UNIRAC PUB2023JUN12 Code Compliant Instruction Manual
TOOLS & SPECIFICATIONS
TECHNICAL SPECIFICATIONS:
Material Types: 16G ASTM A653 GR50 Steel
Coating(s): G235 Galvanization, G180 Galvanization,
G40 Galvinization + InterCoat® ChemGuard,
G60 Galvinization + InterCoat® ChemGuard or
G80 Galvinization + InterCoat® ChemGuard
Hardware: Stainless Steel
Bonding and Grounding: UL2703 Listed Continuous
TOOLS REQUIRED OR RECOMMENDED FOR LAYOUT, ATTACHMENTS & INSTALLATION:
- Drill (Do Not Use An Impact Driver)
- 7/16” Socket
- Torque Wrench
- Tape Measure
- Chalk Reel
- Optional Spacers (See Diagram – Page Right)
GENERAL HARDWARE:
- ¼-20 X 2 ½” Hex Head Bolt – Module Clamps
- ¼-20 X 1” Hex Head Bolt – Wind Defl ectors
- ¼-20 Stainless Steel U-Nuts
- ¼” Flat Washer 1 ½” O.D.
SAFETY:
All applicable OSHA safety guidelines should be observed when working on a PV installation job site. The installation and handling of PV solar modules, electrical installation and PV racking systems involves handling components with potentially sharp metal edges. Rules regarding the use of gloves and other personal protective equipment should be observed.
LAYOUT ASSISTANCE TOOL:
| Module Dimensions: | RM5 | Module location: | Spacing Equations (in Inches): | ||
| For 7.5″ inter-row option: | For 11″ inter-row option: | ||||
| Module Length (ML) = | 1 | Perimeter Column Spacing = | ML+(G/2)-32.04″ | ||
| Module Width (MW) = | 2 | Interior Column Spacing = | ML+G-21.36″ | ||
| Prefered module gap? (1/4″ – 1″ is permissible) | 3 | South Row Spacing = | (MW x 0.996) – 12.79″ | (MW x 0.996) – 12.79″ | |
| 4 | Row Spacing = | (MW x 0.996) – 12.79″ | (MW x 0.996) – 9.25″ | ||
| East/West Module Gap (G) = | 5 | North Row Spacing = | (MW x 0.996) – 21.97″ | (MW x 0.996) – 18.46″ | |
MODULE ROW SPACING OPTIONS
SPACERS – OPTIONAL
PERIMETER COLUMN SPACER
COLUMN SPACER
SOUTH ROW SPACER
ROW SPACER
NORTH ROW SPACER
SYSTEM COMPONENTS
BALLAST BAY: The Ballast Bay is constructed of a high strength low alloy steel with a coating to protect against corrosion. This system has a modular design that allows for easy installation around roof obstructions and accommodates roof undulations. The Ballast Bays are designed to nest within each other to optimize shipping logistics.
NOTE: Systems installed on PVC roofs require ballast bays with preinstalled Santoprene pads.
ClAMP & HARDWARE: The Module Clamp is made of Stainless Steel and can be used with module frame heights indicated on the clamp. The clamps are a portion of the UL2703 Listed system when installed according to this installation guide. A ¼-20 stainless steel bolt and u-nut are the associated hardware for installing clamps.
NOTE: U-Nuts come in packages separate from Clamp Kit.
BALLAST BLOCK: The RM ballast bay can fi t up to 2 standard 4”x8”x16” solid concrete cap blocks. Block weight can range from 26 – 38 lbs. and shall meet ASTM C1491 requirements for freeze thaw durability. Verify your block weights before using the Unirac U-Builder online design tool.
WIND DEFLECTOR: 18G G180 steel wind defl ector aids in ballast reduction and provides fi re mitigation. A 1/4″ – 20 stainless steel bolt and fender washer (1.5″ O.D) are associated hardware for wind defl ectors.
NOTE: U-Nuts come in packages separate from defl ector hardware.
