Pegasus Rail System Installation Manual
Specifications
| Specification | Details |
|---|---|
| Certification | CSA |
| Torque Requirement | 280-300 in-lbs |
Overview
The Pegasus Rail System is engineered to mechanically attach solar PV modules to residential and commercial sloped roofs. The system may be used to ground and bond solar PV modules complying with UL 2703 when the specific module has been evaluated for grounding and/or bonding in compliance with this manual. A list of evaluated modules is located in Appendix A. The installed mounting system and solar PV array should be inspected periodically for loose components, debris build-up (such as under the PV modules), and any corrosion. Any loose components, excessive debris, or corrosion should be remedied immediately by a licensed contractor.
Disclaimer
Visit www.pegasussolar.com for more information.
The Installer is Responsible For:
- Ensuring all electrical components are installed by a licensed and bonded electrician or solar contractor.
- Ensuring all work complies with national, state and local installation laws and codes, and all work complies with all applicable local or national building and fire codes, including any that may supersede this document.
- Ensuring all information provided about the jobsite was accurately used in determining the compatibility of the system and the rail and mount spans.
- Ensuring all components are installed in accordance to this installation manual, and the spacing and use of mounts and rails are in compliance with Pegasus engineering span tables for the specific attributes of the solar array (e.g. wind load, building exposure, etc.).
- Using only Pegasus Solar components – substituting any components will void the Warranty unless explicated stated by Pegasus in writing.
- Providing an appropriate method of direct-to-earth grounding according to the latest edition of the National Electrical Code, including NEC 250: Grounding and Bonding, and NEC 690: Solar Photovoltaic Systems.
- Ensuring bare copper grounding wire does not contact aluminum components.
- Ensuring PV modules and module-level power electronics are installed in compliance with the respective manufacturers installation manual and warranty terms and conditions.
- Not breaking the bonding path of the array during periodic maintenance.
- Upon maintenance of a Pegasus installed system, checking for loose components, excessive debris, and corrosion. The installer shall re tighten any loose components immediately; remove any excess debris immediately, and replace any corroded components immediately.
- Ensuring all AC power is disconnected before servicing PV modules, wiring, and any module-level power electronics.
Certifications / Code Compliances / Product Identification
BONDING AND GROUNDING
- Conforms to UL 2703, Ed. 1 Standard for Safety First Edition: Mounting Systems, Mounting Devices, Clamping/ Retention Devices, and Ground Lugs for Use with Flat-Plate Photovoltaic Modules and Panels.
- Certified to LTR AE-001-2012 Photovoltaic Module Racking Systems
- Max Overcurrent Protective Device (OCPD) Rating: 25A
- Max Module Size: 24f2; Max Frameless Module Size for Canadian LTR-AE: 19.5 ft2
- Module Orientation: Portrait or Landscape
- System Level Allowable Design Load Rating: see PE stamped certification letters defining the actual system structural capacity (see Appendix B)
- Ground Lug conforms to UL 467, CLASS A SYSTEM FIRE RATING PER UL2703 & UL1703
- Any roof slope with Module Type 1, Type 2, Type 29, Type 30 US
- Any module-to-roof gap; no deflectors required
- This rating is applicable with any third-party attachment
- Class A rated PV systems can be installed on Class A, B, and C roofs without affecting the roof fire rating
STRUCTURAL CERTIFICATION
- Designed and Certified for Compliance with the International Building Code, ASCE 7-10 & ASCE 7-16
- For dual-rail installations, up to 2 PV modules per pair of 7′ of rails are allowed
- See PE Certified Span Tables in Appendix C for load ratings and details. WATER SEAL RATINGS: AC286
- Comp Mount has been tested and evaluated without sealant for roof slopes between 2:12 and 12:12
Certifications and Code Compliance
The Pegasus Rail System complies with all relevant standards and certifications, ensuring safety and reliability.
