用于igbt在线健康监测的精确双极电压测量电路误差分析

P. Deshmukh, Abhinav Arya, S. Anand
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引用次数: 6

摘要

导通电压主要用于IGBT的健康监测。本文提出了一种快速、准确、在线的IGBT导通电压测量电路。该电路能够测量反并联二极管的正导通电压(VCE-ON)和负正向电压(VF)。测量电路提供导通电压的缩放/移位,这有利于直接连接模拟到数字(ADC),以监测数字控制器中的电压。该电路的主要优点是总体测量误差约为±0.111%,低于IGBT状态监测的允许误差范围(±0.33%)。在设备关闭状态时,提供灵活的电压夹紧,以尽量减少测量中的误差。测量中可能出现的不同误差是由于:1)电阻失配,2)二极管电压失配,3)ADC量化和运放。本文对上述误差进行了详细的分析。对所提出的电路进行了仿真和实验验证,并与已有的测量电路进行了比较。
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Error Analysis of An Accurate Bipolar Voltage Measurement Circuit for Online Health Monitoring of IGBTs
On-state voltage is predominantly used in the health monitoring of the IGBT. In this paper, fast, accurate and online on-state voltage measurement circuit is suggested for an IGBT. The circuit is capable of measuring positive on-state collector-emitter voltage (VCE–ON) and negative forward voltage (VF) of anti-parallel diode. The measurement circuit offers the scaling/shifting of the on-state voltage, which facilitates direct connection of Analog to Digital (ADC), to monitor the voltage in digital controllers. The key advantage of the suggested circuit is that the overall measurement error is about ± 0.111%, which is below the allowable error limits (± 0.33%) for condition monitoring of the IGBT. A flexible voltage clamping is provided, during OFF state of device, to minimize the error in the measurement. Different possible errors in the measurement are due to, i) resistor mismatch, ii) diode voltages mismatch, and iii) ADC quantisation and opamp. The detailed analysis of the mentioned errors is presented in this paper. Simulation and experimental validation of suggested circuit is carried out and results are also compared with previously reported measurement circuits.
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