Supplier: EMS Aviation
Description: Diplexer/Low Noise Amplifier (DLNA) provides an RF interface between the avionics and the antenna. An Antenna Control Unit (ACU) steers the antenna using ARINC 741 antenna-pointing vectors received from avionics. Aircraft specific radomes protect the antenna assembly and minimize drag forces.
- Applications: Aerospace / Military
- Meets Military / Aerospace Specifications: Yes
Supplier: ARC Technologies, Inc.
Description: ARC Technologies provides custom solutions for low to high volume production for energy control and reduction in composite applications for Radomes and other structures and housings. ARC Technologies also has internal and local machining capabilities to provide fast turnaround on composite parts
- Type / Form: Stock Shape / Custom Part
- Material Type: Textile / Composite
Description: 3M™ Poyurethane Protective Boots are made of very tough thermoplastic polyurethane elastomer with acrylic adhesive pre-formed to fit many industrial and common aircraft applications (including radomes, wing tips, landing gear, pods, prop spinners, etc.). They provide protection against damage
- Protective Function: Abrasion / Sliding Wear, Erosion, Impact, Specialty / Other
- Industry & Application: Military / Aerospace, Other
- Material: Plastic, Rubber / Elastomer, Urethane / Polyurethane
- Form: Loose Liner / Pre-fabricated
Supplier: U B Corp.
Description: A high power, half wavelength, coaxial dipole assembly encased in a fiberglass radome and mechanically structured for aircraft operation. The dipole is used instead of a monopole to increase horizon coverage and requires no ground plane.
- Polarization Type: Linear, Vertical Linear
- Primary Frequency Range: 8.00E8 to 2.00E9 Hz
- Gain: 2 dB
- VSWR: 1.5 :1
Supplier: R.A. Miller Industries, Inc.
Description: The AS-5071 is designed for use with Glide Slope receivers for reliable performance. The antenna is lightweight and is suitable for mounting either in a radome or externally on the aircraft. The antenna has an â€œNâ€ Female Connector and is finished with a chemical film
- Applications: Aerospace / Military
- Pattern Type: Directional
- Primary Frequency Range: 3.29E8 to 3.36E8 Hz
Supplier: EM Software & Systems
Description: . with an antenna placed on a large structure, e.g. ship, aircraft, armoured car EMC: analysis of diverse EMC problems including shielding effectiveness of an enclosure, cable coupling analysis in complex environments, e.g. wiring in a car, radiation hazard analysis Bio-electromagnetics: analysis
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Ultem* Foam For High Performance Applications
. Compatible with a wide range of laminates. Can be bonded to thermoplastic, metal, or thermoset laminates and prepregs. Product Applications: Stow Bins. Tray Tables. Radomes. Seating. Galleys. Antennas. Shelters. Ultra-premium Seating. Ship Masts. Ship - Below Deck. Aircraft Interiors. Dado Panels * Trademark of SABIC Innovative Plastics IP BV. To learn more about engineering thermoplastics, click here. (read more)
Browse Foam Cores Datasheets for SABIC
Cobham Antennas Systems
Ground to Air Control Multi-Sector Antennas
no moving parts) they are more reliable and are much lower cost than a steerable system and provide greater range (2-3 times) than a high gain Omni antenna. Multi Sector antennas can be designed for specific operational needs including communications from multiple aircraft, ground stations and mobile systems. We have a wide range choice of Multi Sectors with frequencies from 1 to 15GHz, gain from 10 to 17dBi, Vertical, Horizontal, Circular and ±45 ° polarisation, 3 to 12 sectors... (read more)
Browse Antennas Datasheets for Cobham Antennas Systems
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Methodology for the design assurance of aricraft lightning protection systems continued airworthiness
Past continued airworthiness of lightning protection was provided by non-scheduled maintenance of aircraft protective systems such as lightning diverter strips on an aircraft radome and careful return-to-service procedures including ensuring electrical bond are functional.
Reflectometer measurement approach for radome boresight error and loss contours
The electrical test of aircraft radomes are usually made on an outdoor far field test range, and are both extensive and expensive, often requiring days of effort per radome.
Breakdown of model aircraft radome dielectric shell in artificial charged aerosol clouds
Breakdown of model aircraft radome dielectric shell in artificial charged aerosol clouds .
Experimental study of the effect of artificial charged aqueous aerosol cloud on model aircraft radome
Experimental study of the effect of artificial charged aqueous aerosol cloud on model aircraft radome .
Handbook of Antenna Design, Vol. 2
5 'Inorganic Radomes' MOOREFIELD, S. A., and ROGERS, T. R.: 'The development of a lightweight advanced aircraft radome '.
The Lightning Protection Tests for the Radome in Y7-200A Aircraft of China
The Y7-200A aircraft radome with the diverters has been tested and optimized against the lightning destruction with these facilities.
Design and development of rectangular patch antenna with superstrates for the application in portable wireless equipments and aircraft radome
Design and development of rectangular patch antenna with superstrates for the application in portable wireless equipments and aircraft radome .
Studying electromagnetic interference spectrum in antenna under aircraft radome using models with artificial charged aerosol clouds
Studying electromagnetic interference spectrum in antenna under aircraft radome using models with artificial charged aerosol clouds .
Lightning strikes to aircraft radome: Electric field shielding simulation
Lightning strikes to aircraft radome : Electric field shielding simulation .
Frontiers in Antennas: Next Generation Design & Engineering > Numerical Methods in Antenna Modeling
Dipole Array in an Aircraft Radome .
Analysis of existing radioparent refractory materials, composites and technology for creating high-speed rocket radomes. Part 4. Ceramic technology for produci...
E. I. Suzdal’tsev,, “Synthesis of highly thermal shock resistant radioparent glass ceramic materials and development of manu- facturing technology for aircraft radomes based on them,�? Dis. Doc.