Product Identification
Product identification can be made by looking at the top of the Multi-Clamp:
- Pegasus Logo above bolt head
- Model Name: “PRS”
- Lot Code: e.g. “A20-4”
- UL 2703 listing: CSA Mark
Required Tools
- Roofing Chalk
- String Line
- Measuring Tape
- 1/2” Deep Socket
- Torque Wrench
- Drill Driver
- Drill
- Jobber Bit
Components and Installation Torque Requirements
Rails and Splices
For use on sloped asphalt or composite shingle roofs. For installation instructions and training videos, please visit www.pegasussolar.com
| Pegasus Rail | Pegasus Max Rail | Splice | Max Splice |
| 6′ Spans up to 110 mph* | 6′ Spans up to 130 mph* | Structural, Non-interfering | Structural, Non-interfering |
| 4′ Spans up to 130 mph* | 4′ Spans up to 170 mph* | No Tools | No Tools |
| UL2703 Listed | UL2703 Listed | UL2703 Listed | UL2703 Listed |
Rail Components
For use on sloped asphalt or composite shingle roofs. For installation instructions and training videos, please visit www.pegasussolar.com
| Multi-Clamp | Hidden End Clamp | MLPE Mount | Dovetail T-Bolt |
| Mid and End Clamp
30-40mm PV modules |
Any PV module with frame flange | Compatible with most
MLPE devices |
For use with any mount or attachment |
| UL2703 Listed | UL2703 Listed | UL2703 Listed | UL2703 Listed |
| 1/2″ Socket
Torque: 100 -130 in-lbs. |
1/2″ Socket
Torque: 150-180 in-lbs. |
1/2″ Socket
Torque: 150-180 in-lbs. |
1/2″ Socket
Torque: 280-300 in-lbs. |
| Wire Clip | Cable Grip | Ground Lug | N-S Bonding Jumper | End Cap & Max End |
| Holds wires in Rail | Holds two trunk cables | 6 & 8 AWG Copper Wire | Bonds PV modules | 5 GPM drainage rate |
| UV stable and fire resistant | Holds four PV wires | UL2703 Listed | UL2703 Listed | UV stable and fire resistant |
|
No tools |
1/2″ Socket Torque: 150-180 in-lbs. | 1/2″ Socket Torque: 150-180 in-lbs. |
No tools |
No tools |
Rail Clamp
For use on sloped asphalt or composite shingle roofs. For installation instructions and training videos, please visit www.pegasussolar.com
| SkipRail Clamp | SkipRail Clamp w/ Kickstand |
| For SkipRail Installation method | For SkipRail Installation method |
| UL2703 Listed only with Pegasus Rail System | UL2703 Listed only with Pegasus Rail System |
| 1/2″ Socket Torque: 130-150 in-lbs. | 1/2″ Socket Torque: 130-150 in-lbs. |
UL2703 Listed Roof Attachments
For use on sloped asphalt or composite shingle roofs. For installation instructions and training videos, please visit www.pegasussolar.com
| lnstaflash | Comp Mount |
| For Comp Shingle Roofs | For Comp Shingle Roofs |
| UL2703 Listed with Dovetail T-bolt | UL2703 Listed with Dovetail T-bolt |
| Tile Scissor Mount | Tilt-Leg Kit with L-foot | Tilt-Leg Kit for lnstaflash |
| For Concrete Tile Roofs | For flat roof applications | For flat roof applications |
|
UL2703 Listed with Dovetail T-bolt |
UL2703 Listed with Dovetail T-bolt
Torque: see install instructions |
UL2703 Listed with Dovetail T-bolt
Torque: see install instructions |
Compatible Mounts
Comp Mounts – Black and Mill
For use on sloped asphalt or composite shingle roofs. For installation instructions and training videos, please visit www.pegasussolar.com
Tile Scissor Mounts – Flat, S, and W Tile Roof Profiles
For use on sloped concrete and clay tile roofs. For installation instructions and training videos, please visit www.pegasussolar.com
Third-Party Mounts and Attachments
When using a third-party attachment or mount, refer to the manufacturer’s installation manual. The Dovetail T-bolt is required to attach the Rails to any third-party attachment or mount. It is the installer’s responsibility to compare the load rating and span tables of the Pegasus Rail to the third-party attachment ratings and use the lesser of the two ratings when designing the system.
Installation Process
Rail and T-Bolt Installation
- Place Dovetail T-Bolt in the slot of the L-Foot or other attachment.
- Insert the T-bolt into the rail slot and hand tighten.
- Install additional rows of Rails spaced per PV module manufacturer’s requirements.
- Level Rail rows using a stringline.
- Tighten the Dovetail T-bolt to 280-300 in-lbs with a 1/2″ socket.
- Leave a 1″ thermal break every 36ft of continuous Rails sections
- Thermal break must be offset 1″ or more from attachment PV wires and MLPE trunk cables can be placed into the channel of the rail
The flanges of the Multi-Clamp will protect wires from the bolt after tightening Partially protect for frames ≤32mm
MPLE Mount Installation
- Position the MLPE Mount perpendicular to the rail opening, place on rail, and turn clockwise 90 degrees
- Install the MLPE device to the MLPE Mount and tighten the bolt to 150-180 in-Ibs with a 1/2″ socket
Route wires before or after installing the MLPE
Cable Grip
- Like the MLPE Mount, twist-lock the Cable Grip into the open channel of the Rail
- Cable Grip can be used to secure up to two trunk cables or four PV wires, and firmly secures and home runs and
- Press firmly on top of Wire Clip lock into Rail. Use a screwdriver or similar tool through the hole to pry-out the Wire Clip if necessary.
Ground Lug Installation
- The Ground Lug comes preinstalled on a MLPE Mount. Determine best position for ground wire (e.g. near J-box); install the Ground Lug onto Rail.
