Cryogenic low power CMOS analog buffer at 4.2K

Chao Luo; GuoPing Guo; Jun Xu; Tengteng Lu; Yajie Huang; Zhen Li

arxiv: 1905.09560 · v1 · pith:7APEGN5Qnew · submitted 2019-05-23 · ⚛️ physics.app-ph

Cryogenic low power CMOS analog buffer at 4.2K

Yajie Huang , Chao Luo , Tengteng Lu , Zhen Li , Jun Xu , GuoPing Guo This is my paper

classification ⚛️ physics.app-ph

keywords circuitpowerachieveanalogbuffercmoscryogenicproposed

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A novel power-efficient analog buffer at liquid helium temperature is proposed. The proposed circuit is based on an input stage consisting of two complementary differential pairs to achieve rail-to-rail level tracking. Results of simulation based on SMIC 0.18um CMOS technology show the high driving capability and low quiescent power consumption at cryogenic temperature. Operating at single 1.4 V supply, the circuit could achieve a slew-rate of +51 V/us and -93 V/us for 10 pF capacitive load. The static power of the circuit is only 79uW.

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Cryogenic low power CMOS analog buffer at 4.2K

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