利用模糊控制理论设计合理的切泵逻辑,实现了平稳切换。
Rational switching logic of pumps is designed with fuzzy control theory, and stable switching is implemented.
同时利用同步切换控制实现水泵由变频电源向工频电源的平稳切换。
Moreover, synchronous switch is applied to the system in order to complete the smooth switch on condition that frequency and phase of inverter power and power supply are the same.
现场工业试验成功地实现了大功率电机变频到工频的平稳切换,切换电流大大减小。
In the industry test is realized to successfully complete the switch from VF to WF, the switch current greatly decrease.
下图显示了双处理器前端服务器的上下文切换是如何随着处理器使用的增加而渐趋平稳的。
The following figure shows how context switching begins to level off on a two-processor front-end server as processor usage increases.
由于采用了合理的控制策略,使得系统运行平稳、控制精度高,达到了高精度、低功耗、多功能切换的指标要求。
The system runs stably with a high control precision because of appropriate control strategy and meets the desired system value of high precision, low dissipation, multi-function switching.
结果证明可以平稳的实现系统的安全切换。
结果证明可以平稳的实现系统的安全切换。
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