OPTIONAL WIRE MANAGEMENT: Custom Uniracwire clip along with mounting options for various off the shelf wire management clips.
NOTE: All conduit and wire ways should be grounded & bonded per the (NEC) National Electric Code.
OPTIONAL MICROINVERTER MOUNTING: Microinverter / Power optimizer bracket, see page 9 for additional instructions.
PART NUMBER DATA
| S.No. | Part Number | Part Description |
| 1 | 310800 | RM5 BAY |
| 2 | 310803 | RM5 BAY, PVC |
| 3 | 310810 | RM5 WIND DEFLECTOR, 84″ |
| 4 | 310811 | RM5 WIND DEFLECTOR, 98″ |
| 5 | 310820 | RM5/DT ENDCLAMP 30-40MM |
| 6 | 310821 | RM5/DT ENDCLAMP 41-45MM |
| 7 | 310822 | RM5/DT ENDCLAMP 46-50MM |
| 8 | 310830 | RM5/DT PVC ROOF FRICTION PATCH |
| 9 | 310850 | RM5/DT WIRE MGMT CLIP |
| 10 | 310851 | RM5 WD WIRE MGMT CLIP |
| 11 | 310860 | RM5/DT 1/4-20 CLIP U-NUT SS18-8 |
| 12 | 310861 | RM5, WIND DEFLECTOR HDW KIT |
| 13 | 008114M | MLPE MOUNT ASSY |
| 14 | 205000S | ENPHASE ENGAGE CABLE CLIP |
| 15 | 008002S | GROUND WEEBLUG #1 |
| 16 | 008009P | ILSCO LAY IN LUG (GBL4DBT) |
| 17 | 310999 | FLASHLOC RM KIT |
LOCATE ARRAY & PLACE BAYS
SNAP SOUTH PERIMETER CHALK LINE, THEN EAST OR WEST PERIMETER CHALK LINE. As best practice, on south edge of array mark lines to locate the center of each bay.
SPACERS – OPTIONAL
PERIMETER COLUMN SPACER
COLUMN SPACER
PLACE SOUTH PERIMETER BAYS FIRST. If slip sheets are required, place per manufacturers recommendations.
NOTE: Custom spacers can be made to aid in the placement of bays on the roof. See page 1
SPACERS – OPTIONAL
PERIMETER COLUMN SPACER
COLUMN SPACER
ROW SPACER
NORTH ROW SPACER
SOUTH ROW SPACER
SUPPLEMENTAL BAYS – OPTIONAL
DUAL SUPPLEMENTAL BAYS
SINGLE SUPPLEMENTAL BAY
PLACE ALL BAYS.
NOTE: If mechanical attachment is required, place prior to installation of modules.
NOTE: If supplemental bay is required, install after the primary bays are installed. Supplemental bay needs to be centered in between primary bays.
PLACE BALLAST & SOUTH MODULES
PLACE ALL BALLAST: A maximum of two (2) ballast blocks can be placed in each ballast bay, typically pushed into the retention feature on the north or south edge. The North perimeter requires ballast blocks to be pushed towards the southern edge of the ballast bay to accommodate wind defl ectors. Site specifi c ballast calculations should be created for each individual project in accordance with the U-Builder design software. This system has been rated for the mechanical load provisions of UL2703. In addition, it has been designed and tested tocomply with the more rigorous requirements of SEAOC PV1, PV2 nd ASCE 7.
SOUTHERN EDGE MODULE PLACEMENT: Each bay has two spacing options, select the appropriate tab according to layout requirements.
Place southern row of modules on bays. You may adjust second row of bays. Do not adjust southern most row of bays
1 IN. Maximum gap between modules
¼ IN. Minimum gap between modules
NOTE: Modules may be placed on bays without immediate installation of clamps.
NOTE: Modules shall be mounted in landscape orientation only
EAST OR WEST EDGE MODULE PLACEMENT
NOTE: Modules may be placed on bays without immediate installation of clamps.
NOTE: Modules shall be mounted in landscape orientation only.
