Showing results: 16 - 30 of 132 items found.
-
iWave Systems Technologies
iWave 3U VPX High-Speed Video/Data Processing Card is a rugged standalone module in the 3U VPX form factor, aimed for the high-speed data, video processing, and display applications is ideal for military, defense, and aerospace applications requiring an optimal balance of performance and power efficiency. iWave 3U VPX High-Speed Video/Data Processing Card is implemented using Xilinx Kintex-7 device architecture and has I/O interfaces including High speed 16 channels of transceiver interfaces capable of operating up to 6 Gbps data rate, Gigabit Ethernet, RS232, RS422, PCIe interface, Built-in health monitoring circuits, HDMI input, and output interfaces
-
GT9000P-USB3 -
Guide Technology, Inc.
A 2 channel Portable “CTIA” and/or “TIC” Test Platform controlled by USB3
-
GT9000 -
Guide Technology, Inc.
GT9000 is a scalable 2 to 10 channelsBench-Top CTIA and/or TIC Test Platformwith 10” touch-screen-display (iPhone quality), integrated GUI with Touch, Ethernet, WiFi and/or wireless keyboard & mouse.
-
GT9000R -
Guide Technology, Inc.
GT9000R is a scalable 2 to 24 channels 19”Rack-Mount CTIA and/or TIC Test Platformwith integrated GUI, Ethernet, Wi-Fi and/orwireless keyboard & mouse.
-
CATR Radar Test System UTP 5069 -
NOFFZ Computer Technik GmbH
Modern driver assistance systems must recognize increasingly complex traffic scenarios and convert them into appropriate vehicle reactions with the help of artificial intelligence (AI) and specific algorithms. Imaging radar sensors with a higher spatial resolution, so-called imaging radar sensors, are therefore required. These can better distinguish larger from smaller objects and, due to the larger antenna apertures, also require larger dimensions of the test environment or larger far-field distances. Testing these sensors in the direct far field ( UTP 5065 ) would therefore require very large absorber chambers up to ten meters in size and more.Our efficient test system UTP 5069 offers exactly the right solution:By using CATR technology (Compact Antenna Test Range), 4D, imaging and other radar sensors with large far-field distances are calibrated with high precision in a small footprint. With the extremely low-reflection NOFFZ absorber chamber, the system is very well suited not only for validation, but also for EOL tests.
-
KEYCOM Corp
KEYCOM develops various radars for versatile applications based on its knowledge and expertise on millimeter wave and microwave technologies. KEYCOM’s product line of radars includes Radar Test Systems (RTS) to evaluate distance accuracy or output, Radar Alignment Systems (RAS) to help you adjust the alignment of radars, and Radar Cross Section (RCS) measurement systems to measure RCS of such radar targets as aircraft, ships and automobiles.
-
XRC -
KEYCOM Corp
KEYCOM develops various radars for versatile applications based on its knowledge and expertise on millimeter wave and microwave technologies. KEYCOM’s product line of radars includes Radar Test Systems (RTS) to evaluate distance accuracy or output, Radar Alignment Systems (RAS) to help you adjust the alignment of radars, and Radar Cross Section (RCS) measurement systems to measure RCS of such radar targets as aircraft, ships and automobiles.
-
Antenna Research Associates
Antennas for RADAR test, simulation and training are designed for integration into complete threat RADAR simulators for use on combat training and test ranges or in simulators for training and evaluation of RADAR operators, aircrews, air-traffic-control or weather radar applications. All antennas for RADAR simulators have high RF power handling capabilities and generally use pressurized transmission lines. Dual-band, single aperture antennas and a cluster of separate antennas mounted to a single pedestal are ideally suited for RADAR simulators in mobile, fixed, shipboard and airborne environments.
-
SPx -
Cambridge Pixel Ltd.
SPx Radar Simulator is a Windows-based application that generates simulated radar video data, along with any combination of tracks, AIS, navigation and secondary radar. The data may be output in network format (including ASTERIX for radar video and tracks), or as radar signals (video, trigger, ACP/ARP) with the HPx-300 radar output card. The simulation software provides an excellent test tool for the creation of complex multi-radar, multi-target simulations of radar and related data, allowing systems to be tested before access to real radar data.
-
TA-3B -
Tech-Aid Products
A weather radar panel similar to the TA-3 panel but with more specific test jacks for testing the Primus 300/400 series radars. Specific test jacks for power supply, antenna and indicator.
-
TA-270 -
Tech-Aid Products
Universal weather radar test panel with integral gyro simulator and monitor jacks. Discrete test jacks for common signals, altitude select switches and a dedicated connector for the RDS series radars.
-
Data Patterns Pvt. Ltd.
The Generic RF ATE is developed to test the Radar and Radar Subsystems. The ATE is primarily built using an instrumentation control, precision RF routing systems and rack mounted test instruments. Generic RF ATE system enables measurement of parameters of Radar equipment such as Local Oscillators, Waveform Generators, Up and Down Converters, Analog Receivers, Array Group Receiver Units, TR Modules. The ATE is configured to test the Radars upto 18GHz frequency range.
-
Ace Wavetech
AWT's Radar Simulator can generate a various modern Radar Signal(s) and give you a variety of capabilities to test many different receivers covering 0.5 to 40 GHz such as the receivers of RWR, MWR and other EW Receivers. It generates lots of Radar signals according to the operator's intention. We have a series of Radar Simulators from Portable type to 19 rack mount types. With AWT's portable Simulator, you can use it without limitation of your test. It has internal transmit antenna and amplifier, so you can place it away from your receiver under tests. With 19rack mount types, you can make your own scenario to generate the Radar signals for your test procedures or test purpose.
-
ERAVANT
Automotive radar sensors play a vital role in the current development of autonomous driving. Their ability to detect objects even under adverse conditions makes them indispensable for environment-sensing tasks in autonomous vehicles. As their functional operation must be validated in-place, a fully integrated test system is required. Radar Target Simulators (RTS) are capable of executing end-of-line, over-the-air validation tests by looping back a received and afterward modified radar signal and have been incorporated into existing Vehicle-in-the-Loop (ViL) test beds before. However, the currently available ViL test beds and the RTS systems that they consist of lack the ability to generate authentic radar echoes with respect to their complexity. The paper at hand reviews the current development stage of the research as well as commercial ViL and RTS systems. Furthermore, the concept and implementation of a new test setup for the rapid prototyping and validation of ADAS functions is presented. This represents the first-ever integrated radar validation test system to comprise multiple angle-resolved radar target channels, each capable of generating multiple radar echoes. A measurement campaign that supports this claim has been conducted.
-