A mm-wave divide-by-two circuit with high injection efficiency, implemented in a 28-nm fully-depleted silicon-on-insulator (FD-SOI) CMOS process is demonstrated stand-alone, as well as using an on-chip voltage controlled oscillator (VCO) as the input signal source. Measurements show that the divider has a 30.1 % tuning range centered at an output frequency of 24 GHz, at an input signal power of -1.5 dBm, and a power consumption of 4.3 mW from a 0.9 V supply. The VCO and divider combination has a tuning range of 10.2 %, centered at an output frequency of 30.2 GHz, at a total power consumption of 6.3 mW, and an output phase noise of -111 dBc/Hz at 10 MHz offset. The active area of the divider is 0.032 mm 2 and of the divider and VCO combinati...
Abstract Two mmWave frequency dividers were designed, manufactured and measured using static curren...
Direct injection locking applied to a ring oscillator results in a divide-by-7 frequency divider cir...
This paper presents a 0.13 um CMOS frequency divider realized with an injection-locking ring oscilla...
A mm-wave divide-by-two circuit with high injection efficiency, implemented in a 28-nm fully-deplete...
Abstract—In this paper we present the design of a pro-grammable frequency divider in 28 nm FD-SOI CM...
Abstract A divide-by-2 frequency divider circuit was designed using 22-nm CMOS FD-SOI technology. T...
This work presents the design and measurement results of two injection-locked frequency dividers (IL...
Two low-power mm-wave voltage controlled oscillators (VCOs) designed in a 28-nm fully-depleted silic...
In this paper, a 20.2 GHz to 57.1 GHz inductor-less divide-by-4 divider chain based on STMicroelectr...
Due to the rapid development of Complementary Metal-Oxide-Semiconductor (CMOS) deep-submicron techno...
Two 60-GHz band voltage controlled oscillators (VCOs) designed in a 28-nm ultrathin body and buried ...
This paper presents a 0.13 um CMOS frequency divider for I/Q generation. To achieve a wide locking r...
A 54.6 GHz divide-by-3 injection locked frequency divider with low power consumption is presented. A...
One of the key components common in integrated receiver designs is a RF local oscillator. This parti...
In this paper, an Injection Locking Frequency Divider (ILFD) in 65 nm RF CMOS Technology for applica...
Abstract Two mmWave frequency dividers were designed, manufactured and measured using static curren...
Direct injection locking applied to a ring oscillator results in a divide-by-7 frequency divider cir...
This paper presents a 0.13 um CMOS frequency divider realized with an injection-locking ring oscilla...
A mm-wave divide-by-two circuit with high injection efficiency, implemented in a 28-nm fully-deplete...
Abstract—In this paper we present the design of a pro-grammable frequency divider in 28 nm FD-SOI CM...
Abstract A divide-by-2 frequency divider circuit was designed using 22-nm CMOS FD-SOI technology. T...
This work presents the design and measurement results of two injection-locked frequency dividers (IL...
Two low-power mm-wave voltage controlled oscillators (VCOs) designed in a 28-nm fully-depleted silic...
In this paper, a 20.2 GHz to 57.1 GHz inductor-less divide-by-4 divider chain based on STMicroelectr...
Due to the rapid development of Complementary Metal-Oxide-Semiconductor (CMOS) deep-submicron techno...
Two 60-GHz band voltage controlled oscillators (VCOs) designed in a 28-nm ultrathin body and buried ...
This paper presents a 0.13 um CMOS frequency divider for I/Q generation. To achieve a wide locking r...
A 54.6 GHz divide-by-3 injection locked frequency divider with low power consumption is presented. A...
One of the key components common in integrated receiver designs is a RF local oscillator. This parti...
In this paper, an Injection Locking Frequency Divider (ILFD) in 65 nm RF CMOS Technology for applica...
Abstract Two mmWave frequency dividers were designed, manufactured and measured using static curren...
Direct injection locking applied to a ring oscillator results in a divide-by-7 frequency divider cir...
This paper presents a 0.13 um CMOS frequency divider realized with an injection-locking ring oscilla...