电传动位置控制单元的数学模型及其软件开发

I. Polyuschenkov
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引用次数: 0

摘要

在电力驱动的微处理器控制系统中,广泛使用各种计算算法来实现运动的自动控制。对这种算法的要求是最短的执行时间,最少的计算量,软件的紧凑性,控制系统的静力学和动力学的收敛性。保证了坐标控制的稳定性和准确性。上述问题适用于位置主控单元开发电驱动s型轨迹的计算算法。基于已知数学模型的位置主单元存在一些缺点,限制了它的使用。它们是根据速度、加速度和采样间隔对轨迹的不正确计算,以及输出和中间坐标情况下的自振荡过程。这就导致了电驱动控制精度的降低。尽管有标准的解决方案,但这种位置主单元需要改进。在这方面,升级这样一个位置主单元是相关的。升级的目的是通过引入校正计算和逻辑序列,在位置主单元达到给定的输出坐标值时将其转移到稳定状态,从而消除这些缺点。为了在此基础上开发数学模型和软件来控制电传动的运动,需要使用在执行时间方面成本最低的计算算法和数值计算方法。提出了位置主单元s型轨迹的现代化数学模型。该主单元的参数限制已被消除。它们可能导致不正确的路径生成,并且在路径生成过程中产生输出和中间坐标的自振荡,从而降低电驱动控制的精度,并引起振动和噪声。现代化的位置主单元软件,与原来的形式相比,不包含繁琐的算法,在执行时间方面代价高昂。该软件已成功应用于电传动的微处理器控制系统中。同时,有必要观察计算序列的时间稳定执行,并考虑计算中使用的数值参数值的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mathematical model of position master unit of electric drive and development of its software
Various computational algorithms to perform automatic control of motion are widely used in microprocessor control systems of electric drives. The requirements for such algorithms are the minimum execution time, the minimum amount of calculations, the compactness of the software, the convergence in the statics and dynamics of the control system. It ensures the stability and accuracy of coordinates control. The above-mentioned issues are applicable to the computational algorithm to develop a S-shaped trajectory of the electric drive by the position master unit. The position master unit based on the well-known mathematical model has some disadvantages that limit its use. They are incorrect calculation of the trajectory depending on the speed, acceleration, and sampling interval, as well as the self-oscillatory processes in case of the output and intermediate coordinates. As a result, it leads to a decrease of the accuracy of the electric drive control. Despite the standard solutions, such position master unit require improvement. In this regard, upgrading such a position master unit is relevant. The aim of upgrading is to eliminate these shortcomings by introducing corrective calculations and logical sequences that transfer the position master unit into a stable state as soon as it reaches a given value of the output coordinate. To control the motion of the electric drive when we develop a mathematical model and software based on it, it is necessary to use computational algorithms and numerical methods of calculation that are the least costly in terms of execution time. A modernized mathematical model of the S-shaped trajectory of position master unit is proposed. Restrictions of the parameters of this master unit have been eliminated. They may lead to incorrect path generation, as well as self-oscillations of the output and intermediate coordinates during the path generation, which reduces the accuracy of the electric drive control and cause vibration and noise. The software of the modernized position master unit, in comparison with its original form, does not contain cumbersome arithmetic that is costly in terms of execution time. The software has been successfully implemented into the microprocessor control system of the electric drive. At the same time, it is necessary to observe a time-stable execution of computational sequences and to consider the influence of the values of the numerical parameters used in the calculations.
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