An Ultra-Low Power Multivibrator-Based Wake-up Receiver for Wireless Sensor Networks
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In recent years wireless sensor networks (WSNs) have gained significant attention because of their implementation in many different fields. As the nodes in WSNs are typically battery-powered, their lifetime is mainly limited by the sensor nodes power consumption. A typical energy-saving solution consists in implementing wake-up receivers (WuRxs), which are responsible for the sensor node activation only when required. In this work an ultra-low power multivibrator-based WuRx concept is proposed. The WuRx is composed of several input-triggered multivibrators, which generate pulses of fixed duration. These pulses are compared to the input signal through logic gates, which are predefined according to the wake-up call. The sensor node is activated if the codes match. An implementation in TSMC- 180nm CMOS process is proposed and simulated. The WuRx consumes 0.8μW when detecting a 6ms wake-up call signal, and 58. 4pW when in idle mode.