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Half-Bridge Converter

Implement half-bridge power converter

  • Half-Bridge Converter block

Libraries:
Simscape / Electrical / Specialized Power Systems / Power Electronics

Description

The Half-Bridge Converter block implements a half-bridge power converter. You can choose from four model types:

  • Switching devices — The converter is modeled with IGBT/diode pairs controlled by firing pulses produced by a PWM generator. This model provides the most accurate simulation results.

  • Switching function — The converter is modeled by a switching-function model. The switches are replaced with two voltage sources and two diodes on the AC side and with two current sources on the DC side.

    The converter is controlled by firing pulses produced by a PWM generator (0/1 signals) or by firing pulses averaged over a specified period (PWM averaging: signals between 0 and 1). Both modes of operation produce harmonics normally generated by a PWM-controlled converter and also correctly simulate rectifying operation as well as blanking time. This model type is well-suited for real-time simulation.

  • Average model (Uref-controlled) — The converter is modeled using a switching-function model directly controlled by the reference voltage signals (Uref). A PWM generator is not required.

  • Average model (No rectifier mode) — The block uses the voltage source directly controlled by the reference voltage to model the converter. The model does not require a PWM generator and does not simulate the rectifier mode. This setting provides the fastest simulations.

    When doing real-time simulation, use the Switching function setting with the firing pulses averaged, or the Average model (Uref-controlled) or Average model (No rectifier mode) settings.

Examples

Ports

Input

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Vectorized gating signal to control the converter. The gating signal contains two firing pulses to control Q1 and Q2.

Dependencies

To enable this port, set Model type to Switching devices or Switching function.

Reference voltage signal to control the converter.

Dependencies

To enable this port, set Model type to Average model (Uref-controlled) or Average model (No rectifier mode).

Input port to block all firing pulses to the converter. To block all firing pulses to the converter, apply a signal value of 1 to this port.

Conserving

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Specialized electrical conserving port associated with the positive terminal.

Specialized electrical conserving port associated with the negative terminal.

Parameters

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To edit block parameters interactively, use the Property Inspector. From the Simulink® Toolstrip, on the Simulation tab, in the Prepare gallery, select Property Inspector.

Select one of these values:

  • Switching devices — The converter is modeled with IGBT/diode pairs controlled by firing pulses produced by a PWM generator.

  • Switching function — The converter is modeled by a switching-function model. The switches are replaced with two voltage sources and two diodes on the AC side and with two current sources on the DC side.

  • Average model (Uref-controlled) — The converter is modeled using a switching-function model directly controlled by the reference voltage signals (Uref).

  • Average model (No rectifier mode) — The block uses the voltage source directly controlled by the reference voltage to model the converter. The model does not require a PWM generator and does not simulate the rectifier mode.

Internal resistance of the switching devices, in ohms.

Dependencies

To enable this parameter, set Model type to Switching devices.

Snubber resistance, in ohms. Set the snubber resistance to inf to eliminate the snubbers.

Dependencies

To enable this parameter, set Model type to Switching devices.

Snubber capacitance, in farads. Set the snubber capacitance to 0 to eliminate the snubbers.

Dependencies

To enable this parameter, set Model type to Switching devices.

Internal resistance of the diodes, in ohms.

Dependencies

To enable this parameter, set Model type to Switching function or Average model (Uref-controlled).

Snubber resistance of the diodes, in ohms. Set the snubber resistance to inf to eliminate the snubbers.

Dependencies

To enable this parameter, set Model type to Switching function or Average model (Uref-controlled).

Snubber capacitance of the diodes, in farads. Set the snubber capacitance to 0 to eliminate the snubbers.

Dependencies

To enable this parameter, set Model type to Switching function or Average model (Uref-controlled).

Forward voltage, in volts, across the diode when it is conducting.

Dependencies

To enable this parameter, set Model type to Switching function or Average model (Uref-controlled).

Snubber resistance across the two current sources, in ohms. Set the snubber resistance to inf to eliminate the snubbers.

Dependencies

To enable this parameter, set Model type to Switching function, Average model (Uref-controlled), or Average model (No rectifier mode).

Source resistance on the AC side, in ohms. Set the snubber resistance to inf to eliminate the snubbers.

Dependencies

To enable this parameter, set Model type to Average model (No rectifier mode).

Extended Capabilities

C/C++ Code Generation
Generate C and C++ code using Simulink® Coder™.

Version History

Introduced in R2015b