Design of the offline test electronics for the nozzle system of proton therapy-Reference-Cited by-同舟云学术

Design of the offline test electronics for the nozzle system of proton therapy

Published:2024-01-01 Issue: Volume: Page:
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Author:

Huang Peng¹,Yin Zhiguo¹,Bian Tianjian¹,Hou Shigang¹,Guan Fengping¹,An Shizhong¹,Wang Yang¹,Zhang Tianjue¹,Ji Luyu¹,Wen Lipeng¹,Mu Xueer¹

Affiliation:

1. China Institute of Atomic Energy

Abstract

Abstract A set of nozzle equipment for proton therapy is now being developed at China Institute of Atomic Energy. To facilitate the off-line commissioning of the whole equipment, a set of ionization chamber signal generation system, the test electronics, is designed. The system uses ZYNQ SoC as the main control unit and outputs the beam dose analog signal through DAC8532. The dual SPDT analog switch, DG636, is used to simulate the beam position signals according to Gaussian distribution. The results show that the system can simulate the beam position, dose, and other related analog signals generated by the proton beam when passing through the ionization chamber. Moreover, the accuracy of the simulated beam position is within ± 0.33mm, and the accuracy of the simulated dose signal is within ± 1%. At the same time, it can output analog signals representing environmental parameters. The test electronics meets the design requirements, which can be used to commission the nozzle system as well as the treatment control system without the proton beam.

Publisher

Research Square Platform LLC

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