Optimization of Power Plant for Telecom Sector Based on Embedded System

Hygeia J. D.Med.10 (1) August 2018 - January 2019 Pub Date : 2019-01-01 DOI:10.22581/muet1982.1901.17

Sarang Karim, H. H. Memon, Shahzeb Ansari, Kashif Hussain, B. Chowdhry

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Abstract

Modern Telecom Sector is eventually facing exceptionally tough challenges because of continuous and unexpected increase in power density requirement for the communicating machinery and equipment. To fulfil the power requirements for the equipment, a significant architecture and an optimal technique must be introduced. In this paper, a microcontroller-based optimization use of power-density has been carried out. Meeting above requirements, various equipment and electronic devices are employed. We have designed a microcontroller-based system via PROTEUS Virtual System Modeling to acquire efficient and effective results. The main focus of our work is to supply the power to Telecom equipment in meantime. The power is feeding on batteries and DG (Diesel Generator) set, depending on the condition of the power requirements. The changeover operations are performed by different relays, which are dully programmed via a microcontroller in Keil software. The power capacity of Telecom ((Telecommunication) equipment is ranged from 39-48 Volts DC. The rectification process is done by switch mode rectifiers instead of linear rectifiers. Because the switch-mode rectifier technology has brought fabulous improvements in power density as compared to linear rectifiers. This is done via simulation of the smart switch in PROTEUS software. The outcomes of the proposed system are costeffective in terms of fuel consumption of DG.

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基于嵌入式系统的电信行业电厂优化

由于通信机械和设备对功率密度的要求不断提高，现代电信行业最终面临着异常严峻的挑战。为了满足设备的功率要求，必须引入一个重要的架构和优化技术。本文提出了一种基于微控制器的功率密度优化方法。满足上述要求，采用各种设备和电子设备。我们利用PROTEUS虚拟系统建模软件设计了一个基于微控制器的系统，以获得高效有效的结果。我们的工作重点是同时为电信设备供电。根据电力需求的情况，电力由蓄电池和DG(柴油发电机组)供电。转换操作由不同的继电器执行，这些继电器通过Keil软件中的微控制器进行编程。电信设备的功率容量范围为39-48伏直流。整流过程由开关整流器代替线性整流器完成。因为与线性整流器相比，开关模式整流器技术带来了惊人的功率密度改进。这是通过在PROTEUS软件中模拟智能开关来完成的。就燃油消耗而言，建议系统的结果具成本效益。

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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Hygeia J. D.Med.10 (1) August 2018 - January 2019

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