Spelling suggestions: "subject:"radar - antennas"" "subject:"radar - dantennas""
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Optimization of an automatic tracking loop for radarDotson, Larry Davis, 1930- January 1961 (has links)
No description available.
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Vee dipole antennas for use in short-pulse ground-penetrating radarsMontoya, Thomas P. 05 1900 (has links)
No description available.
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Emitter identification using optical processorsHartup, David Carl 12 1900 (has links)
No description available.
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Stochastic near-field theory and techniques for wideband electromagnetic emitters at in-band and out-of-band frequenciesCown, Barry Joe 12 1900 (has links)
No description available.
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Measurement of time-varying surface displacements using a radarLee, Seung-Ho 05 1900 (has links)
No description available.
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A complete three-dimensional electromagnetic simulation of ground-penetrating radars using the finite-difference time-domain methodBourgeois, Jacqueline M. 05 1900 (has links)
No description available.
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The Haystack-Millstone interferometer system.January 1967 (has links)
Bibliography: p. 41.
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The design of an FM-CW proximity radarKellerman, Robert A. 04 1900 (has links)
Thesis (MScEng) -- Stellenbosch University, 2004. / ENGLISH ABSTRACT: The development of a small, cost effective short range FM-CW radar as well as the design
and optimization of a double helix antenna is discussed. The FM-CW radar operates at Sband
(2450 - 2550 MHz) and is limited at a maximum transmitted power of 5 dBm. The
system is required to detect reflections from objects up to a 30 m range. This was made
possible largely by the effective high gain antenna design and improved system isolation
between the transmitted and received signals.
The complete design process from fundamental requirements, through various simulations
and system analysis to the final electronic circuit is discussed. The design was also built and
measured in the laboratory and initial field measurements were taken. The following aspects
were considered:
Relation between the beat frequency and various FM-CW radar system
parameters based on the theory, preliminary measurements and simulations.
Radar component assessment and design.
Design of a low cost Lange coupler that isolates the system's transmit and
receive signals, which operates as a 90° hybrid and is used to feed a dual-fed
circularly polarized patch antenna.
A circularly polarized patch antenna and double helix antenna were designed,
built and measured in an anechoic chamber. The antennas were implemented
in the final radar system and compared on the basis of their contribution to the
system's performance.
Integrating the final radar system on a circular 60 mm diameter PCB with a
double helix antenna mounted on top.
The final radar system is able to measure range up to 40 m and meets all the design
requirements. The signal processing of the measured beat frequency, however, can be taken
further. / AFRIKAANSE OPSOMMING: Die ontwikkeling van 'n klein, koste effektiewe kort-afstand FM-CW radar, sowel as die
onwerp en optimalisering van 'n dubbele heliks-antenna word bespreek. Die FM-CW radar
werk by S-band (2450 - 2550 MHz) en is beperk tot 'n maksimum uitsaaidrywing van 5 dBm.
Van die stelsel word vereis om weerkaatsings van voorwerpe tot op 'n afstand van 30 m waar
te neem. Dit is grootliks moontlik gemaak deur die hoë aanwins antenna-ontwerp en
verbeterde isolasie tussen die stelsel se uitsaai- en ontvangseine.
Die volledige ontwerpsproses van die fundamentele vereistes af tot die finale elektroniese
stroombaan word bespreek. Verskeie simulasies andstelselanalises is gebruik om die finale
FM-CW radar te realiseer. Die ontwerp is vervolgens in die laboratorium gebou en gemeet en
aanvangsveldmetings is geneem. Die volgende aspekte is in nagevors:
Verband tussen die puls-frekwensie en verskeie FM-CW radar stelselparameters
gebaseer op die teorie, inleidende metings en simulasies.
Ontleding van verskeie radarkomponente en -stelselontwerp.