NOTE: Install wind deflector at the time of module installation. See page 7 for installation guide.
COMPLETE MODULE PLACEMENT
NOTE: Wiring, wire management, and electrical QC should be done as each row is built, especially in case of 7.5″ row spacing to ensure adequate room for installation.
INSTALL U-NUT & INSTALL CLAMPS
NOTE: U-NUT – Single Use Only – Do not re-torque once fully seated
NOTE: CLAMP AND BOLT – Single Use Only – Do not re-torque once fully seated
TORQUE VALUE: 7FT-LBS to achieve UL2703 required clamp load
PROPER CLAMP INSTALLATION:
- Clamp is stamped for module frame height on each leg
- Clamp should be firmly held against module frame while being torqued
PROBLEM – CLAMP NOT SEATED AGAINST MODULE DURING TORQUING
- Clamp needs to be held securely against the module frame during torquing for proper installation
PROBLEM – NOT USING PROPER SIZE OF CLAMP FOR MODULE FRAME HEIGHT
- Double check the stamping on clamp to use the correct leg of clamp for module frame height
- The module height shall fall within the range shown on the topof the clamp
- Excessive angle on clamp will inhibit required clamp load on module
BALLAST BAY WIND DEFLECTORS
STEP 1 – U-NUTS: Install u-nuts on side flange
STEP – 2 WIND DEFLECTOR: Position wind deflector in the slots provided in the bay
STEP 3 – HARDWARE: Secure wind deflector with 1 ½” O.D. flat washer and ¼-20 x 1” Bolt, as shown above
INSTALL BALLAST BAY WIND DEFLECTORS
NOTE: Wind deflectors overlap at splice
STEP 1 – PLACE NUT AND WASHER:
Include the nut and washer on the anchor stud prior to placing the stud through the strut.
STEP 2 – POSITION ROOF ATTACHMENT:
Position Roof Attachment under bay requiring attachment and install according to manufacturer installation instructions.
NOTE: Position attachment so that it is close to center of the bay as possible.
STEP 3 – PLACE UNISTRUT: Position strut sections on bay as pictured above. Align the cross-strut with the anchor’s stud. Connect side strut sections to cross strut using a strutnut, bolt, and washer as pictured.
NOTE: Metal base of attachment where stud is located cannot exceed a height of 1/4″.
STEP 4 – SECURE UNISTRUT TO ROOF ATTACHMENT: Place 3/8” washer and 3/8-16 serrated flange nut on anchor stud, serrations facing down and tighten to 30 ft-lb.
TORQUE VALUE: 30FT-LBS
MICROINVERTER INSTALL & WIRE MGMT
PRE-INSTALL MICROINVERTERS: Install MLPE in a location on the module that will not interfere with ballast bays or grounding lugs. To use trunk cable most effi ciently, install MLPE components in the same locations on all modules in the same row.
TORQUE VALUE: 20FT-LBS
GROUNDING LUGS
GROUNDING LUG MOUNTING DETAILS AS REQUIRED BY CODE & ENGINEER OF RECORD: The Ilsco lug has a green colored set screw for grounding indication purposes. One lug is recommended per continuous array, not to exceed 150ft X 150ft.
Unirac ROOFMOUNT is intended to be used with PV modules that have a system voltage less than or equal to that allowable by the National Electric Code (NEC). It is the installer’s responsibility to check adherence to local codes.
NOTE: The installation must be conducted in accordance with the National Electric Code ANSI / NFPA 70.
| Ground Lug | Bolt Size | Torque Value |
| Ilsco Lug SGB-4 | 1/4″-20 | 6.5 ft-lbs (75 in-lbs) |
| Ilsco Lug GBL-4 | #10-32 | 2.9 ft-lbs (35 in-lbs) |
| Wiley 6.7 | 1/4″-20 | 10 ft-lbs (120 in-lbs) |
NOTE: In order to prevent corrosion induced by dissimilar metals, it is important to verify that the bare copper wire does not come into contact with aluminum or galvanized steel. These materials must be kept separate.
