We study the quantum fluctuations of the charge and current of two L-C dissipative mesoscopic circuit with the mutual inductance in the vacuum state.Our results show that the system state will evolve to a squeezed coh...We study the quantum fluctuations of the charge and current of two L-C dissipative mesoscopic circuit with the mutual inductance in the vacuum state.Our results show that the system state will evolve to a squeezed coherent state under the effect of external source.We find that the squeezing amplitude parameter is relative to the parameters of circuit and the mutual-inductance coefficient in the existence of dissipation.When the circuit has no dissipation or there is complete coupling between two meshes,the squeezing amplitude parameter only depends on the capacitance's ratio.展开更多
Live line measurement methods can reduce the loss of power outages and eliminate interference. There are three live line measurement methods including integral method, differential method and algebraic method. A simul...Live line measurement methods can reduce the loss of power outages and eliminate interference. There are three live line measurement methods including integral method, differential method and algebraic method. A simulation model of?two coupled parallel transmission lines spanning on the same towers is built in PSCAD and the calculation errors of these three methods are compared with different sampling frequencies by using of Matlab. The effect of harmonic on calculation is also involved. The simulation results indicate that harmonic has the least effect on the algebraic method which provides stable result and small error.展开更多
A live line measurement method for the zero sequence parameters of transmission lines with mutual inductance is introduced. The mathematical models of the measurement method are given. Global Positioning System (GPS) ...A live line measurement method for the zero sequence parameters of transmission lines with mutual inductance is introduced. The mathematical models of the measurement method are given. Global Positioning System (GPS) is used as the synchronous signal for the measurement carried out at different substations simultaneously. The measurement system and digital simulation results are given. Finally, the live line measurement results of two 220 kV transmission lines with mutual inductance in Hainangrid are given. Results from both simulation and on-site measurement show that the live line measurement method is feasible, and its measurement accuracy can satisfactorily meet the requirements of engineering measurement.展开更多
An algorithm for precisely calculating the inductance of a three-section solenoid is presented, which is based on summing the layer self-inductances and the mutual inductances. A theoretical model with ex plicit expre...An algorithm for precisely calculating the inductance of a three-section solenoid is presented, which is based on summing the layer self-inductances and the mutual inductances. A theoretical model with ex plicit expressions is firstly developed to calculate the self-inductance of a single layer, and then numerical calcu lation of the mutual inductance between two layers is introduced. Using the presented computation method, the inductance of a solenoid designed in the experiment is successfully calculated (4.30 mH), which has a difference of less than 1% from the experimental data.展开更多
为提升无线电能传输(wireless power transfer,WPT)系统传输性能,需在控制过程中实时获取负载与耦合系数等关键信息,而该信息的获取目前普遍采用无线通讯模块或增加额外通信线圈等方式,增加了系统复杂度,尤其面临复杂水下工况及高频电...为提升无线电能传输(wireless power transfer,WPT)系统传输性能,需在控制过程中实时获取负载与耦合系数等关键信息,而该信息的获取目前普遍采用无线通讯模块或增加额外通信线圈等方式,增加了系统复杂度,尤其面临复杂水下工况及高频电磁环境,在通讯过程中极易造成通讯异常而导致系统瘫痪。为此,文中提出一种新型基于无迹卡尔曼滤波的WPT系统互感及负载关键参数在线识别方法,该方法仅需采样原边侧电压瞬时值,即可实时获取互感与负载等关键参数信息。同时为提升辨识精度与收敛速度,采用离线式神经网络指导粒子群优化算法建立系统噪声协方差矩阵。实验结果表明,该算法具有模型简单、计算精度较高等特点,在变负载、变移相控制角及偏移情况下,所提出的在线辨识方法对负载与互感的最大识别误差分别为6.19%和1.7%,且2 ms左右即可完成负载的动态识别,具有一定的工程应用价值。展开更多
文摘We study the quantum fluctuations of the charge and current of two L-C dissipative mesoscopic circuit with the mutual inductance in the vacuum state.Our results show that the system state will evolve to a squeezed coherent state under the effect of external source.We find that the squeezing amplitude parameter is relative to the parameters of circuit and the mutual-inductance coefficient in the existence of dissipation.When the circuit has no dissipation or there is complete coupling between two meshes,the squeezing amplitude parameter only depends on the capacitance's ratio.
文摘Live line measurement methods can reduce the loss of power outages and eliminate interference. There are three live line measurement methods including integral method, differential method and algebraic method. A simulation model of?two coupled parallel transmission lines spanning on the same towers is built in PSCAD and the calculation errors of these three methods are compared with different sampling frequencies by using of Matlab. The effect of harmonic on calculation is also involved. The simulation results indicate that harmonic has the least effect on the algebraic method which provides stable result and small error.
文摘A live line measurement method for the zero sequence parameters of transmission lines with mutual inductance is introduced. The mathematical models of the measurement method are given. Global Positioning System (GPS) is used as the synchronous signal for the measurement carried out at different substations simultaneously. The measurement system and digital simulation results are given. Finally, the live line measurement results of two 220 kV transmission lines with mutual inductance in Hainangrid are given. Results from both simulation and on-site measurement show that the live line measurement method is feasible, and its measurement accuracy can satisfactorily meet the requirements of engineering measurement.
文摘An algorithm for precisely calculating the inductance of a three-section solenoid is presented, which is based on summing the layer self-inductances and the mutual inductances. A theoretical model with ex plicit expressions is firstly developed to calculate the self-inductance of a single layer, and then numerical calcu lation of the mutual inductance between two layers is introduced. Using the presented computation method, the inductance of a solenoid designed in the experiment is successfully calculated (4.30 mH), which has a difference of less than 1% from the experimental data.
文摘为提升无线电能传输(wireless power transfer,WPT)系统传输性能,需在控制过程中实时获取负载与耦合系数等关键信息,而该信息的获取目前普遍采用无线通讯模块或增加额外通信线圈等方式,增加了系统复杂度,尤其面临复杂水下工况及高频电磁环境,在通讯过程中极易造成通讯异常而导致系统瘫痪。为此,文中提出一种新型基于无迹卡尔曼滤波的WPT系统互感及负载关键参数在线识别方法,该方法仅需采样原边侧电压瞬时值,即可实时获取互感与负载等关键参数信息。同时为提升辨识精度与收敛速度,采用离线式神经网络指导粒子群优化算法建立系统噪声协方差矩阵。实验结果表明,该算法具有模型简单、计算精度较高等特点,在变负载、变移相控制角及偏移情况下,所提出的在线辨识方法对负载与互感的最大识别误差分别为6.19%和1.7%,且2 ms左右即可完成负载的动态识别,具有一定的工程应用价值。