This thesis presents a digital background calibration technique to trim the input-referred offsets of a comparator circuit. The calibration does not interrupt the normal operation of the comparator, hence is suitable for high speed and power efficient applications such as flash analog-to-digital converters(ADC). For a random-chopping comparator, the polarity of its offset is detected by observing the code density of its comparison results. A calibration loop is then used to adjust the comparator offset so that the offset is minimized. All procedures in the calibration loop are performed in digital domain. This arrangement ensures excellent reliability and high yields. The calibration performance is characterized by the converging speed of the calibration loop and the fluctuation noise imposed to the input signal. These two performance indexes of a background-calibrated comparator (BCC) are determined by three parameters: the probabilistic distribution of input signal, the quantized step size of offset adjustment, and the threshold of an internal bilateral peak detector. In flash ADCs, the offset fluctuation of a BCC can be drastically reduced by input windowing mechanism, which is accomplished by incorporating the thermometer-code edge detector(TCED) into the calibration loop. When introducing the TCED, uncorrelated random chopping for neighboring BCCs is used to avoid upward locking phenomenon which may lock calibration. A 2Gsample/s 6-bit ADC with the developed calibration technique is fabricated using 65 nm CMOS technology. A circuit architecture with no DC bias and small transistor sizes is selected for comparators used in the ADC. The comparator includes modifications for variable offset mechanism and high common-mode rejection capability. The parameters for the calibration loop are 1/4 LSB for the quantized offset adjustment step, and 16 for the bilateral peak detector threshold. The active area of the fabricated ADC is 0.21×0.66mm2. Drawing from 1.5V supply voltage, the ADC consumes 54mW. Before activating the calibration, the DNL is -1.0/+4.9 LSB and the INL is -4.3/+5.4 LSB. After activating the offset calibration, the DNL becomes -0.5/+0.6 LSB and the INL is reduced to -0.4/+0.7 LSB. The calibration improves the SNDR from 20.4dB to 31.0dB with an input frequency of 32MHz. When operating at 2GS/s, the effective resolution of bandwidth extends over the Nyquist frequency. The figure-of-merit of the ADC is 0.93pJ/conversion-step.