.931，then PF_EE =0X03A3 ； -0.931 PF_EE =0xFC5D 0x1015 0x1015 1 RW StartDelay uint16 0.1Min Min -1 Setup delay time 0x1016 0x1016 1 RW Risomin uint16 0.1kOhm Kohm -1 Minimum insulation resistance 0x1017 0x1017 1 RW PVStartVol uint16 0.1V V -1 PV start-up voltage 0x1018 0x1018 1 RW DCIMax uint16 1mA mA -1 maximun DCI value 0x1019 0x1019 1 RW TambMax uint16 0.1C C -1 Maximum internal temperature 0x101A 0x101A 1 RW TmodMax uint16 0.1C C -1 Maximum module temperature 0x101B 0x101B 1 RW OffsetDiffMax uint16 1 NULL 0 Maximum sampling offset value 0x101C 0x101C 1 RW VUnbal uint16 0.10% % -1 Unbalance rate of grid voltage 0x101D 0x101D 1 RW SoftPStep uint16 0.01KW Kw -2 Software control Power step 0x101E 0x101E 1 RW VMaxII uint16 0.1V V -1 The 2nd maximum operational grid voltage 0x101F 0x101F 1 RW TVmaxTripII uint16 0.01S S -2 The 2nd maximum grid voltage trip time 0x1020 0x1020 1 RW VMinII uint16 0.1V V -1 The 2nd minimum operational grid voltage 0x1021 0x1021 1 RW TVminTripII uint16 0.01S S -2 The 2nd minimum grid voltage trip time 0x1022 0x1022 1 RW FMaxII uint16 0.01Hz Hz -2 The 2nd maximum operational grid frequency 0x1023 0x1023 1 RW TFMaxTripII uint16 0.01S S -2 The 2nd minimum grid frequency trip time 0x1024 0x1024 1 RW FMinII uint16 0.01Hz Hz -2 The 2nd minimum operational grid frequency 0x1025 0x1025 1 RW TFMinTripII uint16 0.01S S -2 The 2nd minimum grid frequency trip time 0x1026 0x1026 1 RW VMaxRcov uint16 0.1V V -1 0x1027 0x1027 1 RW VMinRcov uint16 0.1V V -1 0x1028 0x1028 1 RW VRcovT uint16 0.01S S -2 0x1029 0x1029 1 RW FMaxRcov uint16 0.01HZ HZ -2 0x102A 0x102A 1 RW FMinRcov uint16 0.01HZ HZ -2 0x102B 0x102B 1 RW FRcovT uint16 0.01S S -2 0x102C 0x102C 1 RW FDeratStart uint16 0.01HZ HZ -2 0x102D 0x102D 1 RW FDeratStop uint16 0.01HZ HZ -2 0x102E 0x102E 1 RW LvrtEn uint16 1 NULL 0 LVRT enable 0x102F 0x102F 1 RW VLvrtStart uint16 0.1% % -1 0x1030 0x1030 1 RW GFCIMax uint16 1mA mA -1 0x1031 0x1031 1 RW MPPTScanEN uint16 1 NULL 0 0 1 MPPTScan Enable 0x1032 0x1032 1 RW MPPTTime uint16 1 Min 0 30 540 MPPTScan Cycle 0x1033 0x1033 1 RW PF_PCurveActPw1 uint16 0.1% % -1 0x1034 0x1034 1 RW PF_PCurvePF1 uint16 0.001 NULL -3 0x1035 0x1035 1 RW PF_PCurveActPw2 uint16 0.1% % -1 0x1036 0x1036 1 RW PF_PCurvePF2 uint16 0.001 NULL -3 0x1037 0x1037 1 RW PF_PCurveLockInV uint16 0.1V V -1 0x1038 0x1038 1 RW PF_PCurveLockOutV uint16 0.1V V -1 Built-In Intelligence Flexible Software Proven Reliability Reduce Demand Charges Greater Control Peak shaving software is built-in to the sonnenBatterie pro, adjusting to your usage and rate tariff using self-learning software for optimal results in any facility without changing the way you do business. Our built-in API and utility communication protocols allow for additional applications and implementation of ancillary services (including demand response, frequency regulation, etc.), which help third party providers and utilities achieve their energy management goals. sonnenBatterie products seamlessly integrate with solar and with several thousands units in operation throughout Europe, it is the most ﬁ eld proven smart energy storage product on the market. sonnenBatterie pro enables you to participate in utility demand response programs and control your usage during seasonal peak pricing periods. Using stored energy allows you to manage when and how to use your energy to reduce your costs and your environmental impact. The sonnenBatterie pro Pays for itself with savings Demand Before Demand After Peak Shaving In many regions of the US, the sonnenBatterie pro reduces the high cost of demand charges before you peak by supplying additional power from the battery throughout the day. Off Peak Partial Peak Peak Partial Peak Off