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Low-Power Successive Approximation Converter With 0.5 V Supply in 90 nm CMOS
设计了一种超低功耗逐次逼近型转换器,适用于无线传感器网络接收器,工作电压低至450 mV。
0.14 pJ/Conv.Step
低功耗逐次逼近型转换器无线传感器网络90 nm CMOS0.5 V供电
▸创新点1:超低功耗设计(方法创新) - 该论文提出了一种在90 nm CMOS工艺下实现超低功耗的逐次逼近型转换器,核心功耗仅为0.14 pJ/Conv.Step,显著降低了无线传感器网络中的能耗需求。
▸创新点2:450 mV低电压工作(电路创新) - 通过优化电路设计,该转换器能够在低至450 mV的电源电压下稳定工作,突破了传统转换器在低电压下的性能限制,适用于能量受限的应用场景。
▸创新点3:克服电荷泄漏限制(技术突破) - 该设计采用创新的电荷管理技术,有效解决了在超低电压下电荷泄漏的问题,确保了转换器的可靠性和精度。
▸创新点4:完整数据转换子系统集成(系统创新) - 论文展示了从0.5 V电源供电的完整数据转换子系统,包括参考电压生成,实现了高度集成的低功耗解决方案。
Abstract
We report on the design and characterization of an ul- tralow-power converter, designed for use in baseband digitization in wireless sensor network radio receivers. The converter uses a successive approximation architecture and operates robustly with a supply voltage as low as 450 mV , overcoming charge leakage limitations. Implemented in a 90 nm CMOS process, this design achieves a figure of merit of 0.14 pJ/Conv.Step for the converter core and shows the integration of a complete data-conversion sub- system, including reference generation, from a 0.5 V supply.