An inductive peaking technology for high-speed MIPI receiver bandwidth expanding in a 90 nm CMOS process

2016 IEEE International Nanoelectronics Conference (INEC) Pub Date : 2016-05-09 DOI:10.1109/INEC.2016.7589399
Shuangyi Wu, Qiwei Wang, N. Ning, Jing Li
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引用次数: 1

Abstract

An inductive peaking technology is proposed in this paper for improving receiver bandwidth. A N/PMOS cross biasing active inductor and negative Miller capacitance are introduced to provide inductive peaking around the amplifier bandwidth. According to the simulation and experimental results within a MIPI receiver under 1.2V CMOS 90nm process, the inductive peaking technology increases the bandwidth of the preamplifier in the MIPI PHY circuit from 1.05GHz to 2.09GHz. As a results, the PHY circuit which employs the inductive peaking amplifier consumes only 4mW power for transferring 1Gbps data signal with 70mV differential amplitude to 1.2V CMOS level.
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一种90纳米CMOS制程中用于高速MIPI接收器带宽扩展的感应峰值技术
本文提出了一种提高接收机带宽的感应调峰技术。引入N/PMOS交叉偏置有源电感和负米勒电容,在放大器带宽附近提供感应峰值。通过对一个1.2V CMOS 90nm工艺下的MIPI接收机的仿真和实验结果表明,电感峰值技术将MIPI PHY电路中前置放大器的带宽从1.05GHz提高到2.09GHz。因此,采用感应峰值放大器的PHY电路将差分幅值为70mV的1Gbps数据信号传输到1.2V CMOS电平时,功耗仅为4mW。
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2016 IEEE International Nanoelectronics Conference (INEC)
2016 IEEE International Nanoelectronics Conference (INEC)
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