Abstract
In high-temperature reverse-bias test of an insulated-gate bipolar transistor module, the problem of self-heating in chip resulting from power loss arises with high frequency. To address this problem, the law of the variation in leakage current with temperature for the reverse-bias state of a device is derived and utilized to establish a temperature calibration curve, with which the online measurement of the insulate-gate bipolar transistor module chip temperature can be implemented directly by real-time monitoring of device leakage current in high-temperature reverse-bias test. The method we proposed solves the problem of large measurement error in chip temperature obtained by traditional thermal resistance calculation method. In addition, real-time chip temperature can be monitored without introducing additional test circuit or HTRB interruption experiment. To demonstrate the effectiveness of the proposed method, the switching small-current temperature measurement method is used to make comparison, and the experiment result indicates that the temperature of the chip in the blocking test can be obtained with high precision by using the leakage current measurement method presented in this work.
Highlights
The insulated-gate bipolar transistor (IGBT) has the characteristics of a high blocking withstand voltage, low on-resistance and low driving power
The experiment of switching small-current temperature measurement is performed to compare with the proposed method, and the results reveals that the presented leakage current-based method is capable of measuring the chip temperature in a blocking test with high precision
In this paper, a novel approach for indirectly measuring the junction temperature of device in high-temperature reverse-bias (HTRB) test is introduced, which was realized by monitoring the leakage current in IGBT module
Summary
The insulated-gate bipolar transistor (IGBT) has the characteristics of a high blocking withstand voltage, low on-resistance and low driving power. J. Li et al.: On-Line Measurement of Chip Temperature Based on Blocking Leakage Current of the IGBT Module in the HTRB Test temperature by measuring these electrical parameters. In order to solve the problem of accurate monitoring of chip self heating caused by module leakage current, without changing the high-temperature reverse bias test condition, this paper studies the temperature characteristics of leakage current which can be measured online in high-temperature blocking state, for the case that the device is in blocking state, the variation law of leakage current with temperature is employed to establish the temperature calibration curve, so as to fulfill the on-line monitoring of junction temperature without affecting the HTRB experiment. The experiment of switching small-current temperature measurement is performed to compare with the proposed method, and the results reveals that the presented leakage current-based method is capable of measuring the chip temperature in a blocking test with high precision
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