Although conformance with UL2703 was demonstrated without the use of oxide inhibitor material, it is recommended by Ilsco to provide an optimized bonding solution for their lay-in lug.
All Lugs Solar Grounding & Bonding
GROUNDING NOTE:
Can be installed on any location with a flat surface on the bay in order to ground the system.
Ilsco SGB-4 Solar Grounding & Bonding
TERMINAL TORQUE:
Install conductor and torque to the following: 4-14 AWG: 35 in-lbs
Ilsco GBL-4 Solar Grounding & Bonding
TERMINAL TORQUE:
Install Conductor and torque to the following: 4-6 AWG: 35 in-lbs, 8AWG: 25 in-lbs
Wiley WEEB-Lug 6.7 Solar Grounding & Bonding
TERMINAL TORQUE:
Install Conductor and torque to the following:
4-6 AWG: 10 ft-lbs, 6-14 AWG: 7 ft-lbs
BONDING & GROUNDING ELECTRICAL DIAGRAM
Fault Current Ground Path
Ground Lug
Grounding Clip & Bolt
Min. 10 AWG Copper Wire
Module Frame Module Bay w/ Grounding Clips
TEMPORARY BONDING PROCEDURES
TEMPORARY GROUNDING & BONDING PROCEDURE: Periodic inspections should be conducted on the PV array to ensure there are not loose components, loose fasteners or corrosion. If any of the above items are found, the affected components are to be immediately replaced.
Note
- If a module must be removed or replaced, a temporary bonding jumper must be used to ensure safety of the personnel and PV system.
- Removing a PV module from a system is not considered to be routine maintenance. This type of activity should only be performed by trained and qualifi ed installers.
- In order to prevent corrosion induced by dissimilar metals, it is important to verify that the bare copper wire does not come into contact with aluminum or galvanized steel. These materials must be kept separate
APPROVED LUGS and Terminal Torque see page 10
BONDING JUMPER REQUIRED: One example of a module removal that will require the use of a bonding jumper
ATTACH LUGS: Use approved lug(s) to install on adjacent bays where the module is being removed.
INSERT COPPER WIRE: Insert bare copper wire into each lug, providing a bonding jumper across the missing module location. Remove module & reverse the operation after maintenance is complete
BONDING JUMPER NOT REQUIRED, due to integrated bonding/grounding path throughout module frames/ bays around this location.
NOTE: CLAMP AND BOLT – Single Use Only – Use new clamps after any module replacements or system maintenance.
SYSTEM LEVEL FIRE CODE COMPLIANCE
SYSTEM LEVEL FIRE CLASSIFICATION: The system fire class rating is only valid when the installation is conducted in accordance with the assembly instructions contained in this manual over a fire resistant roof covering rated for the application. RM ROOFMOUNT has been classified to the system level fire portion of UL2703. It has achieved Class A performance for low sloped roofs when used in conjunction with type 1, 2, 29, and 30 module constructions. Please see the specific conditions below for mounting details required to maintain the Class A fire rating. Minimum and maximum roof slopes are restricted through the system design and layout rules. The fire classification rating is only valid on roof pitches less than 2:12 (slopes < 2 inches per foot, or 9.5 degrees).
Refer to page right for proper installation of wind deflectors for required fire mitigation.
NOTE: Fire Type information is generally located on back of modules or through manufacturer’s documentation. Some building codes and fire codes require minimum clearances around such installations, and the installer should check local building code requirements for compliance.
| Module Type | System level Fire Rating | Mitigation |
| Type 1, 29, & 30 | Class A | Prescriptive. See notes & Illustration Below |
| Type 2 | Class A | Prescriptive. See notes & Illustration Below |
TYPE 1 / TYPE 2 CLASS A FIRE RATING MOUNTING ORIENTATION
Unirac RM has achieved Class A system level fire performance for type 1, 2, 29, and 30 module constructions. In order to maintain the fire rating for type 1, 29, & 30 modules wind deflectors must be installed on the north edge of the array. Type 2 modules require wind deflectors to be installed on the north and south edges of the array and at all perimeter modules.
