Laurent Varizat, G. Sou, M. Mansour, D. Alison, A. Rhouni
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引用次数: 12
摘要
太空任务需要在极端条件下提供高性能的电子设备。最具限制性的是低温温度和辐射。专用集成电路(Application Specific Integrated Circuit, ASIC)以实现高性能、低重量和低功耗为目标。因此,工业铸造厂提供的仿真模型只能在230K到430K的温度下工作。在这项工作中,我们提出了一个0.35μm/3.3V CMOS技术的低温电模型,该模型基于从室温到液氮温度(LNT)的提取晶体管BSIM3.3参数模型。这些模型用于设计和测试空间仪器的完整CMOS参考电压电路,其漂移仅为20ppm/K。
A low temperature 0.35μm CMOS technology BSIM3.3 model for space instrumentation: Application to a voltage reference design
Space missions require electronics providing high performances under extreme conditions. The most restrictive ones are cryogenics temperatures and radiations. Application Specific Integrated Circuit (ASIC) aims at reaching high performances, low weight and low power consumption. Therefore, simulation models available from industrial foundries are meant to work only from 230K to 430K. In this work, we present a cryogenic electrical model for a 0.35μm/3.3V CMOS technology, based on extracted transistor BSIM3.3 parameters model from room temperature down to Liquid Nitrogen Temperature (LNT). These models are used to design and test a full CMOS reference voltage circuit with only 20ppm/K drift for space instrumentation.
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