Abstract:
With the increased popularity of series resonant converter (SRC) in grids and microgrids, a robust converter with fault-tolerant feature becomes supremely important. A single switch primary side failure results in half of the pre-fault voltage and lesser power at the output. While a secondary side short circuit fault results in negligible voltage and power leading to discontinuous converter operation. For more than one switch fault on any side, the SRC behavior in the post-fault condition is different. This paper analyses the self-reliant characteristic in SRC for single/two switches open and short circuit fault. A post-fault correction is proposed which maintains the continuity of operation and the rated output voltage at the load for different fault conditions. A fault-tolerant capacitor is used along with the control parameter variation in the post-fault correction for a single switch and different combinations of two switch faults. The proposed method is also applicable for single diode short circuit or open circuit fault. The analysis of the self-reliant feature and the post-fault correction is discussed and tested on a 1 kW, 250 V SRC prototype for different fault conditions.
