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1. Double Ridgid Horn Antenna Designs For Wideband Applications For Macbook Pro
2. Double Ridgid Horn Antenna Designs For Wideband Applications For Mac Download

Compact Tapered-Shape Slot Antenna for UWB Applications in 20111. Further in the second circuit considered, Jian Yang and Ahmed Kishk novel compact low-profile directional UWB antenna.

The paper was published in march 2012, named as “A novel compact low-profile directional UWB antenna—the self-grounded Bow- Tie antenna”2.The third circuit that we studied was presented by Anil Kr Gautam, Swati Y adav and Binod Kr Kanaujia in 2013.This paper was published under the name “A CPW-Fe d Compact UWB Micro strip Antenna”3. In this paper, the authors have proposed a novel coplanar waveguide (CPW)-fed compact ultra wideband (UWB) micro strip antenna for ultra wideband applications. Finally the fourth paper we discussed was published by Thomas Peter, Tharek Abd Rahman, S.

Cheung, Rajagopal Nilavalan, Hattan F. Abutarboush and Antonio Vilches named “A Novel Transparent UWB Antenna for Photovoltaic Solar Panel Integration and RF Energy Harvesting” 4. The paper was published in the year 2014. In this paper a transpare nt cone top tapered slot antenna covering the f requency range from 2.2 to 12.1 GHz has be en designed. The admiral benefits of a wireless lifestyle have resulted in a huge demand for advanced wireless communications.

The quick tempered growth of the wireless coomunication ma rket is expected to continu e in the future since the claim of all wireless service s is increasing. Transparent antennas for communications have. Communications, and many more application. The imminent widespread commercial deployment of ultra-wideband (UWB) systems has sparked renewed interest in the subject of ultra-wideband antennas. UWB antennas have been in active commercial use for decades.

In a sense, even the venerable AM broadcast band antenna is “UWB ” since it covers a band from 535- 1705 kHz for a fractional bandwidth in excess of 100%. Because a high quality broadcast AM antenna is really a tuned antenna designed to pick up an individual narrowband (10 kHz) channel, the effective fractional bandwidth is really only 0.6-1.9% and only one channel can be received at a time. UWB antenna is usually preferred as UWB technology transmit and receive pulse based waveform compressed in time. Because of compressed time pulse data rate is very high and as the power of pulse is spread over the large frequency band so noise interference is very less. Many planar antennas have been anticipated for UWB. Band or ul tra-wide band performance can also be achieved. In addition, a UWB antenna is preferentially non- dispersive, having a fixed phase center.

If waveform dispersion occurs in a predictable fashion it may be possible to compensate for it, but in general it is desirable to radiate similar wavefo rms in all directions. A log- periodic antenna is an example of a dispersive antenna. Larger scale components radiate low frequency components while smaller scale components radiate high frequency components. The result is a chirp-like, dispersive waveform. Worse, the waveform will vary at different azimuthal angles around the antenna. Again, a multi-band or OFDM approach may be more tolerant of dispersive antennas.

Ultra-w ideband has its origins in the original “spark-gap” transmitters that initiated radio technology. 7 UWB systems have been historically based on impulse radio since it has transmitted very high data rates by sending pulses of energy instead of using a narrowband frequency carrier. The concept of impulse radio dates back to the pulse based spark gap radio developed by Guglielmo Macroni in the late 1800’s. It was use d for several decades to transmi t Morse code through the airwaves. Ironically, the very patent which initiated the concept of narrowband frequency domain radio also revealed some of the first ultra-wideband antennas. In 1898, Oliver Lodge presented the idea that a transmitter and a receiver should be tuned to the same frequency so as to maximize the received signal.

Double Ridgid Horn Antenna Designs For Wideband Applications For Macbook Pro

Lodge disclosed spherical dipoles, square plate dipoles, biconical dipoles, and triangular or “bow-tie” dipoles. He also introduced the concept of a monopole antenna using the earth as a ground. Figure 2: Lodge preferred antennas As frequencies increased and waves became shorter, the economic advantages of a “thin-wire” quarter wave antenna superseded any performance advantages of Lodge’s original designs.

Double Ridgid Horn Antenna Designs For Wideband Applications For Mac Download

With the ad vent of research into television h owever, interest in antennas that could handle th e much wider bandwidths associated with video signals increased.