- Run a 8 or 6 gauge copper ground wire from each Ground Lug to the J-box for connection to earth ground; tighten to 150-180 in-ibs with a 1/2″ socket
- Alternatively, remove the Ground Lug from the MLPE Mount and use a Dovetail T-bolt to attach the it to the Rail; tighten to 250-280 in- Ibs with a 1/2″ socket
Multi-Cap Installation
- Align the Multi-Clamp parallel with the rail, then insert into the rail channel
- Push down and turn the Multi Clamp clockwise 90 degrees
- Multi-Clamp will click when it is engaged. Slide the Multi-Clamp up snug to the PV module frame
Hidden EndCap Installiation
- After cutting the Rail to align with the edge of the to-be place PV module; slide the HEC into to the Rail opening, then place the PV module into position
- Pull the tab until the HEC is fully engaged with the PV module frame, then hook the nearest Pull tab tooth onto the edge of the Rail
- Tighten the HEC bolt with a 1/2″ socket to 150-180 in-lbs. Then un- hook the pull-tab and fold it intothe Rail opening.
Dual Rail Installation
- Place the first PV module at the beginning of the row of Rails
- Install Multi-Clamp in Rail and slide flush against PV module. Tighten clamp with 1/2″ socket to 100-130 in- Ibs. Ensure Multi-Clamp is in the “End Clamp” orientation (see Multi-Clamp Installation).
- Install Multi-Clamp into Rail on the opposite side of the PV module. Place next PV module on rail and snug against Multi-Clamp, then tighten Multi-Clamp with 1/2″ socket to 100- 130 in-Ibs.
- Repeat the previous steps until the row is finished
- Start the next row of panels. At least a 1/4″ gap shall be between each row of PV modules.
- Continue the above steps for every row of modules until array is complete
Skip Rail Installation
- Mark the array layout. For the first installed row or partial row of PV modules, install Rail 1 and Rail 2 in the typical method, spacing the rails per the PV module manufacturer’s mounting location instructions.
- For Rails 3 and higher, space the Rails so D2 = up-roof length of the module + 5 inch- es. For example, for a PV module in portrait that is 68″ long, space the 3rd, 4th, 5th, etc. Rail at D2 = 63″ to 73″ from the previous Rail. For a PV module in landscape that is 40″ wide, space the 3rd, 4th, 5th, etc. Rail at D2 = 35″ to 45″ from the previous Rail. There shall always be at least one Rail supporting each PV module. In all cases, D3 > 3″, where D3 is the distance from the outer edge of the PV module frame to center of the Rail.
- Install the first row of PV modules as normal, ensuring the PV module cantilever distance D1 meets the PV module manufacturers requirements.
- At the end of each row of PV modules, or where a gap between PV modules exists: Portrait Panels: install a SkipRail Clamp 0.0″ to 0.5″ from the edge of the panel. Landscape Panels: install SkipRail Clamp 0.0″ up to 25% of the long side of the panel from the edge of the pane Tighten the SkipRail Clamp bolt to 130-150 in-lbs. with a 1/2″ socket.
- Within the above-row of PV modules, install a SkipRail Clamp centered across where the to-be-installed above row of PV modules will be placed. Tighten the SkipRail Clamp bolt to 130-150 in-lbs. with a 1/2″ socket.
- Install the next row of PV modules into the open side of the SkipRail Clamp, then lower onto the Rail. Tighten Multi-Clamps as previously described.
- Finish installing all PV modules
- Example mixed orientation array on a Comp Shingle roof. Any set of panels that are the first row in their column
- Example mixed orientation array with pipe-vent clearance on a Tile roof. Any set of panels that are the first row in their column shall be installed using the standard Dual Rail method as shown on the right hand side of this array.
N-S Bonding Jumper Installation (optional)
- Attach Bonding Jumpers on the underside of PV modules in adjacent rows
- From under the PV module, align the Jumper with the frame lip of each PV module
- Firmly press each side of the Jumper onto each PV module frame until fully seated
End Cap Installation
- Line the tabs on the end cap up with the hollow part of the rail
- Press firmly until the End Cap is fully seated against the Rail
Alternative Lug
- A WEEB-LUG-8.0 or equivalent can be installed onto the MLPE Mount in the Rail; tighten MLPE bolt with a 1/2″ socket to 150-180 in-Ibs. Install ground wire and tighten lug bolt to 84 in-lbs.
- A WEEB-LUG-8.0 or equivalent can be installed onto the Dovetail T-bolt; tighten the T-bolt with a 1/2″ sock- et to 250-280 in-Ibs. Install ground wire and tighten lug bolt to 84 in-lbs.
Tilt Leg Kit
Ground Lug & N-S Bonding Jumper
Multi-Clamps bond adjacent PV modules to one another and to the Rail. The Splice provides a bond connection between two Rail sections, including when a 1″ thermal gap is utilized. The N-S Bonding Jumper will provide a bonding path between rows of PV modules, so that one Ground Lug per array is necessary for earth ground. If a thermal break is left between two sections or Rail, the Multi-Clamps will provide a bond path across the two Rails through the PV module frame.
