[[abstract]]A low-power and wide-locking-range 64 8-GHz injection-locked frequency-divider (ILFD) using standard 0 13 mu m CMOS technology of reported To enhance the locking range, a shunt inductor was introduced tit the source node of the cross-coupled transistor pair to maximize the equivalent load impedance of the tail transistor, i.e. to maximize the internal power, of over the frequency band of interest In addition, the inductors and capacitors of the LC-tank were implemented by low-Q micro-stripline inductors and high-Q varactors, respectively, to further improve the locking range of the ILFD The results shows that a wide locking-range of 10 2 GHz (from 54 6 GHz to 64 8 GHz (17%)), covering the 57-64-GHz ultra-wideband (UWB) set aside...
This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency divider (Q-I...
Abstract—An injection-locked frequency divider (ILFD) with multiple highly nonlinear injection stage...
Abstract—This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency div...
[[abstract]]A low-power and wide-locking-range 64 8-GHz injection-locked frequency-divider (ILFD) us...
[[abstract]]A low-power and wide-locking-range 55.8-GHz (V-band) injection-locked frequency-divider ...
In this paper we propose a novel inductorless injection-locked frequency divider (ILFD) that can mak...
In this paper we propose a novel inductorless Injection-Locked Frequency Divider (ILFD) that can mak...
[[abstract]]A low-power 63-GHz (V-band) direct injection-locked frequency-divider (ILFD) using stand...
[[abstract]]A K-band low-power and wideband injection-locked frequency divider (ILFD) using 0.18-μm ...
[[abstract]]58-GHz (V-band) CMOS direct injection-locked-frequency-divider (DILFD) using technique f...
A frequency-tracking technique together with a single-coil distributed differential inductor is prop...
This report contains an introduction to the basic concepts behind Injection- Locked Frequency Divide...
This work presents the design and measurement results of two injection-locked frequency dividers (IL...
This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency divider (Q-I...
Abstract—An injection-locked frequency divider (ILFD) with multiple highly nonlinear injection stage...
Abstract—This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency div...
[[abstract]]A low-power and wide-locking-range 64 8-GHz injection-locked frequency-divider (ILFD) us...
[[abstract]]A low-power and wide-locking-range 55.8-GHz (V-band) injection-locked frequency-divider ...
In this paper we propose a novel inductorless injection-locked frequency divider (ILFD) that can mak...
In this paper we propose a novel inductorless Injection-Locked Frequency Divider (ILFD) that can mak...
[[abstract]]A low-power 63-GHz (V-band) direct injection-locked frequency-divider (ILFD) using stand...
[[abstract]]A K-band low-power and wideband injection-locked frequency divider (ILFD) using 0.18-μm ...
[[abstract]]58-GHz (V-band) CMOS direct injection-locked-frequency-divider (DILFD) using technique f...
A frequency-tracking technique together with a single-coil distributed differential inductor is prop...
This report contains an introduction to the basic concepts behind Injection- Locked Frequency Divide...
This work presents the design and measurement results of two injection-locked frequency dividers (IL...
This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency divider (Q-I...
Abstract—An injection-locked frequency divider (ILFD) with multiple highly nonlinear injection stage...
Abstract—This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency div...