Peak Tech Specs Power Unit Output: peak 30 kW (repeatable to 90 kW) Weight: 370 lbs (approx.) Dimensions (in) W/H/D: 28/55/25 General Maximum effciency of inverter: 96 % Ambient temperatures: 41 – 95° F Enclosure Rating: NEMA 12 AC Speciﬁcations: 480 VAC / 3phase / 60 Hz Certiﬁcations UL1741, UL 69201-1, UL 1973 (battery pack), and FCC Part 15 Class B compliant Battery Unit Usable capacity (100 %) DoD: 24 kWh (repeatable to 240 kWh) LiFePO4 battery Weight: 940 lbs (approx) Dimensions (in) W/H/D: 20/55/25 Since its market introduction in 2011, sonnenBatterie has been the German and European market leader and pioneer in fully integrated lithium-ion energy storage systems. The sonnenBatterie pro is the new standard for reliable peak shaving for hotels, restaurants and office buildings of any size. Use it for demand response programs through our integrated API. Our modular design makes it easy to size the system for any facility. *Please observe our applicable warranty conditions Lifespan / Warranty* Guranteed lifetime of 10,000 cycles or 10 years. Common Sizes (kW / kWh) 18/24, 30/48, 30/72, 60/72, 60/120, 90/120, 90/240 Keep an eye on your energy supply: with the sonnen App. With the sonnenApp you can manage and control your energy usage and production. Download the sonnen App to your smartphone or tablet for access to your sonnenBatterie smart energy storage system. The App allows you to monitor, analyze and control the supply and demand of your household or business - anytime, anywhere. DOWNLOAD At Google Play Store DOWNLOAD At iOS App Store Engineered in Germany – Made in the U.S.A. Engineered in the energy village Wildpoldsried, the sonnenBatterie is one of the world's most accepted lithium based energy storage systems. Many thousands of households are using the sonnenBatterie today to safely store their self-produced energy. As a product 'Made in the U.S.A.', the sonnenBatterie fulﬁlls the highest demands on safety and quality thus protecting your investment in the long run. Grid-Resilient 30 kW AC/DC Power Conversion System (PCS) TRANSFORMERLESS ISOLATION The Ideal Power 30B3-4xF PCS utilizes our proprietary Power Packet Switching Architecture (PPSA) to efficiently transfer energy between its AC and DC power ports. PPSA provides port-to-port electrical isolation, eliminating the need for an external isolation transformer. GRID-RESILIENT Beyond the grid-tied functionality described above, the PCS is easily re-configured to support a wide variety of microgrid applications, making it ideal for free-standing off-grid power systems as well as grid-resilient applications in regions where grid quality or grid availability is often compromised. LAUNCH PRODUCTS FASTER! Our robust command/control interface is shared across our second generation PCS family, improving product flexibility while simplifying systems integration and code maintenance. LIGHTEST WEIGHT AND SMALLEST FOOTPRINT ON THE MARKET Our PCS wall-mounted enclosure weighs 125 pounds and is NEMA 3R rated. WORKS GLOBALLY The converter’s nameplate rating of 30 kW supports 480 VAC / 60 Hz 3-phase North American grid standards, and both AC output voltage and AC output frequency are user programmable via the unit’s Modbus interface. For 400 VAC / 50 Hz 3-phase applications found outside of North America, the nominal nameplate rating is 25 kW. idealpower.com Ordering Part Number: 30B3-4xF • Transformerless Isolation • Lightest Weight and Smallest Footprint on the Market • Supports Global Standards - 60 Hz - 50 Hz - On-Grid/Grid Following - Off-Grid/Grid Forming • Designed and Manufactured in the USA 30 kW Bidirectional AC Power Port Maximum AC Power 30 kW at 480 VAC 25 kW at 400 VAC Maximum AC