A 2:1 static frequency divider using a band-pass load was fabricated in a digital 90nm SOI CMOS technology. The divider exhibits a maximum operating frequency of 81GHz at 1.2V, and a core power of 15.6mW. The divider can operate down to 0.5V at a maximum operating frequency of 75.6GHz with a core power of 2.75mW
Abstract- A low power and high speed 8/9 CMOS programmable dynamic frequency divider has been design...
To operate a frequency divider with small input clock power, the self-oscillating frequency of the d...
One of the key components common in integrated receiver designs is a RF local oscillator. This parti...
Abstract Two mmWave frequency dividers were designed, manufactured and measured using static curren...
Abstract A divide-by-2 frequency divider circuit was designed using 22-nm CMOS FD-SOI technology. T...
This paper presents a broadband, static, 2:1 frequency divider in a bulk 90 nm CMOS LP (low-power) t...
Abstract—A 32:1 static frequency divider consisting of five stages of 2:1 dividers using current mod...
In this paper, a low supply static 2:1 frequency divider based on 0.13μm CMOS is presented. It is de...
Abstract—In this paper we present the design of a pro-grammable frequency divider in 28 nm FD-SOI CM...
A divide-by-four circuit divides frequencies from 31GHz to 41GHz at input signal amplitudes ≤0.5Vpp....
An integrated 12-GHz static frequency divider with a selectable division ratio (16/1, 64/1) realised...
A static frequency divider with a maximum operating frequency of up to 66 GHz was developed for appl...
Differential amplifiers working as dynamic CML latches are proposed to realize compact, low power mi...
A spurs reduction fractional-N frequency divider with a frequency range which is 3.5 times larger th...
A low-voltage programmable frequency divider with wide input frequency range is fabricated in standa...
Abstract- A low power and high speed 8/9 CMOS programmable dynamic frequency divider has been design...
To operate a frequency divider with small input clock power, the self-oscillating frequency of the d...
One of the key components common in integrated receiver designs is a RF local oscillator. This parti...
Abstract Two mmWave frequency dividers were designed, manufactured and measured using static curren...
Abstract A divide-by-2 frequency divider circuit was designed using 22-nm CMOS FD-SOI technology. T...
This paper presents a broadband, static, 2:1 frequency divider in a bulk 90 nm CMOS LP (low-power) t...
Abstract—A 32:1 static frequency divider consisting of five stages of 2:1 dividers using current mod...
In this paper, a low supply static 2:1 frequency divider based on 0.13μm CMOS is presented. It is de...
Abstract—In this paper we present the design of a pro-grammable frequency divider in 28 nm FD-SOI CM...
A divide-by-four circuit divides frequencies from 31GHz to 41GHz at input signal amplitudes ≤0.5Vpp....
An integrated 12-GHz static frequency divider with a selectable division ratio (16/1, 64/1) realised...
A static frequency divider with a maximum operating frequency of up to 66 GHz was developed for appl...
Differential amplifiers working as dynamic CML latches are proposed to realize compact, low power mi...
A spurs reduction fractional-N frequency divider with a frequency range which is 3.5 times larger th...
A low-voltage programmable frequency divider with wide input frequency range is fabricated in standa...
Abstract- A low power and high speed 8/9 CMOS programmable dynamic frequency divider has been design...
To operate a frequency divider with small input clock power, the self-oscillating frequency of the d...
One of the key components common in integrated receiver designs is a RF local oscillator. This parti...