White-Rodgers 767A-384 Ignitor

The White-Rodgers 767A-384 Silicon Carbide Ignitor is a high-performance, 120V hot surface ignition source designed for residential and light commercial gas furnaces, boilers, and unit heaters. Featuring a 5.25" lead length with 0.093" male pin terminals and a durable ceramic base, this HSI is engineered to provide precise ignition across 15, 17, and 45-second ignition cycles. As a specialized gas furnace replacement part, it includes the necessary brackets and adapters to ensure proper alignment within the burner assembly, which is critical for maximizing surface area contact with the gas stream. This hot surface ignitor is cross-compatible with numerous OEM models, including various Amana B1336102 and York 025-27766-000 configurations. For a successful install, technicians must avoid touching the silicon carbide element, as skin oils can create hot spots that lead to premature failure. Verify 120V output from the control board before replacing to differentiate between a cracked element and a logic failure.

• Universal Bracket Compatibility: Includes multiple mounting adapters to match White-Rodgers 767A-384 cross reference requirements for Amana, Rheem, and York equipment.
• High-Temperature Durability: The lead insulation is rated for 200°C to withstand the high-ambient conditions inside the burner compartment.
• Precise Ignition Timing: Specifically calibrated to work with modern integrated furnace controls (IFC) using various ignition delay timings.
• Simplified Field Service: Provided with ceramic wire nuts for scenarios where the existing Molex connector needs to be bypassed or spliced.

How do I test the resistance of a 767A-384?
Set your multimeter to the Ohms (?) scale and measure across the male pins. A functional silicon carbide ignitor typically reads between 40 and 90 Ohms at room temperature; an "OL" or high-resistance reading indicates a hairline crack.

Can this replace a silicon nitride ignitor?
No, this is a silicon carbide model. While nitride-to-carbide conversions are sometimes possible with specific OEM kits, you should always match the voltage and material type (Silicon Carbide) specified by the manufacturer to prevent ignition delays.

What causes these ignitors to fail repeatedly?
Frequent failures are often caused by handling the element with bare hands, high supply voltage, or a malfunctioning pressure switch that causes excessive cycling.

Disclaimer: While we strive for 100% accuracy, product data and specifications are subject to change. Please contact our team to confirm compatibility or technical details before purchasing.