Design Considerations for a Sub-mW Receiver Front-End for Internet-of-Things

Ehsan Kargaran;Danilo Manstretta;Rinaldo Castello
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引用次数: 1

Abstract

Internet-of-Things (IoT) and Wireless sensor networks (WSNs) require very low power transceivers. This paper presents techniques for minimizing power consumption of receiver (RX) frontends for short range wireless links. Two key approaches, i.e., current reuse and supply voltage reduction are compared. Different RX architectures such as direct-conversion, low-IF, sliding IF as well as phase-tracking RX, are compared, emphasizing their potential and limitations when targeting sub-mW RX power dissipation. Low-power design techniques for LNA, frequency generation blocks and baseband amplifiers are presented. As a case study, an efficient low-IF RX front-end for IoT is described in detail. In 28 nm CMOS, such a receiver occupies an active area of 0.1 mm 2 and consumes only $350~{\mu }\text{W}$ from a 0.9 V supply while showing a minimum in band NF of 6.2 dB. The achieved performance is very competitive with state-of-the-art ultra-low-power receivers, while consuming the lowest power.
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物联网Sub-mW接收机前端的设计考虑
物联网(IoT)和无线传感器网络(WSN)需要非常低功率的收发器。本文提出了一种最小化短距离无线链路接收机(RX)前端功耗的技术。比较了两种关键方法,即电流重用和电源电压降低。比较了不同的RX架构,如直接转换、低IF、滑动IF以及相位跟踪RX,强调了它们在针对亚mW RX功耗时的潜力和局限性。介绍了LNA、频率产生块和基带放大器的低功耗设计技术。作为案例研究,详细描述了一种用于物联网的高效低中频RX前端。在28nm CMOS中,这种接收器占据0.1mm2的有源面积,并且仅消耗0.9V电源的$350~{mu}\text{W}$,同时显示6.2dB的最小带内NF。所实现的性能与最先进的超低功率接收器相比极具竞争力,同时消耗最低的功率。
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