A 10-bit 50-MS/s Pipelined ADC With Opamp Current Reuse

Power and area saving concepts such as operational amplifier (opamp) bias current reuse and capacitive level shifting are used to lower the analog power of a 10-bit pipelined analog-to-digital converter (ADC) to 220 muW/MHz. Since a dual-input bias current reusing opamp performs as two opamps, the opamp summing nodes can be reset in every clock cycle. By using only N-channel MOS (NMOS) input stages, the capacitive level shifter simplifies the gain-boosting amplifier design and enables fast opamp settling with low power-consumption. The prototype achieves 9.2/8.8 effective number of bits (ENOB) for 1- and 20-MHz inputs at 50 MS/s. The ADC works within the temperature range of 0deg to 85 degC and the supply voltage from 1.62 to 1.96 V with little measured loss in the ENOB. The chip consumes 18 mW (11 mW for the analog portion of the ADC and 7 mW for the rest including buffers) at 1.8 V, and the active area occupies 1.1 times 1.3 mm² using a 0.18-mum complementary metal oxide semiconductor (CMOS) process.