A 95µW 24MHz digitally controlled crystal oscillator for IoT applications with 36nJ start-up energy and >13× start-up time reduction using a fully-autonomous dynamically-adjusted load

A Crystal-Less Clock Generation Technique for Battery-Free Wireless Systems

Chang, Ziyi (author)
Zhang, Yunshan (author)
Yang, Changgui (author)
Luo, Yuxuan (author)
Du, S. (author)
Chen, Yong (author)
Zhao, Bo (author)

January 2022

The size of wireless systems is required to be reduced in many applications, such as ultra-low-power...

Smart Energy-Efficient Clock Synthesizer for Duty-Cycled Sensor SoCs in 65 nm/28nm CMOS

February 2018

none2noDuty-cycled low-rate Internet-of-things (IoT) sensors are employed in diverse applications, r...

Ultra-Low-Power Clock Generation for IoT Radios

Ding, Ming
Harpe, Pieter
Zhou, Zhihao
Liu, Yao Hong
Bachmann, Christian
Philips, Kathleen
Sebastiano, Fabio
Van Roermund, Arthur

January 2019

Duty-cycling is required to reduce the overall power consumption in IoT systems to extend the batter...

A 95µW 24MHz digitally controlled crystal oscillator for IoT applications with 36nJ start-up energy and >13× start-up time reduction using a fully-autonomous dynamically-adjusted load

Ding, Ming
Liu, Yao Hong
Zhang, Yan
Lu, Chuang
Zhang, Peng
Busze, Benjamin
Bachmann, Christian
Philips, Kathleen

March 2017

Wireless sensor nodes (WSN) in IoT applications (e.g., Bluetooth Low Energy, BLE) rely on heavily du...

A 95µW 24MHz digitally controlled crystal oscillator for IoT applications with 36nJ start-up energy and >13× start-up time reduction using a fully-autonomous dynamically-adjusted load

Ding, Ming
Liu, Yao Hong
Zhang, Yan
Lu, Chuang
Zhang, Peng
Busze, Benjamin
Bachmann, Christian
Philips, Kathleen
Fujino, Laura C.

March 2017

Wireless sensor nodes (WSN) in IoT applications (e.g., Bluetooth Low Energy, BLE) rely on heavily du...

A low-power fast start-up crystal oscillator with an autonomous dynamically adjusted load

Ding, M Ming
Liu, Yao Hong
Harpe, PJA Pieter
Bachmann, C
Philips, KJP
Roermund, AHM Arthur van

January 2019

\u3cp\u3eAn energy-efficient fast start-up method for crystal oscillators is presented, which enable...

Low-Energy Clock Generation for Internet-of-Things Applications

Esmaeelzadeh, Hani

January 2019

Aggressively duty-cycling the operation of a system between ON and OFF states has proven to be the m...

21.5 A 5.58nW 32.768kHz DLL-Assisted XO for Real-Time Clocks in Wireless Sensing Applications

Dongmin Yoon
Dennis Sylvester
David Blaauw

October 2015

There is a growing interest in ultra-low-power wireless microsystems [1]. Synchronization between di...

A 5.02nW 32-kHz Self-Reference Power Gating XO with Fast Startup Time Assisted by Negative Resistance and Initial Noise Boosters

Park, Jee-Ho
Shin, Yongtae
Choi, Jaehyuk
Kim, Seong-Jin

November 2021

We present a 32.768 kHz crystal oscillator with ultra-low power operation and a fast startup featuri...

High-performance reference frequency generation techniques

Megawer, Karim M.

August 2022

Low-noise high-frequency fast-startup reference frequency generators are needed in high-performance ...

Timing System Analysis And Design For Crystal-Less Low Power Impulse-Radios

Wang, Xiao

August 2012

Low power radios enable ubiquitous sensor networks that can be used for a variety of applications, s...

Timer for Ultra-Low-Power Wireless Sensor Node Synchronization

Yoonmyung Lee
Bharan Giridhar
Zhiyoong Foo
Dennis Sylvester
David Blaauw

October 2015

Recent work in ultra-low-power sensor platforms has enabled a number of new applications in medical,...

Energy Efficient Start-up of Crystal Oscillators using Stepwise Charging

Lechevallier, Joeri B.
Bindra, Harijot Singh
van der Zee, Ronan A.R.
Nauta, Bram

August 2021

Crystal oscillators can be started up quickly by using energy injection techniques. However, the gen...

A 400 fJ per-cycle frequency reference for internet of things

Coustans, M.
Krummenacher, F.
Terrier, C.
Kayal, M.

January 2016

This work presents an ultra-low power oscillator designed to target different contexts, such as crys...

Circuits and protocols for low duty cycle wireless systems

Paidimarri, Arun

January 2016

Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...

A Crystal-Less Clock Generation Technique for Battery-Free Wireless Systems

Chang, Ziyi (author)
Zhang, Yunshan (author)
Yang, Changgui (author)
Luo, Yuxuan (author)
Du, S. (author)
Chen, Yong (author)
Zhao, Bo (author)

January 2022

The size of wireless systems is required to be reduced in many applications, such as ultra-low-power...

Smart Energy-Efficient Clock Synthesizer for Duty-Cycled Sensor SoCs in 65 nm/28nm CMOS

February 2018

none2noDuty-cycled low-rate Internet-of-things (IoT) sensors are employed in diverse applications, r...

Ultra-Low-Power Clock Generation for IoT Radios

Ding, Ming
Harpe, Pieter
Zhou, Zhihao
Liu, Yao Hong
Bachmann, Christian
Philips, Kathleen
Sebastiano, Fabio
Van Roermund, Arthur

January 2019

Duty-cycling is required to reduce the overall power consumption in IoT systems to extend the batter...

