An 11‐μ W, 9‐bit fully differential,cyclic/algorithmic ADC in 0.13 μm CMOS

This paper describes a fully differential, cyclic, analogue‐to‐digital converter (ADC). It utilizes a 4‐bit binary weighted capacitor array to obtain 9‐bit resolution. The ADC uses an operational amplifier to suppress supply voltage variations. The operational amplifier with the slew‐rate detection is used to increase the speed of the ADC. The ADC is fabricated in IBM 0.13 μm CMOS process and occupies 650 × 850μm² active area. At 10 kS/s sampling rate, the ADC consumes 11 μW. In order to test immunity of the ADC on the supply voltage variations, static and dynamic performance of the ADC is measured with triangular supply voltage (V _{D C}  = 1.5 V, V _{A C}  = 200mV _pp, f  = 1 kHz). The measured peak of differential nonlinearity and integral nonlinearity is  + 0.26/ ? 0.67 and  + 0.65/ ? 0.59, respectively. At 250 Hz, effective number of bit is 8.4 bits, S F D R  = 66.7 dB and S N D R  = 52.6 dB. Copyright © 2016 John Wiley & Sons, Ltd.