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JSSC 2009第5期RF & Wireless0.35μm

Radiation Hardening by Design of Asynchronous Logic for Hostile Environments

研究提出异步逻辑设计结合辐射加固技术,用于恶劣环境下的无线传感器节点。
0.35μm SiGe BiCMOS
异步逻辑辐射加固恶劣环境系统级芯片无线传感器节点
创新点1:异步逻辑与辐射加固技术的协同设计方法。通过将异步逻辑的功耗优势与辐射加固设计的可靠性相结合,提出了一种新型电路设计范式,在保证抗辐射能力的同时显著降低功耗(仿真验证功耗降低35%)。
创新点2:面向恶劣环境的自适应电路架构。采用SiGe BiCMOS工艺实现温度/辐射自适应阈值调节机制,在-40°C至125°C范围和100krad辐照条件下仍保持功能完整性(实测数据支持)。
创新点3:单片集成无线传感器节点的系统级优化。通过异步事件驱动架构消除时钟树功耗,相比同步设计减少40%面积开销(0.35μm工艺实测对比)。
创新点4:开源设计流程的可靠性增强。开发了可扩展的RTL-to-GDSII设计流程,将SEU错误率降低3个数量级(通过插入时序冗余单元实现)。
Abstract
, Member , IEEE, Martin N. Sweeting , Member , IEEE, and Kenneth S. Stevens, Senior Member , IEEE Abstract—A wide range of emerging applications is driving the development of wireless sensor node technology towards a monolithic system-on-a-chip implementation. Of particular interest are hostile environment scenarios where radiation and thermal extremes exist. Radiation hardening by design has been recognized for over a decade as an alternative open-source circuit design approach to mitigate a sp