This paper presents a 0.13 um CMOS frequency divider realized with an injection-locking ring oscillator. This topology can achieve a larger input frequency range and better phase accuracy with respect to injection-locking LC oscillators because of the smoother slope of its phase-frequency plot. Post layout simulations show that the circuit is able to divide an input signal spanning from 7 to 19 GHz, although the available tuning range of the signal source limited the experimental verification to the interval 11-15 GHz, 31% locking range. The divider dissipates 3 mA from 1.2 V power supply
This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency divider (Q-I...
[[abstract]]A divide-by-4 injection-locked frequency divider is designed for applications in th...
Abstract—This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency div...
This paper presents a 0.13 um CMOS frequency divider realized with an injection-locking ring oscilla...
This paper presents a 0.13 um CMOS frequency divider for I/Q generation. To achieve a wide locking r...
Direct injection locking applied to a ring oscillator results in a divide-by-7 frequency divider cir...
In this paper we propose a novel inductorless injection-locked frequency divider (ILFD) that can mak...
In this work, direct injection locking is applied to a ring oscillator topology to design a wideband...
In this paper we propose a novel inductorless Injection-Locked Frequency Divider (ILFD) that can mak...
Abstract—A low power divide-by-8 injection-locked frequency divider is presented. The frequency divi...
As RF transceivers move into the mm-wave frequency range, one of the key issues faced in the design ...
A novel low-power and wide-locking-range divide- by-three injection-locked frequency divider with si...
This paper proposes and analyzes a CMOS divide-by-8 injection locked frequency divider (ILFD) with a...
Frequency dividers are key components for frequency synthesis in wireless and wireline communication...
[[abstract]]A fully integrated frequency divider with an operation frequency up to 20 GHz is designe...
This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency divider (Q-I...
[[abstract]]A divide-by-4 injection-locked frequency divider is designed for applications in th...
Abstract—This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency div...
This paper presents a 0.13 um CMOS frequency divider realized with an injection-locking ring oscilla...
This paper presents a 0.13 um CMOS frequency divider for I/Q generation. To achieve a wide locking r...
Direct injection locking applied to a ring oscillator results in a divide-by-7 frequency divider cir...
In this paper we propose a novel inductorless injection-locked frequency divider (ILFD) that can mak...
In this work, direct injection locking is applied to a ring oscillator topology to design a wideband...
In this paper we propose a novel inductorless Injection-Locked Frequency Divider (ILFD) that can mak...
Abstract—A low power divide-by-8 injection-locked frequency divider is presented. The frequency divi...
As RF transceivers move into the mm-wave frequency range, one of the key issues faced in the design ...
A novel low-power and wide-locking-range divide- by-three injection-locked frequency divider with si...
This paper proposes and analyzes a CMOS divide-by-8 injection locked frequency divider (ILFD) with a...
Frequency dividers are key components for frequency synthesis in wireless and wireline communication...
[[abstract]]A fully integrated frequency divider with an operation frequency up to 20 GHz is designe...
This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency divider (Q-I...
[[abstract]]A divide-by-4 injection-locked frequency divider is designed for applications in th...
Abstract—This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency div...