基于二极管的电荷泵设计采用0.35µm技术

NORCHIP 2010 Pub Date : 2010-12-17 DOI:10.1109/NORCHIP.2010.5669437

M. A. Ansari, W. Ahmad, Qiang Chen, Li-Rong Zheng

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引用次数: 6

摘要

本文介绍了一种高压电荷泵的设计。该设计基于Dickson电荷泵，采用AMS 0.35µm技术构建二极管。Dickson电荷泵的创新之处在于在电荷泵的每一级都使用电荷控制PMOS晶体管。PMOS晶体管与充电电容串联使用，通过控制每级的时间常数来降低时钟转换过程中的功耗。PMOS晶体管漏极与源极之间的电阻增加了电荷泵各级电容器充电时的时间常数。6级电荷泵的空载输出电压约为5.693V, 6级电荷泵的空载输出电压降至5.537V，但输入时钟跃迁期间的功率从340.5µw (Dickson电荷泵消耗)降至28.85µw(改进电荷泵消耗)。本文还讨论了在不同负载电阻下的其他一些结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Diode based charge pump design using 0.35µm technology

A high voltage charge pump design is being presented in this paper. The design is based on Dickson charge pump, constructed with diodes by using AMS 0.35µm technology. The innovation is made in Dickson charge pump i.e. charge control PMOS transistor is used in each stage of charge pump. PMOS transistor is used in series with charging capacitor which reduces the power consumption during the clock transition by controlling the time constant of each stage. The resistance between drain to source of PMOS transistor increases the time constant during the charging of the capacitor placed in each stage of charge pump. The output voltage of about 5.693V is achieved by the six stages of Dickson charge pump at no-load which reduces to 5.537V with the six stages of proposed charge pump but the power during the input clock transition is reduced from 340.5µw (consumed by Dickson charge pump) to 28.85 µW (consumed by the proposed modified charge pump). Some other results are also discussed in this paper, which are achieved on different load resistances.

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NORCHIP 2010

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