Active Gate Control in Half-Bridge Inverters Using Programmable Gate Driver ICs to Improve Both Surge Voltage and Converter Efficiency

The requirements for peripheral circuits of power converters are becoming more restrictive due to the enhancement of Si-based power devices and due to practical use of SiC device. In the design of modern high-speed switching converters, the stray inductances and capacitances both in the device packa...

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Bibliographic Details
Published in:IEEE transactions on industry applications 2018-09, Vol.54 (5), p.4603-4611
Main Authors: Obara, Hidemine, Wada, Keiji, Miyazaki, Koutarou, Takamiya, Makoto, Sakurai, Takayasu
Format: Article
Language:English
Subjects:
63-level drivability
Active control
active gate control
Analog circuits
Bridges
Circuits
Control methods
current sensing control
Diodes
Electric potential
Electronic devices
Energy conversion efficiency
Feedback control
Field programmable gate arrays
Gate drivers
Gates (circuits)
High speed
Integrated circuits
Inverters
Logic gates
Power converters
programmable gate driver IC
Semiconductor devices
Silicon carbide
Switches
Switching
Transistors
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Summary:The requirements for peripheral circuits of power converters are becoming more restrictive due to the enhancement of Si-based power devices and due to practical use of SiC device. In the design of modern high-speed switching converters, the stray inductances and capacitances both in the device package and in the gate drive circuit in addition to those in the main circuit of the power converter must be considered. In these situations, the gate driving technique represents the key technology for enhancement of high-speed switching ability of power devices, as there are design limitations to reduce the stray inductances and capacitances. So far, several active gate control methods have been proposed. Most conventional active gate drivers are configured using analog circuits such as transistors and diodes. Thus, it is difficult to reconfigure their control parameters to fit the stray inductances and capacitances after the implementation of power converter and gate circuits. As a solution to these problems, the authors have proposed a programmable gate driver IC, which is a digitally controlled circuit. This gate driver IC can control the gate current at 63 separate levels, operated by programmable fully digital 12-bit and clock signals. In this paper, an active gate current control based on the load current in a half-bridge inverter with two programmable gate driver ICs is demonstrated. This developed gate control is different to the general current feedback control followed the reference value. It is verified that the proposed active gate control can effectively improve the tradeoff relationship between the surge voltage and switching loss of the pulsewidth modulation half-bridge inverter circuit.
ISSN:0093-9994
1939-9367
DOI:10.1109/TIA.2018.2835812