Reduction of hot carrier degradation in high voltage n-channel LDMOS BCD (Bipolar-CMOS-DMOS) technology

2016 IEEE International Integrated Reliability Workshop (IIRW) Pub Date : 1900-01-01 DOI:10.1109/IIRW.2016.7904897
J. Hao, D. Hahn
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引用次数: 3

Abstract

This paper reports two methods to reduce HC degradation in high voltage LNDMOS device without sacrificing the device breakdown voltage and Rdson in BCD technology. The first method modifies the front end process by forming a thick oxide in drift region-I. The process modification is achieved with a simple layout change in BCD technology. Experimental data shows this modification has significantly improved HC degradation in the LNDMOS. The second method modifies back end processes by adding a unique SiN barrier layer which we believe reduces plasma induced damage on the LNDMOS. We demonstrate the barrier layer can improve device hot carrier performance in the LNDMOS.
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高电压n通道LDMOS BCD(双极- cmos - dmos)技术中热载流子降解的降低
本文报道了在不牺牲器件击穿电压的情况下降低高压ldmos器件HC退化的两种方法和BCD技术中的Rdson方法。第一种方法通过在漂移区i形成厚氧化物来修改前端工艺。在BCD技术中,通过简单的布局改变实现了工艺修改。实验数据表明,该修饰明显改善了LNDMOS中HC的降解。第二种方法通过添加独特的SiN势垒层来修改后端工艺,我们认为这可以减少等离子体对LNDMOS的损伤。我们证明了阻挡层可以改善器件在ldmos中的热载流子性能。
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2016 IEEE International Integrated Reliability Workshop (IIRW)
2016 IEEE International Integrated Reliability Workshop (IIRW)
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