NOTE: See page 7 for installation of wind deflectors.
Please use the U-builder tool to optimize the usage of wind deflectors for fire mitigation.
Type 1, 29, & 30 Requires fire mitigation on North Edge when there are no additional wind deflectors throughout the array
Type 2 Requires fire mitigation on all perimeter modules within array
TYPE 2 EAST/WEST EDGES ONLY: Install wind deflectors in each row with 6” overhang on east and west edges. This applies for any deflector installed on east and west edges throughout the array.
TORQUE VALUE: 10FT-LBS All Wind Deflector Hardware (¼-20 x 1inch bolt, ¼-20 u-nut & 1/4inch flat washer 1 1/2in O.D.)
TYPE 1, 29, & 30: Install wind deflectors on North edge of array.
TYPE 2: Install wind deflectors on all perimeter modules within array
NOTE: Wind deflector should be secured to supplemental bay by two hardware kits.
MECHANICAL LOAD TESTING
MECHANICAL LOAD TEST
The Unirac RM system has been tested to the mechanical load provisions of UL2703 and covers the following basic parameter(s):
- Test Loads = 1.5 x Design Loads
- PV modules may have a reduced load rating, independent of the RM5 load rating. Please consult the PV module manufacturer’s installation guide for more information.
TESTED MODULES
| Module Manufacturer | Model / Series | Area (sq ft) | Standard Installation Configuration – NoMid Bay | Installed with Additional Bay at Modules East/West Center | ||
| Up Design Load (psf) | Down Design Load (psf) | Up Design Load (psf) | Down Design Load (psf) | |||
| Jinko | JKMxxxM-72HL4-V | 27.8 | 17.24 | 36.20 | Not Tested | Not Tested |
| Canadian Solar | CS7N-xxxMB-AG | 33.4 | 15.67 | 14.85 | 23.52 | 33.33 |
NOTE:
All installation configurations have achieved a minimum of 5psf design load in the downslope direction.
ELECTRICAL BONDING & GROUNDING TEST MODULES: This racking system may be used to ground and/or mount a PV module complying with UL1703 or UL61730 only when the specific module has been evaluated for grounding and/or mounting in compliance with the included instructions.
| Manufacture | Module Model / Series |
| Aionrise | AION60G1,AI0N72G1 |
| Aleo | P18 & P19518, S19, 559, & 579 |
| Aptos Solar | DNA-120-MF10DNA-120-(MF/B926DNA-144-(MF/B926DNA-108-(MF/B910-modN DNA-120-(MF/B910-xxxW |
| AsVonergy | CHSM6610(P/M)/HV CHSM6612(P/M)/HV CHSM72(P/M)-HC CHSM72M(DG)/F-BH |
| AU Optronics | PM Series |
| Auxin | AXN6M610T, AXN6P610T AXN6M612T, AXN6P612T |
| Axitec | AC-xxx(M/P)/(60/72)(5/V)AC-mP/156-60SMlpremium X HC: AC-xxxMH/(120444)(SA9 AXlblackpremium X HC: AC-xxxMH/(120/144)(SB/VB) Mlpremium XL HC:AC-raMW120(5/V) AXlblackpremium XL HC: AC-raMH/120(5B/VB) |
| Boviet | BVM6610 & BVM6612 |
