Universal Series Specifications
External Dimensions: 14"L x 14"W x 22"H
Internal Dimensions: 13"L x 13"W x 21.5"H
Packaged Dimensions: 14"L x 2.5"W x 22"H
Exterior Fire Resistance rating: UL 723/ASTM E84 and CAN/ULC S102. Meets NFPA 90A and 90B - less than 50 Smoke and 25 Flame Spread
Interior Heat Resistance: 475ºF to 700ºF
Weight: approximately 1.75 lbs. per unit
Material: FSK-Faced Fiber Glass
Bug, Pest, Water, and Mold resistant
Fits typical 6” Can Fixture and up to 7” max. Can Diameter
Low Profile Series Specifications
External Dimensions: 14”W x 14”W x 12”H
Internal Dimensions: 13”W x 13”W x 11.5”H
Packaged Dimensions: 14”W x 2.5”W x 15”H
Exterior Fire Resistance rating: UL 723/ASTM E84 and CAN/ULC S102. Meets NFPA 90A and 90B - less than 50 Smoke and 25 Flame Spread
Interior Heat Resistance: 475°F to 700°F
Light Weight: approximately 1.25 lbs per unit
Material: FSK-Faced Fiber Glass
Bug, Pest, Water, and Mold resistant
Fits typical 6” Can Fixture and up to 7” max. Can Diameter
View Johns Manville material spec sheet
Material Safety Data Sheet - CanCoverIt
CanCoverIt Air Sealing Test:
24”x24” ceiling section, with a 6” can light in it and ran a series of air leakage tests, at 50 Pa (same as for a blower-door test on a real house) Johns Manville Research
| Fixture Set Up | Effective Open Area (in") | Leakage @ 50 Pa (cfm) | Reduction in Leakage (%) |
|---|---|---|---|
| IC rated 6" fixture no trim | 2.64 | 33 | |
| IC w/ CanCoverIt Low Profile | 0.95 | 11.8 | 64% |
| IC w/ CanCoverIt Low Profile, sealed | 0.06 | 0.8 | 98% |
| IC w/ CanCoverIt Universal | 1.1 | 13.8 | 58% |
| IC w/ CanCoverIt Universal, sealed | 0.21 | 2.6 | 92% |
| IC w/ CanCoverIt Universal, sealed, vents removed | 1.37 | 17.1 | 48% |
Through CanCoverIt’s involvement in the Southern California Regional Energy Innovation Network (SCEIN) we have sponsored two student teams to study the benefits of CanCoverIt protection for metal attic fixtures.
In a SCEIN first, CanCoverIt orchestrated University of San Diego (USD) and University of California San Diego (UCSD) into one study consisting of two parallel operations.