Abstract
This article presents an open-switch fault detection method for a hybrid active neutral-point clamped (HANPC) inverter based on deep learning technology. The HANPC inverter generates a three-level output voltage with four silicon switches and two silicon carbide switches per phase. The probability of open fault in switching devices increases because of the large number of switches of the entire power converter. The open-switch fault causes distortion of output currents. A convolution neural network (CNN) comprising several convolution layers and fully connected layers is used to extract features of distorted currents. A CNN network was trained using three-phase current information to determine the location of the open-switch fault. Our proposed CNN model can accurately detect approximately 99.6% of open-switch faults without requiring additional circuitry and regardless of the current level within an average time of 1.027ms. The feasibility and effectiveness of the proposed method are verified by experimental results.
Highlights
The application of renewable energy-based distributed generation systems for electrical power supply to inhabitants of islands or remote areas has increased in recent years [1]–[2]
In a previous study, we proposed a technique to detect open-switch faults in hybrid active neutral point clamped (HANPC) inverters by observing the distortion of the output current in a stationary reference frame without additional circuitry [13]
The HANPC inverter is composed of three Si insulated gate bipolar transistors (IGBTs) modules (SK75GBB066T of Semikron) and six discrete-type SiC metal-oxide-semiconductor field-effect transistors (MOSFETs) switches (C2M0040120D of CREE) with appropriate gate driver units
Summary
The application of renewable energy-based distributed generation systems for electrical power supply to inhabitants of islands or remote areas has increased in recent years [1]–[2]. An open fault results in distortion of the three-phase output currents, i.e., the inverter becomes out of control. In a previous study, we proposed a technique to detect open-switch faults in HANPC inverters by observing the distortion of the output current in a stationary reference frame without additional circuitry [13].
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