Current 39 Amps Voltage Range Supports 480 VAC , 400 VAC and 380 V AC grid standards Frequency Range Supports 60 Hz, 50 Hz, and 57.5 Hz (HECO) grid standards Power Factor > 0.97 at rated output power Typical Efficiency > 96% Peak Efficiency 97% Tare Losses < 25 W Current Harmonics IEEE 1547 Compliant, < 4% THD at full power Available Control Methods Constant Power, Net Power Off-Grid Mode Voltage Forming / Load Following Bidirectional DC Power Port Maximum DC Power 30 kW Maximum DC Current 50 Amps Absolute Max Voltage (VOC) ± 600 V DC (1200 VDC ) Operating Voltage Range ±100 to ± 500 VDC (200 to 1000 VDC) Full Power Voltage Range ± 300 to ± 500 VDC (600 to 1000 VDC) Available Control Methods Constant Power, Constant Current, MPPT (PV), Net Power Wiring Configuration 4 Wire Bipolar with Integral GFDI Circuit Maximum GFDI Current 1A: fused; trip point is programmable Transient Overvoltage Yes, MOV voltage clamps Environmental Ambient Operating Temp -25 to 40°C full power, reduced power > 40°C Ambient Storage Temp -40 to 70°C (non-operating) Humidity 0 to 100% relative humidity Cooling Forced convection with redundant variable speed fans Enclosure / Rating / Material NEMA-3R / Powder-coated aluminum Certifications UL1741, IEEE1547 General Enclosure Size 23.5" W x 36.5" H x 10.75" D Weight 125 lbs Mounting Wall Mount Isolation Transformer Not Required Control Interface RS-485 / Modbus RTU Warranty 10 years Specifications Grid-Resilient 30 kW AC/DC Power Conversion System (PCS) idealpower.com Ordering Part Number: 30B3-4xF 30 kW DAT-00004 Rev D February 2016 SolrenView Weather Station OPTION SolrenView Weather Station is a real-time weather package which allows customers to view accurate readings of crucial environmental information that affect the performance of your PV system. The weather station comes standard with a solar irradiance sensor as well as temperature sensors for ambient and module measurements. Wind speed and wind direction sensors are options that may be added to the weather station. The weather station is a great educational tool and a must-have for PPAs. Complies with RS-485 SunSpec Environmental Sensor System. Viewable Measurements: • Solar Irradiance • Ambient Temperature • Module Temperature • Wind Speed and Direction (option) Copyright © Yaskawa - Solectria Solar. All information subject to change without notice. November 2015 DOCR-070246-E www.solectria.com | inverters@solectria.com | 978.683.9700 (978) 688.4900 sales@panelclaw.com Manufacturer Thickness Polar Bear Gen II roof pads Polar Bear III 5 Degree roof pads Polar Bear III 10 Degree roof pads 3/8” 3/4” 1/2” Density Polar Bear Gen II roof pads Polar Bear III 5 Degree roof pads Polar Bear III 10 Degree roof pads 0.04 lb/cu in 0.04 lb/cu in 0.04 lb/cu in Polar Bear® Gen II Polar Bear® III 5 Degree Polar Bear® III 10 Degree Salt Spray ASTM B117-95 Testing & Certifications Safety Listings & Certifications UL 1741/IEEE 1547, CSA C22.2#107.1, FCC part 15 B Testing Agency ETL CSA Warranty Standard 10 year Optional 15, 20 year; extended service agreement Enclosure dBA (Decibel) Rating < 50 dBA @ 3 m AC/DC Disconnect Standard, fully-integrated Dimensions (H x W x D) 41.6 in. x 21.4 in. x 8.5 in. (1057 mm x 544 mm x 216 mm) 39.4 in. x 23.6 in. x 9.1 in. (1001 mm x 600 mm x 232 mm) Weight 141 lbs (64 kg) 132 lbs (60 kg) 104 lbs (47.2 kg) 121 lbs (55kg) Enclosure Rating Type 4 Type 4X Enclosure Finish Polyester powder coated aluminum www.solectria.com | inverters@solectria.com | 978.683.9700 approval) Wind Exposure Category B and C (D by approval) Seismic Compatibility C, D, E and F Row Spacing 6.8” (2:1), 10.2” (3:1) Material Options G90 steel and aluminum Warranty, Testing and