York S1-024-35887-000 Motor

The York S1-024-35887-000 is an OEM programmed ECM motor engineered for direct-drive blower applications in York, Luxaire, and Coleman residential furnaces and air handlers. This 1/2 HP blower motor operates on 115Vac at a rated speed of 1050 RPM, utilizing high-efficiency brushless DC technology to provide consistent airflow under varying static pressures. As a factory-programmed constant torque motor, it eliminates the need for field programming, ensuring the internal parameters match the torque and speed curves required by the AHRI-matched system.

For service technicians, this York replacement motor features a standard NEMA 48 frame diameter and a single-side flat shaft for secure blower wheel attachment. Its electronically commutated design significantly reduces amp draw compared to traditional PSC motors, enhancing the overall SEER/EER rating of the HVAC unit. When installing, verify the integrity of the blower wheel, as imbalances can lead to bearing wear or module failure. This motor is a direct drop-in replacement for TM9Y and TM9X series gas furnaces.

• Factory-Programmed Logic: Comes pre-loaded with specific HVAC system parameters for immediate plug-and-play installation without external programming tools.
• High-Efficiency Performance: The ECM blower motor technology reduces energy consumption and noise levels while maintaining precise CFM delivery.
• OEM Precision: Guaranteed York furnace motor compatibility, maintaining the original unit's certification and performance metrics.
• Standardized Electrical: Designed for 115V single-phase systems with 60/50Hz capability and thermally protected internal electronics.

Does this motor require a capacitor for start-up?
No, this is a programmed ECM motor; unlike traditional PSC motors, the internal drive module manages the phase shift, eliminating the need for an external run capacitor.

Can this motor be used in 230V applications?
No, the S1-024-35887-000 is strictly rated for 115Vac. Applying 230V will result in catastrophic failure of the integrated control module.

What is the primary cause of failure for these ECM modules?
Most failures are caused by voltage spikes or excessive moisture. It is highly recommended to inspect the secondary heat exchanger for leaks and consider an inline surge protector during replacement.

This item is not eligible for free shipping.

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.