He Wei, Wang Yueke, Xing Ke-fei, Deng Wei, Liu Pengcheng
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引用次数: 1
摘要
为了评估星载信号处理平台的总电离剂量脆弱性,建立了加速辐射实验,并提出了在轨预测方法。对于基于sram的FPGA和DSP组成的信号处理平台,功能参数和电流变化是实验的两个准则。60Co γ射线辐射实验表明,总剂量约为95 k rad(Si), DSP是最脆弱的器件。利用MULASSIS软件对典型卫星轨道的总电离剂量进行了预测。用蒙特卡罗方法对不同的电子屏蔽方案进行了模拟。该平台采用3毫米铝加固,可在近地轨道(800公里,1200公里)运行28年。平台采用2.8 mm铝材和0.2mm钽加固,可在(地球同步轨道)GEO轨道上使用28年。
Total ionizing dose vulnerability analysis and on-orbit prediction for spaceborne signal processing platform
To evaluate the total ionizing dose vulnerability of spaceborne signal processing platform, an accelerated radiation experiment is set up and on-orbit prediction method is proposed. For signal processing platform which consists of SRAM-based FPGA and DSP, function parameter and current variety are the two criterion of experiment. 60Co γ radial radiation experiment indicates that total dose is about 95 k rad(Si), and DSP is the most vulnerability device. The total ionizing dose of typical satellite orbit is predicted by MULASSIS software. Different shielding schemes for electron have been simulated with Monte-Carlo method. With 3 mm aluminium reinforce, the platform can be applied in the low earth orbit(LEO) orbit (800km, 1200km) for 28 years. With 2.8 mm aluminium and 0.2mm tantalum reinforce, the platform can be applied in the (geosynchronous earth orbit)GEO orbit for 28 years.
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