共查询到19条相似文献,搜索用时 46 毫秒
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中国原子能科学研究院正在研发一台230 MeV医用超导回旋加速器,用于天津肿瘤医院的质子治疗项目。为满足加速器高频系统的腔体负载Dee电压稳定度、高频频率稳定度及加速电压幅度平衡度的要求,本文研制一套包含模拟数字混合型幅度环、数字型调谐环和数字型电压平衡环3个环路的低电平控制系统。该低电平系统通过串口与上位机进行通信,以实现本地调试;利用Profibus-DP通信协议,实现低电平系统和PLC组网的交互通信。在1个缩比例无氧铜实验腔体上完成了低电平系统低功率桌面实验与联合调试,验证了电压调平衡算法的有效性,并实现了低电平控制系统的一键启动,无需人工干预,满足了加速器高频系统对低电平控制系统的需求。 相似文献
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15-MeV电子加速器驱动的光中子源装置(TMSR Photo-Neutron Source Phase 1,TPNS1)是专为钍基熔盐堆(Thorium Molten Salt Reactor,TMSR)核数据测量设计和建造的。为保证直线加速器提供稳定的、高品质的束流,开发了基于可编程逻辑门阵列(Field Programmable Gate Array,FPGA)技术的低电平控制系统,利用上下变频、IQ(In-phase and Quadrature)调制解调技术实现了直线加速器幅度和相位的反馈控制。经测试,幅度和相位的控制精度达到±0.4%,可达±0.6°。长时间的运行表明,整个数字化环路的响应时间快,稳定性好,满足中子源装置的运行要求。 相似文献
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本文介绍了基于MicroTCA.4标准的新型宽带射频前端的设计。该射频前端可以实现300MHz~6 GHz频率范围内的下变频及50 MHz~6 GHz范围内的矢量调制上变频。同时射频前端具有可调衰减、温度监测、功率检波、IQ校准、板卡管理等功能。通过测试,板卡下变频端口间隔离度大于70d B,下变频线性区间大于35 d B,幅度误差小于0.03%,相位误差小于±0.03°;上变频载波泄露小于-45 d Bm,边带抑制大于50 d B。 相似文献
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针对回旋加速器射频系统幅度、相位、启动逻辑、联锁保护、在线参数修改等控制需求,编写了一种基于有限状态机的通用DSP固件程序。该固件程序将射频系统启动过程划分为5个状态:封锁RF信号、搜索腔体谐振点、提升射频功率、匹配相位、幅相闭环控制。该固件程序通过串口与本地上位机和远程控制机进行实时通信,支持在线修改射频系统启动参数;采用异步事件驱动方式,实现对打火和反射功率过大等异常情况快速响应。该固件程序成功应用于CYCIAE-100回旋加速器射频低电平系统中,在CYCIAE-100回旋加速器调束过程中,完成了射频系统的启动控制和设备保护,满足加速器控制系统的需求。 相似文献
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用于驱动光中子源装置(TMSR Photo-Neutron Source Phase1,TDSN1)的15 Me V直线加速器,由于腔体中瞬态束流负载效应的存在使得束团在经过腔体后头部的能量过高,会导致束流能散变大,降低了束流的传输效率。"数字前馈补偿"方法在原有的数字低电平控制系统的现场可编程逻辑门阵列(Field Programmable Gate Array,FPGA)中加入前馈模块,通过直接削弱输入腔体的射频场的头部场强来达到降低束团头部能量的目的。实际数据表明,低电平系统前馈功能工作稳定,束流能散降低,束流的传输效率显著变高,克服了传统束流补偿法不能在大束团、高流强模式下工作的缺陷。 相似文献
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针对回旋加速器射频系统幅度、相位、频率、自动启动逻辑、联锁保护、在线参数修改等控制需求,设计了一种用于回旋加速器低电平系统的软硬件系统。该系统的硬件基于ZYNQ系列FPGA和高速ADC及DAC。采用数字下变频技术实现了幅度、相位和调谐控制;采用数字电路实现了腔体打火的快速检测。幅度控制精度为0.015%,相位控制精度为0.04°。该系统充分发挥了数字低电平系统的全可编程优势,通过上位机修改参数即可适用于多种回旋加速器。 相似文献
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44MHz高频闭环系统是金属模型腔热测实验的关键组成部分。为保证功率源输出的信号与高频腔的谐振频率两者始终同步,需在高频控制系统中加入频率调谐系统。 相似文献
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为了能开展高能电子成像相关实验研究,中国科学院近代物理研究所建造了一台S波段的射频电子直线加速器。为保证实验用束流品质和加速器稳定运行的要求,设计了一套低电平控制系统,利用上下变频、IQ解调技术,实现了相位的反馈控制。本文介绍了低电平控制系统的设计及数字化算法的实现,给出了系统闭环实验的测试结果,实现相位控制精度达到±0.5°(峰峰值)和0.110 8°(均方根)。该系统利用成熟的商业化模拟微波器件和相关的PXI板卡实现,基于LabVIEW软件开发了相关的控制程序和界面,具有搭建方便、开发时间短、结构简单紧凑、易于使用和维护的特点。 相似文献
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LENGYong-Bin SHENGuo-Bao 《核技术(英文版)》2001,12(3):235-240
In the process of making preliminary design for the Shanghai Synchrotron Radiation Facility(SSRF) control system,we designed and implemented the fieldbus DeviceNet for communication between IOCs(I/O Controller)and device controllers,DeviceNet,as an open network standard,provides application layer protocol(IOS/OSI layer 7) and thus can transparently connect devices and IOCs without any need for network programming.The application of the DeviceNet to the EPICS(Experimental Physics and Industrial Control System) based control system are described. 相似文献