Certifications 25 year warranty UL 2703 certification Boundary layer wind tunnel testing Third-party engineering review System Fire Rating Class A with Type 1 and Type 2 modules © 2015 PanelClaw, Inc. Made in USA 2:1 Shade Ratio BEST GROUND COVERAGE RATIO 3:1 Shade Ratio 4. The term of the rights granted to you in this Certificate in paragraphs A) and B) starts with the original purchase of the products, insofar as they were purchased by the original end-customer after 11.01.2014. SolarWorld retains the right to adjust voluntary special services in accordance with this document at any time. However, any product purchases, which have already been concluded, remain unaffected by this – including the voluntary special services in accordance with this docu- ment. You can find out about the current status of this document at any time under www.solarworld-usa.com. D - Assertion of claims: The assertion of the services specified under A) and B) requires you (i) to inform the authorized seller/ dealer of the product of the alleged defect in writing, or (ii) to send this written notification directly to the address mentioned in G), if the seller/dealer who should be informed no longer exists (e. g., owing to business closure or insolvency). Any notification of defects is to be added to the original sales receipt as evidence of the purchase and the time of the purchase of the SolarWorld products. The assertion should take place within six weeks of the occurrence of the defect. The connecting factor for the recognition of the occurrence of a defect is acknowledgement of material and/or processing errors for claims from the product guarantee (letter A). For claims from the performance guarantee (letter B) the connecting factor is acknowledgement of the lower performance of the products. The return of products is permitted only after the written consent of SolarWorld has been obtained. E - Use in accordance with this Limited Warranty. 1. The services described above can be ensured only if the product is properly assembled, used and operated. Services provided by SolarWorld must therefore be withdrawn if the defects to the product are not exclusively based on the products themselves; e. g., in the following cases: a. Delays on your part or on the part of the fitter in observing the assembly, operational and maintenance instructions or information, if this leads to defects and/or a loss of the products’ performance. b. Exchange, repair or modification of the products, if this was not undertaken correctly and professionally. c. Incorrect use of the products. d. Vandalism, destruction through external influences and/or persons/animals. e. Incorrect storage or inappropriate transport before installation, if this leads to defects and/or a loss of the products’ performance. f. Damage to the customer system or incompatibility of the customer’s system equipment with the products, if this leads to defects and/or a loss of the products’ performance. g. Use of products on mobile units such as vehicles or ships. h. Influences such as dirt or contamination on the faceplate; contamination or damage by e. g., smoke, extraordinary salt contamination, or other chemicals. i. Force majeure such as flooding, fire, explosions, falling rocks, direct or indirect lightning strikes, or other extreme weather conditions such as hail, hurricanes, whirlwinds, sandstorms or other circumstances outside the control of SolarWorld. 