The first path-independent insertion-loss(PILOSS) strictly non-blocking 4×4 silicon electro–optic switch matrix is reported. The footprint of this switch matrix is only 4.6 mm×1.0 mm. Using single-arm mod...The first path-independent insertion-loss(PILOSS) strictly non-blocking 4×4 silicon electro–optic switch matrix is reported. The footprint of this switch matrix is only 4.6 mm×1.0 mm. Using single-arm modulation, the crosstalk measured in this test is-13 dB --27 dB. And a maximum crosstalk deterioration of 6d B caused by two-path interference is also found.展开更多
分段并联供电的长定子直线电机在进行定子段供电切换时,电机参数发生改变,在高速运行期间会出现电流超调或断相情况,动子过分段时电机推力波动大。该文仿真分析几种动子过分段供电切换方法的特点,提出一种分段并联供电长定子直线电机定...分段并联供电的长定子直线电机在进行定子段供电切换时,电机参数发生改变,在高速运行期间会出现电流超调或断相情况,动子过分段时电机推力波动大。该文仿真分析几种动子过分段供电切换方法的特点,提出一种分段并联供电长定子直线电机定子段供电切换方法,在电路拓扑中仅需要将同一变流器交替供电的定子段中性点相连接,切换开关采用双向晶闸管,切换策略为在定子段切换过程中各相电流依次过零开通和关断。该方法抑制了切换过程中变流器的电流断续或波动,减小了电机推力波动。通过采用比例–积分–谐振(proportional integral resonance,PIR)控制器,抑制电机电感不平衡带来的电流2倍频波动。以一台双三相永磁同步直线电机为例,进行仿真实验,并验证该方法的有效性。展开更多
The composite scheme based on preemption and small buffers is an efficient method for contention resolution. To support services differentiation, it is the first time that the analytical model of delay preemption base...The composite scheme based on preemption and small buffers is an efficient method for contention resolution. To support services differentiation, it is the first time that the analytical model of delay preemption based priority is built. Further, in order to guarantee the low-loss requirement for high priority bursts, an improved scheme is proposed and investigated by limiting the buffered right of low priority bursts within the specific traffic states. The simulation results show that, without the deterioration of blocking performance, there is more than 40% reduction on burst loss being achieved under the conditionρ=1.0 for high priority bursts.展开更多
针对高压直流(high voltage direct current,HVDC)输电网直流故障处理中存在的耗时长且影响范围较广等问题,提出了基于形态学梯度与故障阻断换流器(fault blocking converter,FBC)的HVDC输电网故障处理方法。首先,利用多分辨形态学梯度...针对高压直流(high voltage direct current,HVDC)输电网直流故障处理中存在的耗时长且影响范围较广等问题,提出了基于形态学梯度与故障阻断换流器(fault blocking converter,FBC)的HVDC输电网故障处理方法。首先,利用多分辨形态学梯度算法提取故障电流信号特征,并进行滤波处理以消除噪音干扰;然后,设计了基于FBC的HVDC直流网故障处理策略,结合FBC与高速开关实现快速且有选择性地处理直流故障;最后,利用PSCAD模拟HVDC输电网直流故障。试验结果表明,所提方法的故障处理耗时仅为10 ms,准确率高达95%,能够高效且准确地处理故障。展开更多
基金Project supported by the National Basic Research Program of China(Grant No.2011CB301701)the National High Technology Research and Development Program of China(Grant Nos.2013AA014402+2 种基金2012AA012202and 2015AA016904)the National Natural Science Foundation of China(Grant Nos.61275065 and 61107048)
文摘The first path-independent insertion-loss(PILOSS) strictly non-blocking 4×4 silicon electro–optic switch matrix is reported. The footprint of this switch matrix is only 4.6 mm×1.0 mm. Using single-arm modulation, the crosstalk measured in this test is-13 dB --27 dB. And a maximum crosstalk deterioration of 6d B caused by two-path interference is also found.
文摘分段并联供电的长定子直线电机在进行定子段供电切换时,电机参数发生改变,在高速运行期间会出现电流超调或断相情况,动子过分段时电机推力波动大。该文仿真分析几种动子过分段供电切换方法的特点,提出一种分段并联供电长定子直线电机定子段供电切换方法,在电路拓扑中仅需要将同一变流器交替供电的定子段中性点相连接,切换开关采用双向晶闸管,切换策略为在定子段切换过程中各相电流依次过零开通和关断。该方法抑制了切换过程中变流器的电流断续或波动,减小了电机推力波动。通过采用比例–积分–谐振(proportional integral resonance,PIR)控制器,抑制电机电感不平衡带来的电流2倍频波动。以一台双三相永磁同步直线电机为例,进行仿真实验,并验证该方法的有效性。
文摘The composite scheme based on preemption and small buffers is an efficient method for contention resolution. To support services differentiation, it is the first time that the analytical model of delay preemption based priority is built. Further, in order to guarantee the low-loss requirement for high priority bursts, an improved scheme is proposed and investigated by limiting the buffered right of low priority bursts within the specific traffic states. The simulation results show that, without the deterioration of blocking performance, there is more than 40% reduction on burst loss being achieved under the conditionρ=1.0 for high priority bursts.
文摘针对高压直流(high voltage direct current,HVDC)输电网直流故障处理中存在的耗时长且影响范围较广等问题,提出了基于形态学梯度与故障阻断换流器(fault blocking converter,FBC)的HVDC输电网故障处理方法。首先,利用多分辨形态学梯度算法提取故障电流信号特征,并进行滤波处理以消除噪音干扰;然后,设计了基于FBC的HVDC直流网故障处理策略,结合FBC与高速开关实现快速且有选择性地处理直流故障;最后,利用PSCAD模拟HVDC输电网直流故障。试验结果表明,所提方法的故障处理耗时仅为10 ms,准确率高达95%,能够高效且准确地处理故障。