Biconical Antennas
attenna conductors are flared into two cones diametrically opposed, sharing a common axis and vertex.
See Also: Antennas, Broadband Antennas, Log Periodic Antennas, Directional Antennas, HF Antennas, Horn Antennas, Isotropic Antennas, Loop Antennas, Antenna Software, Antenna Analyzers, Dipole Antennas
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Product
Antenna Pedestals
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Kratos Defense & Security Solutions, Inc.
Kratos provides a range of high duty cycle, full-motion pedestals for such applications as fixed ground terminal surveillance and gear-driven pedestals for tracking antennas, communications systems, and weather radar. Manufactured to ISO9001 standards, they support different diameter antennas and radome requirements.
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Product
Direction Finding Spinning And Bifilar Helical Antennas
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Kratos Defense & Security Solutions, Inc.
Kratos’ Direction Finding (DF) spinning antenna system is designed for mobile, marine, and airborne applications. DF antennas are capable of measuring the direction from which a received signal was transmitted. Kratos’ Bifilar Helical antenna has been engineered for rapid assembly and survival in winds up to 115 mph. Bifilar Helical antennas are widely used for satellite communications.
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Product
CB Antennas
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Recommended by virtually every equipment manufacturer for their proven and time-tested technical compliance, Shakespeare CB antennas deliver value and quality.
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Product
Rectangular Horn Antennas
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SAGE Millimeter wave rectangular gain horns, also called pyramidal gain horns, are offered as both standard and custom models with a rectangular waveguide interface. The pyramidal gain horns only support linear polarization. With a calibrated gain chart, these horns can be used to measure the gain of other antennas by comparing the generated signal levels of both. For this reason, these horns are also referred to as standard gain horns. The listed models offer 23 dB nominal gain, 10/11 degrees typical half power beamwidth and 14 dB/30 dB typical side lobe levels at the center frequency of the band. These horns cover full waveguide bandwidths within the frequency range of 8.2 to 170 GHz. In addition to the models listed below, models with 10, 15, 20 and 25 dB gain and other frequency bands are also available.
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Product
Dual Polarized Scalar Feed Horn Antenna, 24 to 42 GHz, 15 dBi
SAF-2434231535-358-S1-280-DP
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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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Product
GPS Antenna Signal Splitter 6 Way, SMA, Passive, L1 & L2, 50 Ohm
GPS610
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INSTOCK Wireless Components, Inc
GPS L1 - L5, GLONASS, Galileo SplitterLow Insertion Loss (0.3 dB avg)High Port to Port Isolation (30 dB avg)Excellent VSWR (1.10 : 1 avg)15 VDC & 75 mA max on DC block portsRoHS Compliant Splitter Construction
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Product
Antennas for 60 GHz
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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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Product
Gaussian Optics Lens Antennas
SAG-1441544002-06-S1
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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.
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Product
Antenna Coupler, 600 MHz - 8 GHz
dbCOUPLER MINI
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Have an application where space may be an issue? The dbCOUPLER MINI provides comparable performance at 2/3 the size of the standard dbCOUPLER.
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Product
WiFi, Bluetooth, & BLE Antennas
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Our wide selection of internal and external Wifi antennas and Bluetooth antennas enable connectivity for multiple devices in nearly any location.
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Product
256-Element Active Antenna Innovator’s Kit
AWA-0142
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The AWA-0142 is an active array for 5G wireless applications developed using planar antenna technology resulting in a very low profile, lightweight unit. The surface mount assembled antenna board is based on Anokiwave’s AWMF-0135 Silicon Quad Core IC and demonstrates the performance achievable using low power silicon integration and efficient antenna layout and design. Using the AWMF-0135, the antenna provides +60dBmi (1000 W) of EIRP. The electronic 2D beam steering is achieved using analog RF beam forming, with independent phase and gain control in both Tx and Rx operating modes. The AWA-0142 antenna leads the way in showing how 5G coverage can be rolled out by network operators using the mmW bands, with low power footprint and high energy efficiency, while meeting key operating specifications for data rate, latency, coverage, and reliability.
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Product
Lens Corrected Antennas
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Lens corrected antennas are offered with either a circular or rectangular waveguide interface. While lens corrected 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. These antennas are designed and constructed to offer high efficiency, low side lobes and a rugged mechanical configuration. In general, lens corrected antennas are ideal for achieving gain levels of up to 30 dB with moderate side lobe rejections. Additionally, its dielectric lens provides phase error corrections and serves as a radome to protect from environmental conditions.
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Product
VHF/UHF Handheld Signal Location Antennas
Type NVF-2
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The Type NVF-2 series of handheld directional antennas are used to locate interfering signals or noise in either the 420 – 470 MHz (Type NVF-2A) or the 900 MHz ISM band or cellular telephone bands (Type NVF-2B). Both models incorporate a solid reflector positioned behind a resonated half wave driven element, both elements being mounted on a fiberglass rod with an integral pistol grip. The configuration of the reflector and driven element are such that a deep null in the signal being received will occur when the antenna is pointed in the direction of the signal being radiated. A T-pad resistive attenuator is also incorporated in the antenna mounting enclosure to aid in the direction finding process on very strong signals or when excessive reflections present multiple returns.
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Product
Antenna, Loop
EM-6874 | 20 Hz – 30 MHz
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The EM-6874 Loop antenna is nominally used 20 Hz to 30 MHz and is designed for uncalibrated substitution measurements of shielding effectiveness as described by MILSTD-285, IEEE STD 299, and NSA-65-6.
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Product
Antenna Noise Canceller
ANC-4
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The ANC-4 is an rf device that eliminates or reduces power line noise, BPL noise, computer noise, TV-generated interference, and other types of electrical noise. The ANC-4 unit connects right to the antenna connector of the receiver or transceiver to cancel locally generated noise before it gets into the receiver and affects the receiver AGC circuits.
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Product
Antenna Sharing Combiners
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*Combines two base stations to a common antenna and preserves receive diversity*Dual technology units in low band, high band, including AWS*Adjustable gain up to 10 dB*AISG 2.0 compliant
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Product
Loop Antennas
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A.H. Systems' designs, manufactures and delivers high performance Loop Antennas for a wide range of magnetic field testing. Whether used in a set to measure shielding effectiveness per MIL-STD 285 and NSA 65-6 or individually to satisfy specific requirements,