2. The entitlements referred to under A) and B) will not be granted if and as soon as the manufac- turer’s labels or serial numbers on the PV modules have been changed, deleted, peeled off or made unrecognizable. F - Exclusive remedy: The remedies set forth in this Limited Warranty are the exclusive remedies available to you as a product purchaser. SolarWorld shall not be liable for damage, injury or loss arising out of or related to a product except as set forth in this Limited Warranty. In particular, under no circumstances shall SolarWorld be liable for incidental, consequential, special or other indirect damages in any way con- nected with a product. SolarWorld’s aggregate liability, if any, shall be limited to a product’s purchase price or any service furnished in connection with a product, as the case may be. G - Your contacts: To receive service under this Limited Warranty, please contact the authorized seller/dealer of your product or SolarWorld at the following addresses: Customer Service, SolarWorld Americas Inc., 25300 NW Evergreen Road, Hillsboro, OR, 97124, USA. Email: customerservice@solarworld-usa.com. Phone: (855) 467-6527. Fax: (503) 844-3403. H - Choice of law: This Limited Warranty, including without limitation the rights and responsibilities granted hereunder, shall be governed and construed in accordance with the laws of the State of Oregon, without regard to the conflicts of law provisions thereof. I - Validity: The following table contains all the current products to which this Limited Warranty is to be applied. Products, which do not appear in this list, are also not subject to this Limited Warranty. Sunmodule/Sunmodule Plus/black/laminate SW 245 poly SW 250 poly SW 255 poly SW 260 poly SW 265 poly SW 270 poly SW 260 mono SW 265 mono SW 270 mono SW 275 mono SW 280 mono SW 285 mono SW 290 mono SW 295 mono SW 300 mono SW 310 XL mono SW 315 XL mono SW 320 XL mono SW 325 XL mono SW 330 XL mono SW 335 XL mono SW 340 XL mono SW 345 XL mono SW 350 XL mono SW 355 XL mono J - Exclusion of liability: This Limited Warranty is expressly intended to exclude all other express or implied warranties, includ- ing without limitation the warranties of merchantability and fitness for a particular purpose, to the periods set forth herein. This Limited Warranty gives you specific legal rights, and you may also have other rights which vary from state-to-state. Some states do not allow limitations on implied warran- ties or the exclusion or limitation of damages, so some of the above limitations may not apply to you. K - Severability: If any provision of this Limited Warranty is held unenforceable or illegal by a court or other body of competent jurisdiction, such provisions shall be modified to the minimum extent required such that the rest of this Limited Warranty will continue in full force and effect. Hillsboro, 11.01.2014 Mukesh Dulani President SolarWorld Americas Inc. Ardes Johnson Vice President, Sales and Marketing SolarWorld Americas Inc. SW-02-5029US 04-2015 1.14 (29) 0.43 (11) 1.30 (33) SW 340-350 XL MONO - + 78.46 (1993) 4x 37.8 (961) 47.24 (1200) ∅ 0.26 (6.6) ∅ 0.35 (9) 0.39 x 0.27 (10 x 7) (4) 11.53 (292.85) 15.63 (397) 15.63 (397) 15.75 (400) 4.20 (106.65) 15.73 (399.50) ∅ 0.35 (9) 39.4 (1001) 1.30 (33) BODILY INJURY (Per accident) PROPERTY DAMAGE $ $ $ $ THIS IS TO CERTIFY THAT THE POLICIES OF INSURANCE LISTED BELOW HAVE BEEN ISSUED TO THE INSURED NAMED ABOVE FOR THE POLICY PERIOD INDICATED. NOTWITHSTANDING ANY REQUIREMENT, TERM OR CONDITION OF ANY CONTRACT OR OTHER DOCUMENT WITH RESPECT TO WHICH THIS CERTIFICATE MAY BE ISSUED OR MAY PERTAIN, THE INSURANCE AFFORDED BY THE POLICIES DESCRIBED HEREIN IS SUBJECT TO ALL THE TERMS, EXCLUSIONS AND CONDITIONS OF SUCH POLICIES. LIMITS SHOWN MAY HAVE BEEN REDUCED BY PAID CLAIMS. INSD ADDL WVD SUBR N / A $ $ (Ea accident) (Per accident) OTHER: THIS CERTIFICATE IS ISSUED AS A MATTER OF INFORMATION ONLY AND CONFERS NO RIGHTS UPON THE CERTIFICATE HOLDER. THIS