Abstract This paper describes the design and post-layout simulations of a 2/3/4- modulus frequency divider circuit, accompanied with an accumulator that controls the division count. The circuit is capable of operating as an integer or as a fractional divider. Key topic of this paper is the merging of div-2/3 and div-3/4 circuits into a single compact circuit that solves an issue of a forbidden state in fractional-division operation. The circuit is designed with 28-nm CMOS technology and the post-layout simulations indicate an operating input frequency range of 0.3–5.4 GHz with 13-bit fractional frequency resolution between division ratios of 2–4. The divider occupies only 40 µm x 30 µm while consuming 2.0 mW at 5.4 GHz input frequency
The design and performance of a 28 - 51 GHz dynamic frequency divider based on pseudomorphic Alsub0....
Phase-locked loop is the most widely used module in the latest generation communication systems. It ...
The proposed algorithm aims to realize the division of arbitrary fractional frequency. The general f...
Funding Information: This research has been financially supported by Academy of Finland (grant 24302...
A programmable frequency divider for the use in a fractional-N frequency synthesizer is presented. T...
A spurs reduction fractional-N frequency divider with a frequency range which is 3.5 times larger th...
Abstract A programmable dual modulus divider was proposed. The circuit mainly includes three buildin...
Abstruct- The architecture of a high-speed low-power-consumption CMOS dual-modulus frequency divider...
The architecture of a high-speed low-power-consumption CMOS dual-modulus frequency divider is presen...
International audienceThis paper presents a novel architecture of a low spurious level fractional-N ...
A programmable frequency divider operating at input frequencies from DC to 80 GHz for the use in fra...
Abstract—In this paper we present the design of a pro-grammable frequency divider in 28 nm FD-SOI CM...
In Radio Frequency (RF) integrated circuit design field, programmable dividers are getting more and ...
A 64-modulus prescaler operating at 5.8 GHz has been designed in a 0.18 μm CMOS process. The prescal...
Frequency synthesizers at mm-waves would benefit from wide-band low-power dividers with large divisi...
The design and performance of a 28 - 51 GHz dynamic frequency divider based on pseudomorphic Alsub0....
Phase-locked loop is the most widely used module in the latest generation communication systems. It ...
The proposed algorithm aims to realize the division of arbitrary fractional frequency. The general f...
Funding Information: This research has been financially supported by Academy of Finland (grant 24302...
A programmable frequency divider for the use in a fractional-N frequency synthesizer is presented. T...
A spurs reduction fractional-N frequency divider with a frequency range which is 3.5 times larger th...
Abstract A programmable dual modulus divider was proposed. The circuit mainly includes three buildin...
Abstruct- The architecture of a high-speed low-power-consumption CMOS dual-modulus frequency divider...
The architecture of a high-speed low-power-consumption CMOS dual-modulus frequency divider is presen...
International audienceThis paper presents a novel architecture of a low spurious level fractional-N ...
A programmable frequency divider operating at input frequencies from DC to 80 GHz for the use in fra...
Abstract—In this paper we present the design of a pro-grammable frequency divider in 28 nm FD-SOI CM...
In Radio Frequency (RF) integrated circuit design field, programmable dividers are getting more and ...
A 64-modulus prescaler operating at 5.8 GHz has been designed in a 0.18 μm CMOS process. The prescal...
Frequency synthesizers at mm-waves would benefit from wide-band low-power dividers with large divisi...
The design and performance of a 28 - 51 GHz dynamic frequency divider based on pseudomorphic Alsub0....
Phase-locked loop is the most widely used module in the latest generation communication systems. It ...
The proposed algorithm aims to realize the division of arbitrary fractional frequency. The general f...