| BYD | P6K Series, MHK |
| Canadian Solar | CS1(K/H/U/Y)-MS, C53(U/K)-MB-AG CS3K-(MB/MS/P/PB), C531-(P/MS) CS3N-MS,CS3U-(MB/MS/P/PB/PB-AG) CS3W-(MB-AG/MS/P/P-PB-AG) CS3Y-MB-AG, CS5A-MCS6K-(M/MS/P), CS6P-(M/P) CS6R-MS, CS6U-(M/P)CS6V-M, CS6W-(MB-AG/MS) CS6X-P, CS7L-MB-AGELPS C56(P/A)-MM |
| Manufacture | Module Model/ Series |
| Canadian Solar (Cont) | CS7N-xxxMB-AG CS7L-xxxMB-AG |
| Centrosolar America | C-Series & E-Series |
| CertainTeed | amocMxx-(01/02/03/04) Cboodboc-01 |
| Eco Solargy | Orion 1000 & Apollo 1000 |
| ET Solar | ETAC & ET ModulesET-M672BEInxTW, ET-M7726H520-550WWAVB |
| Flextronics | FXS |
| Freedom Forever | FF-MP-BBB-xa, FF-MP1-BBB-xxx |
| FreeVolt | PVGraf |
| GCL | GCL-P6 & GCL-M6 Series |
| Hansol | TD–AN3, TD-AN4, UD-AN1 & UB-AN1 |
| Hanwha SolarOne | HSL 60 & HSL 72 |
| Heliene | 116M, 60M, 60P, 72M & 72P Series 144HC M6144HC M10 SL Biracial |
| HT-SAAE | HT72-156(M/P), HT72-156P-C, HT72-156P(V)-C HT60-156M-C, HT60-156M(V)-C, HT72-166M HT72-18X |
| Hyperion Solar | HY-DH108P8(13), HY-DH108N8B HY-DH144P8 |
| Hyundai | HiS-SmocYH(BK) HiS-SmocXG(BK) HIN-Sxvv G(BK) |
| Hyundai Heavy Industries | MG, TG, RG, KG, MI, RI, KI, HI & TI Series HIA-SmaHG, Hi D-SmoIG(BK), HiS-5400PI |
| Manufacture | Module Model / Series |
| LA Solar | LSmodiC LSmorl3L LSmodiC |
| LG Electronics | lanx(E1C/E1K/N1C/N1K/N2T/N2W/S1C/S2W/Q1C/ Q1K)-A5lanx(A1C/M1C/M1K/N1C/N1K/Q1C/QWQAC/ QAK)-A6LCociocN2T-B5LCociocN1K-B6lanz(N1C/N1K/N2T/N2W)-E6 LC000l2T-15lanz(N1K/N1W/N2T/N2W)-13 larxx(M1C/N1C/Q1C/Q119-N5 lardx(N1C/N1K/N2W/Q1C/Q1K)-V5 LGnXN3K-V6 |
| LONGi | LR6-60, LR6-60(BK/PE/PB/PH/HPB/H1B/HPHilet LR6-72, LR6-72(BK/HV/PE/PB/PWIIPIVHDt 1114-60(HPB/HIBMPHMIK)LR4-72(HPH/H1H) |
| Maxeon | SPR-MAX3-m-COM |
| Meyer Burger | Meyer Burger Wad, Meyer Burger White Meyer Burger Glass |
| Mission Solar Energy | MSE MONO & MSE PERC MSExxx(SR8T/SR8K/SR95/SXST/SX5K/SX6W) |
| Mitrex | bboor-L3H, Mm-13H |
| Mitsubishi | ME & MLE Series |
| Neo Solar Power Co. | D6M Series |
| NE Solar | NESE xxx-72MHB-M10 NESE xxx-60MH-M6 |
- Unless otherwise noted, all modules listed above include all wattages and specific models within that series. Variable wattages are represented as “xxx”
- Items in parenthesis are those that may or may not be present in a compatible module’s model ID
- Slashes “/” between one or more items indicates that either of those items may be the one that is present in a module’s model ID
ELECTRICAL BONDING & GROUNDING TEST MODULES: This racking system may be used to ground and/or mount a PV module complying withUL1703 or UL61730 only when the specific module has been evaluated for grounding and/or mounting in compliance with the included instructions.
