Challenges and directions of ultra low energy wireless sensor nodes for biosignal monitoring

Abstract: This paper discusses design challenges and strategies for aggressively increasing energy efficiency of biosignal monitoring sensors. For the holistic understanding of energy efficiency, we introduce Energy Efficiency metric for all sensor communication blocks which include not only Rx/Tx RF&Analog, PLL and DSP/Modem but also Antenna and Power Management. Based on the metric, an ultra-low energy sensor node design at 2.36~2.5GHz is addressed from RFIC, DSP/Modem to Antenna. To tackle the stringent power require… Show more

“…The block diagram of the charge pump PLL Low-power technology is very important for wireless communication system for battery supply. The frequency synthesizer based on PLL in radio frequency (RF) transceiver consumes excessive power [2], hence, its low-power design is essential. Programmable divider and voltage controlled oscillator (VCO) occupied vast majority power of PLL for their high operating frequency [3,4].…”

An Ultra Low-power Low-Voltage Programmable Frequency Divider for PLL Frequency Synthesizer

“…The block diagram of the charge pump PLL Low-power technology is very important for wireless communication system for battery supply. The frequency synthesizer based on PLL in radio frequency (RF) transceiver consumes excessive power [2], hence, its low-power design is essential. Programmable divider and voltage controlled oscillator (VCO) occupied vast majority power of PLL for their high operating frequency [3,4].…”

An Ultra Low-power Low-Voltage Programmable Frequency Divider for PLL Frequency Synthesizer

P-ARQ: Controllable PLL ARQ method for wireless low power communication

A 2.4-GHz Ternary Sequence Spread Spectrum OOK Transceiver for Reliable and Ultra-Low Power Sensor Network Applications