A novel technique for sinusoidal frequency division, by an integer number, using analog multipliers is presented. The circuit uses no inductors or capacitors and is, therefore, suitable for integration. The circuit can operate at low frequencies over a wide frequency range. Experimental results are give
Abstract This paper describes the design and post-layout simulations of a 2/3/4- modulus frequency ...
The proposed algorithm aims to realize the division of arbitrary fractional frequency. The general f...
High speed frequency dividers are critical parts of frequency synthesisers in wireless systems. Thes...
A novel technique for sinusoidal frequency division, by an integer number, using analog multipliers ...
A translinear circuit for sinusoidal frequency division, by an integer number, is presented. The cir...
A translinear circuit for sinusoidal frequency division, by an integer number, is presented. The cir...
A translinear circuit for sinusoidal frequency division, by an integer number, is presented. The cir...
A new technique for designing sinusoidal frequency multipliers is presented. The technique exploits ...
A new technique for designing sinusoidal frequency multipliers is presented. The technique exploits ...
A multiphase sinusoidal oscillator circuit is presented. The oscillator can produce N output-current...
A programmable frequency divider for the use in a fractional-N frequency synthesizer is presented. T...
New simple sinusoidal oscillator circuits are proposed. Each circuit uses an internally compensated ...
It is an object to obtain a frequency multiplier which simultaneously can generate more than one mul...
Recently, a new configuration has been proposed for the design of MMIC frequency dividers [1]. Follo...
In Radio Frequency (RF) integrated circuit design field, programmable dividers are getting more and ...
Abstract This paper describes the design and post-layout simulations of a 2/3/4- modulus frequency ...
The proposed algorithm aims to realize the division of arbitrary fractional frequency. The general f...
High speed frequency dividers are critical parts of frequency synthesisers in wireless systems. Thes...
A novel technique for sinusoidal frequency division, by an integer number, using analog multipliers ...
A translinear circuit for sinusoidal frequency division, by an integer number, is presented. The cir...
A translinear circuit for sinusoidal frequency division, by an integer number, is presented. The cir...
A translinear circuit for sinusoidal frequency division, by an integer number, is presented. The cir...
A new technique for designing sinusoidal frequency multipliers is presented. The technique exploits ...
A new technique for designing sinusoidal frequency multipliers is presented. The technique exploits ...
A multiphase sinusoidal oscillator circuit is presented. The oscillator can produce N output-current...
A programmable frequency divider for the use in a fractional-N frequency synthesizer is presented. T...
New simple sinusoidal oscillator circuits are proposed. Each circuit uses an internally compensated ...
It is an object to obtain a frequency multiplier which simultaneously can generate more than one mul...
Recently, a new configuration has been proposed for the design of MMIC frequency dividers [1]. Follo...
In Radio Frequency (RF) integrated circuit design field, programmable dividers are getting more and ...
Abstract This paper describes the design and post-layout simulations of a 2/3/4- modulus frequency ...
The proposed algorithm aims to realize the division of arbitrary fractional frequency. The general f...
High speed frequency dividers are critical parts of frequency synthesisers in wireless systems. Thes...