Cavity beam position monitor(BPM) is widely used in a precise electron beam position measurement. Based on high performance oscilloscope-embedded EPICS input/output controller,we developed an on-line cavity BPM signal...Cavity beam position monitor(BPM) is widely used in a precise electron beam position measurement. Based on high performance oscilloscope-embedded EPICS input/output controller,we developed an on-line cavity BPM signal processing system for fast data acquisition solution when designing a cavity BPM.Also,methods for extracting the position information from cavity pickup signals and calibration algorithm are included in this solution.展开更多
The paper addresses the global output tracking of a class of multi-input multi-output (MIMO) nonlinear systems affected by disturbances, which are generated by a known exosystem. An adaptive controller is designed b...The paper addresses the global output tracking of a class of multi-input multi-output (MIMO) nonlinear systems affected by disturbances, which are generated by a known exosystem. An adaptive controller is designed based on the proposed observer and the backstepping approach to asymptotically track arbitrary reference signal and to guarantee the boundedness of all the signals in the closed loop system. Finally, the numerical simulation results illustrate the effectiveness of the ProPosed scheme.展开更多
提出一种适用于DC/DC变换器的输出电压微分–单周控制(output voltage differential coefficient and one cycle control,OVDC-OCC)方法。介绍其工作原理,并利用状态空间平均方法建立了这种新型反馈控制Buck变换器的小信号模型,在此基...提出一种适用于DC/DC变换器的输出电压微分–单周控制(output voltage differential coefficient and one cycle control,OVDC-OCC)方法。介绍其工作原理,并利用状态空间平均方法建立了这种新型反馈控制Buck变换器的小信号模型,在此基础上进行频域仿真,并对结果进行了对比分析,最后进行了实验研究,给出相关实验结果。仿真和实验结果表明,OVDC-OCC控制比传统电压控制Buck变换器具有更好的抗输入电压扰动能力和更好的动态负载性能。展开更多
以工作于电感电流连续导电模式(continuous conductionmode, CCM)的单电感双输出(single-inductor dual-output,SIDO)Boost变换器为研究对象,提出恒定谷值电流型(fixed valley current mode,FVCM)变频控制技术。详细分析FVCM变频控制CCM...以工作于电感电流连续导电模式(continuous conductionmode, CCM)的单电感双输出(single-inductor dual-output,SIDO)Boost变换器为研究对象,提出恒定谷值电流型(fixed valley current mode,FVCM)变频控制技术。详细分析FVCM变频控制CCMSIDOBoost变换器的工作原理及工作时序,得到开关频率与主电路参数以及谷值电流参考值的关系式。采用时间平均等效电路建模方法,推导CCM SIDO Boost变换器的控制–输出、控制–电感电流、交叉影响阻抗等传递函数。建立FVCM变频控制CCMSIDO Boost变换器的小信号模型,计算闭环输出阻抗和交叉影响阻抗传递函数,并从负载瞬态性能和交叉影响特性两方面,与传统的共模–差模电压型控制进行对比分析。研究结果表明:与共模–差模电压型控制相比,FVCM变频控制提高了CCMSIDOBoost变换器的瞬态响应速度,抑制了输出支路间的交叉影响。最后,通过仿真和实验验证理论分析的正确性。展开更多
基金Supported by National Natural Science Foundation(Grant No.11075198)
文摘Cavity beam position monitor(BPM) is widely used in a precise electron beam position measurement. Based on high performance oscilloscope-embedded EPICS input/output controller,we developed an on-line cavity BPM signal processing system for fast data acquisition solution when designing a cavity BPM.Also,methods for extracting the position information from cavity pickup signals and calibration algorithm are included in this solution.
文摘单电感双输出(single-inductor dual-output,SIDO)开关变换器工作在共享充放时序下存在电感电流纹波大、输出支路间交叉影响严重以及电路参数宽范围变化下控制电路不能正常工作等问题.为此,提出一种独立充放时序电流型变频控制(current-mode variable frequency control,C-VF)技术.首先,具体描述变换器在连续导电模式(continuous conduction mode,CCM)下的工作原理,并推导主电路开环传递函数;进一步构建闭环小信号模型,推导闭环交叉阻抗,详细分析不同输出电压及负载电流下变换器的交叉影响特性;最后,通过仿真和实验进行验证.研究表明:相较于共享充放时序,独立充放时序C-VF CCM SIDO buck变换器减小了交叉影响,改善了负载瞬态响应性能;当两支路负载电压不等时,减轻某一支路负载可以降低该支路的交叉影响;当两支路输出电压相同但负载不同时,重载支路对轻载支路的交叉影响更小.
基金This research is supported by the National Nature Science Foundation of China under Grant No.60574007the Nature Science Foundation of Shandong Province under Grant No.Y2003G02.
文摘The paper addresses the global output tracking of a class of multi-input multi-output (MIMO) nonlinear systems affected by disturbances, which are generated by a known exosystem. An adaptive controller is designed based on the proposed observer and the backstepping approach to asymptotically track arbitrary reference signal and to guarantee the boundedness of all the signals in the closed loop system. Finally, the numerical simulation results illustrate the effectiveness of the ProPosed scheme.
文摘提出一种适用于DC/DC变换器的输出电压微分–单周控制(output voltage differential coefficient and one cycle control,OVDC-OCC)方法。介绍其工作原理,并利用状态空间平均方法建立了这种新型反馈控制Buck变换器的小信号模型,在此基础上进行频域仿真,并对结果进行了对比分析,最后进行了实验研究,给出相关实验结果。仿真和实验结果表明,OVDC-OCC控制比传统电压控制Buck变换器具有更好的抗输入电压扰动能力和更好的动态负载性能。
文摘以工作于电感电流连续导电模式(continuous conductionmode, CCM)的单电感双输出(single-inductor dual-output,SIDO)Boost变换器为研究对象,提出恒定谷值电流型(fixed valley current mode,FVCM)变频控制技术。详细分析FVCM变频控制CCMSIDOBoost变换器的工作原理及工作时序,得到开关频率与主电路参数以及谷值电流参考值的关系式。采用时间平均等效电路建模方法,推导CCM SIDO Boost变换器的控制–输出、控制–电感电流、交叉影响阻抗等传递函数。建立FVCM变频控制CCMSIDO Boost变换器的小信号模型,计算闭环输出阻抗和交叉影响阻抗传递函数,并从负载瞬态性能和交叉影响特性两方面,与传统的共模–差模电压型控制进行对比分析。研究结果表明:与共模–差模电压型控制相比,FVCM变频控制提高了CCMSIDOBoost变换器的瞬态响应速度,抑制了输出支路间的交叉影响。最后,通过仿真和实验验证理论分析的正确性。