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《核技术(英文版)》2015,(3)
The low level radio frequency(LLRF) system for booster accelerator at Shanghai Synchrotron Radiation Facility(SSRF) was upgraded by a digital controller based on field programmable gate array(FPGA) technology.Parameters of voltage, frequency and field flatness in the two 5-cell cavities are controlled to meet the requirements of booster. In this article, the ramping curve of cavity voltage, amplitude and phase control loop with vector sum of the two 5-cell cavities, tuning loop and field flatness loop are analyzed and discussed in detail.A different method in tuning loop is adopted due to the limitations of ADC channels. The function realizes energy ramping of electron beam from 150 Me V to 3.5 Ge V with a repetition rate of 2 Hz. With the new LLRF controller, the phase stability at ramping mode in 10 hours long operation is improved from ±1.5°(RMS) with open loop to ±0.15°(RMS) with close loop, while the detuning phase and field flatness are maintained to within ±2°and ±1%, respectively. 相似文献
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This paper introduces the injection and extraction control system design for SSRF,which is a distributed control system aimed at stability and reliability of the pulse power supplies,PPS(Personnel Protection System)and MPS(Machine Protection System).The hardware environment is mainly based on PLC(Programmable Logic Con- troller),and ARM(Advanced RISC Machine)is also applied for studying stability of the power supplies.WinCC and EPICS(Experimental Physics and Industrial Control System)have been selected as the platforms of SCADA(Super- visory Control and Data Acquisition).For unifying the interfacing to the control computer,all front-end equipments are connected via Industrial Ethemet. 相似文献
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The design of phase control system in Shanghai Synchrotron Radiation Facility (SSRF) linac is presented in this paper. And digital phase detecting algorithm, the key for phase control system, is fully described. The testing results for phase control system in 100MeV linac are discussed in detail. 相似文献
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《核技术(英文版)》2015,(2)
A monochromator is important to a beamline for desired monochromatic light. There are three water-cooled double crystal monochromators(DCMs) commissioned in the phase-I beamlines of Shanghai Synchrotron Radiation Facility(SSRF). In this paper, the mechanical principle of the DCMs is introduced. A control system for the monochromator based on the standard architecture for SSRF beamlines is described. To achieve the control requirement precisely, the hardware includes VME(Versa Module Eurocard)-based controller for stepper motors, RS-232-based controllers for micropositioning and piezoelectric actuators. The software is developed with EPICS(Experimental Physics and Industrial Control System) package. Test results have revealed the stability and reliability of the system. 相似文献