The N-S Bonding Jumper may only be used with the Pegasus Rail System, and is not certified for use with any other mounting system.
If the N-S Bonding Jumper needs to be removed during maintenance, a second N-S Bonding Jumper shall first be installed on the opposite end of the row or PV modules, or the array should be disconnected from A/C power.
Ground Lug for each PV Module Row
Multi-Clamps bond adjacent PV modules to one another and to the Rail. The Splice provides a bond connection between two Rail sections, including when a 1″ thermal gap is utilized. One Ground Lug is required per row of PV Modules, with a final earth ground connection at the terminal end of the ground wire. If a thermal break is left between two sections or Rail, the Multi-Clamps will provide a bond path across the two Rails through the PV module frame.
Skip Rail System
Multi-Clamps bond adjacent PV modules to one another and to the Rail. The Splice provides a bond connection between two Rail sections, including when a 1″ thermal gap is utilized. The SkipRail Splices will provide a bonding path between rows of PV modules, so that one Ground Lug per array is necessary for earth ground. If a thermal break is left between two sections or Rail, the Multi-Clamps will provide a bond path across the two Rails through the PV module frame.
Using Emphase Product
Multi-Clamps bond adjacent PV modules to one another and to the Rail. The Splice provides a bond connection between two Rail sections, including when a 1″ thermal gap is utilized. The MLPE Mount creates a bond connection to the MLPE. When using Enphase products, Ground Lug, N-S Bonding Jumpers, or other equipment ground conductors (EGC) are not required, and the use of the Enphase products satisfies the UL2703 bonding and grounding requirements.
Compatible Enphase products:
- Microinverters M250-72, M250-60, M215-60, C250-72; with Engage cables ETXX-240, ETXX-208, ETXX-277
Tilt Leg Kit
Multi-Clamps bond adjacent PV modules to one another and to the Rail. The Splice provides a bond connection between two Rail sections, including when a 1″ thermal gap is utilized. One Ground Lug is required per row of PV Modules, with a final earth ground connection at the terminal end of the ground wire. If a thermal break is left between two sections or Rail, the Multi-Clamps will provide a bond path across the two Rails through the PV module frame. Lower Tilt Leg Bracket bonds to the lower Rail. Upper Tilt Leg Bracket bonds the upper Rail to the Tilt Leg.
Splice Installation
- Splice can be installed anywhere in a span but must be used between two mounts (not in a cantilevered section of rail).
- Insert the Splice into the first Rail up to the bump-stop (halfway). Push a second Rail onto the Splice up to the bump-stop.
Rail Cantilever
- For cantilevered ends of rail:
- Min. cantilever: 4.5in
- Max. cantilever: 24in
Thermal Break
