Add to ORKGA fully 2.4 GHz CMOS LC VCO is designed and fabricated in 0.35 um. BiCMOS process using PN varactor and planar spiral inductor. Trade offs for LC tank design as well as symmetry, design considerations from schematic level to layout are presented. The VCO achieves a measured phase noise of -90 dBC/Hz at 100 KHz offset and -116 dBC/Hz at 2 MHz offset. The measured output frequency is from 2.2045 GHz to 2.4970 GHz, which corresponds to 290 MHz tuning range obtained by only tuning the PN varactor pairs. The VCO core draws 4 mA of current from the 3.3 V supply. The whole measurement is accomplished by using a FR-4 PCB test fixture.Engineering, Electrical & ElectronicMaterials Science, MultidisciplinaryPhysics, Condensed MatterCPCI-S(ISTP)
[[abstract]]In this work, two 5.8-GHz fully, integrated LC differential voltage-controlled oscillato...
135 p.This project on LC VCO contributes part of a larger ongoing project on a PLL Based Frequency s...
In an era dominated by the highly demanding wireless communication system, there is a great need for...
A fully integrated 2.4 GHz CMOS LC VCO is designed and fabricated in 0.35 um BiCMOS process using PN...
A 2.4 GHz LC voltage controlled oscillator is designed and optimized via linear programming and impl...
A low phase noise wideband LC VCO is designed and presented. In this VCO, a symmetrical LC tank with...
The demand for low power, low cost, and low noise RF sub-systems has lead to the development of comp...
This paper presents a low-phase noise CMOS LC-VCO, in which a complete compensation of the component...
A 2 V, 6 mA, 1.3 GHz LC-tank VCO, realized in a digital CMOS process, is presented. The tank is made...
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 1.4 V, 9 mA monolithic LC-tank voltage-controlled oscillator (VCO) fabricated in a standard 0.35 μ...
An ultra-low-voltage LC-VCO IC has been demon-strated using 130nm CMOS technology. The LC-VCO IC inc...
A 2.4 GHZ FULLY INTEGRATED LC VCO DESIGN USING 130 NM CMOS TECHNOLOGY In this paper, a 2.4 GHz full...
Abstract: This paper presents the design and fabrication of a LC voltage-controlled oscillator (VCO)...
This paper describes a 4.48 GHz–5.89 GHz LC voltage-controlled oscillator (LC-VCO) as a key componen...
[[abstract]]In this work, two 5.8-GHz fully, integrated LC differential voltage-controlled oscillato...
135 p.This project on LC VCO contributes part of a larger ongoing project on a PLL Based Frequency s...
In an era dominated by the highly demanding wireless communication system, there is a great need for...
A fully integrated 2.4 GHz CMOS LC VCO is designed and fabricated in 0.35 um BiCMOS process using PN...
A 2.4 GHz LC voltage controlled oscillator is designed and optimized via linear programming and impl...
A low phase noise wideband LC VCO is designed and presented. In this VCO, a symmetrical LC tank with...
The demand for low power, low cost, and low noise RF sub-systems has lead to the development of comp...
This paper presents a low-phase noise CMOS LC-VCO, in which a complete compensation of the component...
A 2 V, 6 mA, 1.3 GHz LC-tank VCO, realized in a digital CMOS process, is presented. The tank is made...
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 1.4 V, 9 mA monolithic LC-tank voltage-controlled oscillator (VCO) fabricated in a standard 0.35 μ...
An ultra-low-voltage LC-VCO IC has been demon-strated using 130nm CMOS technology. The LC-VCO IC inc...
A 2.4 GHZ FULLY INTEGRATED LC VCO DESIGN USING 130 NM CMOS TECHNOLOGY In this paper, a 2.4 GHz full...
Abstract: This paper presents the design and fabrication of a LC voltage-controlled oscillator (VCO)...
This paper describes a 4.48 GHz–5.89 GHz LC voltage-controlled oscillator (LC-VCO) as a key componen...
[[abstract]]In this work, two 5.8-GHz fully, integrated LC differential voltage-controlled oscillato...
135 p.This project on LC VCO contributes part of a larger ongoing project on a PLL Based Frequency s...
In an era dominated by the highly demanding wireless communication system, there is a great need for...