基于2位/步比较的低功耗逐次逼近模数转换器

Naoki Sugiyama, Hiroshi Noto, Yoshito Nishigami, R. Oda, T. Waho
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引用次数: 5

摘要

提出了一种基于多值方法的新型低功耗8位连续逼近ADC。与传统的1bit/step SA adc相比,采用2bit/step转换,并结合分裂电容阵列和双采样技术来降低功耗。采用0.18µm标准CMOS技术的晶体管级仿真表明,与采样频率为100 kHz的1比特/步长的等效电路相比,总功耗降低了约20%。由于数字部分比模拟部分消耗更多的功率,因此目前的方法预计对使用先进工艺技术的adc更具吸引力。
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A Low-Power Successive Approximation Analog-to-Digital Converter Based on 2-Bit/Step Comparison
A novel low-power 8-bit successive approximation (SA) ADC using multiple-valued approach is presented. In contrast to conventional 1bit/step SA ADCs, 2bit/step conversion is employed, and combined with the split capacitor array and dual sampling technique to reduce the power consumption. Transistor level simulation, assuming 0.18-µm standard CMOS technology, shows that the total power consumption decreases by about 20% compared with that obtained for a 1bit/step counterpart at a sampling frequency of 100 kHz. Since the digital part consumes more power than the analog part, the present approach is expected to be more attractive for ADCs using advanced process technology.
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