Add to ORKGA 2.4 GHz LC voltage controlled oscillator is designed and optimized via linear programming and implemented in a 0.35 μm RF BiCMOS process technology. Our design methodology provides an insight to choosing design variables given several constraints such as voltage swing, tuning range and start-up condition. The on-chip spiral inductors used are modeled and optimized by a 3D inductor simulator. The inversion mode MOSCAP tuning is used to achieve 26% of tuning range. The measured phase noise is -121 dBc/Hz, -117 dBc/Hz and -115 dBc/Hz at 600 kHz offset from 1.91 GHz, 2.03 GHz and 2.60 GHz carriers, respectively. The VCO dissipates only 4 mA from a 2.5 V supply voltag
This paper focuses on design of high-performance MEMS LC-tank circuit for use in CMOS voltage contro...
A 2.2 GHz, 0.57 V voltage controlled oscillator is designed and simulated using Cadence SpectreRF 0....
Recent research to accommodate increasing customers' demand is focusing on low power wireless applic...
A 2.4 GHz LC voltage controlled oscillator is designed and optimized via linear programming and impl...
A fully 2.4 GHz CMOS LC VCO is designed and fabricated in 0.35 um. BiCMOS process using PN varactor ...
Underlying physical mechanisms controlling the noise properties of oscillators are studied. This tre...
In this thesis the design of 2 GHz low noise voltage control oscillator in a standard 0.24-μm CMOS t...
The low quality factor of the inductors fabricated in fully-integrated LC tanks results in a poor in...
A low phase noise wideband LC VCO is designed and presented. In this VCO, a symmetrical LC tank with...
This paper describes a 4.48 GHz–5.89 GHz LC voltage-controlled oscillator (LC-VCO) as a key componen...
In an era dominated by the highly demanding wireless communication system, there is a great need for...
The demand for low power, low cost, and low noise RF sub-systems has lead to the development of comp...
A 1.4 V, 9 mA monolithic LC-tank voltage-controlled oscillator (VCO) fabricated in a standard 0.35 μ...
Voltage controlled oscillator (VCO) offers the radio frequency (RF) system designer a freedom to sel...
The main focus of this paper is to design a voltage controlled oscillator (VCO) with the oscillation...
This paper focuses on design of high-performance MEMS LC-tank circuit for use in CMOS voltage contro...
A 2.2 GHz, 0.57 V voltage controlled oscillator is designed and simulated using Cadence SpectreRF 0....
Recent research to accommodate increasing customers' demand is focusing on low power wireless applic...
A 2.4 GHz LC voltage controlled oscillator is designed and optimized via linear programming and impl...
A fully 2.4 GHz CMOS LC VCO is designed and fabricated in 0.35 um. BiCMOS process using PN varactor ...
Underlying physical mechanisms controlling the noise properties of oscillators are studied. This tre...
In this thesis the design of 2 GHz low noise voltage control oscillator in a standard 0.24-μm CMOS t...
The low quality factor of the inductors fabricated in fully-integrated LC tanks results in a poor in...
A low phase noise wideband LC VCO is designed and presented. In this VCO, a symmetrical LC tank with...
This paper describes a 4.48 GHz–5.89 GHz LC voltage-controlled oscillator (LC-VCO) as a key componen...
In an era dominated by the highly demanding wireless communication system, there is a great need for...
The demand for low power, low cost, and low noise RF sub-systems has lead to the development of comp...
A 1.4 V, 9 mA monolithic LC-tank voltage-controlled oscillator (VCO) fabricated in a standard 0.35 μ...
Voltage controlled oscillator (VCO) offers the radio frequency (RF) system designer a freedom to sel...
The main focus of this paper is to design a voltage controlled oscillator (VCO) with the oscillation...
This paper focuses on design of high-performance MEMS LC-tank circuit for use in CMOS voltage contro...
A 2.2 GHz, 0.57 V voltage controlled oscillator is designed and simulated using Cadence SpectreRF 0....
Recent research to accommodate increasing customers' demand is focusing on low power wireless applic...