Slow extraction control system of HIRFL-CSR
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摘要: 兰州重离子加速器冷却存储环为了进行深层重离子治疗肿瘤的实验,需要长时间、均匀地慢引出束流至高能束运线,以满足深层重离子治疗肿瘤的束流要求。慢引出控制系统采用加速器控制系统的同步时间信号来进行同步控制以实现整个过程控制;当加速器控制系统的同步事例的同步触发信号进行触发控制以及数据切换(频率值、tune值、电压幅值),波形发生器通过这三个数据信息产生相应的波形及进行放大器放大并控制静电偏转板以实现束流RF-KO方式慢引出。慢引出控制系统的同步事例接收器主要由FPGA与光纤接口组成,实现同步事例的高速稳定传输与强抗干扰性。深层重离子治疗肿瘤的正常运行以及冷却存储环已实现104 s超长周期的慢引出实验表明,慢引出控制系统能实现实验束流需求的慢引出。Abstract: For heavy-ion radiotherapy, HIRFL-CSR (Heavy Ion Research Facility in Lanzhou-Cooler Storage Ring) needs a long term uniform ion beam extraction from HIRFL-CSR main ring to high energy beam transport line to meet the requirement of heavy-ion radiotherapys ion beam. Slow extraction control system uses the synchronous signal of HIRFL-CSR control systems timing system to realize process control. When the synchronous event data of HIRFL-CSR control systems timing system trigger controlling and changing data (frequency value, tune value, voltage value), the waveform generator will generate waveform by frequency value, tune value and voltage value, and will amplify the generated waveform by power amplifier to electrostatic deflector to achieve RF-KO slow extraction. The synchronous event receiver of slow extraction system is designed by using FPGA and optical fiber interface to keep high transmission speed and anti-jamming. HIRFL-CSRs running for heavy-ion radiotherapy and ten thousand seconds long period slow extraction experiments show that slow extraction control system is workable and can meet the requirement of heavy-ion radiotherapys ion beam.
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