Heil Quaker ICP 1185288 Control

The Heil Quaker ICP 1185288 Control is a direct OEM replacement ECM X-13 Blower Motor Control designed for 1/2 HP constant torque motors commonly found in ICP, Heil, and Tempstar air handlers and furnaces. Engineered to drive the X-13 motor series, this module manages the high-efficiency pulse-width modulation signals required to maintain consistent airflow across varying static pressures. When diagnosing a failed blower, technicians should verify the specific voltage and horsepower rating, as this 1/2 HP ECM motor controller is programmed with specific torque parameters to meet the airflow requirements of the original equipment. It utilizes standard 5-pin and 4-pin connectors for seamless integration with the existing HVAC control board wiring harness. Utilizing an authentic ICP furnace motor control ensures the system maintains its original SEER performance levels without the programming errors often associated with generic aftermarket power heads.

Key Benefits

• OEM Compatibility: Precision-fit for 1/2 HP ECM X-13 motors used in Heil and Quaker systems.
• Torque Regulation: Maintains calibrated constant torque blower speeds to ensure proper CFM across the evaporator coil.
• Plug-and-Play Installation: Uses factory-standard pin configurations for immediate field replacement.
• Efficiency Optimization: Restores the high-efficiency electrical commutation required for lower operational costs.
• Durable Circuitry: Resists thermal stress and voltage fluctuations common in residential air handlers.

Common Questions

Can this control module be used on a standard PSC motor?
No, this ECM X-13 motor module is specifically designed for brushless DC motors and is not compatible with permanent split capacitor motors.

Does this part require field programming?
This 1185288 ICP control comes pre-programmed with the necessary torque curves for compatibility with specific ICP-branded blower assemblies.

What causes typical failure in these ECM motor controllers?
Failures are often linked to high static pressure causing over-amping or transient voltage spikes damaging the internal thermistor or motor control circuit.

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.