A highly stable CMOS Self-Compensated Oscillator (SCO) based on an LC tank temperature Null concept

Ahmed, A. Y.; Hanafi, Bassel; Hosny, S.; Sinoussi, N.; Hamed, A.; Samir, M.; Essam, M.; Elkholy, Ahmed; Weheiba, M.; Helmy, A.

doi:10.1109/fcs.2011.5977850

Cited by 9 publications

(19 citation statements)

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“…3. 3 The response of an oscillator to an injected noise current can be modeled using two single-input, single-output systems, one for the excess phase and one for the instantaneous amplitude . .…”

Section: Motor Torque T Oscmentioning

confidence: 99%

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Temperature- and Supply Voltage-Independent Time References for Wireless Sensor Networks

Smedt

Gielen

Dehaene

2015

Analog Circuits and Signal Processing

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Section: Motor Torque T Oscmentioning

confidence: 99%

“…Using the timing information, the location of the different tags and/or HUBs can be resolved. 3 Furthermore the data can be saved, analyzed or connected to the so-called internet of things (IoT).…”

Section: Network System Overviewmentioning

confidence: 99%

Temperature- and Supply Voltage-Independent Time References for Wireless Sensor Networks

Smedt

Gielen

Dehaene

2015

Analog Circuits and Signal Processing

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“…On the other hand, the SCO utilizes the TNULL phenomenon by forcing the LC tank to operate around ϕ NULL yielding Δf TC of only tens of ppms [11].…”

Section: Lc-based Self-compensated Oscillatorsmentioning

confidence: 99%

“…Pure CMOS LC-based SCO has been introduced in [11]. The SCO has demonstrated ±50ppm frequency stability across the temperature range (-20-70°C) [3] and ±100ppm across (-40-85°C) [10].…”

Section: Introductionmentioning

confidence: 99%

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A CMOS LC-based frequency reference with ±40ppm stability from −40°C to 105°C

Gaied¹,

Khairy²,

Atef³

et al. 2015

2015 Joint Conference of the IEEE International Frequency Control Symposium &Amp; The European Frequency and Time Forum

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This work presents a highly stable monolithic integrated CMOS LC-based frequency reference. The frequency reference is based on a Self-Compensated Oscillator (SCO) architecture where the LC tank operates at a specific phase Phi-NULL where frequency sensitivity versus temperature is minimum. A new compensation technique is applied over Phi-Null to further optimize frequency stability and extend the temperature range. The new technique is based on an analog approach and induces a minimum impact on oscillator phase noise, current consumption and die area. Utilizing this technique, the temperature range has been extended to (-40-105 o C) with a ±40ppm frequency stability. Achieved performance makes it possible for the SCO to be introduced to automotive applications where crystals suffer vibration induced stability issues.

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