论文信息 - Novel and robust constant-g/sub m/ technique for rail-to-rail CMOS amplifier input stages

Novel and robust constant-g/sub m/ technique for rail-to-rail CMOS amplifier input stages

We present a new circuit technique for rail-to-rail constant-transconductance (g/sub m/) CMOS amplifier input stages, achieving constant transconductance and slew rate over the full input common-mode voltage range without degrading high-frequency performance. In addition, the technique does not rely on the quadratic characteristic of the input MOS transistors, and is robust to transconductance parameter mismatch between N and P input transistors. A CMOS amplifier input stage is designed in a standard 0.35-/spl mu/m CMOS process. With a 3-V supply, the g/sub m/ variation is kept within /spl plusmn/1% under nominal conditions and /spl plusmn/3% when there is /spl plusmn/40% mismatch of input transistor transconductance parameters. In addition, 114-MHz gain-bandwidth product is achieved with a 2 pF capacitive load. The proposed input stage can be applied in communications and VLSI cell libraries.

Shouli Yan | Jingyu Hu | Tongyu Song

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