本文设计了电流闭环和电压闭环的双闭环控制系统。
This paper designed a double close loop control system based on current and voltage.
工程上普遍运用双闭环控制系统改善响应时间长这一缺点。
Double closed-loop control is widely used in engineering applications nowadays, which can improve the response time.
一种基于PLC的电液自动控制系统,采用了电液比例阀的双闭环控制系统。
This paper introduces an electrohydraulic control system based on PLC. A double close - loop control system with electro - hydraulic proportional valve is adopted.
在软件设计部分中,首先进行了开环系统软件设计和电压电流双闭环控制系统软件设计。
In the design of the software part, this paper gives the software design of open-loop control with SPWM and the software design of voltage-current double closed-loop control.
最后,对两相混合式同步电动机的双闭环控制系统进行了仿真和实验,给出了仿真和实验结果。
At last, simulations and experiments of the double-closed-loop control system of the motor are carried out and results of simulations and experiments are given.
采用电压外环电流内环双闭环控制系统,提高了系统的输出的精度和稳定性,改善了系统动态响应特性。
Outer inner voltage-current dual closed loop control system to improve the system accuracy and stability of the output and improve the system dynamic response.
并与国内外研究较多的无刷直流电机的基于自适应PID、模糊控制、神经网络控制、PID控制的双闭环控制系统进行仿真对比实验。
Simulation experiment compared with the double-loop motor subject to adaptive PID control, fuzzy control, neural-network control and conventional PID control is presented.
为了提高无刷直流电机的控制效果,运用TMS320 LF 2407 A芯片,建立了无刷直流电机全数字双闭环控制系统,给出了硬件电路设计和部分软件编制方法。
To improve BLDCM control result, this paper establishes a full digital double closed loop system which USES microprocessor-TMS320LF2407A to control the communication and speed of BLDCM.
提出一种采用双谐振器敏感结构的谐振式传感器,传感器的敏感元件包括两个结构参数一致的谐振器,传感器的闭环控制系统由两个幅度控制器和一个反相器组成。
A new resonant sensor consisting of two resonators of uniform structure and size is presented. The closed loop control system is composed of two amplitude controllers and an inverter.
在本系统中,我们应用了双闭环控制理论,以保证位置控制系统的稳定性。
In this system we apply the double closed loop theory to guarantee the accuracy of position control.
建立了基于自抗扰控制器的双级矩阵变换器闭环控制系统模型。
Then, the closed-loop control system model based on the ADRC is established.
论述了基于C8051的直流无刷电机控制系统设计,实现了速度、电流的双闭环控制。
Brushless motor control system design based on C8051 was introduced, speed and current double close loop control was realized.
系统的测试结果表明,基于DSP的无刷直流电动机控制系统,可以实现对电动机的全数字化双闭环控制。
The testing results show that the control system based on DSP can implement closed loop control the DC motor.
系统的测试结果表明,基于DSP的无刷直流电动机控制系统,可以实现对电动机的全数字化双闭环控制。
The testing results show that the control system based on DSP can implement closed loop control the DC motor.
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