YASKAWA JANCD-XCP01-1 安川控制器板
YASKAWA JANCD-XCP01-1 安川控制器板
YASKAWA JANCD-XCP01-1 安川控制器板 主要用于三相异步交流电机,用于控制和调节电机速度,安川变频器是世界的变频器之一,由安川电机株式会社生产。源于安川电机对电动机的输入了解,安川变频器以其的控制性和的产品品质,依靠安川人"以特的技术,为社会和公共事业做贡献”的理念得到工业领域的认可。安川变频器代表着高可靠性和高安全性。
随着同服系统的大规模应用,伺服驱动器使用、同服驱动器调试、同服驱动器维修都是同服驱动器在当今比较重要的技术课题,越来越多工控技术服务商对同服驱动器进行了技术深层次研究。
速度比例增益
1、设定速度调节器的比例增益:
2、设置值越大,增益越高,刚度越大参数数值根据具体的同服驱动系统型号和负载值情况确定。一般情况下,负载惯量越大,设定值越大,
3、在系统不产生振荡的条件下,尽量设定较大的值。
速度积分时间常数
1、设定速度调节器的积分时间常数
2、设置值越小,积分速度越快。参数数值根据具体的同服驱动系统型号和负载情况确定。一般情况下,负载惯量越大,设定值越大,
在系统不产生振荡的条件下,尽量设定较小的值.
YASKAWA JANCD-XCP01-1 安川控制器板
YASKAWA JANCD-XCP01-1 Yaskawa controller board is mainly used for three-phase asynchronous AC motors to control and adjust motor speed, Yaskawa inverter is one of the world's inverter, produced by Yaskawa Electric Co., LTD. From Yaskawa motor input understanding of the motor, Yaskawa inverter with its control and product quality, relying on Yaskawa people "with special technology, to contribute to society and public utilities" concept has been recognized by the industrial field. Yaskawa drives stand for high reliability and safety.
With the large-scale application of coservice system, the use of servo drive, coservice drive debugging, coservice drive maintenance are more important technical issues in today's coservice drive, more and more industrial control technology service providers have carried out in-depth technical research on coservice drive.
Velocity proportional gain
1, set the proportional gain of the speed regulator:
2, the larger the setting value, the higher the gain, the greater the stiffness parameter value is determined according to the specific drive system model and load value of the same service. Under normal circumstances, the larger the load inertia, the larger the set value,
3, under the condition that the system does not produce oscillation, try to set a larger value.
Velocity integral time constant
1. Set the integral time constant of the speed regulator
2, the smaller the setting value, the faster the integration speed. The parameter value is determined according to the specific drive system model and load. Under normal circumstances, the larger the load inertia, the larger the set value,
Under the condition that the system does not produce oscillations, try to set a small value.