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Power dissipation of bioamplifiers has become one of the most critical factors for up-to-date implantable neural recording microsystems as the increasing of recording channels. This paper presents an ultra-low-power bioamplifier which is designed for the very-large-scale integration of neural recordings. To reduce the power, the proposed bioamplifier is designed to work with a 0.5 V power supply and...
This paper presents an ultra-low-power low-noise bioamplifier for neural recording applications. The bioamplifier manifests a supply insensitive first gain stage and a CMOS-inverter-based second gain stage. The entire system is designed in 0.13-µm standard RF CMOS process. The bioamplifier operates at 0.6 V supply with a power consumption of only 198.6 nW. The midband gain of the amplifier is 24.94...
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