研究目的
To analyze the transient dc bias and current impact effects of a high-frequency-isolated bidirectional dc–dc converter (IBDC) in practice and propose a transient phase-shift (TPS) strategy to improve the transient performance.
研究成果
The TPS updating strategy eliminates the transient dc bias, improves the current impact, and further increases the response speed for all of the transient processes with constant and different power flows. The study can assist in explaining the confusing phenomena of the transient process in practice and recommend effective methods to engineers to improve transient performance.
研究不足
The study focuses on the performance caused by the SPS and TPS updating strategies, and the response time caused by the closed-loop control parameters and the dc filter capacitor is beyond its scope.
1:Experimental Design and Method Selection:
The study involves theoretical analysis and experimental verification of the transient dc bias and current impact effects in IBDC under steady phase-shift (SPS) and transient phase-shift (TPS) strategies.
2:Sample Selection and Data Sources:
A DAB prototype is constructed with specific parameters for experimental verification.
3:List of Experimental Equipment and Materials:
The main parameters include P = 300 W, V1 = 106 V, V2 = 106 V, L = 245 μH, C1 = C2 = 450 μF, n = 1, and fs = 20 kHz. The dead time is
4:5 μs. Experimental Procedures and Operational Workflow:
The waveforms are measured with a 500 MHz mixed signal oscilloscope MSO 4045B, the currents are measured by a high-precision ac/dc current probe TCP 305A and an amplifier TCPA 300, and the voltages are measured with a 200 MHz differential probe THDP
5:Data Analysis Methods:
02 The dynamic performance comparison of SPS and TPS updating strategies is analyzed based on the experimental results.
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