A Control Concept for Battery Emulators Using a Reference Governor With a Variable PT1-Element for Constraint Handling

IF 7.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Michael Zauner;Christoph Hametner;Oliver König;Stefan Jakubek
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引用次数: 0

Abstract

This paper presents a method for highly dynamic nonlinear control of DC-DC converters with constraints used in battery emulators. Controlling this system is particularly challenging as the connected units-under-test often behave like constant power loads (CPLs), which introduce unstable system dynamics and render the system nonlinear. In order to achieve fast output dynamics with the DC-DC converters over a large operating range, a special control architecture is proposed where feedback equivalence is established between a nonlinear system description and a linear description. The nonlinear system dynamics can then be transformed into linear ones for controller synthesis by exploiting the flatness property of the system. Additionally, constraints have to be met at any time during operation to prevent damage to components. In order to satisfy the constraints, a reference governor (RG) is added to the loop. This novel RG concept uses a low-pass filter in the shape of a PT1-element to modify the voltage reference. By changing the time constant of the PT1-element, the RG is able to generate smooth constraints-aware trajectories for setpoint changes. Finally, the capabilities of the control concept are demonstrated and discussed based on high-fidelity simulations.
一种电池模拟器的控制概念,使用具有可变PT1元件的参考调速器进行约束处理
本文提出了一种用于电池模拟器的带约束DC-DC变换器的高动态非线性控制方法。控制该系统尤其具有挑战性,因为被测试的连接单元通常表现为恒定功率负载(CPL),这会引入不稳定的系统动力学并使系统非线性。为了在大的工作范围内实现DC-DC转换器的快速输出动态,提出了一种特殊的控制结构,其中在非线性系统描述和线性描述之间建立了反馈等效。然后,通过利用系统的平坦性,可以将非线性系统动力学转化为线性系统动力学,用于控制器综合。此外,在操作过程中的任何时候都必须满足限制条件,以防止损坏组件。为了满足约束,在回路中添加了一个参考调速器(RG)。这种新颖的RG概念使用PT1元件形状的低通滤波器来修改电压基准。通过改变PT1元件的时间常数,RG能够为设定点变化生成平滑的约束感知轨迹。最后,在高保真度仿真的基础上,对控制概念的能力进行了论证和讨论。
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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CiteScore
13.50
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