Abstract
The main goal of this paper is to detect the open-circuit fault of the electrolytic capacitors usually used in the dc-bus of a three phase/level NPC active rectifier. This phenomenon causes unavoidable overvoltage across the dc-bus leading therefore to the destruction of the converter’s power semiconductors. The real-time detection of this fault is therefore vital to avoid severe damage as well as wasted repair time. The proposed diagnosis method is based on the measurement of the voltages across the two dc-bus capacitors. Their mean values are therefore compared with the half value of the dc-bus reference voltage. If the comparison result is under a predefined threshold value, a fault alarm signal is generated in real-time by the monitoring system. The converter’s control algorithm and fault detection method are both implemented in real-time on a DSP controller. The obtained experimental results confirm the effectiveness of the proposed diagnosis technique. Indeed, a fault signal is generated at the peripheral of the DSP after 60 ms of the fault occurrence.
Highlights
Multilevel converters are without a doubt the best suited topologies for medium voltage/ medium power industrial applications [1]
This paper is focused on the diagnosis of open-circuit faults of the dc-bus capacitors in three phase/level Neutral Point Clamped (NPC) converter operating as an active ac/dc rectifier
In order to testify the effectiveness of the proposed opencircuit fault detection method, the Voltage Oriented Control (VOC) algorithm of the NPC rectifier, and the diagnosis algorithm are implemented in realtime on the DSP TMS 320F28335 of Texas Instruments running at a clock frequency of 150 kHz
Summary
Multilevel converters are without a doubt the best suited topologies for medium voltage/ medium power industrial applications [1]. Many diagnosis methods have been proposed in the recent literature to identify the open-circuit fault of power transistors and diodes utilized in the three-level NPC converter [5,6,7,8,9,10]. The method is based on the analysis of the 6th harmonic component of the dc-bus voltage to detect the capacitor aging and open-circuit faults. This paper is focused on the diagnosis of open-circuit faults of the dc-bus capacitors in three phase/level NPC converter operating as an active ac/dc rectifier.
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