帮忙翻译?High-Performance Speed Servo SystemConsidering Voltage
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帮忙翻译?High-Performance Speed Servo SystemConsidering Voltage Saturation of a
Abstract—Generally, a speed servo system of a vector-controlled
induction motor has limitations of motor voltage and current.
When the speed servo system has a large torque reference, the
output of its PI controller is often saturated. In this case, the
conventional servo system stops the integral calculation of its PI
controller. However, this system often has a large overshoot and/or
an oscillated response caused by both a windup phenomenon and
phase error on the vector control condition. This paper proposes
a new speed servo system considering voltage saturation for the
vector-controlled induction motor. The proposed control method
compensates the phase error on vector control condition quickly,
and always keeps the vector control condition. The experimental
results show that the proposed system well regulates the motor
speed and the secondary magnetic flux for a large torque reference
without a windup phenomenon.
Abstract—Generally, a speed servo system of a vector-controlled
induction motor has limitations of motor voltage and current.
When the speed servo system has a large torque reference, the
output of its PI controller is often saturated. In this case, the
conventional servo system stops the integral calculation of its PI
controller. However, this system often has a large overshoot and/or
an oscillated response caused by both a windup phenomenon and
phase error on the vector control condition. This paper proposes
a new speed servo system considering voltage saturation for the
vector-controlled induction motor. The proposed control method
compensates the phase error on vector control condition quickly,
and always keeps the vector control condition. The experimental
results show that the proposed system well regulates the motor
speed and the secondary magnetic flux for a large torque reference
without a windup phenomenon.
抽象一般,速度伺服系统的矢量控制
异步电动机有其局限性的电动机电压和电流.
当速度伺服系统具有大扭矩参考,
输出其PI控制器往往饱和.在这种情况下,
传统的伺服系统站积分计算其丕
控制器.然而,这一制度往往有一个大的超调及/或
一个振荡反应所造成的,既是结束现象
相位误差对矢量控制的情况.这个文件建议
一个新的高速伺服系统考虑饱和电压为
矢量控制异步电动机.建议中的管制方法
补偿相位误差矢量控制状态很快,
始终保持矢量控制的情况.实验
结果表明,该系统以及调节电动机
速度和二次磁通为大扭矩参考
无结束现象.
异步电动机有其局限性的电动机电压和电流.
当速度伺服系统具有大扭矩参考,
输出其PI控制器往往饱和.在这种情况下,
传统的伺服系统站积分计算其丕
控制器.然而,这一制度往往有一个大的超调及/或
一个振荡反应所造成的,既是结束现象
相位误差对矢量控制的情况.这个文件建议
一个新的高速伺服系统考虑饱和电压为
矢量控制异步电动机.建议中的管制方法
补偿相位误差矢量控制状态很快,
始终保持矢量控制的情况.实验
结果表明,该系统以及调节电动机
速度和二次磁通为大扭矩参考
无结束现象.