A single-phase active power filter (APF) is an electronic device used to mitigate harmonics and correct power factor in single-phase electrical systems. It operates by injecting compensating currents into the system to cancel out unwanted harmonics and improve power factor. This helps in maintaining the quality of the electrical supply and reducing the adverse effects of harmonic distortion on equipment and power distribution networks.
The working principle of a single-phase active power filter involves several key steps:
Current Sensing: The first step is to measure the current flowing through the load or the distribution network using current sensors. These sensors provide information about the current waveform, including its amplitude and phase angle.
Current Processing: The measured current signal is then processed to extract information about the harmonic components present in the current waveform. This is typically achieved using techniques such as Fast Fourier Transform (FFT) or digital signal processing algorithms.
Reference Current Generation: Based on the analysis of the current waveform, a reference current signal is generated. This reference signal represents the ideal current that the load should draw to have a balanced and sinusoidal current waveform with a desired power factor.
Current Compensation: A power electronic converter, usually a voltage source inverter (VSI), is used to generate compensating currents. These compensating currents are designed to have the same harmonic components as the unwanted harmonics in the load current but with opposite phase angles. The VSI can be controlled to produce the desired compensating currents by adjusting the switching patterns of its semiconductor devices (usually insulated gate bipolar transistors or IGBTs).
Current Injection: The compensating currents generated by the VSI are injected into the electrical system at the point where the single-phase active power filter is connected. These compensating currents mix with the load current and cancel out the harmonic components, resulting in a cleaner and more sinusoidal current waveform.
Power Factor Correction: In addition to harmonic mitigation, a single-phase APF can also improve power factor by injecting reactive power as needed. The control algorithm adjusts the magnitude and phase angle of the compensating currents to achieve the desired power factor.
Control and Feedback: The control system of the active power filter continuously monitors the load current, calculates the required compensating currents, and adjusts the operation of the VSI to achieve the desired waveform and power factor.
By actively injecting compensating currents that counteract the unwanted harmonics and reactive power, the single-phase active power filter helps to maintain a clean and balanced electrical supply, reduce harmonic distortion, and improve the efficiency of the power distribution system. It finds applications in various industries where harmonic distortion and poor power factor can lead to equipment malfunctions, increased energy losses, and reduced overall system efficiency.