Lu-An Chen, Chang-Tzu Wang, T. Lai, Tien-Hao Tang, K. Su
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引用次数: 0
摘要
在这项工作中,MPSCR结构已经在0.35 um 40 v CDMOS技术中得到验证。利用TLP仪器和TCAD模拟器对具有高ESD稳健性的MPSCR结构进行了清晰的研究。仿真结果表明,改进的阴极侧P+电极布局可以提高嵌入式可控硅通路的导通效率,避免器件表面的电流拥挤效应。该装置只需要扫描漏侧的N+和P+区域,不需要增加额外的掩膜层。为了减小面积,MPSCR器件不需要增加布局面积,在器件宽度为300µm时,HBM可承受7.2kV, MM可承受360V。此外,所提出的MPSCR器件具有低触发电压(Vt1=54 v)和高二次击穿电流(It2=10-A),可广泛应用于PMIC应用的ESD保护设计。
The modified P+ electrode layout schemes to enhance esd robustness of SCR structure for PMIC applications
In this work, the MPSCR structure have been verified in a 0.35-um 40-V CDMOS technology. The MPSCR structure with high ESD robustness has been clearly investigated by TLP instrument and TCAD simulator. By the simulation results, the modified P+ electrode layout of cathode side can enhance the turn-on efficiency of embedded SCR path, and avoid the current crowding effect on the surface of device. The proposed device only need to sweep N+ and P+ regions in drain side, and do not need to increase the additional mask layer. For area reduction, the MPSCR device does not need to increase the layout area and it can sustain up to 7.2kV for HBM and 360V for MM under device width of 300µm. Besides, the proposed MPSCR device has a low trigger voltage (Vt1=54-V) and a high second breakdown current (It2=10-A), which can be extensively applied for ESD protection design of PMIC applications.
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