This letter reveals the effect of the reverse-recovery current of a PIN diode on the surge and gate-noise voltages of an insulated-gate bipolar transistor (IGBT) in an inverter. Theoretical analysis… Click to show full abstract
This letter reveals the effect of the reverse-recovery current of a PIN diode on the surge and gate-noise voltages of an insulated-gate bipolar transistor (IGBT) in an inverter. Theoretical analysis reveals that the $di/dt$ of the reverse-recovery current, the switching speed of the IGBT, and parasitic inductances affect the gate-noise voltage unlike a Schottky barrier diode because resonance does not occur due to junction capacitances. The analysis also indicates that the surge voltage may not occur when the dc voltage is increased even though a large amount of surge voltage occurs in a low dc voltage region. A 1-kV testing setup was designed and constructed using a 1.7-kV 260-A IGBT module, which confirms the validity of the theoretical analysis.
               
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