Product Description
NICOR LIGHTING 17014AR-LED-ID 6 inch LED Housing for Remodel Applications, IC-Rated
This NICOR 17014AR-LED-ID is an Aluminum 6-inch Remodel LED Housing designed for 6 inch LED Recessed Downlights and LED Retrofits. The Airtight and Insulation Contact Rated Housing (IC Allows for direct contact with insulation) helps keep your home insulated and Energy Efficient. It features a universal IDEAL connector that allows for quick, snap-in connection to NICOR LED downlights and helps improve light efficiency and quality. It?s suitable for residential and commercial applications and features Integral Thermal Guards that protect against Overheating (usually due to using an incorrect wattage or bulb). The 17014AR-LED-ID is also Wet Location Rated when used with Wet Location Rated Downlights and Trims. The housing adjusts from 0.5?ö to 1.5?ö to accommodate ceiling drywall thickness and its 5.75?ö height allows it to be used in 2?ö x 6?ö joist construction. Comes protected with NICOR 1 Year Limited Warranty.
Area of Usage: Residential
Product Type: Remodel LED Housing
Product Color: Neutral
Finish: Galvanized
6"Primary Piece: Housing/Frame
Primary Piece Material: Aluminum
Secondary Piece:
Secondary Piece Material:
Installation/Connection Type: Hardwire
Voltage: 120V
Wattage: 20W Max
Light Source: LED
Bulb: (1)LED IDEAL Base(Not Included)
Listing: UL/cUL
Rated: IC-Rated, Airtight, UL Damp
Warranty(years): 1
Remodel Housing Designed for LED Recessed Downlights
Designed for 6-inch LED Retrofit Downlights
Line Voltage, 20-Watt Maximum Wattage
Aluminum construction provides greater heat dissipation.
IC rated. Suitable for direct contact with insulation
Airtight housing provides increased energy efficiency through room insulation
Equipped with an IDEAL adapter for quickly installing LED Downlights
Supplied with three push-in wire connectors
5 3/4?ö height allows use in 2?ö x 6?ö joist construction
Listed for through-branch circuit wiring and includes several 3/4?ö knockouts
UL and cUL Listed
Aluminum construction provides greater heat dissipation.
