Add to ORKGIn this paper, a multiphase 18 GHz voltage-controlled oscillator (VCO) based on the rotary traveling-wave principle is presented. Using a 0.25 μm BiCMOS process, the fabricated bipolar VCO achieves a tuning range of 700 MHz and a phase noise of -98 dBc/Hz at 1 MHz offset from the carrier frequency. The oscillator shows high output power of 5.5 dBm and it provides 8 different phases. The VCO core consumes 13.5 mA of current. The performance of our proposed VCO is comparable with other published CMOS VCOs operating at the same frequency, but provides more phases and consumes lower current
A K-band SiGe bipolar VCO operating from 18.9 to 22.1GHz is presented. The oscillator features a pha...
This paper describes a monolithically integrated push-push oscillator fabricated in a production-nea...
A K-band SiGe bipolar VCO with a transformer-coupled varactor operating from 18.1 to 20.5 GHz is pre...
A 36 GHz low power voltage controlled oscillator (VCO) is proposed and designed in 0.18 μm SiGe BiCM...
In this paper, the design methodology and layout considerations of a multiphase Rotary Travelling-Wa...
This brief presents a fully differential K-band voltage-controlled oscillator (VCO) using commercial...
Abstract—This paper presents a 15-GHz multiphase rotary traveling-wave voltage-controlled oscillator...
This brief presents a fully differential K-band voltage-controlled oscillator (VCO) using commercial...
A SiGe BiCMOS VCO with a transformer-coupled varactor operating from 12 to 15.9GHz is presented. The...
Abstract This paper presents a novel quadrature VCO (QVCO) implemented in a 47GHz SiGe technology. T...
In this research, we present a low phase noise (PN) and wide tuning range 175 GHz inductors and capa...
This paper describes VCO designs based on varactor tuned Push-Push architecture. Two versions (power...
This paper describes VCO designs based on varactor tuned Push-Push architecture. Two versions (power...
This paper describes a design and implementation of Current Starved CMOS Voltage Controlled Oscillat...
The thesis treats a design for an ultra low phase noise VCO for backhaul Gbit point-to-point communi...
A K-band SiGe bipolar VCO operating from 18.9 to 22.1GHz is presented. The oscillator features a pha...
This paper describes a monolithically integrated push-push oscillator fabricated in a production-nea...
A K-band SiGe bipolar VCO with a transformer-coupled varactor operating from 18.1 to 20.5 GHz is pre...
A 36 GHz low power voltage controlled oscillator (VCO) is proposed and designed in 0.18 μm SiGe BiCM...
In this paper, the design methodology and layout considerations of a multiphase Rotary Travelling-Wa...
This brief presents a fully differential K-band voltage-controlled oscillator (VCO) using commercial...
Abstract—This paper presents a 15-GHz multiphase rotary traveling-wave voltage-controlled oscillator...
This brief presents a fully differential K-band voltage-controlled oscillator (VCO) using commercial...
A SiGe BiCMOS VCO with a transformer-coupled varactor operating from 12 to 15.9GHz is presented. The...
Abstract This paper presents a novel quadrature VCO (QVCO) implemented in a 47GHz SiGe technology. T...
In this research, we present a low phase noise (PN) and wide tuning range 175 GHz inductors and capa...
This paper describes VCO designs based on varactor tuned Push-Push architecture. Two versions (power...
This paper describes VCO designs based on varactor tuned Push-Push architecture. Two versions (power...
This paper describes a design and implementation of Current Starved CMOS Voltage Controlled Oscillat...
The thesis treats a design for an ultra low phase noise VCO for backhaul Gbit point-to-point communi...
A K-band SiGe bipolar VCO operating from 18.9 to 22.1GHz is presented. The oscillator features a pha...
This paper describes a monolithically integrated push-push oscillator fabricated in a production-nea...
A K-band SiGe bipolar VCO with a transformer-coupled varactor operating from 18.1 to 20.5 GHz is pre...