A 2 V, 6 mA, 1.3 GHz LC-tank VCO, realized in a digital CMOS process, is presented. The tank is made of a metal-oxide-silicon varactor and a series connection of a bondwire and a spiral inductor. This solution enables one to tune all component variations, while gain is maintained constant within ±20% of the nominal value. The measured phase noise at 600 kHz from 1.3 GHz carrier is -119 dbc/H
This paper presents a VCO with automatic level control circuitry. This feedback mechanism helps to k...
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...
A low-phase-noise low-phase-error 1.8 GHz quadrature CMOS VCO was presented. The VCO with three meta...
A 2 V, 6 mA, 1.3 GHz LC-tank VCO, realized in a digital CMOS process, is presented. The tank is made...
This paper presents a low-phase noise CMOS LC-VCO, in which a complete compensation of the component...
A 2 V, 1 mA, 1.8 GHz to 2.45 GHz tuneable LC-tank CMOS VCO is presented. The tank is made of a MOS v...
A 2 V, 6 mA, 15 % tuning range, 1.8 GHz VCO implemented in a standard 0.35pm CMOS process is present...
A 1.4 V, 9 mA monolithic LC-tank voltage-controlled oscillator (VCO) fabricated in a standard 0.35 μ...
A 1.8-GHz CMOS VCO is presented, employing a monolithic transformer as an inductance with voltage-co...
A low phase noise wideband LC VCO is designed and presented. In this VCO, a symmetrical LC tank with...
A wide band CMOS LC-tank voltage controlled oscillator (VCO) with small VCO gain (K-VCO) variation w...
A fully 2.4 GHz CMOS LC VCO is designed and fabricated in 0.35 um. BiCMOS process using PN varactor ...
This work presents a 1.8-GHz VCO tuned by a pMOS capacitor working exclusively in the accumulation a...
A 2.4-GHz CMOS VCO is presented employing pMOS transistors as voltage-controlled capacitances and on...
A low phase noise 2.4 GHz voltage controlled oscillator (VCO) with 1 V supply is presented. The VCO ...
This paper presents a VCO with automatic level control circuitry. This feedback mechanism helps to k...
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...
A low-phase-noise low-phase-error 1.8 GHz quadrature CMOS VCO was presented. The VCO with three meta...
A 2 V, 6 mA, 1.3 GHz LC-tank VCO, realized in a digital CMOS process, is presented. The tank is made...
This paper presents a low-phase noise CMOS LC-VCO, in which a complete compensation of the component...
A 2 V, 1 mA, 1.8 GHz to 2.45 GHz tuneable LC-tank CMOS VCO is presented. The tank is made of a MOS v...
A 2 V, 6 mA, 15 % tuning range, 1.8 GHz VCO implemented in a standard 0.35pm CMOS process is present...
A 1.4 V, 9 mA monolithic LC-tank voltage-controlled oscillator (VCO) fabricated in a standard 0.35 μ...
A 1.8-GHz CMOS VCO is presented, employing a monolithic transformer as an inductance with voltage-co...
A low phase noise wideband LC VCO is designed and presented. In this VCO, a symmetrical LC tank with...
A wide band CMOS LC-tank voltage controlled oscillator (VCO) with small VCO gain (K-VCO) variation w...
A fully 2.4 GHz CMOS LC VCO is designed and fabricated in 0.35 um. BiCMOS process using PN varactor ...
This work presents a 1.8-GHz VCO tuned by a pMOS capacitor working exclusively in the accumulation a...
A 2.4-GHz CMOS VCO is presented employing pMOS transistors as voltage-controlled capacitances and on...
A low phase noise 2.4 GHz voltage controlled oscillator (VCO) with 1 V supply is presented. The VCO ...
This paper presents a VCO with automatic level control circuitry. This feedback mechanism helps to k...
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...
A low-phase-noise low-phase-error 1.8 GHz quadrature CMOS VCO was presented. The VCO with three meta...