然后将方法1和方法2分别应用于该模型,得出两种多机系统励磁的非线性L_2增益干扰抑制控制律。
Method 1 and method 2 are applied to the constructed nonlinear model, and then two nonlinear L2 gain disturbance attenuation control laws for multi-machine excitation are deduced.
它利用多谐振荡桥励磁的单纳米晶磁芯双绕组差动对称结构。
The sensor has differential symmetric structure with single nanocrystalline core and double coils excited by multivibrator bridge.
本文给出了多机电力系统分散最优励磁控制器的一种新算法。
In this paper a new algorithm is proposed to design a decentralized optimal excitation controller for multimachine power systems.
根据电力系统特征分析法,分析了系统励磁运行方式变化对多机系统阻尼的影响。
According to the Eigen-analysis on power system, this paper studies the influence of different exciting operation modes on the damping of multi-machine system.
其传感器是利用对磁场具有高灵敏度的钴基非晶态合金丝作为敏感材料,并采用单磁芯双绕组结构、多谐振荡桥励磁,它是一种体积小、性能高的新型磁场传感器。
Using single amorphous-core and double-winding as the sensitive element excited by multivibrator bridge, a kind of weak magnetic sensor with small size and high performance is developed.
将本文方法应用于多机电力系统励磁分散控制中,取得了令人满意的结果。
The method has been applied to the decentralized excitation control of a multimachine power system, the results are satisfactory.
本文以物理分析为依据,提出了一种多机电力系统分散最优励磁控制器状态权矩阵选择方法。
Based on the physical analysis, this paper proposed a new method for selecting the states weighting matrix in the decentralized optimal excitation control of multimachine power systems.
灯泡贯流式水轮发电机转子采用悬臂式结构,整个机组安装在水里,机组转速低,磁极对数多,励磁回路发生接地的故障机率较大,而产生的后果严重。
The rotor of bulb tubular hydro generating unit adopts cantilever structure. The whole machine was installed under water with low rotation speed and more magnetic poles.
灯泡贯流式水轮发电机转子采用悬臂式结构,整个机组安装在水里,机组转速低,磁极对数多,励磁回路发生接地的故障机率较大,而产生的后果严重。
The rotor of bulb tubular hydro generating unit adopts cantilever structure. The whole machine was installed under water with low rotation speed and more magnetic poles.
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