A power factor correction (PFC) circuit is an electronic system used to improve the power factor of electrical devices or systems. The power factor is a measure of how effectively electrical power is being used in a circuit. It represents the ratio of real power (the power that performs useful work) to apparent power (the combination of real power and reactive power). A low power factor indicates that the system is inefficient and that a significant amount of power is being wasted.
In many electrical devices, such as computers, LED drivers, and other electronic equipment, the load presents a non-linear behavior, drawing current in short bursts rather than continuously. This leads to a low power factor and, in turn, increased reactive power, which can strain the power distribution network and result in higher energy consumption for the same amount of useful work done.
A PFC circuit is introduced to mitigate these issues and achieve a higher power factor. It works by adjusting the input current waveform, making it more sinusoidal and in phase with the input voltage. By doing so, it reduces the amount of reactive power and improves the power factor closer to unity (1.0). Unity power factor means that all the supplied power is being used efficiently for useful work.
There are two main types of power factor correction circuits:
Active Power Factor Correction (Active PFC): Active PFC uses active components like transistors and control circuits to actively shape the input current to match the input voltage. This method is more effective and widely used, providing a power factor close to unity and compliance with international power quality standards.
Passive Power Factor Correction (Passive PFC): Passive PFC uses passive components like capacitors, inductors, or resistors to improve the power factor. While it can still be effective, it is generally less efficient than active PFC and might not achieve as high a power factor as the active counterpart.
Power factor correction is essential in many applications to reduce energy waste, improve the overall efficiency of electrical systems, and comply with power quality regulations.