This article presents a fully differential (FD) low-voltage (LV) fourth-order Butterworth active-RC low-pass filter (LPF) with a maximum cutoff frequency (f o ) of 160 MHz, f o programmability, and adaptive power. The proposed filter targets communication systems requiring high and reconfigurable f o at supply voltages (V DD s) of 0.6 V. The filter is implemented with an active-RC topology, a programmable f o between four steps, 20/40/80/160 MHz, and a f o fine-tuning option after fabrication via capacitor banks. A compact LV FD amplifier with feedforward gain-boosting implementation is used to meet the stringent filter’s performance. The novel amplifier achieves an open loop gain of 66 dB and a maximum unity-gain frequency (UGF) of 759 MHz with V DD = 0.6 V and 5.27 mW of power dissipation. Using the proposed amplifier, the filter achieves the highest fo reported in the literature for LV active-RC implementations and 40% power reduction over similar high-f o LV filters. The filter was fabricated in a CMOS 130-nm technology; it has a THD = 50.7 dB, signal-to-noise and distortion (SNDR) = 45.37 dB, P 1dB = 4.26 dBm and 520-μV RMS integrated noise over the filter’s bandwidth (BW), while consuming 23.8 mA from a 0.6-V supply for f o = 160 MHz.
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A 0.6-V Power-Efficient Active-RC Analog Low-Pass Filter With Cutoff Frequency Selection