Low‐power successive approximation ADC using split‐monotonic capacitive DAC

Abstract: A power-efficient successive approximation analogue-to-digital converter (SA-ADC) is proposed. In order to reduce the energy consumption of the employed capacitive digital-to-analogue converter (DAC), a new low-energy capacitor switching technique is proposed which consumes no switching energy during the first three comparison steps. Moreover, an energyefficient split-monotonic technique is utilised for the rest of the operations. Compared with the capacitor switching technique used in the conventional SA-ADC,… Show more

“…Mao W, Y et al [16] implemented Non-Fractional Binary Weighted Capacitive Array with Attenuation (NFBWA) capacitor method for SAR ADC. The proposed DAC method has improved the Walden Figure- Design of 12-Bit SAR ADC using Split Capacitor Based DAC Architecture at 45nm CMOS Technology Shakibaee et al [17] proposed a power-efficient SAR ADC system. In this design a new low energy capacitor switch approach is used that consumed no switching energy in first three comparison steps.…”

Design of 12-Bit SAR ADC using Split Capacitor Based DAC Architecture at 45nm CMOS Technology

“…Mao W, Y et al [16] implemented Non-Fractional Binary Weighted Capacitive Array with Attenuation (NFBWA) capacitor method for SAR ADC. The proposed DAC method has improved the Walden Figure- Design of 12-Bit SAR ADC using Split Capacitor Based DAC Architecture at 45nm CMOS Technology Shakibaee et al [17] proposed a power-efficient SAR ADC system. In this design a new low energy capacitor switch approach is used that consumed no switching energy in first three comparison steps.…”

Design of 12-Bit SAR ADC using Split Capacitor Based DAC Architecture at 45nm CMOS Technology

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