在基于负载电流前馈解耦的正弦波逆变器多环控制策略中,负载电流前馈作用的延迟直接影响着系统的性能。
In the multiple-loop control strategy for sinusoidal inverters based on load current feedforward, delay of the feedforward directly impacts the system's performance.
电压前馈补偿可以抵消电网作用,使系统近似成为一个简单的无源跟随系统。
The feed-forward control of utility grid voltage counteracts the influence of utility grid. The system becomes a simple passive tracking system.
针对非最小相位系统,将系统的耦合作用视为可测干扰,采用前馈方法予以消除。
For a non_minimum phase system, the interaction of the system is viewed as measurable disturbance and decoupled using feedforward strategy.
研究具有已知动态特性但未知初始条件的持续外界扰动作用下线性系统的前馈-反馈最优控制问题。
We consider an optimal control problem linear systems affected by external persistent disturbances with known dynamic characteristics but unknown initial conditions.
得到了能应用到变流量系统中可预测未来负荷变化趋势并提前作用的前馈控制方案。
Get used to change the flow of load variation trend and predict future ahead of feed-forward control scheme role.
因此DBC-1的凋亡蛋白酶依赖的处理过程可能起了促使凋亡的前馈机制的作用,并且也起了肿瘤抑制的作用。
Thus, caspase-dependent processing of DBC-1 may act as a feed-forward mechanism to promote apoptosis and possibly also tumor suppression.
因此DBC-1的凋亡蛋白酶依赖的处理过程可能起了促使凋亡的前馈机制的作用,并且也起了肿瘤抑制的作用。
Thus, caspase-dependent processing of DBC-1 may act as a feed-forward mechanism to promote apoptosis and possibly also tumor suppression.
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