Add to ORKGA fully integrated RF front-end for W-CDMA applications including a low noise amplifier, a down conversion mixer, a digitally programmable gain amplifier, an on-chip VCO, and a fractional-N frequency synthesizer is designed using a 0.35-µm CMOS process. A multi-stage ring shaped on-chip LC-VCO exhibiting bandpass characteristics overcomes the limitation of low-Q components in the tank circuits and improves the phase noise performance. The measured phase noise of the on-chip VCO is -134 dBc/Hz at 1 MHz offset. The receiver RF front-end achieves a NF of 3.5 dB, an IIP3 of -16 dBm, and a maximum gain of 80 dB. The receiver consumes 52 mA with a 3-V supply and occupies only 2 mm2 die area with minimal external components.ope
Fully integrated RF CMOS VCOs with on chip low frequency feedback circuit for 1/f induced phase nois...
This paper proposes three types of single stage low-power RF front-end, called double-balanced LMVs,...
The demand for high-speed wireless data communication systems is continuously increasing such as 802...
213 p.Fully integrated frequency synthesizers have been widely adopted for the wireless communicatio...
Abstract—This paper presents a low-power, single-stage, and variable-gain controlled double-balanced...
In an era dominated by the highly demanding wireless communication system, there is a great need for...
This paper describes a 4.48 GHz–5.89 GHz LC voltage-controlled oscillator (LC-VCO) as a key componen...
A 2.4 GHZ FULLY INTEGRATED LC VCO DESIGN USING 130 NM CMOS TECHNOLOGY In this paper, a 2.4 GHz full...
The increasing demand for high data rates in wireless communication systems is increasing the requir...
A 2 V, 6 mA, 1.3 GHz LC-tank VCO, realized in a digital CMOS process, is presented. The tank is made...
135 p.This project on LC VCO contributes part of a larger ongoing project on a PLL Based Frequency s...
A low phase noise wideband LC VCO is designed and presented. In this VCO, a symmetrical LC tank with...
This paper presents a low-phase noise CMOS LC-VCO, in which a complete compensation of the component...
Recent research to accommodate increasing customers' demand is focusing on low power wireless applic...
A fully 2.4 GHz CMOS LC VCO is designed and fabricated in 0.35 um. BiCMOS process using PN varactor ...
Fully integrated RF CMOS VCOs with on chip low frequency feedback circuit for 1/f induced phase nois...
This paper proposes three types of single stage low-power RF front-end, called double-balanced LMVs,...
The demand for high-speed wireless data communication systems is continuously increasing such as 802...
213 p.Fully integrated frequency synthesizers have been widely adopted for the wireless communicatio...
Abstract—This paper presents a low-power, single-stage, and variable-gain controlled double-balanced...
In an era dominated by the highly demanding wireless communication system, there is a great need for...
This paper describes a 4.48 GHz–5.89 GHz LC voltage-controlled oscillator (LC-VCO) as a key componen...
A 2.4 GHZ FULLY INTEGRATED LC VCO DESIGN USING 130 NM CMOS TECHNOLOGY In this paper, a 2.4 GHz full...
The increasing demand for high data rates in wireless communication systems is increasing the requir...
A 2 V, 6 mA, 1.3 GHz LC-tank VCO, realized in a digital CMOS process, is presented. The tank is made...
135 p.This project on LC VCO contributes part of a larger ongoing project on a PLL Based Frequency s...
A low phase noise wideband LC VCO is designed and presented. In this VCO, a symmetrical LC tank with...
This paper presents a low-phase noise CMOS LC-VCO, in which a complete compensation of the component...
Recent research to accommodate increasing customers' demand is focusing on low power wireless applic...
A fully 2.4 GHz CMOS LC VCO is designed and fabricated in 0.35 um. BiCMOS process using PN varactor ...
Fully integrated RF CMOS VCOs with on chip low frequency feedback circuit for 1/f induced phase nois...
This paper proposes three types of single stage low-power RF front-end, called double-balanced LMVs,...
The demand for high-speed wireless data communication systems is continuously increasing such as 802...