The software design implemented PWM output and sequence control module, keyboard input module, LED display module, current and voltage sampling module and fuzzy neural algorithm self study module.
软件设计首先完成了PWM信号的输出与时序控制,并设计了键盘输入功能模块、LED显示功能模块、电流电压信号采样功能模块,以及模糊神经算法自学习软件功能模块。
Due to usual control methods making defects to retainable load system, fuzzy control with PWM is adopted, which has reached good control results.
针对常用控制方法对负荷保持系统产生的缺陷,采用模糊控制思想,利用PW M脉宽调制技术,达到了很好的控制效果。
The control quantity was gained by looking up the table of fuzzy control rule, and formed PWM to control Wire-feeder device.
控制量通过查询模糊控制规则表得到,并生成pwm控制送丝电机。
The controller provides all the advantages from PWM modulation, fuzzy logical control and sliding mode variable structural control, and solves the chattering problem better.
该控制器具备pwm调制、模糊逻辑控制和滑模变结构控制三者的优点,较好地解决了滑动模态的抖动问题。
The unit makes full use of MPU resources and FUZZY-PID algorithm, and it generates PWM pulse by automatically adjusting PID parameters in order to realize the speed control of the running-rigs.
该调速单元充分利用单片机的资源,采用FUZZY-PID算法,通过对PID参数的自动调整产生PWM信号,实现对跑步机速度的控制。
Design of a fuzzy controller, to achieve a precise control of the hydraulic cylinder position by the high-speed on-off valve was based on PWM.
设计了一种模糊控制器,实现了PWM高速开关阀控液压缸位置系统的精确控制。
Design of a fuzzy controller, to achieve a precise control of the hydraulic cylinder position by the high-speed on-off valve was based on PWM.
设计了一种模糊控制器,实现了PWM高速开关阀控液压缸位置系统的精确控制。
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