A Single-Crystal-Oscillator-Based Clock-Management IC with 18× Start-Up Time Reduction and 0.68ppm/ºC Duty-Cycled Machine-Learning-Based RCO Calibration-Reference-Cited by-同舟云学术

A Single-Crystal-Oscillator-Based Clock-Management IC with 18× Start-Up Time Reduction and 0.68ppm/ºC Duty-Cycled Machine-Learning-Based RCO Calibration

Published:2022-02-20 Issue: Volume: Page:
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Container-title:2022 IEEE International Solid- State Circuits Conference (ISSCC)
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Author:

Jung Jaehong¹,Oh Seunghyun¹,Kim Joomyoung¹,Ha Gihyeok¹,Lee Jinhyeon¹,Kim Seungjin¹,Park Euiyoung¹,Lee Jaehoon¹,Yoon Yelim¹,Bae Seungyong¹,Kim Wonkang¹,Lim Yong¹,Lee Kyungsoo¹,Huh Junho¹,Lee Jongwoo¹,Cho Thomas Byunghak¹

Affiliation:

1. Samsung Electronics,Hwaseong,Korea

Publisher

IEEE

Link

http://xplorestaging.ieee.org/ielx7/9731529/9731102/09731781.pdf?arnumber=9731781

Reference6 articles.

1. 3.4 A 16MHz CMOS RC Frequency Reference with ±400ppm Inaccuracy from −45°C to 85°C After Digital Linear Temperature Compensation

2. A CMOS Dual-RC frequency reference with ±250ppm inaccuracy from −45°C to 85°C

3. A 54MHz Crystal Oscillator with 30x Start-Up Time Reduction Using 2-Step Injection in 65nm CMOS;megawer;ISSCC,2019

4. Fast & Energy Efficient Start-Up of Crystal Oscillators by Self-Timed Energy Injection

5. A 110nW Resistive Frequency Locked On-Chip Oscillator with 34.3 ppm/ºC Temperature Stability for System-On-Chip Designs;choi;IEEE JSSC,2016

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