Frequency Scaling and High Speed Transceiver Logic Based Low Power UART design on 45nm FPGA

2019 11th International Conference on Computational Intelligence and Communication Networks (CICN) Pub Date : 2019-01-01 DOI:10.1109/CICN.2019.8902375

Abhishek Kumar, B. Pandey, D. M. Akbar Hussain, M. Atiqur Rahman, Vishal Jain, Ayoub Bahanasse

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引用次数: 1

Abstract

UART is a trendy two-wire communication interface. It recognized as Universal Asynchronous Receiver Transmitter. It is an important element to communicate two microcontroller based system. It is widely used in case if high-speed transmission is not required. The main aim to implement the UART on 45nm technology based Spartan-6 FPGA and achieve reliable, compact and stable data transmission. In order to make the more energy efficient UART we have used the HSTL (High-Speed Transceiver Logic) IO standards. To achieve speed and high performance of UART, we have preferred HSTL (High-Speed Transceiver Logic) IOSTANDARD. In this paper, we have used HSTL-II, HSTL-II-18, HSTL-III, and HSTL-III-18. We have also used Frequency Scaling techniques, so we can analyze the demand of different power by device at different frequencies. We have analyzed the demand of total power of different IO Standard at different frequency level so then we make UART more energy efficient. Our analysis has explained that the main reason for power consumption in UART with above IO standard are Clock and IO powers, which we have analyzed at different frequencies.

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基于频率缩放和高速收发逻辑的45nm FPGA低功耗UART设计

UART是一种流行的双线通信接口。它被认为是通用异步收发器。它是基于两个单片机的系统通信的重要组成部分。广泛应用于不需要高速传输的场合。主要目的是在45nm工艺的Spartan-6 FPGA上实现UART，实现可靠、紧凑、稳定的数据传输。为了使UART更节能，我们使用了HSTL(高速收发器逻辑)IO标准。为了实现UART的速度和高性能，我们首选HSTL(高速收发器逻辑)IOSTANDARD。在本文中，我们使用了HSTL-II、HSTL-II-18、HSTL-III和HSTL-III-18。我们还使用了频率缩放技术，因此我们可以分析不同频率下设备对不同功率的需求。分析了不同IO标准在不同频率下对总功率的需求，从而使UART更加节能。我们的分析解释了在IO标准以上的UART中功耗的主要原因是时钟和IO功率，我们在不同的频率下分析了它们。

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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2019 11th International Conference on Computational Intelligence and Communication Networks (CICN)

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