基于FPGA的Super-FRS超导二极磁铁样机失超探测系统

介绍了FAIR项目Super-FRS超导二极磁铁样机的基于FPGA的失超探测系统。该失超探测系统采用平衡桥路法, 并通过两组独立桥路以消除失超探测死区。 通过NI PXI 7830R FPGA模块实现平滑滤波和失超判断算法,并给出失超触发信号。失超数据采集模块采用预采样技术, 将失超前后一段时间内的数据采集下来,以便进行后续分析。 通过测试,失超探测模块准确检测到了失超的发生, 并触发失超保护电路和失超数据采集模块工作,有效地保护了超导二极磁铁。 : The quench detection system for Super FRS super ferric dipole prototype magnet of FAIR has been designed and built. The balance bridge was used to detect quench signal. In order to avoid blind zone of quench detection, two independent bridges were used. NI PXI 7830R FPGA was used to implement filter to quench signal and algorithm of quench decision and to produce quench trigger signal. Pre sample technique was used in quench data acquisition. The data before and after quench could be recorded for analysis later. The test result indicated that the quench of the dipole’s superconducting coil could be reliably detected by the quench detection module.     

ADS注入器Ⅱ超导螺线管的初步测试

介绍了加速器驱动次临界系统（ADS）注入器Ⅱ束流聚焦单元超导螺线管的初步测试。 该测试在高度1 600 mm、 直径510 mm的垂直杜瓦中, 利用型号为cryogenic sms的超导电源对磁体进行了励磁, 并利用霍尔探头测试了其轴向磁场分布情况和漏场情况, 其中心磁场励磁后可达8.20 T, 漏场分布和计算值的相对误差小于10%。 同时, 对励磁过程中骨架的应力应变状态做了测试。 对测试结果的分析表明, 骨架结构设计合理, 应变状态变化平稳, 磁体低温稳定性能良好。The preliminary test of the superconducting solenoid for ADS injectorⅡhas been carried out in order to measure its performances. A vertical dewar with height 1 600 mm and outer diameter 510 mm was employed for this test. The magnet was energized by a cryogenic sms superconducting magnet current source. The axial magnetic distribution and leakage field were also tested through hall probes. The center field can be excited up to 8.20 T and the relative diviation between the measured value and the calculated value of the stray and leakage field is less than 10%. The measurements of the strain and stress status of the magnet skeleton show that the distortion is small and the mechanical performance is robust.     

中国科学院近代物理研究所磁体工程进展概述(英文)

本文着重论述了中国科学院近代物理研究所目前正在研制的三大磁体工程,它们包括重离子治癌工程(HIMM),强流重离子加速器(HIAF)工程,以及加速器驱动次临界系统(ADS)。在HIMM工程中的常规磁体建设中,着重介绍了联合运用钝化槽与活极头两项技术改善磁场品质的设计方法,并且运用Opera-3D设计软件,对该类高场常规磁体进行了数值分析,进一步地测量了该磁体磁场分布情况,相关的测量结果与数值模拟结果吻合良好。而对于正在处于预研阶段的HIAF工程中的快脉冲超导二极磁体,讨论了超导磁体的前期设计与结构优化技术,包括CACC超导线缆的结构设计,80 K冷屏与线圈盒结构的优化,力-磁耦合结构计算方法等。而在嬗变核废料处理的C-ADS注入器II中,核心部件是具有高磁场(高达7～8 T)的多层复合超导螺线管磁体结构,介绍了其在励磁和失超过程中相关磁学和力学多场实验测试工作。这些相关的设计和测量技术将为中国科学院近代物理研究所自主研制的磁体工程的物理和结构设计提供方法和指导。     

Development of a superconducting solenoid for CADS

A superconducting focusing solenoid has been designed and developed for the China Accelerator Driven System (CADS). In order to meet the requirement of focusing strength and fringe field while minimizing the physical size of the solenoid, the novel optimizing design method based on a linear programming method was employed. In this report, the design of the solenoid including magnetic field optimization, mechanical design and quench protection will be introduced. The solenoid has been fabricated and tested. The testing results show that the central field reached 8.4 T and the stray field was lower than 50 Gauss in the cavity zone.