DESIGN AND IMPLEMENTATION OF A MODIFIABLE CLOSED-LOOP CONTROL SYSTEM FOR DC TO DC VOLTAGE REGULATION

Electromechanical and energy saving systems Pub Date : 1900-01-01 DOI:10.30929/2072-2052.2021.2.54.22-30

M. Bereš, D. Ženčuch

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Abstract

Purpose. The aim of the work is the design and creation of a modifiable closed-loop control system for DC to DC voltage regulation. Originality. The regulation parameters of modifiable close-loop control system can be easily change by proposed windows application. With such a system the regulation parameters can be easily determined without a calculation. Methodology. The paper as an example provides a description of a one DC to DC converter which belongs to buck-boost family. Presented converter is composed of two switching devices. For implemented a control strategy the galvanic isolated control signals technique was made to achieve desired control methodology. Control signals as well as the regulation itself was made by an ARM microcontroller type of STM32F103C8T6. Based on used MCU the control algorithm for voltage regulation was made. With such MCU the user interface where the whole system can be monitored and controlled was made also. The user interface is a windows application which was created with the help of a Visual Studio. Results. The paper provides the results achieved by the proposed control system. The results illustrated by windows application were compared with the oscillograms. From the results the incorrect regulation parameters can be easily spotted. Practical value. The advantage of such a control system is in the possibility of using it for various DC to DC converters where the regulation parameters can be easily determined without calculation. The user only connects the control signals to switching devices and connect the output voltage through voltage divider into the analogue input of the MCU. Disadvantage of the proposed system is, it can not be used without a PC where the windows application is running. Figures 15, references 8.

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直流到直流电压调节的可修改闭环控制系统的设计与实现

目的。这项工作的目的是设计和创建一个可修改的闭环控制系统，用于直流到直流的电压调节。创意。可修改闭环控制系统的调节参数可以通过所提出的窗口应用程序方便地改变。有了这样的系统，调节参数可以很容易地确定，而不需要计算。方法。本文以一种buck-boost系列的单DC - DC变换器为例进行了描述。该变换器由两个开关器件组成。为实现控制策略，采用电隔离控制信号技术实现了理想的控制方法。控制信号以及调节本身是由STM32F103C8T6型ARM微控制器实现的。在原有单片机的基础上，提出了电压调节的控制算法。并利用该单片机设计了对整个系统进行监控的用户界面。用户界面是一个在Visual Studio帮助下创建的windows应用程序。结果。文中给出了所提出的控制系统所取得的结果。并将windows应用程序显示的结果与示波图进行了比较。从结果中可以很容易地发现不正确的调节参数。实用价值。这种控制系统的优点是可以将其用于各种DC到DC转换器，其中调节参数可以很容易地确定而无需计算。用户只需将控制信号连接到开关器件上，并通过分压器将输出电压连接到单片机的模拟输入端。该系统的缺点是，如果没有运行windows应用程序的PC机，则无法使用。图15，参考文献8。

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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Electromechanical and energy saving systems

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