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A 1.4V 10.5MHz swing-boosted differential relaxation oscillator with 162.1dBc/Hz FOM and 9.86psrms period jitter in 0.18Mum CMOS

Title
A 1.4V 10.5MHz swing-boosted differential relaxation oscillator with 162.1dBc/Hz FOM and 9.86psrms period jitter in 0.18Mum CMOS
Authors
Lee, Jung HyupGeorge, Arup KocheethraJe, Min Kyu
DGIST Authors
Lee, Jung Hyup; Je, Min Kyu
Issue Date
2016-02-01
Citation
63rd IEEE International Solid-State Circuits Conference, ISSCC 2016, 106-108
Type
Conference
ISBN
978-146739466-6
ISSN
0193-6530
Abstract
Relaxation oscillators have a profound scope as on-chip reference clock sources or sensor front-ends in comparison to ring oscillators due to their superior frequency stability, control linearity, and wide tuning range. However, despite a better fundamental limit predicted in theory, the phase noise performance of relaxation oscillators trails behind that of ring oscillators. Furthermore, there is a huge gap between the maximum achievable 1/f2 phase noise FOM (169dBc/Hz) [1] and those achieved by recently proposed low-power relaxation oscillator implementations [1-4]. © 2016 IEEE.
URI
http://hdl.handle.net/20.500.11750/3636
DOI
10.1109/ISSCC.2016.7417929
Publisher
Institute of Electrical and Electronics Engineers Inc.
Related Researcher
  • Author Lee, Jung Hyup Integrated Nano-Systems Lab
  • Research Interests Analog and Mixed Signal IC Design; Smart Sensor Systems; Bio-medical ICs and Body Channel Communication Systems
Files:
There are no files associated with this item.
Collection:
Department of Information and Communication EngineeringIntegrated Nano-Systems Lab2. Conference Papers
Department of Information and Communication EngineeringIMPACT Lab2. Conference Papers


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