在气动伺服系统中,动力机构是其核心。
The power mechanism is the core in the pneumatic servo control system.
气动伺服系统的压力跟踪是主动隔振系统中的一个重要环节。
Pressure tracking of a pneumatic servo system plays an important part in the active pneumatic isolation technique.
但是,由于气动伺服系统的强非线性,对其实现高精度的有效控制一直是个难题。
However, due to its strong nonlinearities, it is difficult for a pneumatic servo system to achieve higher control precision.
针对气动伺服系统复杂的非线性问题,提出了一种线性自抗扰控制策略对气动伺服系统进行位置控制。
A linear active disturbance rejection control (LADRC) strategy is proposed to control the positioning of the pneumatic servo system with strong nonlinear problem.
它接管了1分钟,在传统系统转让的,我的死胡同采用气动伺服系统可以缩短时间approx .15秒只。
It took over 1 minute for transferring in the conventional system; I-SAC used pneumatic servo system could shorten the time to approx. 15 seconds only.
在比例方向阀控缸气动位置伺服系统中,置中电压是影响控制精度的重要因素之一。
In pneumatic position servo system with proportional directional control valve and control cylinder, the centre adjust emt voltage is one of the important factors that influence control precision.
本文介绍了怎么综合应用计算机硬件、气动系统、伺服系统、变频系统、温控系统来设计开发一台制品尺寸可调的切断机。
This paper introduces how to design an trimming machine this cutting size can adjust by computer, pneumatic system, servo motor, invertor system, temperature control system.
文章主要研究的内容为利用PCM控制技术,采用自适应PID控制算法,对开关阀式气动马达位置伺服系统进行实验研究。
The paper mainly focus on the experimental research on pneumatic on-off valve motor position servo control system with PCM control method and self-adjusting PID algorithm.
气动脉宽调制位置伺服系统是非线性的系统,在气缸摩擦力较大的情况下,采用传统的控制方法难以取得满意的效果。
Pneumatic PWM position servo system is nonlinear system. The satisfied results are difficult to be obtained with traditional control method while the friction force of cylinder is large.
采用迭代自学习控制方法来控制气动脉宽调制位置伺服系统,通过实验研究比较了迭代自学习控制与PID控制的效果。
The iterated self-learning control method is employed in pneumatic PWM position servo system. The effects of PID method and the self-learning method are compared by means of experimental results.
采用迭代自学习控制方法来控制气动脉宽调制位置伺服系统,通过实验研究比较了迭代自学习控制与PID控制的效果。
The iterated self-learning control method is employed in pneumatic PWM position servo system. The effects of PID method and the self-learning method are compared by means of experimental results.
应用推荐