Co-design of ultra-low power RF/Microwave receivers and converters for RFID and energy harvesting applications

A. Costanzo, Matteo Fabiani, A. Romani, D. Masotti, V. Rizzoli
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引用次数: 37

Abstract

The paper addresses a new approach to the integrated design of RF/Microwave receivers for power harvesting and conversion systems for ultra-low power densities. Such systems can be very useful in typical humanized environments in the presence of existing wireless systems with power densities as low as a few µW/cm2. Despite of the scarce RF power available, energy usable to extend battery life or to self-power low-duty cycle electronics may be scavenged by highly efficient receivers and power converter circuits designed in a unique design process. A multi-band antenna is used as the RF power receiver. Its rigorous frequency-dependent equivalent circuit in the presence of an incident field is used in the joint design of a rectifier stage and of a boost converter that can dynamically track the maximum power point. This is obtained by a new simulation platform combining SPICE-like time-domain models of dispersive multiport components with the transient analysis of the storage and control sub-systems.
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协同设计超低功耗射频/微波接收器和转换器,用于RFID和能量收集应用
本文提出了一种超低功率密度下射频/微波接收机集成化设计的新方法。这种系统在典型的人性化环境中非常有用,因为现有的无线系统的功率密度低至几μ W/cm2。尽管可用的射频功率很少,但可用于延长电池寿命或自供电低占空比电子设备的能量可以通过以独特设计过程设计的高效接收器和功率转换电路来清除。采用多波段天线作为射频功率接收器。在入射场存在时,其严格的频率相关等效电路用于整流级和升压变换器的联合设计,可以动态跟踪最大功率点。这是通过一个新的仿真平台得到的,该仿真平台结合了色散多端口组件的spice时域模型和存储和控制子系统的瞬态分析。
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