A single-phase active-clamped (AC) resonant converter is a type of power electronics converter used to efficiently regulate the voltage in power supply systems. It combines elements of resonant converters and active clamping techniques to achieve high efficiency and reduced switching losses. The main components of the converter are typically a power switch, a resonant tank circuit, and a clamping circuit.
Here's a description of the operation of a single-phase active-clamped resonant converter:
Topology Overview: The single-phase active-clamped resonant converter consists of a high-frequency transformer, a resonant tank circuit (comprising of inductors and capacitors), and active switches.
Principle of Operation: The converter operates based on the principle of resonant conversion. The resonant tank circuit allows the converter to store energy during one part of the switching cycle and release it to the output during another part. This enables the converter to achieve soft switching, reducing switching losses and improving efficiency.
Switching Phases:
a. Clamping Phase: Initially, the active clamping circuit keeps the voltage across the main power switch under control. When the main switch is turned on, the clamping circuit provides a low impedance path for the voltage to be clamped at a safe level, preventing excessive voltage spikes across the switch.
b. Resonant Phase: During this phase, the main power switch is turned off, and the energy stored in the resonant tank circuit starts to flow through the primary winding of the high-frequency transformer. The resonant tank circuit oscillates at its natural frequency (determined by the inductance and capacitance values), transferring energy to the transformer.
c. Output Phase: The energy transferred to the transformer's secondary winding is rectified and filtered to obtain the desired output voltage. The output phase typically occurs when the main power switch is off, and the resonant tank circuit has fully discharged its energy.
Control and Regulation: The converter's control circuit continuously monitors the output voltage and adjusts the duty cycle and frequency of the main power switch to regulate the output voltage at the desired level. The active clamping circuit plays a vital role in maintaining safe voltage levels during the switching process.
Advantages:
Soft switching: The resonant operation minimizes switching losses and reduces stress on power devices, improving overall efficiency.
Reduced EMI: Resonant converters produce less electromagnetic interference (EMI) due to soft switching, making them suitable for sensitive applications.
High efficiency: The combination of resonant and clamping techniques results in higher efficiency compared to conventional converters.
Applications: Single-phase active-clamped resonant converters are used in various applications, such as power supplies for computers, servers, telecommunication equipment, renewable energy systems, and other devices requiring high-efficiency power conversion.
It's important to note that the specific implementation and control strategy may vary depending on the design and requirements of the particular single-phase active-clamped resonant converter.