| Manufacture | Module Model / Series |
| Panasonic | VBHN=SA(13/16) VBHNxxxKA(01/112) VBHNxxxSA17(G/E) & SA18(E)VBHNvocKA(03/114) EVP■hoorEVPVxxx(H/KRIVIIK) |
| Peimar | SGxxxM (FB/BF), SMxxxM |
| Phono Solar | PSxxxi44(F1)-24/TH |
| Phono Solar Tech. | Standard Modules |
| Prism Solar | P72 Series P72X•xxx |
| Veils | QPRO L-G2, QPEAK (BLK) (G3/G3.1)Q PLUS/PRO G3, Q.PLUS BFR G3.1, Q.PRO/PLUS G4 QPLUS/PEAK/PRO – L G4.xB.LINE PLUS/PRO – L G4.xQPRO BFR G4x, Q.PEAK (BLK) G4.1 (TANNIN° QPLUS BFR G4.1(TANMAX)B.LINE (PLUS/PRO) BFR G4.1QPLUS L-G4.2/TAAQPRO EC-G4.4QPEAK DUO (BLK) GSQPEAK DUO LIGS/G5.1/65.2/G5.3) B.LINE PEAK DUO LIGS/GS.1/GS.2/65.3) QPEAK DUO (BLK)•G6+QPEAK DUO BLK-G6+/TSQPEAK DUO L-(G6/&2/&3)QPEAK DUO (G7/G7.2)QPEAK DUO (BLK)•G7QPEAK DUO L-(67/67.1/67.2/G7.3/67.7) B.LINE PEAK DUO (G7/67.2)B.LINE PEAK DUO L-(67/G7.1/67.2/67.3) QPEAK DUO (BLK) G8(+)QPEAK DUO L-(68/G8.1/68.2/68.3/68.3 BFG) |
| Manufacture | Module Model / Series |
| Q Cells (cont.) | QPEAK DUO (BLK) ML G9(+) QPEAK DUO XL (G9/G9.2/G9.3) QPEAK DUO XL-G9.3/BFG QPEAK DUO BLK-610(+) QPEAK DUO G10+QPEAK DUO (BLK) ML-610(a)(+) QPEAK DUO BLK G10+ /AC QPEAK DUO BLK ML-G10+/TS QPEAK DUO BLK ML-G10+/ tQPEAK DUO XL-(G10/610.2/610.3/G10.c/G10.d) QPEAK DUO XL-G10.3/BFGQPEAK DUO XL-G10.d/BFG Q.PEAK DUO XL-G11S QPEAK DUO XL-(G11.2/G11.3)QPEAK DUO XL-G11.3/BFG |
| REC | PEAK & ECORECXXXAA (BLK/Pure/Pure-R) RECxxxNP (N-PEAK)RECxxxNP2 (Black)RECxxxNP3 BlackRECxxxPE, RECxxxPE72RECxxxTPRECxxxTP2(BLK2)RECxxxTP2S(B)(X01)RECxxxTP3M (Black)RECxxxTP4 (Black) |
| Renesola | 60 Cell Modules & Vitnis2 |
| Risen | RSM60-6, RSM72-6, RSt4144-6 RSM110-8-xxxBMDG |
| SEG Solar | SEG-nx-BMD-HV SEG-nx-BMD-TS |
| 5-Energy | SN72, SN60 Series |
| Manufacture | Module Model / Series |
| Seraphim | SEG•(6PA/6PB/6MA/6MA•HV/6MB/E01/E11) SRP-(6QA/6Q6)SRP-m-6MB-HV, SRP-320-375-BMB-HV, SRP-mocBMC-FIV, SRP-390-415-BMA-FiV, SRP-390-405- BMD-HV |
| Sharp | ND-24CQD, ND-25CQCS ND-Q235F4, ND-F4Q300 NU-SA, NU-SC |
| Silfab | SLA-M/P, SLG-141./P Slbocx(BG/EIK/I3L/FIC/HC+/HL/1-1M/1-1N/ML/NL/NT/ NX/NU) |
| Solar4America | S4kocx-108MH1OBB,S4Amoc-72MH5BB |
| SolarEver USA | SE-16613-xxxM-120N SE-18211-xxxM-108N |
| Solaria | Powernocdt•PD/BD/ACPowerflxmcC PowerXT-EocR-PM (AC)PowerX-400R |
| SolarTech | STU HIT & STU PERC |
| SolarWorld | Sunmodute Protect/Plus |
| Sonali | SS-M-360 to 390 Series SS-M-390 to 400 Series SS-M-440 to 460 Series SS-M-430 to 460 BiFacial Series |
| Sun Edison/Flex- tronics | F-Series / FLEX FXS, R-Series/ FLEX FXS |
| Suniva | Optimus Series, MV Series |
