A Low-Power 3.25gs/S 4th-Order Programmable Analog Fir Filter Using Split-Cdac Coefficient Multipliers For Wideband Analog Signal Processing
2018 IEEE INTERNATIONAL SOLID-STATE CIRCUITS CONFERENCE - (ISSCC)(2018)
Abstract
Discrete-time (DT) circuits provide a means to overcome the analog-circuit design challenges in deeply scaled digital CMOS technologies while benefitting from the reduced switch on-resistance and parasitic capacitance, resulting in lower dynamic power dissipation. In addition, such DT analog circuits can reduce the requirements on analog-to-digital converters that precede digital processing [1]. Recent DT domain filters achieve high-order narrowband programmable filtering with low power and high linearity even under low supply voltage [2,3]. However, DT switched capacitor circuits have not been considered for wideband analog signal processing (ASP) applications such as on-chip implementation of FIR-based beamforming [4,5]. While the AFIR filter proposed in [6] is a suitable approach for programmable wideband ASP applications, in that design only symmetric and positive coefficient sets were possible and measured performance was not shown.
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Key words
symmetric coefficient sets,FIR-based beamforming,low-power programmable analog FIR filter,analog-circuit design,4th-order programmable analog FIR filter,DT switched capacitor circuits,high-order narrowband programmable filtering,DT domain filters,digital processing,dynamic power dissipation,discrete-time circuits,split-CDAC coefficient multipliers,positive coefficient sets,programmable wideband ASP applications,AFIR filter,wideband analog signal processing applications,low supply voltage,analog-to-digital converters,DT analog circuits,reduced switch on-resistance,deeply scaled digital CMOS technologies
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