Low-Capacitance Low-Voltage Triggered SCR ESD Clamp Using nMOS With Asymmetric Drain for RF ICs
Microwave Theory and Techniques, IEEE Transactions(2011)
摘要
A novel low-capacitance low-voltage triggered silicon-controlled rectifier (LC-LVTSCR) electrostatic discharge (ESD) clamp is proposed in a 0.13-μm RF process. The proposed ESD clamp meets the ESD robustness and the RF requirement. The mechanism of the proposed LC-LVTSCR is investigated by T-CAD simulations, and a method to reduce the parasitic capacitance is presented. From the measurement, it was observed that the proposed ESD clamp has approximately 50% lower parasitic capacitance compared to the conventional LVTSCR device. The proposed ESD clamp was successfully used in a 2.4-GHz RF transceiver chip. The RF chip with the new proposed LC-LVTSCR passed a human body model 1-kV and machine model 100-V ESD test.
更多查看译文
关键词
uhf integrated circuits,electrostatic discharge,low-power electronics,radio transceivers,technology cad (electronics),thyristors,esd clamp,rf transceiver chip,t-cad simulations,asymmetric drain,frequency 2.4 ghz,human body model,machine model,nmos,parasitic capacitance,radiofrequency integrated circuits,size 0.13 mum,triggered silicon-controlled rectifier,electrostatic discharge (esd),rf integrated circuit (ics),human body model (hbm),low-voltage triggered silicon-controlled rectifier (lvtscr),machine model (mm),low voltage,silicon controlled rectifier,integrated circuit,chip,capacitance,low power electronics,radio frequency
AI 理解论文
溯源树
样例
生成溯源树,研究论文发展脉络
Chat Paper
正在生成论文摘要