Showing results: 31 - 45 of 49 items found.
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SAF-2434231535-358-S1-280-DP -
ERAVANT
Model SAF-2434231535-358-S1-280-DP is a dual polarized, WR-28 scalar feed horn antenna assembly that coversseveral popular 5G bands in the frequency range of 24 to 42 GHz. The antenna features an integrated orthomode transducer (OMT) that provides high port isolation and cross-polarization cancellation and a broad band scalar horn that provides low side lobe levels.
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Pasternack Enterprises, Inc.
Waveguide horn antenna is also known as a WR-15 horn antenna. This WR-15 waveguide horn antenna has a dB nominal gain and a ug-385/u flange. Our dB WR-15 horn antenna has a minimum frequency of 50 GHz and a maximum frequency of 75 GHz.
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Flann Microwave Ltd.
Flann offers a wide range of antenna designs including Standard Gain Horns, Sectoral Horns and Lens Horn Antennas. Additionally Flann has a comprehensive custom design capability for bespoke antennas
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Pasternack Enterprises, Inc.
Pasternack antennas for 60 GHz applications, also referred to as 60 GHz gain horn antennas or horn antennas, are broadband passive devices to direct a beam radio waves at a precise frequency. Antennas for 60 GHz from Pasternack use either a UG-385/U or a UG-387/U flange size.
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Precision Milimeter Wave
Standard gain horns can be used to experimentally determine the gain of other antennas by using the substitution method. The standard gain horn and the antenna under test are alternately connected to a well matched detector system in order to compare their relative power levels. The power level difference is then added to the appropriate level of the calibration curve to determine the absolute gain of the antenna under test.View more Standard Gain Horn Antennas
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CAES
Horn and Notch Antennas perform well over wide bandwidths while providing directive radiation patterns and moderate gain levels. CAES offers an extensive range of products including conical, pyramidal and sectoral horn antennas, as well as dual-polarized, high-power tapered notch antennas.
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RF-LAMBDA Inc.
Waveguide horn antennas offering broadband performance and high gain
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Ducommun Inc
Ducommun millimeter wave products include ACH, ARH and ALC series circular, rectangular gain horn antennas and lens corrected horn antennas for system applications. Low side lobes, ridged configuration and low cost are the main features of these antennas. The standard gain value and half power beamwidth at mid-frequency point of each waveguide band are 23 dBi and 9 degrees, respectively. Other gain values are available as customer order. These antennas cover the frequency range of 18 to 110 GHz.
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Antenna Research Associates
ARA has RF receive solutions for mobile, man portable and fixed site applications for electronic warfare and ISR missions. Our systems include receive only omni RF systems, RF intercept solutions, broadband omni antennas, directional antennas for tactical deployments, and multioctave band horn antennas.
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Compass Technology Group, llc
CTG recently developed a new paradigm in linearly-polarized antennas called the Flat Lens Antenna Technology or ‘FLAT’. These antennas have directivities similar to conventional dual-ridge antennas, but in a much lighter and “flatter” package. They can be used as a direct replacement for conventional horns for a wide variety of applications. They are made using composites technology so are also rugged and are ideal for both indoor and out-door applications.
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Smiths Interconnect
A vast portfolio of wideband and directional antennas featuring TECOM technology, including log-periodic and horn antennas, ranging from 20 MHz to 40 GHz. For use as standalone antennas or reflector feeds in parabolic antenna systems, they are deployed in broadband surveillance, tracking, and jamming systems. Our vast array of omnidirectional antennas include: conical spirals for broadband surveillance; slant linear bicones for shipboard DF applications; UHF/ VHF stackables for air-to-ground communications; and airborne instrumentation antennas.
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Efield AB
Efield® offers a complete and unique integrated modelling and simulation environment for 3D analysis of a wide range of electromagnetic applications such as: Antenna design All kind of antennas including horn, reflector, wire and microstrip antennas as well as broadband antennas and antenna arrays. Antenna integration Radiation pattern of installed antennas on large platforms such as aircraft or ships. Coupling between installed antennas. Microwave design Typical applications includes design of filters, connectors and couplers. EMI/EMC interaction Analysis of a wide range of EMC/EMI problems including shielding and coupling. Scattering & radar cross-section RCS analysis of structures such as aircraft, ships, air-intakes, exhausts, and antennas.
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ERAVANT
A lens antenna is a directional antenna that uses a shaped piece of microwave-transparent material to bend and focus microwaves by refraction, as an optical lens does for light.[1] Typically it consists of a small feed antenna such as a patch antenna or horn antenna which radiates radio waves, with a piece of dielectric or composite material in front which functions as a converging lens to collimate the radio waves into a beam.[2] Conversely, in a receiving antenna the lens focuses the incoming radio waves onto the feed antenna, which converts them to electric currents which are delivered to a radio receiver. They can also be fed by an array of feed antennas, called a focal plane array (FPA), to create more complicated radiation patterns.
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ERAVANT
Dual polarized horn antennas are offered as both standard and custom models with rectangular waveguide interfaces for both horizontal and vertical ports. These dual polarized horn antennas support both linear and elliptical polarized waveforms. When the antenna receives a circular polarized waveform, equal amplitude linear polarized waveforms are output at both horizontal and vertical ports. When two equal amplitude linear polarized waveforms are input into the vertical and horizontal ports, the antenna will transmit a circular polarized waveform. The listed models offer 15 dB nominal gain and 33/28 degrees typical half power beamwidth at the center frequency of the band. They also exhibit 40 dB typical port isolation and 35 dB nominal cross polarization. These antennas cover full waveguide bandwidths within the frequency range of 8.2 to 110 GHz. In addition to the models listed below, models with 10, 20, 23 and 25 dB gain and other frequency bands are also available.
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SAG-1441544002-06-S1 -
ERAVANT
Gaussian optics lens antennas are offered with either a circular or rectangular waveguide interface. While Gaussian optics lens antennas with a rectangular waveguide interface can only support linear polarization, models with a circular waveguide interface can support various polarization types including horizontal, vertical, left-handed circular, and right-handed circular polarization for broader applications. Gaussian optics lens antennas are designed and constructed to offer high efficiency, low side lobes and a rugged mechanical configuration. A corrugated feed horn and dielectric lens allow these antennas to form well-defined Gaussian beams. Additionally, the dielectric lens provides phase error corrections and serves as a radome to protect from environmental conditions.
