1) complex torque coefficient
复转矩系数
1.
The concept of complex torque coefficient was extended to the design of HVDC supplementary controller.
将复转矩系数法的概念进行了推广,并应用到直流附加阻尼控制器的设计中。
2) complex torque coefficient method
复转矩系数法
1.
The two methods,the complex torque coefficient method realized by time-domain simulation method—the test signal method and the time-domain simulation method,which are used to analyze the subsynchronous resonance(SSR) for multi-machine systems with the help of the well-known electromagnetic transient simulation software PSCAD/EMTDC are recommended.
介绍了采用国际著名电磁暂态仿真软件PSCAD/EMTDC对多机系统次同步谐振进行分析时主要用到的两种方法:基于时域仿真实现的复转矩系数法—测试信号法,时域仿真法。
2.
The thoeretical basis and the utilization conditions of thecomplex torque coefficient method are established.
应用复变函数理论导出了复转矩系数与特征值之间的关系,从而建立了复转矩系数法的理论基础和使用条件。
3.
The model is validated on the EPRI HVDC system by eigenvalue analysis and complex torque coefficient method.
基于EPRI直流系统,分别采用特征值分析法和复转矩系数法将HVDC换流器的准稳态模型、采样—数据模型与PSCAD时域仿真进行了对比验证。
3) complex torque coefficient approach
复转矩系数法
1.
In this paper, the applicability of the complex torque coefficient approach, which is widely used in the analysis of subsynchronous oscillation (SSO)of power systems, is analyzed.
针对广泛应用于电力系统次同步振荡分析的复转矩系数法 ,对其成立的基本前提进行了分析 ,在此基础上研究了其适用范围。
2.
Aiming at this problem,the paper analyzes the influence of SSR under different generator output and different degree of series compensation through adopting complex torque coefficient approach based on time domain simulation.
针对输电网中串联电容补偿引发的次同步谐振,文章采用基于时域仿真实现的复转矩系数法分析了不同发电机出力以及不同串补度对系统次同步谐振的影响。
4) complex torque approach
复转矩系数法
1.
The complex torque approach realized by frequency scanning and time domain simulation was adopted to study the SSR dangerous of IEEE SSR first benchmark model, and time domain simulation was used to prove the correctness of this method.
以IEEE次同步谐振第1标准模型为研究对象,采用扫频和时域仿真相结合的复转矩系数法,从系统阻尼特性的角度分析了系统发生SSR的危险性,并用时域仿真法验证了该方法的正确性。
5) torque coefficient
转矩系数
1.
The expressions of rotating voltage coefficient k e in load case and torque coefficient k t with considering of saturation are also obtained.
运用非线性绕组自感和互感的表达式 ,推导了旋转电压和电磁转矩的精确表达式 ,并从中得出负载情况下的电势系数 (ke)和考虑饱和的转矩系数 (kt)表达式。
6) Torque constant
转矩系数
1.
Based on example,this paper indicates that torque constant k t and back-EMF constant k e are not identical in BLDCM, at least can be said their relationship used to think is inexact.
实例表明 ,在 BL DCM中转矩系数等于电势系数的关系 ,实际上不成立 ,至少是不确切的。
补充资料:矩矩吒
【矩矩吒】
(动物)又作鸠鸠吒。鸡也。见求法高僧传等。
(动物)又作鸠鸠吒。鸡也。见求法高僧传等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条