M. Ghahramani scite author profile

M. Ghahramani

4Publications

21Citation Statements Received

17Citation Statements Given

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Affiliations

Qualcomm (United States), University of Michigan–Ann Arbor, Shiraz University

Publications

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Optimizing the design of an injection-locked frequency divider by means of nonlinear analysis

Ghahramani

Daneshgar

Kennedy

et al. 2007

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Injection-locked frequency dividers (ILFDs) are versatile analog circuit blocks used, for example, within phase-locked loops (PLLs). With respect to their digital counterparts, they have the advantages of a low power consumption and division ratios greater than two. The price for these advantages is believed to be a limited locking range. Here we show that this is not the case; indeed, by combining nonlinear systems theory (bifurcation analysis) with optimization techniques, we have significantly increased the locking range of a classical (LC oscillator-based) injection-locked frequency divider, predicting a locking range that is about twenty times greater than what has been reported in the literature to date. The wider locking range predicted by the theory has been confirmed by SPICE simulations.

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Low power wireless sensor networks for infrastructure monitoring

Ghaed

Ghahramani

Chen

et al. 2012

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A low voltage sub 300μW 2.5GHz current reuse VCO

Taghivand

Ghahramani

Flynn

2012

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A Double Stage IPCP Detector for UWB Radars

Ghahramani

Mohseni

Sheikhi

2007

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M. Ghahramani

Optimizing the design of an injection-locked frequency divider by means of nonlinear analysis

Low power wireless sensor networks for infrastructure monitoring

A low voltage sub 300μW 2.5GHz current reuse VCO

A Double Stage IPCP Detector for UWB Radars

Contact Info

Product

Resources

About

M. Ghahramani

Optimizing the design of an injection-locked frequency divider by means of nonlinear analysis

Low power wireless sensor networks for infrastructure monitoring

A low voltage sub 300&#x003BC;W 2.5GHz current reuse VCO

A Double Stage IPCP Detector for UWB Radars

Contact Info

Product

Resources

About

A low voltage sub 300μW 2.5GHz current reuse VCO