Emulating dynamic load characteristics using a dynamic dynamometer

Proceedings of 1995 International Conference on Power Electronics and Drive Systems. PEDS 95 Pub Date : 1995-02-21 DOI:10.1109/PEDS.1995.404877

R. Newton, R. Betz, H. B. Penfold

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引用次数: 55

Abstract

Standard test facilities for electric machines have incorporated dynamometers capable of simulating the static torque characteristics of typical industrial loads. Although useful for evaluating basic machine parameters, such dynamometers are not satisfactory for examining transient behaviour. A device that can present the dynamic response of a load superimposed on the steady state characteristics of that load is required for transient experimentation. This paper presents the key aspects of a design for such a device-a "dynamic dynamometer". Using a control strategy based on local vector (LV) control, a DC machine can be controlled to simulate both the static and dynamic characteristics of a representative industrial load. One particularly interesting aspect of this is that nonlinear effects in real loads, such as backlash and stiction, can be accurately simulated. The paper presents some implementation aspects of dynamometer design, along with simulation results. The structure of the hardware being developed for the system is also discussed.<>

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用动态测功机模拟动态负载特性

电机的标准测试设备包含了能够模拟典型工业负载的静态扭矩特性的测功机。虽然这类测功机对评估基本机器参数很有用，但对检测瞬态性能却不满意。在瞬态实验中，需要有一种装置，能够在负载的稳态特性上叠加负载的动态响应。本文介绍了设计这种装置的关键方面——“动态测功机”。采用基于局部矢量(LV)控制的控制策略，可以控制直流电机以模拟具有代表性的工业负载的静态和动态特性。其中一个特别有趣的方面是，可以准确地模拟实际负载中的非线性效应，例如隙和粘滞。本文介绍了测功机设计的一些实现方面，并给出了仿真结果。文中还讨论了正在开发的系统硬件结构。

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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Proceedings of 1995 International Conference on Power Electronics and Drive Systems. PEDS 95

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