IGBT

Purpose

Ideal IGBT with optional forward voltage and on-resistance

Library

Electrical / Power Semiconductors

Description

The Insulated Gate Bipolar Transistor is a semiconductor switch that is controlled via the external gate. It conducts a current from collector to emitter only if the gate signal is not zero.

Parameters

The following parameters may either be scalars or vectors corresponding to the implicit width of the component:

Forward voltage: Additional dc voltage \(V_\mathrm{f}\) in volts \((\mathrm{V})\) between collector and emitter when the IGBT is conducting. The default is 0.
On-resistance: The resistance \(R_\mathrm{on}\) of the conducting device, in ohms \((\Omega)\). The default is 0.
Initial conductivity: Initial conduction state of the IGBT. The IGBT is initially blocking if the parameter evaluates to zero, otherwise it is conducting.
Thermal description: Switching losses, conduction losses and thermal equivalent circuit of the component. For more information see chapter Thermal Modeling. If no thermal description is given, the losses are calculated based on the voltage drop \(v_\mathrm{on} = V_\mathrm{f} + R_\mathrm{on}\cdot i\).
Thermal interface resistance: The thermal resistance of the interface material between case and heat sink, in \((\mathrm{K}/\mathrm{W})\). The default is 0.
Initial temperature: This parameter is used only if the device has an internal thermal impedance and specifies the temperature of the thermal capacitance at the junction at simulation start. The temperatures of the other thermal capacitances are initialized based on a thermal “DC” analysis. If the parameter is left blank, all temperatures are initialized from the external temperature. See also Temperature Initialization.

Probe Signals

IGBT voltage: The voltage measured between collector and emitter.
IGBT current: The current through the IGBT flowing from collector to emitter.
IGBT gate signal: The gate input signal of the IGBT.
IGBT conductivity: Conduction state of the internal switch. The signal outputs \(0\) when the IGBT is blocking, and \(1\) when it is conducting.
IGBT junction temperature: Temperature of the first thermal capacitor in the equivalent Cauer network.
IGBT conduction loss: Continuous thermal conduction losses in watts \((\mathrm{W})\). Only defined if the component is placed on a heat sink.
IGBT switching loss: Instantaneous thermal switching losses in joules \((\mathrm{J})\). Only defined if the component is placed on a heat sink.