论文信息 - A 21nV/√Hz chopper-stabilized multipath current-feedback instrumentation amplifier with 2µV offset

A 21nV/√Hz chopper-stabilized multipath current-feedback instrumentation amplifier with 2µV offset

Amplifiers with low offset and low 1/f noise usually employ auto-zeroing (AZ) and/or chopping. However, AZ suffers from noise aliasing, and so requires more power dissipation for a given noise specification. Chopping, although free of noise aliasing, requires notch filters [1, 2] or AZ [3] to remove the ripple caused by up-modulated offset and 1/f noise. This paper describes a chopper-stabilized multi-path current-feedback instrumentation amplifier (CFIA), whose ripple is removed by a continuous-time (CT) ripple-reduction loop (RRL) [2]. In contrast to [2], the notch created by the RRL is eliminated by the use of a multi-path architecture. This results in a CFIA with a smooth single-pole response, which also achieves low offset (2µV) and low noise (21nV/√Hz) in a power efficient manner (NEF=9.6). By appropriately connecting its inputs, the CFIA can also be used as an opamp. In this configuration, its offset is further reduced while its noise and NEF are halved.

Kofi A. A. Makinwa | Johan H. Huijsing | Qinwen Fan

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