System on Chip (PSoC) Control for High Current Magnet Power Supply
In this paper, the authors describe a high current magnet power supply control through a Programmable System-on-Chip (PSoC) based embedded design and its menu driven control program written in virtual instrument program. This design supports a wider dynamic range of current from 0 to 120 amperes in steps of 0.1amps to the magnet power supply. It also has the fine tuning facility of current in the range of 0.01amps to the magnet. In the existing BRUKER, make B-CN-120 model power supply a programmable port has been implemented through which the PSoC embedded design interact via PCs USB port configured through LabVIEW program resides in the PC.