Ontwerp van 'n lae koste Lange-koppelaar met die doelom die stelsel se
uitsaai- en ontvangseine te isoleer. Die Lange-koppelaar dien as 'n 90° hibriede
wat gebruik word om 'n dubbele-voer sirkulêr gepolariseerde mikrostrookantenna
aan te dryf.
Verder is 'n sirkulêr gepolariseerde mikrostrook-antenna en 'n dubbele heliksantenna
ontwerp en opgemeet in 'n anarqoïese kamer. Beide antennas is
geïmplimenteer in die finale radarstelsel en is vergelyk op grond van hulle rol in
die stelsel se funksionering.
Die finale stelsel is geïntegreer en gebou op 'n ronde 60 mm deursnit PCB met
'n dubbele helix-antenna bo-op gemonteer.
Die finale radarstelsel kan afstand tot op 40 meter bepaal en voldoen aan al die gestelde
vereistes. Seinverwerking van die gemete puls-frekwensie kan nog verder ontwikkel word.
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Implementation of a wideband microstrip phased array antenna for X-band radar applicationsDavids, Vernon Pete January 2009 (has links)
Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2009 / This thesis presents the design, analysis and implementation of an eight-element phased array
antenna for wideband X-band applications. The microstrip phased array antenna is designed
using eight quasi-Yagi antennas in a linear configuration and is printed on RT/Duroid
6010LM substrate made by Rogers Corporation. The feeding network entails a uniform
beamforming network as well as a non-uniform -25 dB Dolph-Tschebyscheff beamforming
network, each with and without 45° delay lines, generating a squinted beam 14° from
boresight. Antenna parameters such as gain, radiation patterns and impedance bandwidth
(BW) are investigated in the single element as well as the array environment. Mutual coupling
between the elements in the array is also predicted.
The quasi-Yagi radiator employed as radiating element in the array measured an exceptional
impedance bandwidth (BW) of 50% for a S11 < -10 dB from 6 GHz to 14 GHz, with 3 dB to
5 dB of absolute gain in the frequency range from 8 GHz to 11.5 GHz. The uniform broadside
array measured an impedance BW of 20% over the frequency band and a gain between 9 dB
to 11 dB, whereas the non-uniform broadside array measured a gain of 9 dB to 11 dB and an
impedance BW of 14.5%. Radiation patterns are stable across the X-band. Beam scanning is
illustrated in the E-plane for the uniform array as well as for the non-uniform array.
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An active receiving antenna for borehole pulsed radar applicationsVan Wyk, M. D. 12 1900 (has links)
Thesis (MEng (Electrical and Electronic Engineering))--University of Stellenbosch, 2002. / An efficient radiating strucllire was needed for borehole pulsed radar applications in the 10-100
MHz frequency band. Both resistively loaded and insulated wire antennas were investigated and
an active antenna is proposed as a fmal solution.
The study proceeded from the characterization of the origin of radiation on a conductive dipole
wire antenna when excited with a transient. Different radiation mechanisms were identified when
the antenna was excited with a current or voltage source.
The wire antenna in insulated surroundings was modelled using transmission line theory to
simulate the antenna in the borehole environment. The transmission line model proved to be
useful for investigating conducting and resistively loaded antennas for the dimensions associated
with borehole surveys.
From the modelling results, it became apparent that the asymmetric resistively loaded antenna
might provide the best practical solution. This antenna displays reasonably stable input
impedance and low far-field variations for different theta angles across the desired frequency
band. Different percentage Wu-King resistive profiles were studied to show that a 50% reduction
in the normal Wu-King resistor values will add only a little ringing but have better amplitude
response than the 100% Wu-King loading.
The asymmetric resistively loaded antenna has better sensitivity to receiving transients when
combined with a high impedance source load than when symmetrically loading the antenna. An
active antenna incorporating the asymmetric resistively loaded antenna and a low noise current
feedback front end amplifier was built and measured in an air environment. The results show that
the active antenna has a flat transfer function and reacts as a wide band electric field probe with
better resolution than in the conventional 50 Q loaded case
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