主营产品:元器件与系统辐射效应与抗辐射加固研究
新疆理化所在国内最早从事元器件与系统辐射效应与抗辐射加固研究,指导生产出我国首批抗辐射CMOS电路,应用于东方红三号卫星;首次研制了辐射剂量在轨监测设备,并应用于实践、风云卫星;建立了优于国际现行标准的低剂量率增强效应加速评估方法;是国家有关部门指定的元器件总剂量试验单位、航天科技集团一五八院的签约实验室、中科院卫星可靠性中心元器件辐射效应实验室和应用验证中心;拥有国内唯一、功能完整的元器件累积辐射效应试验平台;长期承担航天和元器件行业辐射效应试验评估任务,服务覆盖航天、电子、核工业相关的80余家单位,为二代DH、东方红、天宫、遥感系列重要航天型号、国产元器件工程及核工业装备研发提供了重要支撑。
近年来,新疆理化所基于多年器件辐射效应科研积累,突破了强辐射环境下电子系统抗辐射加固技术,研发出抗辐射相机以及机器人控制、供电、通讯等电子系统样机,抗辐射性能显著优于当前国内产品,且体积小、重量轻,达到国际先进水平。研制的抗辐射相机已交付中核核动力运行研究所、千智机器人等多家单位进行机器人整机集成及应用,获得高度认可。目前正与中核集团、中广核集团、新松机器人等合作,针对上述单位的需求开展系列化产品研发,支撑我国核工业关键核心技术的突破、高端装备的自主研发。
The Xinjiang Institute of Physics and Chemistry was one of the earliest research institutions in China to study the radiation effects and radiation hardening of electronic components and systems. It guided the production of China's first radiation-resistant CMOS circuit, which was applied to the Dongfanghong III satellite. The institute also developed the first on-orbit radiation dose monitoring equipment, which was applied to the Fengyun satellite. It established an accelerated evaluation method for low dose rate enhancement effects that is superior to current international standards. The institute is designated as a component total dose test unit by relevant national departments, a contract laboratory of China Aerospace Science and Technology Corporation's 158th Institute, a component radiation effects laboratory and application verification center of the Satellite Reliability Center of the Chinese Academy of Sciences. It has the only complete component cumulative radiation effects test platform in China. The institute has long been responsible for radiation effects testing and evaluation tasks in the aerospace and electronic component industries, serving over 80 units related to aerospace, electronics, and nuclear industries. It has provided important support for the development of important aerospace models such as the second-generation DH, Dongfanghong, Tiangong, remote sensing series, domestic component engineering, and nuclear industry equipment research and development. In recent years, based on years of research on component radiation effects, the institute has made breakthroughs in radiation-hardened electronic system technology in strong radiation environments, and has developed prototypes of radiation-resistant cameras and electronic systems for robot control, power supply, and communication. Their radiation resistance is significantly better than that of current domestic products, and they are small in size and light in weight, reaching international advanced levels. The developed radiation-resistant camera has been delivered to many units such as the China Nuclear Power Operation Research Institute and Qianzhi Robotics for robot integration and application, and has been highly recognized. Currently, the institute is cooperating with China National Nuclear Corporation, China General Nuclear Power Corporation, and Xinsong Robotics to develop a series of products for these units' needs, supporting China's breakthroughs in key core technologies of the nuclear industry and the independent development of high-end equipment.
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