AGS booster beam position, tune, and longitudinal profile data acquisition system
Particle Accelerator Conference, 2003. PAC 2003. Proceedings of the(2003)
Abstract
In this paper we will describe a data acquisition system designed and developed for the AGS Booster. The system was motivated by the need to get high quality beam diagnostics from the AGS Booster. This was accomplished by locating the electronics and digital data acquisition close to the Booster ring, to minimize loss of bandwidth in the original signals. In addition we had to develop the system rapidly and at a low cost. The system consists of a Lecroy digital oscilloscope which is interfaced through a National Instruments Lab View server application, developed for this project. This allows multiple client applications to time share the scope without interfering with each other. We will present a description of the system design along with example clients that we have implemented.
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Key words
beam handling techniques,booster injectors,data acquisition,digital storage oscilloscopes,high energy physics instrumentation computing,nuclear electronics,particle beam bunching,particle beam diagnostics,proton accelerators,synchrotrons,ags booster beam position data acquisition system,booster ring,lecroy digital oscilloscope,national instruments lab view server application,digital data acquisition,electronics data acquisition,high quality beam diagnostics,longitudinal profile data acquisition system,multiple client applications,tune data acquisition system,lattices,bandwidth,data acquisition system,particle accelerators,system design,rf signals,radio frequency,design,data acquisition systems,application development,oscilloscopes,time sharing
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