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A Low-Power and Low-Voltage BBPLL-Based Sensor Interface in 130nm CMOS for Wireless Sensor Networks

Book Contribution - Book Chapter Conference Contribution

A low-power and low-voltage BBPLL-based sensor interface for resistive sensors in Wireless Sensor Networks is presented. The interface is optimized towards low power, fast start-up time and fast conversion time, making it primarily useful in autonomous wireless sensor networks. The interface is time/frequency-based, making it less sensitive to lower supply voltages and other analog non-idealities, whereas conventional amplitude-based interfaces do suffer largely from these non-idealities, especially in smaller CMOS technologies. The sensor-to-digital conversion is based on the locking behavior of a digital PLL, which also includes transient behavior after startup. Several techniques such as VDD scaling, coarse and fine tuning and pulse-width modulated feedback are implemented to decrease the transient and acquisition time and the power to optimize the total energy consumption. In this way the sensor interface consumes only 61μW from a 0.8V DC power supply with a one-sample conversion time of less than 20μs worst-case. The sensor interface is designed and implemented in UMC130 CMOS technology and outputs 8 bit parallel with 7.72 ENOB. Due to its fast start-up time, fast conversion time and low power consumption, it only consumes 5.79 pJ/bit-conversion, which is a state-of-the-art energy efficiency compared to recent resistive sensor interfaces. © 2013 EDAA.
Book: DESIGN, AUTOMATION & TEST IN EUROPE
Pages: 1431 - 1435
ISBN:9783981537000
Publication year:2013
BOF-keylabel:yes
IOF-keylabel:yes
Authors from:Higher Education