A 10-bit 200 MS/s pipelined ADC with parallel sampling and switched op-amp sharing technique

IF 0.8 4区工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Circuit World Pub Date : 2021-07-29 DOI:10.1108/cw-12-2020-0356

D. Sam, P. Paul

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引用次数: 5

Abstract

Purpose In parallel sampling method, the size of the sampling capacitor is reduced to improve the bandwidth of the ADC. Design/methodology/approach Various low-power techniques for 10-bit 200MS/s pipelined analog-to-digital converter (ADC) are presented. This work comprises two techniques including parallel sampling and switched op-amp sharing technique. Findings This paper aims to study the effect of parallel sampling and switched op-amp sharing techniques on power consumption in pipelined ADC. In switched op-amp sharing technique, the numbers of op-amps used in the stages are reduced. Because of the reduction in the size of capacitors in parallel sampling technique and op-amps in the switched op-amp sharing technique, the power consumption of the proposed pipelined ADC is reduced to a greater extent. Originality/value Simulated the 10-bit 200MS/s pipelined ADC with complementary metal oxide semiconductor process and the simulation results shows a maximum differential non-linearity of +0.31/−0.31 LSB and the maximum integral non-linearity (of +0.74/−0.74 LSB with 62.9 dB SFDR, 55.90 dB SNDR and ENOB of 8.99 bits, respectively, for 18mW power consumption with the supply voltage of 1.8 V.

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采用并行采样和开关运算放大器共享技术的10位200 MS/s流水线ADC

目的在并行采样方法中，减小采样电容器的大小以提高ADC的带宽。设计/方法/方法介绍了10位200MS/s流水线模数转换器（ADC）的各种低功耗技术。这项工作包括两种技术，包括并行采样和开关运算放大器共享技术。本文旨在研究并行采样和开关运算放大器共享技术对流水线ADC功耗的影响。在开关运算放大器共享技术中，减少了各级中使用的运算放大器的数量。由于并行采样技术中电容器的大小和开关运算放大器共享技术中运算放大器的大小的减小，所提出的流水线ADC的功耗在更大程度上降低。独创性/数值模拟采用互补金属氧化物半导体工艺的10位200MS/s流水线ADC，模拟结果显示最大微分非线性为+0.31/−0.31 LSB，最大积分非线性为+0.74/−0.74 LSB，62.9 dB SFDR，55.90 dB SNDR和ENOB为8.99 位，分别用于电源电压为1.8时的18mW功耗五、

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来源期刊

Circuit World 工程技术-材料科学：综合

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Circuit World is a platform for state of the art, technical papers and editorials in the areas of electronics circuit, component, assembly, and product design, manufacture, test, and use, including quality, reliability and safety. The journal comprises the multidisciplinary study of the various theories, methodologies, technologies, processes and applications relating to todays and future electronics. Circuit World provides a comprehensive and authoritative information source for research, application and current awareness purposes. Circuit World covers a broad range of topics, including: • Circuit theory, design methodology, analysis and simulation • Digital, analog, microwave and optoelectronic integrated circuits • Semiconductors, passives, connectors and sensors • Electronic packaging of components, assemblies and products • PCB design technologies and processes (controlled impedance, high-speed PCBs, laminates and lamination, laser processes and drilling, moulded interconnect devices, multilayer boards, optical PCBs, single- and double-sided boards, soldering and solderable finishes) • Design for X (including manufacturability, quality, reliability, maintainability, sustainment, safety, reuse, disposal) • Internet of Things (IoT).