Wireless sensor nodes (WSN) in IoT applications (e.g., Bluetooth Low Energy, BLE) rely on heavily duty-cycling the wireless transceivers to reduce the overall system power consumption [1]. This requires swift start-up behavior of the transceiver. The crystal oscillator (XO) generates a stable reference clock for the PLL to synthesize a carrier and to derive clocks for all other parts of the transceiver SoC, e.g., ADC and the digital baseband. The typical start-up time (Ts) of an XO is relatively long (∼ms) due to a high quality factor of the crystal quartz. This leads to a significant (up to 30%) power overhead for a highly duty-cycled transceiver with a short packet format, e.g., the packet length is as short as 128μs in BLE (Fig. 5.3.1). ...
none2noDuty-cycled low-rate Internet-of-things (IoT) sensors are employed in diverse applications, r...
A design methodology for sub-0.5V crystal oscillators is shown to realize an all-sub-0.5V ultra low ...
The size of wireless systems is required to be reduced in many applications, such as ultra-low-power...
Wireless sensor nodes (WSN) in IoT applications (e.g., Bluetooth Low Energy, BLE) rely on heavily du...
\u3cp\u3eAn energy-efficient fast start-up method for crystal oscillators is presented, which enable...
Aggressively duty-cycling the operation of a system between ON and OFF states has proven to be the m...
There is a growing interest in ultra-low-power wireless microsystems [1]. Synchronization between di...
We present a 32.768 kHz crystal oscillator with ultra-low power operation and a fast startup featuri...
Low-noise high-frequency fast-startup reference frequency generators are needed in high-performance ...
Low power radios enable ubiquitous sensor networks that can be used for a variety of applications, s...
Recent work in ultra-low-power sensor platforms has enabled a number of new applications in medical,...
This work presents an ultra-low power oscillator designed to target different contexts, such as crys...
Crystal oscillators can be started up quickly by using energy injection techniques. However, the gen...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Duty-cycling is required to reduce the overall power consumption in IoT systems to extend the batter...
none2noDuty-cycled low-rate Internet-of-things (IoT) sensors are employed in diverse applications, r...
A design methodology for sub-0.5V crystal oscillators is shown to realize an all-sub-0.5V ultra low ...
The size of wireless systems is required to be reduced in many applications, such as ultra-low-power...
Wireless sensor nodes (WSN) in IoT applications (e.g., Bluetooth Low Energy, BLE) rely on heavily du...
\u3cp\u3eAn energy-efficient fast start-up method for crystal oscillators is presented, which enable...
Aggressively duty-cycling the operation of a system between ON and OFF states has proven to be the m...
There is a growing interest in ultra-low-power wireless microsystems [1]. Synchronization between di...
We present a 32.768 kHz crystal oscillator with ultra-low power operation and a fast startup featuri...
Low-noise high-frequency fast-startup reference frequency generators are needed in high-performance ...
Low power radios enable ubiquitous sensor networks that can be used for a variety of applications, s...
Recent work in ultra-low-power sensor platforms has enabled a number of new applications in medical,...
This work presents an ultra-low power oscillator designed to target different contexts, such as crys...
Crystal oscillators can be started up quickly by using energy injection techniques. However, the gen...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Duty-cycling is required to reduce the overall power consumption in IoT systems to extend the batter...
none2noDuty-cycled low-rate Internet-of-things (IoT) sensors are employed in diverse applications, r...
A design methodology for sub-0.5V crystal oscillators is shown to realize an all-sub-0.5V ultra low ...
The size of wireless systems is required to be reduced in many applications, such as ultra-low-power...