A pipelined ADC, reconfigurable over bandwidths of 0.2–22 MHz (sampling frequencies of 0.4–44 MS/s) and resolutions of 10–12 bits, is described for applications in multi-standard wireless terminals. Fabricated in a 1.2-V 90-nm digital CMOS technology, this ADC achieves low power (figure-of-merit of to 0.5 pJ per A/D conversion step) over its full bandwidth-resolution range. Accordingly, compared to state-of-the-art power-efficient reconfigurable pipelined ADCs, this ADC provides a larger bandwidth-resolution reconfigurability space, while maintaining a highly competitive FOM over this entire space. To achieve such low-power performance in a low-voltage nanometer CMOS process, this work utilizes: 1) a current-scalable frequency-compensation technique to design low-power current-scalable two-stage opamps; 2) a switched-capacitor technique to design dynamic comparators with low input capacitance (input-loading effect); and 3) a low-power digital background gain-calibration technique. The large bandwidth and resolution reconfigurability ranges are achieved using current-scaling and stage-bypass techniques, respectively.