揭示一种新型多电平电压源换流器(voltage source converter,VSC),即模块化多电平VSC的起源与工作机制;介绍其子模块与VSC拓扑及相应工作原理;针对此新型换流器拓扑,并结合基于VSC的高压直流输电领域(high voltage direct current trans...揭示一种新型多电平电压源换流器(voltage source converter,VSC),即模块化多电平VSC的起源与工作机制;介绍其子模块与VSC拓扑及相应工作原理;针对此新型换流器拓扑,并结合基于VSC的高压直流输电领域(high voltage direct current transmission system based on VSC,VSC-HVDC),提出一种基于幂和理论的改进型多电平基频开关调制策略。与通常策略中所使用的数字迭代技术,如"牛顿-拉夫逊"法相比,该文所提算法可显著简化运算、降低计算量,且能求出开关角的所有解;而通常算法仅能求出单一解,忽略了可能存在的其他解,最后进行了仿真验证。理论分析与仿真结果均说明关于模块化多电平VSC本质揭示的正确性及所提调制策略的优越性。展开更多
A novel M-ary chirp modulation technique based on an optimal chirp signal design is proposed in this paper to offer higher data rate for an indoor wireless chirp spread spectrum communication system. Both linear chirp...A novel M-ary chirp modulation technique based on an optimal chirp signal design is proposed in this paper to offer higher data rate for an indoor wireless chirp spread spectrum communication system. Both linear chirp signals and combined chirp signals are used in this system to reduce the effect of the cross correlation, and simplify the complexity of the system. The optimal scheme of de- signing both linear chirp signals and combined chirp signals is discussed to minimize the value of the cross correlation and obtain a better system performance. Simulation results show that, compared with the binary orthogonal chirp modulation technique, the M-ary chirp modulation technique based on an optimal chirp signal set has a higher data rate with a reasonable bit-error rate (BER) perform- ance under both additive white gaussian noise (AWGN) channel and indoor wireless channel.展开更多
In order to suppress the fast decrease of the transfer efficiency of magnetic resonance coupled wireless power transfer system(MRCWPTS) with distance increase,this paper investigates the impact factors of the system t...In order to suppress the fast decrease of the transfer efficiency of magnetic resonance coupled wireless power transfer system(MRCWPTS) with distance increase,this paper investigates the impact factors of the system transfer efficiency and is,then formulates a new efficiency optimal control method based on frequency control.Based upon this control method two optimal control schemes are designed to achieve transfer efficiency control of the system.Simulations and experiments show that the proposed efficiency optimal control method can effectively stabilize the system transfer efficiency in a certain range so as to successfully solve the subtle issue of transfer efficiency variation with distance.展开更多
文摘揭示一种新型多电平电压源换流器(voltage source converter,VSC),即模块化多电平VSC的起源与工作机制;介绍其子模块与VSC拓扑及相应工作原理;针对此新型换流器拓扑,并结合基于VSC的高压直流输电领域(high voltage direct current transmission system based on VSC,VSC-HVDC),提出一种基于幂和理论的改进型多电平基频开关调制策略。与通常策略中所使用的数字迭代技术,如"牛顿-拉夫逊"法相比,该文所提算法可显著简化运算、降低计算量,且能求出开关角的所有解;而通常算法仅能求出单一解,忽略了可能存在的其他解,最后进行了仿真验证。理论分析与仿真结果均说明关于模块化多电平VSC本质揭示的正确性及所提调制策略的优越性。
文摘A novel M-ary chirp modulation technique based on an optimal chirp signal design is proposed in this paper to offer higher data rate for an indoor wireless chirp spread spectrum communication system. Both linear chirp signals and combined chirp signals are used in this system to reduce the effect of the cross correlation, and simplify the complexity of the system. The optimal scheme of de- signing both linear chirp signals and combined chirp signals is discussed to minimize the value of the cross correlation and obtain a better system performance. Simulation results show that, compared with the binary orthogonal chirp modulation technique, the M-ary chirp modulation technique based on an optimal chirp signal set has a higher data rate with a reasonable bit-error rate (BER) perform- ance under both additive white gaussian noise (AWGN) channel and indoor wireless channel.
文摘In order to suppress the fast decrease of the transfer efficiency of magnetic resonance coupled wireless power transfer system(MRCWPTS) with distance increase,this paper investigates the impact factors of the system transfer efficiency and is,then formulates a new efficiency optimal control method based on frequency control.Based upon this control method two optimal control schemes are designed to achieve transfer efficiency control of the system.Simulations and experiments show that the proposed efficiency optimal control method can effectively stabilize the system transfer efficiency in a certain range so as to successfully solve the subtle issue of transfer efficiency variation with distance.