Abstract
The development of wake-up receivers (WuR) has recently received a lot of interest from both academia and industry researchers, primarily because of their major impact on the improvement of the performance of wireless sensor networks (WSNs). In this paper, we present the development of three different radiofrequency envelope detection (RFED) based WuRs operating at the 868 MHz industrial, scientific and medical (ISM) band. These circuits can find application in densely populated WSNs, which are fundamental components of Internet-of-Things (IoT) or Internet-of-Everything (IoE) applications. The aim of this work is to provide circuits with high integrability and a low cost-per-node, so as to facilitate the implementation of sensor nodes in low-cost IoT applications. In order to demonstrate the feasibility of implementing a WuR with commercially available off-chip components, the design of an RFED WuR in a PCB mount is presented. The circuit is validated in a real scenario by testing the WuR in a system with a pattern recognizer (AS3933), an MCU (MSP430G2553 from TI), a transceiver (CC1101 from TI) and a T/R switch (ADG918). The WuR has no active components and features a sensitivity of about −50 dBm, with a total size of 22.5 × 51.8 mm2. To facilitate the integration of the WuR in compact systems and low-cost applications, two designs in a commercial UMC 65 nm CMOS process are also explored. Firstly, an RFED WuR with integrated transformer providing a passive voltage gain of 18 dB is demonstrated. The circuit achieves a sensitivity as low as −62 dBm and a power consumption of only 528 nW, with a total area of 634 × 391 μm2. Secondly, so as to reduce the area of the circuit, a design of a tuned-RF WuR with integrated current-reuse active inductor is presented. In this case, the WuR features a sensitivity of −55 dBm with a power consumption of 43.5 μW and a total area of 272 × 464 μm2, obtaining a significant area reduction at the expense of higher power consumption. The alternatives presented show a very low die footprint with a performance in line with most of the state-of-the-art contributions, making the topologies attractive in scenarios where high integrability and low cost-per-node are necessary.
Highlights
The development of circuits and systems for wireless communications and their applications have been under extensive research during the last decades
This paper has three major contributions, since we present the development of different wake-up receiver (WuR) based on the envelope detection architecture with various modifications to improve the footprint of the circuit
OOKand signal andthrough the outputs obtained afterand the the antenna, the input envelope matchingdetection network, generated signal and the outputs obtained after the antenna, the input matching network, the the RFEDfinally and the
Summary
The development of circuits and systems for wireless communications and their applications have been under extensive research during the last decades. Sensors 2020, 20, x FOR PEER REVIEW a long lifespan of the network. This requirement many application the lifespan of the network This requirement is crucialisincrucial many in application scenariosscenarios since the since batteries batteries of the sensor nodes are replaceable at a very significant cost of the harsh of the sensor nodes are replaceable at a very significant cost because of thebecause harsh environmental environmental conditions. The conventional radio interface or transceiver is frequently the most conditions. The conventional radio interface or transceiver is frequently the most power-consuming power-consuming element in a WSN node, dominating both the static and dynamic power element in a WSN node, dominating both the static and dynamic power consumption of the sensor [2]
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