基于算子理论和同构的设计——基于算子的Peltier单元热损测量系统非线性自适应控制

IF 1.9 Q3 COMPUTER SCIENCE, CYBERNETICS
K. Mitsugi, Ryo Chikaraishi, M. Deng, Y. Noge
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引用次数: 1

摘要

近年来,动力转换装置在促进车辆电气化和节约能源方面的效率越来越高。对功率转换设备进行评价和设计,需要对设备的功率损耗进行高精度的测量。功率损耗通常是用瓦特表根据输入功率和输出功率之差来确定的。然而,随着功率转换装置的效率越来越高,功率损耗与被测输入输出功率之比越来越小,测量装置中的误差变得不可忽略。解决这个问题的方法是利用功率转换设备辐射的热量来确定功率损耗。这种方法称为量热法。在以前的研究中,提出了使用珀尔帖元素的量热计。本文基于算子理论和自适应控制理论,设计了一种适应被测物体热容变化的非线性温度控制系统。由于自适应控制理论要求控制系统满足无源性,因此基于同构设计了保证无源性的反馈控制系统。最后,通过实验验证了所提控制系统的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Design Based on Operator Theory and Isomorphism: Operator-Based Nonlinear Adaptive Control for a Calorimetric Power Loss Measurement System Using a Peltier Element
Recently, power conversion devices have been increasingly becoming more efficient at facilitating the electrification of vehicles and saving energy. To evaluate and design power conversion equipment, it is necessary to measure the power loss of the equipment with a high degree of accuracy. Power loss is generally determined from the difference between the input power and output power using a wattmeter. However, as a power conversion device becomes more efficient, the ratio of the power loss to the measured input and output power is smaller, and the error in the measuring device becomes nonnegligible. A solution to this problem is to determine the power loss using the quantity of heat radiated from the power conversion equipment. This method is called a calorimetric method. In the previous study, the calorimeter using a Peltier element was proposed. In this article, a nonlinear temperature control system that adapts to changes in the heat capacity of the measured object is designed based on operator theory and adaptive control theory. Since the adaptive control theory requires the control system to satisfy passivity, a feedback control system that guarantees passivity is designed based on isomorphism. Furthermore, experiments are performed to confirm the effectiveness of the proposed control system.
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来源期刊
IEEE Systems Man and Cybernetics Magazine
IEEE Systems Man and Cybernetics Magazine COMPUTER SCIENCE, CYBERNETICS-
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