A low-noise fully differential recycling folded cascode neural amplifier

S. Cerida, E. Raygada, C. Silva and M. Monge, "A low-noise fully differential recycling folded cascode neural amplifier," 2015 IEEE 6th Latin American Symposium on Circuits & Systems (LASCAS), Montevideo, Uruguay, 2015, pp. 1-4.

A low-noise fully differential recycling folded cascode neural amplifier
This paper describes the design of an amplifier to be used as part of a neural recording system. The architecture of this amplifier was based on a fully differential folded cascode (FDFC) amplifier and adapted to a recycling architecture which reuses currents in order to achieve better performance. Furthermore, as we are designing a neural amplifier, a low input-referred noise is required due to the small amplitude of neural signals, as they could be as small as 1 μV. The recycling architecture was optimized for low-noise, and simulated in AMS 0.35 μm CMOS process. An input-referred noise of 1.16 μV <sub xmlns:mml=“http://www.w3.org/1998/Math/MathML” xmlns:xlink=“http://www.w3.org/1999/xlink”>rms</sub> was achieved while consuming 66.03 μW from a 3.3 V supply, which corresponds to NEF=2.58. The open-loop gain of the amplifier is 111.25 dB and the closed-loop gain is 42.10 dB with a bandwidth of 6.02 kHz.

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A Bimodal Low-Power Transceiver Featuring a Ring Oscillator-Based Transmitter and Magnetic Field-Based Receiver for Insertable Smart Pills

A. Abdigazy and M. Monge, "A Bimodal Low-Power Transceiver Featuring a Ring Oscillator-Based Transmitter and Magnetic Field-Based Receiver for Insertable Smart Pills," in IEEE Solid-State Circuits Letters, vol. 5, pp. 154-157, 2022. A Bimodal Low-Power Transceiver Featuring a Ring Oscillator-Based Transmitter and Magnetic Field-Based Receiver for Insertable Smart

By Manuel Monge