- Leave a 1” thermal break every 36ft of continuous Rails sections.
- Thermal break must be offset 1” or more from attachment.
Wire Management
- PV wires and MLPE trunk cables can be placed into the channel of the rail.
- The flanges of the Multi-Clamp will protect wires from the bolt after tightening.
Appendix A – Compatible PV Mod
Pegasus Rail System may be used to ground a PV module complying with UL 2703 only when the specific module has been evaluated for grounding and/or mounting in compliance with this installation manual. Unless otherwise specified, “xxx” refers to the power rating of the PV module. Both black & silver frames are included in the UL2703 listing.
| Manufacturer | Model |
| Auxin | AXN6M612Txxx |
| Aptos | DNA-144-BF26-xxxW; DNA-144-MF26-xxxW; DNA-120-BF26-xxxW; DNA-120-MF26-xxxW; DNA-120-MF10-xxxW; DNA-120-BF10-xxxW; DNA-108-BF10-xxxW; DNA- 108-MF10-xxxW; DNA-120MF23-xxxW |
| Axitec | AC-xxxM/156-60S; AC-xxxM/60S; AC-xxxMH/120S; AC-xxxMH/144S; AC-xxxMBT/108V |
| Boviet | BVM6610M-xxx; BVM6610P-xxx |
| Canadian Solar | CS1H-xxxMS; CS1K-xxxMS; CS1Y-xxxMS; CS3K-xxxMS; CS3U-xxxMS; CS6K-xxxM; CS6K-xxxMS; CS6K-xxxP; CS6U-xxxM; CS6U-xxxP; CS6X-xxxM; CS6X-xxxP; BiHiKu CS3W-xxxMB-AG; CS3L-xxxMS; CS6R-xxxMS; CS3W-xxxPB-AG; CS3W-xxxP; CS3W-xxxMS; CS3L-xxxP; CS3L-xxxMS; CS3N-xxxMS; CS6W-xxxMB-AG; CS7N- xxxMB-AG; CS6.1-54TM-xxxH; CS6.1-60TM-xxxH |
| CertainTeed | CTxxxHC11-04; CTxxxM10-02; CTxxxM11-02; CTxxxM11-03; CTxxxHC00-04; CTxxxHC12-06; CTxxxHC11-06; CTM10440HC11-09 |
| Chint Solar | CHSM6612M-xxx |
| Freedom Forever | FF-MP-BBB-xxx |
| Hansol | HSxxxTD-AN3 |
| Heliene | Heliene20M xxx; Heliene36M xxx; Heliene36P xxx; Heliene60M xxx; Heliene60P xxx; Heliene72M Bifacial xxx; Heliene72P xxx; Heliene96M xxx Bifacial; Heliene96M
xxx; Heliene 96P xxx; HSPE-144M M6 HC Bifacial xxx; HSPE 120M M6 HC Monofacial xxx; 144HC-M10-Bifacial; 460-144M-HC-M6 |
| Hyperion | HY-DH108P8B-xxx |
| Hyundai | HiD-SxxxRG(BK); HiS-MxxxRG; HIS-SxxxKI; HiS-SxxxRG; HiS-SxxxRG(BK); HiS-SxxxRI; HiS-SxxxTI; HIA-SxxxHI; HiS-SxxxXG(BK); HiN-SxxxXG(BK); HiS-SxxxYH(BK); HiS-SxxxYH(BK) |
| Imperial Star | ISM7-SHDD108-xxx/M; ISM7-SHSB 108-xxx/M |
| JA Solar | JAM72S01-xxx/PR; JAP72S01-xxx/SC; JAM72D20-xxx/MB; JAM54S30-xxx/LR |
| Jinko | JKMxxxM-60; JKMxxxM-60B; JKMxxxM-60BL; JKMxxxM-60HBL; JKMxxxM-60HL; JKMxxxM-60L; JKMxxxM-60-V; JKMxxxM-72; JKMxxxM-72HL-V; JKMxxxM-72H-V; JKMxxxM-72-V; JKMxxxP-60; JKMxxxPP-60; JKMxxxN-6RL3; JKMxxxM-6RL3-B; JKMxxxM-7RL3-TV; JKMxxxM-72HBL-V; JKMxxxN-54HL4-B |
| LG | LGN 1K-G4; LGS1C-AS; LGxxxA1C-A5; LGxxxE1C-AS; LGxxxE1K-AS; LGxxxN1C-A3; LGxxxN1C-AS; LGxxxN1C-B3; LGxxxN1C-G3; LGxxxN1C-G4; LGxxxN1C-V5; LGxxxN1C-Z4; LGxxxN1 K-AS; LGxxxN1 K-G4; LGxxxN1 K-VS; LGxxxN1K-Z4; LGxxxN2T-A5; LGxxxN2W-A5; LGxxxN2W-G4; LGxxxN2W-V5; LGxxxN2W-L5; LGxxx01C- AS; LGxxxO1 C-VS; LGxxxO1 K-AS; LGxxxO1K-VS; LGxxxS1C-A5; LGxxxS1 C-G4; LGxxxS2W-A5; LGxxxN1K-LS; LGxxxNIC-NS; LGxxxM1 K-A6; LGxxxN1K-B6; LGxxxO1 C
