Abstract
This paper presents an analytical model for the I– V characteristics of the bipolar-MOS power transistor, also known as IGT or COMFET. Good agreement between this model and experiments is found over a wide range of carrier lifetime and current density. The predicted trade-off between the forward voltage drop and device turn-off time (0.4–10 μsec) has been verified by experiment. For even shorter switching time, the model predicts only a moderate increase in V F . Adding a more heavily doped buffer epitaxial layer is shown to only slightly increase V F but offers several important benefits. The comparison between n-channel and p-channel devices is discussed using the model and the forward voltage drops for the two types of devices are shown to differ by only a small percentage in spite of the large difference in electron and hole mobilities.
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