ECM Condenser Fan Motors vs. PSC Motors

Electric motors are an important part of HVAC systems. From powering blowers and water pumps to compressing refrigerant, electric motors perform some of the most basic functions that allow HVAC systems to do their job. Without them, we wouldn’t have access to heating and cooling as we know it.

Though they’re all designed to power a wide range of components, they’re not all created equal. In some cases, one type of motor will be favorable over another and by determining what function needs to be performed, we can determine which motor is most suitable for the task. ECM and PSC motors are two comparable motors, but they work in very different ways. These differences are an important part of their designs and they each have their intended purpose.

What Is a PSC Motor?

A PSC (permanent split capacitor) motor is designed with only two functions in mind: it turns on and it turns off. Because of its limitations and primitive design, the speed of a PSC motor cannot be controlled or altered, and when powered on, it runs at full capacity only. This constant speed means that, while it performs powerfully, it doesn’t do so efficiently and energy is wasted in the process.

What Is an ECM?

An ECM (electronically commutated motor) is a motor designed to perform similar tasks to a PSC motor but introduces variable speed. An ECM can be modulated and controlled to manipulate its behavior to meet the condenser’s call for airflow. Unlike a PSC which only has two stages, an ECM has many different speed settings that allow it to increase and decrease gradually rather than starting abruptly at full capacity. Its design makes it a more efficient and effective motor that has the ability to save a great deal of energy.

Efficiency

Any time that a fan or motor offers speed modulation, it will likely be the most efficient option. In the case of PSC motors and ECMs, this rings just a true and an ECM can offer the diversity that a PSC motor simply cannot.

Because of its variable speed settings, the energy required to power an ECM can be lowered or raised according to demand and will never perform at a higher speed than necessary. When the condenser fan doesn’t need to be running at full speed, the ECM can adjust its speed and save energy. A PSC motor, on the other hand, will always run at full speed, even when it’s not necessary. The lack of modulation, in this case, means that extra energy is being wasted to do the same job that a fan running at a fraction of its speed could do. It also means that a PSC motor is much louder compared to an ECM.

Maintenance

Like its name suggests, an electronically commutated motor is hooked up to an electronic control module. The module is programmed at the factory to perform a specific function, though it can be particularly sensitive to power issues and grounding issues. Before working with the control module, it’s important to disconnect any power running to it or the motor. Aside from the module, the motor itself requires a low level of maintenance. The use of ball bearings in an ECM means that it can run effectively for a long time without requiring lubrication. The gradual start and stop also has a positive influence on its lifetime and the reduced impact is easy on parts. In this same way, a PSC motor may require increased maintenance due to its sudden start and stop motion.

A PSC motor has been a standard in the HVAC industry for years, however, and they continue to be used today. Not only are they simple and inexpensive, but they’ve proven to be an extremely reliable component. The average lifespan of a PSC motor is around 40,000 hours, though an ECM surpasses it at 90,000 hours. Ultimately, an electronically commutated motor’s design bests that of the permanent split capacitor motor in almost every way.

Conclusion

Overall, the use of an electronically commutated motor can decrease energy usage by as much as 75% compared to a PSC motor. Not only will an ECM save on energy, but it will also provide more even and effective performance that will meet the demands of your condenser, however high or low that may be without wasting addition energy.

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