Modeling the turn-off of IGBT's in hard- and soft-switching applications

“…However, since the voltage rise is faster than the recombination time it is correct to assume that the stored charge is the same as in the on-state [4,9], that is:…”

“…Since at this stage of the turn-off the MOS current is nil, the electron current given in (3), acts as the base current for the pnp BJT causing a further collector current, β pnp I e , crossing the J1 junction [9]. Drain current is then:…”

“…The moving quasi-neutral base region boundary causes a hole current to flow through the J2 junction and an equal electron current flowing towards the J1 junction [4,5,9]:…”

“…Carrier concentration is constant below the gate field plate During the turn-off, the gate voltage is switched below the threshold voltage. For ease of analysis, fast gate voltage transition is considered so that the channel is rapidly removed and the MOS channel current is zero during the transient [6,9]. The device turns off as the stored carriers in the open base bipolar transistor are removed by sweep-out and recombination.…”

“…In [6][7][8] a vertical IGBT model is developed in which the dV/dt during turn-off is studied. In [4,9] the voltage derivative during inductive turn-off for vertical IGBT is specifically studied.…”

Modeling turn-off voltage rise in SOI LIGBT

“…However, since the voltage rise is faster than the recombination time it is correct to assume that the stored charge is the same as in the on-state [4,9], that is:…”

“…Since at this stage of the turn-off the MOS current is nil, the electron current given in (3), acts as the base current for the pnp BJT causing a further collector current, β pnp I e , crossing the J1 junction [9]. Drain current is then:…”

“…The moving quasi-neutral base region boundary causes a hole current to flow through the J2 junction and an equal electron current flowing towards the J1 junction [4,5,9]:…”

“…Carrier concentration is constant below the gate field plate During the turn-off, the gate voltage is switched below the threshold voltage. For ease of analysis, fast gate voltage transition is considered so that the channel is rapidly removed and the MOS channel current is zero during the transient [6,9]. The device turns off as the stored carriers in the open base bipolar transistor are removed by sweep-out and recombination.…”

“…In [6][7][8] a vertical IGBT model is developed in which the dV/dt during turn-off is studied. In [4,9] the voltage derivative during inductive turn-off for vertical IGBT is specifically studied.…”

Modeling turn-off voltage rise in SOI LIGBT

Insulated Gate Bipolar Transistor

Insulated Gate Bipolar Transistor