大型电子元件电路节能设计方法研究

Research on Energy Saving Design Method of Large Electronic Components Circuit

研究大型电子元件电路中节能设计问题,提高节能效率。在大型电子线路设计中,各个元件模块之间不存在直接的关联性,传统的电气元件电路设计以单个模块为中心,考虑节能设计,忽略了模块与模块之间整体工作中的节能设计关联性,造成大型电气元件电子线路能耗较高。提出自适应线性遗传的大型电路中节能设计方法。建立大型电气元件电路能源各个模块的关联损耗模型,获取大型电路中消耗的能源情况,利用自适应线性遗传方法,在设计中考虑各个模块配合中产生的能耗,达到节能的目的。利用EDA软件进行仿真,结果表明,用改进算法进行大型电路的节能设计,能够有效降低电路应用过程中的能源损耗。

In this paper, the energy saving design for large electronics circuit was studied in order to improve the efficiency of energy saving. In large electronic circuit design, there is no direct correlation between the various components of the module. The traditional method for electrical components circuit design is centered on a single module. Although energy - saving design is considered, the correlation of energy saving design between the overall modules is ignored, resulting in higher power consumption of large electrical components in electronic circuits. This paper presented an energy saving method for large circuit design based on adaptive linear genetic. Firstly, the associated loss model for each module of the large - scale electrical components circuit was established to get the energy consuming in large circuit. Then the author used adaptive linear genetic approach and considered the energy generated in the module cooperation process to save energy. Simulation results from using the EDA software show that the improved algorithm for large - scale energy - saving circuit design can effectively reduce the energy consumption in the process of circuit application.