Abstract
The low-level rf control system currently commissioned throughout the Spallation Neutron Source (SNS) LINAC evolved from three design iterations over 1 yr intensive research and development. Its digital hardware implementation is efficient, and has succeeded in achieving a minimum latency of less than 150 ns which is the key for accomplishing an all-digital feedback control for the full bandwidth. The control bandwidth is analyzed in frequency domain and characterized by testing its transient response. The hardware implementation also includes the provision of a time-shared input channel for a superior phase differential measurement between the cavity field and the reference. A companion cosimulation system for the digital hardware was developed to ensure a reliable long-term supportability. A large effort has also been made in the operation software development for the practical issues such as the process automations, cavity filling, beam loading compensation, and the cavity mechanical resonance suppression.
Highlights
The low-level rf control system currently commissioned throughout the Spallation Neutron Source (SNS) LINAC evolved from three design iterations over 1 yr intensive research and development
The developed field control module (FCM) of Spallation Neutron Source (SNS) LINAC Low-level rf (LLRF) control is in VXI format
During the development of SNS LLRF control system, much knowledge and experience related to cavity rf control in general have been gained
Summary
The developed field control module (FCM) of Spallation Neutron Source (SNS) LINAC Low-level rf (LLRF) control is in VXI format. It is all digital with 14-bit input and output resolution, and 40 MHz sampling rate. Excluding the peripheral ADCs and DAC, the entire FCM digital hardware is implemented on a single Xilinx field programmable gate array (FPGA) chip XC2V1500, including the direct digital synthesis (DDS) of the IF output. All 96 commissioned LLRF systems are installed in 48 instrument racks distributed along the LINAC Klystron Gallery [1]
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