A low-voltage wideband 3.0-5.0 GHz complementary VCO was designed and fabricated in an 0.13 μm SOI CMOS process [1]. Non-minimum gate length was used for NMOS to improve the phase noise by exploiting waveform symmetry, maximizing output swing and reducing transistor flicker noise without any penalty to VCO performance. A phase noise improvement of up to 8 dB was observed experimentally. At 1 V VDDand 3.0 GHz, the phase noise is - 122.5 dBc/Hz at 1MHz offset, and the power dissipation is 2.5mW
Class-C operation is leveraged to implement a K-band CMOS voltage-controlled oscillator (VCO) where ...
Abstract—This paper describes a new approach to low phase noise LC VCO design based on transconducta...
Class-C operation is leveraged to implement a K-band CMOS voltage-controlled oscillator (VCO) where ...
A 2 V, 6 mA, 15 % tuning range, 1.8 GHz VCO implemented in a standard 0.35pm CMOS process is present...
Abstract—A theoretical analysis on low phase noise of voltage-controlled oscillators (VCOs) based on...
A 5-GHZ CMOS VCO with improved phase noise is proposed in this article. A gate voltage boosting tech...
A low phase noise wideband LC VCO is designed and presented. In this VCO, a symmetrical LC tank with...
A low-phase-noise low-phase-error 1.8 GHz quadrature CMOS VCO was presented. The VCO with three meta...
A 1.4 V, 9 mA monolithic LC-tank voltage-controlled oscillator (VCO) fabricated in a standard 0.35 μ...
A low-voltage 3.0-5.6 GHz VCO was designed and fabricated in an 0.13 μm SOI CMOS process. This VCO f...
A 1 V 3.8-5.7 GHz VCO was designed and fabricated in a 0.13 μm SOI CMOS process. This VCO features d...
Copyright © 2013 Davood Fathi, Aboozar Gorbani Nejad. This is an open access article distributed und...
The demand of voltage-controlled oscillators (VCOs) with a broad tuning range can lead to unacceptab...
For transceiver design in low cost CMOS technologies, one of the most challenging elements is the vo...
The thesis treats a design for an ultra low phase noise VCO for backhaul Gbit point-to-point communi...
Class-C operation is leveraged to implement a K-band CMOS voltage-controlled oscillator (VCO) where ...
Abstract—This paper describes a new approach to low phase noise LC VCO design based on transconducta...
Class-C operation is leveraged to implement a K-band CMOS voltage-controlled oscillator (VCO) where ...
A 2 V, 6 mA, 15 % tuning range, 1.8 GHz VCO implemented in a standard 0.35pm CMOS process is present...
Abstract—A theoretical analysis on low phase noise of voltage-controlled oscillators (VCOs) based on...
A 5-GHZ CMOS VCO with improved phase noise is proposed in this article. A gate voltage boosting tech...
A low phase noise wideband LC VCO is designed and presented. In this VCO, a symmetrical LC tank with...
A low-phase-noise low-phase-error 1.8 GHz quadrature CMOS VCO was presented. The VCO with three meta...
A 1.4 V, 9 mA monolithic LC-tank voltage-controlled oscillator (VCO) fabricated in a standard 0.35 μ...
A low-voltage 3.0-5.6 GHz VCO was designed and fabricated in an 0.13 μm SOI CMOS process. This VCO f...
A 1 V 3.8-5.7 GHz VCO was designed and fabricated in a 0.13 μm SOI CMOS process. This VCO features d...
Copyright © 2013 Davood Fathi, Aboozar Gorbani Nejad. This is an open access article distributed und...
The demand of voltage-controlled oscillators (VCOs) with a broad tuning range can lead to unacceptab...
For transceiver design in low cost CMOS technologies, one of the most challenging elements is the vo...
The thesis treats a design for an ultra low phase noise VCO for backhaul Gbit point-to-point communi...
Class-C operation is leveraged to implement a K-band CMOS voltage-controlled oscillator (VCO) where ...
Abstract—This paper describes a new approach to low phase noise LC VCO design based on transconducta...
Class-C operation is leveraged to implement a K-band CMOS voltage-controlled oscillator (VCO) where ...