研究结果表明,该控制策略实现了励磁控制与汽门调节的动态解耦,应用该方法可显著提高电力系统的暂态稳定性。
The simulation result shows that the control strategy can realize the dynamic decoupling control of excitation and valve and so it can considerably increase the dynamic stability of power system.
利用复频域分析法,方便地求解了RLC电路的暂态过程解,并对此解进行了讨论。
Transient state process solution of RLC-circuit can be solved easily by the analytic method of complex frequency field.
而当模型数目相同时,系统的暂态响应、解耦效果都大为改善。
If the same number of the fixed models is used, system transient response and decoupling result are improved.
利用暂态响应解的形式和电感、电容的电压与电流的关系,导出了电感和电容的等效阻抗,从而可用电路方法求解动态电路的暂态过。
The equivalent impedances of inductor and capacitor in transient response were deduced from the exponential transient solution and the volt ampere relation of these elements.
余函数(齐次解)对应于暂态,特解对应于稳态。
Eg. The complementary function corresponds to the transient, and the particular solution to the steady state.
应用拉格朗日方程对非线性RLC串联电路的暂态过程进行了求解,对所得到的解析解进行了分析,得到了非线性RLC电路的一些普遍特征。
By using Lagrange formulations, the solution of transient in nonlinear serial RLC circuits was obtained and analyzed to find their some general features.
研究结果表明,该控制策略实现了励磁控制与汽门调节的动态解耦,应用该方法可显著提高电力系统的暂态稳定性。
The simulation result shows that the control strategy can realize the dynamic decoupling control of excitation and valve and so it can consider...
研究结果表明,该控制策略实现了励磁控制与汽门调节的动态解耦,应用该方法可显著提高电力系统的暂态稳定性。
The simulation result shows that the control strategy can realize the dynamic decoupling control of excitation and valve and so it can co…
研究结果表明,该控制策略实现了励磁控制与汽门调节的动态解耦,应用该方法可显著提高电力系统的暂态稳定性。
The simulation result shows that the control strategy can realize the dynamic decoupling control of excitation and valve and so it can co…
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