An ultra-low-power RF transceiver with a 1.5-pJ/bit maximally-digital impulse-transmitter and an 89.5-μW super-regenerative RSSI
A-SSCC(2014)
摘要
This paper proposes an RF transceiver with a maximally-digital impulse transmitter (I-TX) and a superregenerative received-signal-strength-indicator (RSSI) circuit for wireless sensor network (WSN) application. Our I-TX enables strict bit-level duty cycling operation to achieve both ultra-low power consumption and superior energy-per-bit in kb/s to Mb/s range. The proposed RSSI for low-power localization and low-rate downlink measures input power by exploiting the phenomenon that the oscillation start-up time logarithmically accelerates as input power increases. The I-TX fabricated in a 65nm CMOS achieves energy-per-bit of 1.5 pJ/bit at 10 Mb/s which is better than previous works. The proposed RSSI with -85 dBm sensitivity consumes 89.5 μW with modest dynamic range and linearity.
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关键词
cmos integrated circuits,rssi,low-power electronics,power consumption,radio transceivers,sensor placement,wireless sensor networks,cmos,i-tx,wsn application,bit rate 10 mbit/s,bit-level duty cycling operation,low-power localization,low-rate downlink,maximally-digital impulse-transmitter,power 89.5 muw,sensitivity consumption,start-up time oscillation,super-regenerative rssi,super-regenerative received-signal-strength-indicator circuit,superior energy-per-bit,ultra low power consumption,ultra low-power rf transceiver,wireless sensor network application,transceivers,sensitivity,radio frequency,power generation
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