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Development of RF CMOS receiver front-ends for ultrawidebandGuan, Xin 15 May 2009 (has links)
Ultra-Wideband (UWB) technology has become one of the hottest topics in
wireless communications, for it provides cost-effective, power-efficient, high bandwidth
solution for relaying data in the immediate area (up to 10 meters). This work
demonstrates two different solutions for the RF front-end designs in the UWB receivers,
one is distributed topology, and the other is based on traditional lumped element
topology.
The distributed amplifier is one of the attractive candidates for UWB Low Noise
Amplifier (LNA). The design, analysis and operation of the distributed amplifiers will be
presented. A distributed amplifier is designed with Coplanar Waveguide (CPW)
transmission lines in 0.25-μm CMOS process for time domain UWB applications. New
design techniques and new topologies are developed to enhance the power-efficiency
and reduce the chip area. A compact and high performance distributed amplifier with
Patterned Grounded Shield (PGS) inductors is developed in 0.25-μm CMOS process.
The amplifier has a measurement result of 7.2dB gain, 4.2-6dB noise figure, and less than -10dB return loss through 0-11GHz. A new distributed amplifier implementing
cascade common source gain cells is presented in 0.18-μm CMOS. The new amplifier
demonstrates a high gain of 16dB at a power consumption of 100mW, and a gain of
10dB at a low power consumption of 19mW.
A UWB LNA utilizing resistive shunt feedback technique is reported in 0.18-μm
CMOS process. The measurement results of the UWB LNA demonstrate a maximum
gain of 10.5dB and a noise figure of 3.3-4.5dB from 3-9.5GHz, while only consuming
9mW power.
Based on the distributed amplifier and resistive shunt-feedback amplifier designs,
two UWB RF front-ends are developed. One is a distributed LNA-Mixer. Unlike the
conventional distributed mixer, which can only deliver low gain and high noise figure,
the proposed distributed LNA-Mixer demonstrates 12-14dB gain ,4-5dB noise figure
and higher than 10dB return loss at RF and LO ports over 2-16GHz. To overcome the
power consumption and chip area problems encountered in distributed circuits, another
UWB RF front-end is also designed with lumped elements. This front-end, employing
resistive shunt-feedback technique into its LNA design, can achieve a gain of 12dB and
noise figure of 8-10dB through 3-10GHz, the return loss of less than -10dB from 3-
10GHz at RF port, and less than -7dB at LO port, while only consuming 25mA current
from 1.8V voltage supply.
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