| Sunmac Solar | M754SH-BB Series |
- Unless otherwise noted, all modules listed above include all wattages and specific models within that series. Variable wattages are represented as “xxx”
- Items in parenthesis are those that may or may not be present in a compatible module’s model ID
- Slashes “/” between one or more items indicates that either of those items may be the one that is present in a module’s model ID
ELECTRICAL BONDING & GROUNDING TEST MODULES: This racking system may be used to ground and/or mount a PV module complying with UL1703 or UL61730 only when the specific module has been evaluated for grounding and/or mounting in compliance with the included instructions.
| Manufacture | Module Model / Series |
| SunPower | X-Series 72 & E-Series 72 X-Series 96 & E-Series 96 P-Series, Sig BlackSPR E20 435 COM (G4 Frame) /uocx-BLK-G-AC, SPR-Mxxx-H-AC |
| SunTech | STP /00C,STPXOCS – B60/Wnhb |
| Talesun | TP572, TP596, TP654, TP660TP672, Hipor M, Smart TD6172M,TP7G54M(H) |
| Testa | TxxxS,TxxxH |
| Trine | PADS, P005, 0D05, DD06 DE06, DE09.05, DEO9C07PD14, PE14, DD14, DE14, DE15, DE15V(II) DEG15HC20(11), DEG15MC20(11),DEG15VC.20(I1) DE1814(11), DEG18MC.20(11)DE19, DEG19C.20 |
| Universal Solar | UN14xx-144814H-DG UN15xx-144814H-DG UNIm-108M-BBUNbocc-120M-BBUNbocc-120MH |
| Upsolar | UP-Kocx |
| URE | D7K )18A, D7M.(H7A/H8A)FAI0oa(C8G/E8G), FAMmocE7G-BB FAMmE8G(-BB),FBICwocM8G |
| URECO | F6M)caE7G-BB FBM]occMFG-BB |
| Vikram | Eldorado, Solivo & Somera PREXOS VSMOHT.60.AAA.05 PREXOS VSMOHT.72.AAA.05 |
| Manufacture | Module Model / Series |
| VSUN | VSUNEoc-60M-BB, VSUNxxx-72MH VSUN400-415-144BMHVSUN4xx-1448MH-DG VSUN5xx-1448MH-DG VSUNxxx-108M-BB VSUNxxx-120M-BBVSUNEoc-120BMHVSUNEoc-132BMH VSUNEoc-108BMH |
| Waaree | Arka Series WSMDi |
| Winaico | WST & WSP Series |
| Yingli | YGE 60 CellYGE 60 Cell Series 2YLM 60 YLM 72 YLM-VG |
| Vona Energy | YSM-8450-1 |
| ZNShine Solar | ZXM6-72 Series,DCM6-NH144 DCM6-NHLDD144400VM DCM7-SH108 Series |
- Unless otherwise noted, all modules listed above include all wattages and specific models within that series. Variable wattages are represented as “xxx”
- Items in parenthesis are those that may or may not be present in a compatible module’s model ID
- Slashes “/” between one or more items indicates that either of those items may be the one that is present in a module’s model ID
Documents / Resources
 |
UNIRAC PUB2023JUN12 Code Compliant [pdf] Instruction Manual PUB2023JUN12 Code Compliant, PUB2023JUN12, Code Compliant, Compliant |