This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency divider (Q-ILFD) as an enabling component for sliding-IF 60 GHz transceivers. The design incorporates direct injection topology and input power matching using interconnect inductances to enhance injection efficiency. This results in an excellent input sensitivity and a wide locking range. Fabricated in a 65 nm bulk CMOS technology, the divider operates from 30.3 to 44 GHz (37% locking range) while consuming 9 mW from a 1.2 V supply. The measured phase noise is -131 dBc/Hz at 1-MHz offset whereas the phase error between I-Q outputs is less than 1.44°
A frequency-tracking technique is proposed to enhance the locking range of millimeter-wave (mmW) inj...
[[abstract]]A low-power and wide-locking-range 55.8-GHz (V-band) injection-locked frequency-divider ...
[[abstract]]A divide-by-4 injection-locked frequency divider is designed for applications in th...
This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency divider (Q-I...
Abstract—This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency div...
This report contains an introduction to the basic concepts behind Injection- Locked Frequency Divide...
[[abstract]]A low-power and wide-locking-range 64 8-GHz injection-locked frequency-divider (ILFD) us...
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...
An ultra-low-power millimeter-wave injection-locked frequency divider (ILFD) based on transformer-fe...
This paper presents a 40 GHz phase-locked loop as an enabling component for sliding-IF 60 GHz transc...
[[abstract]]A low-power 63-GHz (V-band) direct injection-locked frequency-divider (ILFD) using stand...
This work presents the design and measurement results of two injection-locked frequency dividers (IL...
A frequency-tracking technique is proposed to enhance the locking range of millimeter-wave (mmW) inj...
[[abstract]]A low-power and wide-locking-range 55.8-GHz (V-band) injection-locked frequency-divider ...
[[abstract]]A divide-by-4 injection-locked frequency divider is designed for applications in th...
This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency divider (Q-I...
Abstract—This paper presents a wideband 40 GHz divide-by-2 quadrature injection locked frequency div...
This report contains an introduction to the basic concepts behind Injection- Locked Frequency Divide...
[[abstract]]A low-power and wide-locking-range 64 8-GHz injection-locked frequency-divider (ILFD) us...
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...
An ultra-low-power millimeter-wave injection-locked frequency divider (ILFD) based on transformer-fe...
This paper presents a 40 GHz phase-locked loop as an enabling component for sliding-IF 60 GHz transc...
[[abstract]]A low-power 63-GHz (V-band) direct injection-locked frequency-divider (ILFD) using stand...
This work presents the design and measurement results of two injection-locked frequency dividers (IL...
A frequency-tracking technique is proposed to enhance the locking range of millimeter-wave (mmW) inj...
[[abstract]]A low-power and wide-locking-range 55.8-GHz (V-band) injection-locked frequency-divider ...
[[abstract]]A divide-by-4 injection-locked frequency divider is designed for applications in th...