Add to ORKGInternational audienceA frequency synthesis technique based on the division of a coupled optoelectronic oscillator (COEO) reference is presented. This technique overcomes one of the main issues of the most common frequency synthesis technique, namely the phase locked loop (PLL) : the inherent phase noise degradation of frequency multiplication. In order to keep the benefits of the frequency division technique, residual phase noise of the dividers has to be reduced as much as possible. This article discusses the results of two digital dividers, a divider by 2 and a divider by 3, both with a 30 GHz COEO reference
This paper presents a physical derivation of phase noise in source-coupled-logic frequency dividers....
We report the generation of ultra-low phase noise microwave signals using electro-optical frequency ...
International audienceWe present an experimental study on two key elements to design a low phase noi...
International audienceA frequency synthesis technique based on the division of a coupled optoelectro...
International audienceA frequency synthesis technique based on the division of a coupled optoelectro...
International audienceFor heterodyne phase locking, frequency division of the beat note between two ...
International audienceFor heterodyne phase locking, frequency division of the beat note between two ...
International audienceFor heterodyne phase locking, frequency division of the beat note between two ...
International audienceFor heterodyne phase locking, frequency division of the beat note between two ...
A 30 G Hz ultra-low-phase-noise oscillator is demonstrated u ing electro-optical frequency division....
A 30 G Hz ultra-low-phase-noise oscillator is demonstrated u ing electro-optical frequency division....
Circuit and system techniques for reducing phase noise in frequency synthesizers, and cancelling pha...
This paper presents a physical derivation of phase noise in source-coupled-logic frequency dividers....
This paper presents a physical derivation of phase noise in source-coupled-logic frequency dividers....
This paper presents a physical derivation of phase noise in source-coupled-logic frequency dividers....
This paper presents a physical derivation of phase noise in source-coupled-logic frequency dividers....
We report the generation of ultra-low phase noise microwave signals using electro-optical frequency ...
International audienceWe present an experimental study on two key elements to design a low phase noi...
International audienceA frequency synthesis technique based on the division of a coupled optoelectro...
International audienceA frequency synthesis technique based on the division of a coupled optoelectro...
International audienceFor heterodyne phase locking, frequency division of the beat note between two ...
International audienceFor heterodyne phase locking, frequency division of the beat note between two ...
International audienceFor heterodyne phase locking, frequency division of the beat note between two ...
International audienceFor heterodyne phase locking, frequency division of the beat note between two ...
A 30 G Hz ultra-low-phase-noise oscillator is demonstrated u ing electro-optical frequency division....
A 30 G Hz ultra-low-phase-noise oscillator is demonstrated u ing electro-optical frequency division....
Circuit and system techniques for reducing phase noise in frequency synthesizers, and cancelling pha...
This paper presents a physical derivation of phase noise in source-coupled-logic frequency dividers....
This paper presents a physical derivation of phase noise in source-coupled-logic frequency dividers....
This paper presents a physical derivation of phase noise in source-coupled-logic frequency dividers....
This paper presents a physical derivation of phase noise in source-coupled-logic frequency dividers....
We report the generation of ultra-low phase noise microwave signals using electro-optical frequency ...
International audienceWe present an experimental study on two key elements to design a low phase noi...