具有全集成过流保护功能的栅极驱动IC，可测量IGBT导通过程中栅极-发射极电压

2023 35th International Symposium on Power Semiconductor Devices and ICs (ISPSD) Pub Date : 2023-05-28 DOI:10.1109/ISPSD57135.2023.10147568

Haifeng Zhang, Dibo Zhang, Hiromu Yamasaki, Katsuhiro Hata, K. Wada, Kan Akatsu, I. Omura, M. Takamiya

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引用次数: 0

摘要

为了在不使用高压二极管等外部元件的情况下实现IGBT的低成本过流保护，提出了一种通过测量IGBT导通过程中栅极到发射极电压($V_{\text{GE}}$)来实现完全集成过流保护功能的栅极驱动IC。在本文提出的栅极驱动IC中，当igbt处于导通状态时，定时放电并充电，当每次放电下降的$V_{\text{GE}}$小于参考电压时，检测到过电流，igbt立即关断以保护过电流。在脉冲额定值为200 a的300 V感应负载单脉冲测试中，采用180 nm BCD工艺制作的栅极驱动器IC成功地保护了370 a的过流，保护延迟为810 ns。

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Gate Driver IC with Fully Integrated Overcurrent Protection Function by Measuring Gate-to-Emitter Voltage During IGBT Conduction

To achieve low-cost overcurrent protection for IGBTs without using external components such as high-voltage diodes, a gate driver IC with a fully integrated overcurrent protection function by measuring gate-to-emitter voltage ($V_{\text{GE}}$) during IGBT conduction is proposed. In the proposed gate driver IC, while the IGBTs are ON, constant gate charge is periodically discharged and charged, and when $V_{\text{GE}}$ dropped by each discharge is less than the reference voltage, it is detected as the overcurrent and the IGBTs are immediately turned off to protect from the overcurrent. In a single-pulse test of an inductive load at 300 V for an IGBT with a pulse rating of 200 A, the proposed gate driver IC fabricated with 180-nm BCD process successfully protected the overcurrent of 370 A with the protection delay of 810 ns.

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来源期刊

2023 35th International Symposium on Power Semiconductor Devices and ICs (ISPSD)

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