Showing results: 106 - 113 of 113 items found.
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CM8 -
North Atlantic Industries
The CM8 module is a combination of NAI's MIL-STD-1553B module, FTB, and Enhanced Discrete I/O module, DT4. The CM8 offers twelve channels of discrete I/O and two channels of MIL-STD-1553B communications. The twelve discrete I/O channels are programmable as either input (voltage or contact sensing with programmable, on-module pull-up/pull down current sources), or output (current source, sink, or push-pull) up to 500 mA per channel from an applied, external 3-60 VCC source. The discrete I/O channels also provide additional functionality modes such as Pulse Width Modulation (PWM) output mode and Pattern Generator output mode. The two MIL-STD-1553B communications channels feature a dual, redundant, balanced-line, physical layer; a (differential) network interface; time division multiplexing; half-duplex command/response protocol; and up to 31 remote terminals (devices).
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RF-LiveSim -
TestTree
Covering a frequency range from 50 to 900 MHz, RF Live Simulator can emulate RF channels propagation modes in real-time for a signal bandwidth from 20 kHz to 20 MHz (gaussian noise, multipath, Doppler and frequency drift tools). RF-LiveSim is a cost effective solution for intense automatic non regression tests at the physical layer level. RF-LiveSim includes 1x RF input and 1x RF output ports, and provides a complete set of channel models, either for fixed or mobile propagation environments. Whatever the standard, any type of receiver can be tested. Thanks to its real-time process, from your basic original signal, RF-LiveSim can perform, for instance, efficient regression testing of LTE solutions to check the good behavior and the limits of your receiver when multipathes, Doppler and Gaussian noise are applied.
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Teledyne LeCroy
Compute Express Link (CXL) is a new high-speed CPU-to-Device and CPU-to-Memory interconnect designed to accelerate next-generation data center performance. CXL technology maintains memory coherency between the CPU memory space and memory on attached devices, which allows resource sharing for higher performance, reduced software stack complexity, and lower overall system cost. This permits users to simply focus on target workloads as opposed to the redundant memory management hardware in their accelerators. CXL is based on a PCI Express 5.0 Physical layer with speeds up to 32GT/s. Teledyne LeCroy provides protocol analysis test equipment to support development and debug of CXL based devices.
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Macom Technology Solutions Holdings Inc.
MACOM’s portfolio of 10G/25G/40G/50G/100G Ethernet Physical Layer (PHY) devices offer unparalleled performance while maintaining high density at low cost. Integrated high-speed, high performance mixed signal I/O using advanced CMOS process nodes support a variety of optical and copper connectivity interfaces allowing the Ethernet PHY product line to span rack and cluster connectivity within the data center, wireless fronthaul, midhual and backhaul connectivity for 5G wireless infrastructure, and seamlessly extend to core networks over DWDM optical links. Advanced features such as in-service eye monitors, traffic monitoring, optical module identification and link training are just a few of the advantages that MACOM’s portfolio provides for end users to leverage for faster bring up, higher reliability and smarter networks.
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OTR 1001 -
OmniTek
The Omnitek OTR systems offer a combined data analyzer and test signal generator in a rackmount format. The OTR 1001 system is provided in a 1RU format; the OTR 1003 is provided in a 3RU format. As data analyzers, the OTR systems offer full resolution picture monitoring; comprehensive SDI input status information; waveform, vectorscope and gamut displays; and SDI physical layer analysis including eye-pattern and jitter displays. As signal generators, they provide a full range of standard test patterns and zone plates; uncompressed video capture and play-out; gain, noise, bounce and jitter insertion; audio tones, timecode, WSS, video index and SMPTE 352 generation. The facilities offered have recently been enhanced through the addition of a Stereo 3D monitoring option, providing a comprehensive range of colorimetry and depth-analysis functions.
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Avionics Interface Technologies
Our Fibre Channel products support most popular avionics Upper Layer protocols including FC-AE-ASM, FC-AE-1553, FC-AE-RDMA and FC-AE-AV. All AIT Fibre Channel modules utilize multiple processors with large onboard RAM. An onboard processor runs the driver software, minimizing host CPU interaction, enabling autonomous operation with minimal interaction during time-critical applications.The Fibre Channel products use our Simulyzer™ technology that enables the hardware to simultaneously perform Fibre Channel data generation and Fibre Channel monitoring on the same physical board. The Fibre Channel test products include full-function device driver software for the most popular operating systems, an application interface supporting development environments, as well as a comprehensive set of source code examples.
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DSA DOCSIS -
Rohde & Schwarz GmbH & Co. KG
Only the highest signal quality ensures maximum throughput. The R&S®DSA DOCSIS signal analyzer has been designed to support users by ensuring the highest signal quality. DOCSIS is the standard for transmitting IP data within hybrid fiber coaxial (HFC) cable TV networks. The new DOCSIS 3.1 standard supports unprecedented data rates, meeting the demand for increased data throughput. The R&S®DSA allows precise, gapless signal analysis of DOCSIS 3.0, EuroDOCSIS 3.0 and DOCSIS 3.1 signals on the physical layer in realtime. A user can detect effects that degrade signal quality, e.g. ingress, reflections and laser clipping. With its dual receivers, the R&S®DSA analyzes downstream and upstream signals.
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Echola Systems LLC
Echola's Optical Patch Panel Automation switch allows test engineers/system developers to dynamically reconfigure testbed connections from remote. It reduces test configuration time as they don't need to make any physical fiber connections for each set of tests, so more testing can be performed with fewer resources. It provides all-optical connectivity with zero latency and can be used with any protocols and speed. Unlike O-E-O (optical to electrical to optical conversion) switches you don't need expensive transceivers for each port. The all-optical connectivity also allows systems under test to be tested without introducing another variable (ie, another conversion layer which could introduce significant latency). The patch panel automation switch allows users to configure, control and monitor the device from remote using any standard internet browser, a command line interface (CLI) via Telnet or SSH and SNMP v2c. The event notifications are supported through Syslog. It can be automated using TCL based scripts.