A 95µW 24MHz digitally controlled crystal oscillator for IoT applications with 36nJ start-up energy and >13× start-up time reduction using a fully-autonomous dynamically-adjusted load

Ding, Ming
Liu, Yao Hong
Zhang, Yan
Lu, Chuang
Zhang, Peng
Busze, Benjamin
Bachmann, Christian
Philips, Kathleen

March 2017

Wireless sensor nodes (WSN) in IoT applications (e.g., Bluetooth Low Energy, BLE) rely on heavily du...

A 95µW 24MHz digitally controlled crystal oscillator for IoT applications with 36nJ start-up energy and >13× start-up time reduction using a fully-autonomous dynamically-adjusted load

Ding, Ming
Liu, Yao Hong
Zhang, Yan
Lu, Chuang
Zhang, Peng
Busze, Benjamin
Bachmann, Christian
Philips, Kathleen
Fujino, Laura C.

March 2017

Wireless sensor nodes (WSN) in IoT applications (e.g., Bluetooth Low Energy, BLE) rely on heavily du...

A low-power fast start-up crystal oscillator with an autonomous dynamically adjusted load

Ding, M Ming
Liu, Yao Hong
Harpe, PJA Pieter
Bachmann, C
Philips, KJP
Roermund, AHM Arthur van

January 2019

\u3cp\u3eAn energy-efficient fast start-up method for crystal oscillators is presented, which enable...

Low-Energy Clock Generation for Internet-of-Things Applications

Esmaeelzadeh, Hani

January 2019

Aggressively duty-cycling the operation of a system between ON and OFF states has proven to be the m...

21.5 A 5.58nW 32.768kHz DLL-Assisted XO for Real-Time Clocks in Wireless Sensing Applications

Dongmin Yoon
Dennis Sylvester
David Blaauw

October 2015

There is a growing interest in ultra-low-power wireless microsystems [1]. Synchronization between di...

A 5.02nW 32-kHz Self-Reference Power Gating XO with Fast Startup Time Assisted by Negative Resistance and Initial Noise Boosters

Park, Jee-Ho
Shin, Yongtae
Choi, Jaehyuk
Kim, Seong-Jin

November 2021

We present a 32.768 kHz crystal oscillator with ultra-low power operation and a fast startup featuri...

High-performance reference frequency generation techniques

Megawer, Karim M.

August 2022

Low-noise high-frequency fast-startup reference frequency generators are needed in high-performance ...

Timing System Analysis And Design For Crystal-Less Low Power Impulse-Radios

Wang, Xiao

August 2012

Low power radios enable ubiquitous sensor networks that can be used for a variety of applications, s...

Timer for Ultra-Low-Power Wireless Sensor Node Synchronization

Yoonmyung Lee
Bharan Giridhar
Zhiyoong Foo
Dennis Sylvester
David Blaauw

October 2015

Recent work in ultra-low-power sensor platforms has enabled a number of new applications in medical,...

Energy Efficient Start-up of Crystal Oscillators using Stepwise Charging

Lechevallier, Joeri B.
Bindra, Harijot Singh
van der Zee, Ronan A.R.
Nauta, Bram

August 2021

Crystal oscillators can be started up quickly by using energy injection techniques. However, the gen...

A 400 fJ per-cycle frequency reference for internet of things

Coustans, M.
Krummenacher, F.
Terrier, C.
Kayal, M.

January 2016

This work presents an ultra-low power oscillator designed to target different contexts, such as crys...

Circuits and protocols for low duty cycle wireless systems

Paidimarri, Arun

January 2016

Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...

A Crystal-Less Clock Generation Technique for Battery-Free Wireless Systems

Chang, Ziyi (author)
Zhang, Yunshan (author)
Yang, Changgui (author)
Luo, Yuxuan (author)
Du, S. (author)
Chen, Yong (author)
Zhao, Bo (author)

January 2022

The size of wireless systems is required to be reduced in many applications, such as ultra-low-power...

Smart Energy-Efficient Clock Synthesizer for Duty-Cycled Sensor SoCs in 65 nm/28nm CMOS

February 2018

none2noDuty-cycled low-rate Internet-of-things (IoT) sensors are employed in diverse applications, r...

Ultra-Low-Power Clock Generation for IoT Radios

Ding, Ming
Harpe, Pieter
Zhou, Zhihao
Liu, Yao Hong
Bachmann, Christian
Philips, Kathleen
Sebastiano, Fabio
Van Roermund, Arthur

January 2019

Duty-cycling is required to reduce the overall power consumption in IoT systems to extend the batter...

A 95µW 24MHz digitally controlled crystal oscillator for IoT applications with 36nJ start-up energy and >13× start-up time reduction using a fully-autonomous dynamically-adjusted load

Abstract

Extracted data

A 95µW 24MHz digitally controlled crystal oscillator for IoT applications with 36nJ start-up energy and >13× start-up time reduction using a fully-autonomous dynamically-adjusted load

Abstract

Extracted data

Related items

Related items

A 95µW 24MHz digitally controlled crystal oscillator for IoT applications with 36nJ start-up energy and &gt;13× start-up time reduction using a fully-autonomous dynamically-adjusted load

Abstract

Extracted data

A 95µW 24MHz digitally controlled crystal oscillator for IoT applications with 36nJ start-up energy and &gt;13× start-up time reduction using a fully-autonomous dynamically-adjusted load

Abstract

Extracted data

Related items

Related items

A 95µW 24MHz digitally controlled crystal oscillator for IoT applications with 36nJ start-up energy and >13× start-up time reduction using a fully-autonomous dynamically-adjusted load

A 95µW 24MHz digitally controlled crystal oscillator for IoT applications with 36nJ start-up energy and >13× start-up time reduction using a fully-autonomous dynamically-adjusted load