-A6; LGxxxxOAC-A6; LGxxxOAK-A6; LGxxxM1C-A6; LGxxxN2W-E6; LGxxxN2T-E6; LGxxxN1K-E6; LGxxxN3K-V6; LGxxxN1C-A6 |
| Longi | LR6-60BP-xxx; LR6-60HPB-xxx; LR6-60HPH-xxx; LR6-60PB-xxx; LR6-60PE-xxx; LR6-60-xxx; LR4-60HPH-xxxM; LR4-HPB-xxxM; LR4-72HPH-xxxM; LR4-72HBD-xxxM; LRS- 54HPH-xxxM; LR5-72HBD-xxxM; LR5-54HABB-xxxM; LR5-54HPB-xxxM; LR7-72HGD-xxxM |
| Maxeon | SPR-MAX3-xxx-COM; SPR-MAX3-xxx-BLK; SPR-MAXS-xxx-COM; SPR-MAX6-xxx-COM; SPR-X21 /22-xxx-COM; SPR-MAX3-XXX-BLK-R; |
| Meyer Burger | MB_B120AyB_xxx; MB_TG120ByB_xxx; MB_W120AyB_xxx |
| Mission Solar | MSE60Axxx; MSExxxSB1A; MSExxxSO6J; MSExxxSOSK; MSExxxSOST; MSExxxSOSK; MSExxxSOST; MSExxxSO9S; MSExxxSX6S; MSExxxSX6W; MSExxxSXST; MSExxxSXSK; MSExxxSXSR; MSExxxSX6Z; MSExxxSX9R; MSExxxSX9Z; MSExxxSR9S; MSExxxSRSK; MSExxxSRST; MSExxxHTOB |
| Mitrex | Mxxx-L3H; Mxxx-I3H; Mxxx-H1H; Mxxx-B1F; Mxxx-A1 F |
| mSolar | TXl10-xxx108BB |
| Panasonic | VBHNxxxKA01; VBHNxxxKA03; VBHNxxxSA16; VBHNxxxSA16B; VBHNxxxSA17; VBHNxxxSA17E; EVPVxxx; EVPVxxxK; EVPVxxxPK; EVPVxxxH; EVPVxxxHK;
EVPVxxxPK |
| Philadelphia Solar | PS-M60(BF)-xxx; PS-M72(BF)-xxx |
| OCells | O.Peak 265; O.PEAK BLK-G3.1 xxx; O.PEAK BLK-G4.1 xxx; O.PEAK DUO BLK-GS xxx; O.PEAK DUO BLK-GS/SC xxx; O.PEAK DUO BLK-G6+ xxx;0 PEAK DUO G6+ xxx AC ENP 107+;0 PEAK DUO BLK G9+ xxx; O.PEAK DUO L-GS.2 xxx; O.PEAK DUO L-GS.3 xxx; O.Peak Duo-GS xxx; O.PEAK DUO-GS/SC xxx; O.PEAK DUO-G7 xxx; O.PEAK G4.1 xxx; O.PEAK G4.1/ Max xxx; O.PEAK G4.1/SC xxx; O.PEAK G4.1/TAA xxx; O.PEAK L-G4.2 xxx; O.PLUS BFR G4.1 xxx; O.PLUS BFR-G4.1/TAA xxx; O.PLUS L-G4.1 xxx; O.PLUS L-G4.2 xxx; O.PLUS L-G4.2/TM xxx; O.PRO BFR-G4.1 xxx; O.PEAK DUO L-GS.2 xxx; O.PEAK DUO BLK-GS xxx; O.PEAK DUO BLK-GS+ xxx; O.PEAK DUO BLK ML G9 xxx; O.PEAK DUO BLK ML G9+ xxx; O.PEAK DUO BLK-G10 xxx; O.PEAK DUO BLK-G10+ xxx; O.Peak DUO ML-G10+; O.Peak DUO BLK ML-G10.a+; O.Peak Duo XL G10 xxxBFG; O.PEAK DUO-G10 xxx; O.PEAK DUO-G10+ xxx; O.PEAK DUO-G10.a xxx; O.PEAK DUO-G10.a+ xxx; O.PEAK DUO BLK
-G10.a xxx; O.PEAK DUO BLK-G10.a+ xxx; O.PEAK DUO ML-G10 xxx; O.PEAK DUO ML-G10.a xxx; O.PEAK DUO ML-G10.a+ xxx; O.PEAK DUO BLK ML-G10 xxx; O.PEAK DUO BLK ML-G10+ xxx; O.PEAK DUO BLK ML-G10.a xxx; O.Peak Duo ML-G10+/txxx; O.Tron BLK M-G2+ xxx; O.Tron M-G2+ xxx; O.TRON BLK M-G2+; OTRON M-G2+; O.TRON XL-G2.3/BFG;0 PEAK DUO XL-G11 S.3/BFG; O.PEAK DUO XL-G11.3/BFG;0 PEAK DUO XL-G11.3 |
| Manufacturer | Model |
| REC | RECxxxNP; RECxxxNP Black; RECxxxPE; RECxxxPE 72; RECxxxPE(BLK); RECxxxTP; RECxxxTP BLK; RECxxxTP2; RECxxxTP2 BLK; RECxxxTP2 BLK 02; RECxxxTP2
BLK2; RECxxxTP2M; RECxxxTP2S 72; RECxxxAA; RECxxxAA Pure; RECxxxAA Black; RECxxxAA 72; RECxxxAA PURE-R; RECxxxNP3 Black; RECxxxNP2 Black; RECxxxNP2; RECxxxAA Pure-RX; RECxxxAA Pure 2 |
| S-Energy | SNxxxM-10; SNxxxM-10(B); SNxxxM-10T; SC20-60MBE-xxxM |
