研制了数字低电平系统(DLLRF)替换了合肥光源(HLS)原模拟系统,实现储存环高频腔的频率调谐和高频加速场的快速幅相反馈控制。该系统主要由模拟信号变频和基于FPGA的数字处理两大功能模块构成。经过离线和在线调试,DLLRF闭环控制下高频...研制了数字低电平系统(DLLRF)替换了合肥光源(HLS)原模拟系统,实现储存环高频腔的频率调谐和高频加速场的快速幅相反馈控制。该系统主要由模拟信号变频和基于FPGA的数字处理两大功能模块构成。经过离线和在线调试,DLLRF闭环控制下高频场的无载幅相稳定度达到±0.1%和±0.1°。带束流运行后进一步优化了环路参数,储存环最高流强达到460 m A,并成功实现了300 m A TOP-OFF运行模式,高频场的载束幅相稳定度达到±0.2%和±0.2°。展开更多
To upgrade Hefei Light Source(HLS) Linac, eight accelerating units have been constructed to realize fullenergy injection of the storage ring. Each of the units consists of two 3-m accelerators driven by one klystron.T...To upgrade Hefei Light Source(HLS) Linac, eight accelerating units have been constructed to realize fullenergy injection of the storage ring. Each of the units consists of two 3-m accelerators driven by one klystron.The input cavity detuning method was developed to measure and correct the phase length of the RF power distribution waveguide system. The design of the waveguide network and the principles of the detuning method are presented in this paper. After correction, the phase error between the waveguide of the two accelerators was less than ±0.5?, and the maximum electron energy of Linac reached 805 MeV, which is very near the theoretical maximum value of 810 MeV. These results demonstrate that the calibration of the waveguide was successful.展开更多
文摘研制了数字低电平系统(DLLRF)替换了合肥光源(HLS)原模拟系统,实现储存环高频腔的频率调谐和高频加速场的快速幅相反馈控制。该系统主要由模拟信号变频和基于FPGA的数字处理两大功能模块构成。经过离线和在线调试,DLLRF闭环控制下高频场的无载幅相稳定度达到±0.1%和±0.1°。带束流运行后进一步优化了环路参数,储存环最高流强达到460 m A,并成功实现了300 m A TOP-OFF运行模式,高频场的载束幅相稳定度达到±0.2%和±0.2°。
基金Supported by National Natural Science Foundation of China(No.11079034)
文摘To upgrade Hefei Light Source(HLS) Linac, eight accelerating units have been constructed to realize fullenergy injection of the storage ring. Each of the units consists of two 3-m accelerators driven by one klystron.The input cavity detuning method was developed to measure and correct the phase length of the RF power distribution waveguide system. The design of the waveguide network and the principles of the detuning method are presented in this paper. After correction, the phase error between the waveguide of the two accelerators was less than ±0.5?, and the maximum electron energy of Linac reached 805 MeV, which is very near the theoretical maximum value of 810 MeV. These results demonstrate that the calibration of the waveguide was successful.