CERTIFICATE DOES NOT AFFIRMATIVELY OR NEGATIVELY AMEND, EXTEND OR ALTER THE COVERAGE AFFORDED BY THE POLICIES BELOW. THIS CERTIFICATE OF INSURANCE DOES NOT CONSTITUTE A CONTRACT BETWEEN THE ISSUING INSURER(S), AUTHORIZED REPRESENTATIVE OR PRODUCER, AND THE CERTIFICATE HOLDER. IMPORTANT: If the certificate holder is an ADDITIONAL INSURED, the policy(ies) must be endorsed. If SUBROGATION IS WAIVED, subject to the terms and conditions of the policy, certain policies may require an endorsement. A statement on this certificate does not confer rights to the certificate holder in lieu of such endorsement(s). COVERAGES CERTIFICATE NUMBER: REVISION NUMBER: INSURED PHONE (A/C, No, Ext): PRODUCER ADDRESS: E-MAIL FAX (A/C, No): CONTACT NAME: NAIC # INSURER A : INSURER B : INSURER C : INSURER D : INSURER E : INSURER F : INSURER(S) AFFORDING COVERAGE SHOULD ANY OF THE ABOVE DESCRIBED POLICIES BE CANCELLED BEFORE THE EXPIRATION DATE THEREOF, NOTICE WILL BE DELIVERED IN ACCORDANCE WITH THE POLICY PROVISIONS. INS025 (201401) 5/13/2016 Bolder Insurance 800 Jefferson Ave Louisville CO 80027 Kim Foster (303)449-9595 (303)494-7759 Custom Solar 2840 Wilderness Place Suite F Boulder CO 80301 James River Insurance Co. American Southern Ins. Co. CL163702514 A X X Errors & Omissions X 00062541-1 5/25/2015 5/25/2016 1,000,000 Each Claim 1,000,000 Kim Foster/ANNAB For Information Only BODILY INJURY (Per accident) PROPERTY DAMAGE $ $ $ $ THIS IS TO CERTIFY THAT THE POLICIES OF INSURANCE LISTED BELOW HAVE BEEN ISSUED TO THE INSURED NAMED ABOVE FOR THE POLICY PERIOD INDICATED. NOTWITHSTANDING ANY REQUIREMENT, TERM OR CONDITION OF ANY CONTRACT OR OTHER DOCUMENT WITH RESPECT TO WHICH THIS CERTIFICATE MAY BE ISSUED OR MAY PERTAIN, THE INSURANCE AFFORDED BY THE POLICIES DESCRIBED HEREIN IS SUBJECT TO ALL THE TERMS, EXCLUSIONS AND CONDITIONS OF SUCH POLICIES. LIMITS SHOWN MAY HAVE BEEN REDUCED BY PAID CLAIMS. INSD ADDL WVD SUBR N / A $ $ (Ea accident) (Per accident) OTHER: THIS CERTIFICATE IS ISSUED AS A MATTER OF INFORMATION ONLY AND CONFERS NO RIGHTS UPON THE CERTIFICATE HOLDER. THIS CERTIFICATE DOES NOT AFFIRMATIVELY OR NEGATIVELY AMEND, EXTEND OR ALTER THE COVERAGE AFFORDED BY THE POLICIES BELOW. THIS CERTIFICATE OF INSURANCE DOES NOT CONSTITUTE A CONTRACT BETWEEN THE ISSUING INSURER(S), AUTHORIZED REPRESENTATIVE OR PRODUCER, AND THE CERTIFICATE HOLDER. IMPORTANT: If the certificate holder is an ADDITIONAL INSURED, the policy(ies) must be endorsed. If SUBROGATION IS WAIVED, subject to the terms and conditions of the policy, certain policies may require an endorsement. A statement on this certificate does not confer rights to the certificate holder in lieu of such endorsement(s). COVERAGES CERTIFICATE NUMBER: REVISION NUMBER: INSURED PHONE (A/C, No, Ext): PRODUCER ADDRESS: E-MAIL FAX (A/C, No): CONTACT NAME: NAIC # INSURER A : INSURER B : INSURER C : INSURER D : INSURER E : INSURER F : INSURER(S) AFFORDING COVERAGE SHOULD ANY OF THE ABOVE DESCRIBED POLICIES BE CANCELLED BEFORE THE EXPIRATION DATE THEREOF, NOTICE WILL BE DELIVERED IN ACCORDANCE WITH THE POLICY PROVISIONS. 5/13/2016 Commercial Risk Solutions 6600 E Hampden Ave Ste 200 Denver CO 80224 Custom Solar LLC 2840 Wilderness Place, Ste F Boulder CO 80301 Westfield Insurance Pinnacol Assurance 24112 41190 Demetra Ramey 303-996-7859 303-757-7719 DRamey@crsdenver.com CUSTS-2 1702769023 A CWP0126513 11/10/2015 11/10/2016 1,000,000 500,000 5,000 1,000,000 2,000,000 2,000,000 X X X A X X X CWP0126513 11/10/2015 11/10/2016 1,000,000 A X X X 0 CWP0126513 11/10/2015 11/10/2016 1,000,000 1,000,000 B Y 4160305 12/1/2015 12/1/2016 X 1,000,000 1,000,000 1,000,000 All policy terms, conditions and exclusions apply. For Information Only