| SEG | SEG-xxx-BMA-HV; SEG-xxx-BMA-TB; SEG-xxx-BMA-BG; SEG-xxx-BMB-HV; SEG-xxx-BMA-BG; SEG-xxx-BMD-HV_; SEG-xxx-BMD-TB; SEG-xxx-BMB-BG; SEG-xxx- BMC-HV; SEG-xxx-BMC-TB; SEG-xxx-BMC-BG; SEG-xxx-BTD-BG; SEG-xxx-BTB-BG |
| Silfab | SILxxxBL; SILxxxNL; SLAxxxM; SLAxxxM; SLGxxxM; SSAxxxM; SIL-xxxNX; SIL-xxxHL; SIL-xxxNX; SIL-xxxBK; SIL-xxxHC; SIL-xxxHC+; SIL-xxxBG; SIL-xxxHN; SIL-xxxHM; SIL-520OM;; SIL-xxx-OD |
| Sonali | SS-XXXW-M60 M10 |
| Solar4America | S4Axxx-72MHSBB, S4Axxx-60MHSBB; S4Axxx-108MH10BB; S4Axxx-144MH10STT; S4Axxx-108TH10BB; S4Axxx-144TH10STT |
| SolarEver | SE-182*91-xxxM-108N; SE-166*83-xxxM-144 |
| Solaria | PowerXT-xxxR-AC; PowerXT-xxxR-BD; PowerXT-xxxR-BX; PowerXT-xxxR-PD; PowerXT-xxxR-PX; PowerXT-xxxR-PM; PowerXT-xxxR-PL; PowerX-xxxR |
| SunPower | SPR-Axxx-G-AC; SPR-E19-xxx; SPR-E19-xxx-D-AC; SPR-E20-xxx; SPR-E20-xxx-C-AC; SPR-E20-xxx-COM; SPR-E20-xxx-D-AC; SPR-E20-xxx-E-AC; SPR-X20-xxx-D-AC; SPR-X20-xxx-E-AC; SPR-X21-xxx; SPR-X21-xxx-BLK; SPR-X21-xxx-BLK-C-AC; SPR-X21-xxx-BLK-D-AC; SPR-X21-xxx-BLK-E-AC; SPR-X21-xxx-C-AC; SPR-X21-xxx-D-AC; SPR-X22-xxx; SPR-X22-xxx-C-AC; SPR-X22-xxx-COM; SPR-X22-xxx-D-AC; SPR-X22-xxx-D-AC; SPR-X22-xxx-E-AC; SPR-xxxE-WHT-D; SPR-xxxN E-WHT-D; SPR-Mxxx-H-
AC; SPR-Mxxx-BLK-H-AC |
| Talesun | TP6L60M; TP6L60M(H); TP7F60M; TP7F60M(H); TP7F54M; TP7F54M |
| Tesla | SC31582; SCxxx; SCxxxB1; SCxxxB2; TxxxS; TxxxH; SxxxH |
| Trina | TSM-xxxDDOSA; TSM-xxxDD0SA(II); TSM-xxxDDOSA.05(II); TSM-xxxDDOSA.08(II); TSM-xxxDDOSA.18(II); TSM-xxxDDOSH.05(II); TSM-xxxDDOSH.08(II); TSM-xxxPA0S.18; TSM-xxxPD0S.05; TSM-xxxPD0S.18; TSM-xxxPD14; TSM-xxxDD06M.05(II ); TSM-DD06H.08(II); TSM-DD06H.05(II); TSM-DE09C.05; TSM-DE09.05; TSM-DE09.07; TSM- DE09C.07; TSM-DE06X05(II); TSM-DD06M.05(II); TSM-DE15V(II); TSM-DE15M(II); TSM-DE15H(II); TSM-14H(II); TSM-DE09.08; TSM-NE09RC.05 |
| United Ren. Energy | D6MxxxH3A |
| URE Co. | FAMxxxES-BB; FAMxxxESG-BB, FBMxxxMFG-BB; FAKxxxCSG; FAKxxxESG; FAMxxxE7G-BB; FBMxxxMFG; FBMxxxM7G-BB |
| Vikram | VSMDH.66.xxx.05; VSMDH.72.xxx.05; VSMDH.78.xxx.05; VSMDH.72.xxx.05 |
| VSun | VSUN-xxx-108BMH; VSUNxxx-120BMH; VSUNxxx-108M-BB; VSUNxxx-144BMH-DG; VSUNxxxN-108BMH; VSUNxxxN-108MH |
| Waaree | WSMDi-xxx |
| Winaico | WSP-xxxM6 |
| Yingli | YLxxxD-30b; YLxxxP-29b |
| ZNShine | ZXM6-NHLDD144; ZXM8-SP150; ZXM8-SP120; ZXM8-SPLDD120;ZXM6-NH144; ZXM6-NH132;ZXM6-NH120; ZXM7-SPLD144; ZXM6-NHLD120; ZXM6-NHLD132; ZXM7
-SH108 |
| Manufacturer | Model |
| Aptos | DNA-144-BF26-xxxW; DNA-144-MF26-xxxW; DNA-120-BF26-xxxW; DNA-120-MF26-xxxW; DNA-120-MF10- xxxW; DNA-120-BF10-xxxW; DNA-108-BF10-xxxW; DNA-108-MF10-xxxW |
| Axitec | AC-XXXMBT/108V, AC-XXXMBT/108US |
| Canadian Solar | CS6.1-54TM-xxxH; CS6.1-60TM-xxxH |
| Hyperion | DH108P8B-xxx |
| Hyundai | HiD-SxxxRG(BK); HiS-MxxxRG; HIS-SxxxKI; HiS-SxxxRG; HiS-SxxxRG(BK); HiS-SxxxRI; HiS-SxxxTI; HIA-SxxxHI; HiS-SxxxYH(BK); HiS-SxxxXG(BK); HiN-SxxxXG(BK) |
