2009
DOI: 10.1007/s10470-009-9316-8
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Impulse sensitivity function-based phase noise study for low-power source-coupled CMOS multivibrators

Abstract: In this paper, two micropower frequency references implemented with a 0.13-and a 0.25-lm CMOS process for low-power sensor applications are presented. Both circuits are based on a power-optimized source-coupled CMOS multivibrator. The 2.0-MHz frequency reference uses a nominal 1.8-2.5-V supply voltage. The 24.6/ 307.2-kHz frequency reference is an evolution of the 2.0-MHz reference and operates with a lower supply of 1.0 V and provides two active operating modes. With 1-pF load capacitances, the 2.0-MHz and 24… Show more

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Cited by 6 publications
(4 citation statements)
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“…A detailed procedure for computation of the ISF and PN prediction in a linear time-varying system in the case of a source-coupled CMOS multivibrator with operating frequency up to 2 MHz was presented in [ 25 ]. All the results were achieved only for a single amplitude value of the injected pulse.…”
Section: Impulse Sensitivity Functionmentioning
confidence: 99%
“…A detailed procedure for computation of the ISF and PN prediction in a linear time-varying system in the case of a source-coupled CMOS multivibrator with operating frequency up to 2 MHz was presented in [ 25 ]. All the results were achieved only for a single amplitude value of the injected pulse.…”
Section: Impulse Sensitivity Functionmentioning
confidence: 99%
“…The ISF of the oscillators has been evaluated as described in [14]. First we run a transient simulation in order to observe when the amplitude reaches the steady state regime.…”
Section: Simulation Steps and Settingsmentioning
confidence: 99%
“…A detailed procedure for ISF computation and phase noise prediction in a linear time-varying system, in particular a source-coupled CMOS multi-vibrator frequency reference up to 2 ΜHz is presented in [14]. All the results however, are derived only for a single amplitude value of an injected pulse.…”
Section: Introductionmentioning
confidence: 99%
“…Compared to traditional designs, this approach provides At the center of the DCO is the core oscillator, which is a relaxation oscillator that generates two clock frequencies: 1 MHz and 1.1 MHz. It provides high-frequency output waveforms with low power consumption [34]. In Figure 8, a digital block in the black dashed circle inset configures the reference current for the two different DCO frequencies according to the modulation modes used.…”
Section: Power Amplifier and Antennamentioning
confidence: 99%