Design of common-mode feedback for high-gain charge amplifier
Y Song, J Rozsa, J Magalhaes, S Smith… - 2020 Intermountain …, 2020 - ieeexplore.ieee.org
2020 Intermountain Engineering, Technology and Computing (IETC), 2020•ieeexplore.ieee.org
We describe a common-mode feedback circuit (CMFB) for a charge detector. The amplifier is
implemented in a 180-nm complementary metal-oxide-semiconductor (CMOS) process. The
amplifier combines a folded differential topology, active reset, and small feedback
capacitors. This allows for low noise, high-gain, high-dynamic-range, and robust operations.
The design and analysis of the CMFB for the proposed high-gain charge amplifier is
discussed. Simulation results show that the CMFB loop has a phase margin of 62.1 degrees …
implemented in a 180-nm complementary metal-oxide-semiconductor (CMOS) process. The
amplifier combines a folded differential topology, active reset, and small feedback
capacitors. This allows for low noise, high-gain, high-dynamic-range, and robust operations.
The design and analysis of the CMFB for the proposed high-gain charge amplifier is
discussed. Simulation results show that the CMFB loop has a phase margin of 62.1 degrees …
We describe a common-mode feedback circuit (CMFB) for a charge detector. The amplifier is implemented in a 180-nm complementary metal-oxide-semiconductor (CMOS) process. The amplifier combines a folded differential topology, active reset, and small feedback capacitors. This allows for low noise, high-gain, high-dynamic-range, and robust operations. The design and analysis of the CMFB for the proposed high-gain charge amplifier is discussed. Simulation results show that the CMFB loop has a phase margin of 62.1 degrees and a gain margin of 25 dB. Measurement results show the amplifier chip exhibits a stable common mode voltage.
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