CMOS VLSI中的低功耗预量器实现

2012 International Conference on Emerging Trends in Electrical Engineering and Energy Management (ICETEEEM) Pub Date : 2012-12-01 DOI:10.1109/ICETEEEM.2012.6494436

V. Elamaran, N. P. Reddy, K. Abhiram

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引用次数: 9

摘要

由于便携式电子产品的性能随需求不断提高，因此需要低功耗数字VLSI设计。由于电池的备用时间有限，便携式电子产品的使用时间受到很大限制。因此，设计人员现在关注的是低功耗，而不是设备或系统的速度。我们使用不同的风格实现了分频器(预分频器)，如传统的CMOS逻辑，通过晶体管逻辑和传输门逻辑风格。电子计算机辅助设计(CAD)工具如Micro wind和DSCH在我们的模拟中使用，通过比较每种风格的功率提供。使用Micro wind作为布局编辑器，DSCH (Digital Schematic)作为原理图编辑器。结果表明，该通管逻辑功耗小、面积小、性能好。实验结果采用0.12 μm的BSTM4 MOSFET模型。

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Low power prescaler implementation in CMOS VLSI

Since the performance of portable electronic products increases continuously with demand, there is a need for low power digital VLSI design. Due to limited backup time of batteries, the operating time of portable electronic products is highly restricted. So the designers now concentrate on low power rather than the speed of the device or system. We implement a frequency divider (prescaler) using different flavors like conventional CMOS logic, pass transistor logic and transmission gate logic styles. Electronic Computer Aided Design (CAD) tools like Micro wind and a DSCH are used in our simulations by which the comparison of power in each style is provided. Micro wind is used a layout editor and DSCH (Digital Schematic) is used as a schematic editor. Results show that the pass transistor logic consumes less power with minimum area and good performance. We used BSTM4 MOSFET model in 0.12 μm for experimental results.

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来源期刊

2012 International Conference on Emerging Trends in Electrical Engineering and Energy Management (ICETEEEM)

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