Showing results: 196 - 210 of 689 items found.
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MSRA -
Microflown AVISA B.V.
In a peer to peer conflict, weapon location radars used for counter battery purposes will be extremely vulnerable.With aerial/satellite based surveillance available for the opponent, radars will be seen. With electronic warfare means being omnipresent, radars will be triangulated and jammed. There is an urgent need for 24/7 persistent surveillance with (preferably) passive sensors. With mobility being the key for survival on the battlefield, rapid re-deployable, or even truly mobile sensor capabilities are required. Therefore, the traditional sheer sound pressure based sound ranging capability becomes obsolete, as the triangular footprint of the sensor nodes is too large to be installed on a manned, or unmanned platform. With the trend towards longer ranges and “shoot and scoot” drills, the concept of capturing the muzzle blast noise becomes questionable, as the speed of sound is too slow to provide timely localizations.
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Microflown AVISA B.V.
This all fuels the need to redefine effective approaches in counter battery, in particular for the functions usually fulfilled by weapon location radars: target acquisition, fire control and prediction of impacts.
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Smiths Interconnect
Smiths Interconnect supplies waveguide couplers, combiners and splitters for a variety of space, defense and air defense radar applications. These devices are designed to complement our waveguide isolators and terminations.
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Stratign
These systems comprise of Radars and Cameras and can give early warming to the commanders about any intrusion/breach of perimeter of any restricted area. These can be integrated with jammers to tackle drone threats too.
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Sumitomo Electric Industries, Ltd.
GaN HEMTs, GaAs FETs , MMICs, and low-noise HEMT solutions offer high performance and uncompromised reliability for radar, base stations, SATCOM, point to point, and space applications.
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ZTS Technologies Co., Ltd
Three port devices designed to provide isolation between transmit and receive signals for radar, actively electronically steered antenna (AESA) arrays, satellite communications, and telecommunications applications.
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CAES
CAES is able to develop high performance, differentiated MMIC solutions for a variety of applications including communications, radar and electronic warfare, supporting frequency ranges from DC to 60 GHz.
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PI-01, PI-01E, PI-03, PI-05 -
EMC Test Design, LLC
Modern design probes meeting the requirements of most EMC and RF safety standards for RF safety, industrial, military and radar communication applications: 0.2-1000 V/m, 10 KHz-40 GHz.
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Teledyne Lincoln Microwave
Solid State Power Amplifier (SSPA) technology continues to offer opportunities to displace Travelling Wave Tube Amplifiers (TWTA) from radar, communication and Electronic Warfare (EW) applications.
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DP-VME-1242 -
Data Patterns Pvt. Ltd.
DP-VME-1242 is VME64x, 6U single-slot solution for high sampling rate and down conversion applications. Applications include - IF signal processing, radar systems, communication systems, and GPS systems.
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M4K708 -
Excalibur Systems, Inc.
The M4K708 module is an ARINC-708 / 453 2-channel test and simulation module for the Weather Radar Display Databus. The M4K708 supports two ARINC-708 / 453 channels, each selectable as transmit or receive.
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IC-GRA-XMCe -
ELMA Electronic, Inc.
The IC-GRA-XMCe is an ultra-low-power graphic XMC mezzanine board providing cutting-edge video quality and performance for military/aerospace (radar, SIGINT, ELINT, COMINT), medical imaging applications and industrial applications.
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Macom Technology Solutions Holdings Inc.
MACOMs linear amplifiers offer high IP3, power up to 2.5 W and are offered in a variety of DIE and package types to simplify point-to-point wireless, SATCOM/VSAT, and radar system design.
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CAES
In addition to space applications, CAES rotary joints are used on many different platforms throughout the world, including ground-based and airborne advanced military radar, telemetry and air traffic control systems.
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Automated Precision Inc.
DYNAMIC 9D LADAR provides micron-level resolution while eliminating issues associated with surface reflectivity, slow data acquisition speeds, limited accuracies, restrictive incident angles, and susceptibility to production environment noise.Laser Radar systems require large sample averaging to obtain reasonable accuracy, effectively slowing data rates. API’s OFCI technology uses fast laser chirping to generate a wide spectrum for optical interference. The interference signal detected yields 100x higher sensitivity than Laser Radar.