| JA Solar | JAM54S30-xxx/LR |
| Jinko | JKMxxxM-72HL-V; JKMxxxM-72HBL-V; JKMxxxM-6RL3-V; JKMxxxM-6RL3-B; |
| Langi | LR6-60BP-xxx; LR6-60HPB-xxx; LR6-60HPH-xxx; LR6-60PB-xxx; LR6-60PE-xxx; LR6-60-xxx; LR4-60HPH-xxxM; LR4-60HPB-xxxM; LR4-72HPH- xxxM; LR4-72HBD-xxxM; LR5-54HPH-xxxM; LR5-54HPB-xxxM; LR5-54HABB- xxxM; LR5-54HABD-xxxM; LR5-66HPH-xxxM |
| Maxeon | SPR-MAX3-xxx-R |
| Meyer Burger | MB_W120AyB_xxx; MB_120AyB_xxx |
| Mission Solar | MSExxxSX6W; MSExxxSXST; MSExxxSXSK; MSExxxSX6Z; MSExxxSX6S; MSExxxSX9R; MSExxxSX9Z |
| mSolar | TXI10-xxx108BB |
| OCells | O.PEAK DUO BLK-G10 xxx; O.PEAK DUO BLK-G10+ xxx; O.Peak DUO ML-G10+; O.Peak DUO BLK ML- G10.a+; O.Peak Duo XL 10.d/BFG; O.PEAK DUO-G10 xxx; O.PEAK DUO-G10+ xxx; O.PEAK DUO-G10.a xxx; O.PEAK DUO-G10.a+ xxx; O.PEAK DUO BLK-G10.a xxx; O.PEAK DUO BLK-G10.a+ xxx; O.PEAK DUO ML- G10 xxx; O.PEAK DUO ML-G10.a xxx; O.PEAK DUO ML-G10.a+ xxx; O.PEAK DUO BLK ML-G10 xxx; O.PEAK
DUO BLK ML-G10+ xxx; O.PEAK DUO BLK ML-G10.a xxx; O.Peak Duo ML-G10+/t xxx |
| REC | RECxxxNP; RECxxxNP Black; RECxxxPE; RECxxxPE 72; RECxxxPE(BLK); RECxxxTP; RECxxxTP BLK; RECxxxTP2; RECxxxTP2 BLK; RECxxxTP2 BLK 02; RECxxxTP2 BLK2; RECxxxTP2M; RECxxxTP2S 72;
RECxxxAA; RECxxxAA Black; RECxxxAA 72; RECxxxNP3; RECxxxNP3 Black; RECxxxNP2; RECxxxNP2 Black; RECxxxAA Pure; RECxxxAA Pure-R; |
| SEG Solar | SEG-xxx-BTB-BG; SEG-xxx-BTD-BG; SEG-xxx-BMB-HV; SEG-xxx-BMD-HV; SEG-xxx-BMB-BG; SEG-xxx-BMD- BG; SEG-xxx-BMB-TB; SEG-xxx-BMD-TB |
| Silfab | SIL-xxxHC; SIL-xxxHC+ |
| Solar4America | S4A410-72MHSBB, S4A33-60MHSBB; S4Axxx-108MH10BB; S4Axxx-144MH10STT |
| Manufacturer | Model |
| Sonali | SS-XXXW-M60 M10 |
| URE Co. | FBMxxxMFG; FBMxxxMFG-BB |
| Vsun | VSUNxxxN-108BMH; VSUNxxxN-108BMH-BW; VSUNxxxN-108BMH-BB; VSUNxxxN-108BMH-BT; VSUNxxxN- 108BMH-WT; VSUNxxxN-108MH; VSUNxxxN-108MH-BW; VSUNxxxN-108MH-BB; VSUNxxxN-108MH-BT; VSUNxxxN-108MH-WT; VSUNxxxN-108M; VSUNxxxN-108M-BW; VSUNxxxN-108M-BB; VSUNxxxN-108M-BT;
VSUNxxxN-108M-WT |
| Waaree | WSMDi-xxx |
| ZN Shine | ZXM7-UHLDD144-xxx/N; ZXM7-SHLDD144-xxx/M; ZXM6-NHLDD144xxx/M |
Warranty and span tables
- PE Certifications and Span Tables
www.pegasussolar.com/spans - Warranty
www.pegasussolar.com/warranty - Comp Conduit Mounts and other Accessories
www.pegasussolar.com/accessories
FAQ
- What is the torque requirement for the T-bolt?
- The torque requirement is 280-300 in-lbs.
- Where can I find installation instructions and training videos?
- Visit www.pegasussolar.com for installation instructions and training videos.
- What are the compatible roof types for the mounts?
- Comp Mounts are for sloped asphalt or composite shingle roofs, and Tile Scissor Mounts are for sloped concrete and clay tile roofs.
Documents / Resources
 |
PEGASUS SOLAR PGS-PSR-SPLS Pegasus Rail System [pdf] Installation Guide PGS-PSR-SPLS Pegasus Rail System, PGS-PSR-SPLS, Pegasus Rail System, Rail System |
