Showing results: 1966 - 1980 of 5359 items found.
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81195A -
Keysight Technologies
The Optical Modulation Generator Software 81195A introduces a new approach to optical test. Combined with the M8195A AWG it speeds up your test by a factor of up to 100 with its unique real-time mode. This helps design engineers of long-haul and metro optical transmission applications to maximize test efficiency and thus reduce development time and cost.
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783763-01 -
NI
The NI-7931 features a programmable FPGA and embedded processor optimized for deployment in the field for reliable, extended operation for applications requiring advanced I/O capability with embedded signal processing. It includes a Xilinx Kintex-7 325T FPGA, 2 GB of onboard DDR3 DRAM, and a dual‐core ARM Cortex‐A9 processor running NI Linux Real‐Time.
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Zoom50 Series -
GeoMax
When you need highest performance on all levels even under most challenging conditions, the GeoMax Zoom50 series is the perfect choice for you. The longer measurement range means a wider operational coverage and significant less time lost with switching setups. The new PowerLock protection mechanism prevents use by unauthorized persons and deters theft.
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VCD2ATE -
Test Insight Ltd.
VCD2ATECost effective link simulation to ATE conversionDirect conversion from event driven design simulation dump (VCD/EVCD) to specific tester program files. VCD/eVCD to tester conversion Simple and cost effective conversion solution Simple cycle definition in excel High Performance Fast run time Handles very large files >6Gb
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Tempsens Instrument Pvt. Ltd.
Tempsens offers NABL Accrediated on-site calibration i.e. calibration of temperature sensors at customers plant or site.Our experienced and trained Engineers visit site or plant as scheduled by our customer to calibrate the instruments, usually without the time and expense of removing and reinstalling them. Work is performed with minimal disruption, and detailed documentation is provided upon completion.
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AIM GmbH
AIM’s ARINC825 cards can work either with full functionality as an active CAN node for testing and simulating or in listening only mode for monitoring and recording purposes of Avionic CAN bus (ARINC825) applications on up to 4 electrically isolated CAN bus nodes concurrently. All nodes are in conformance with the ISO11898-1/-2 standard. They are accessible by software separately and can be used as 4 independent CAN bus nodes. An onboard IRIG-B time decoder allows users to accurately synchronize single or multiple modules to a common time source. All supported signals are available through front I/O and rear I/O interface. ARINC825 cards consist of FPGA based CAN interface controllers as well as a FPGA based 32-bit microcontroller core and a separate processor for IRIG-B synchronization with high resolution time stamping. All nodes are operating concurrently at CAN bus high speed bit rate of up to 1Mbit/s with the intelligence to process scheduling of CAN frames in real time onboard to significantly off-load the host processor.For embedded applications the AMC825-4 PMC module is available in a conduction cooled version. Using AIM’s family of PCI, CPCI (3U and 6U) and VMEbus carrier cards for PMC our clients have off the shelf solutions in a broad range of card formats. ARINC825 (CAN bus) modules are delivered with an Application Programming Interface (API) and Driver Software compatible with Windows, Linux and VxWorks.An ARINC825 Resource Component is available for AIM’s PBA.pro™ databus test and analysis tool including Tx and Rx simulation capabilities, a Chronological Bus Monitor and support for decoding of payload data within CAN messages. This allows to implement a powerful ARINC825 (CAN bus) analyzer or a complete test system in conjunction with other AIM avionics databus interfaces and PBA.pro™ supported 3rd party hardware.
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Avionics Interface Technologies
Support for up to 30 Network Interfaces (Fibre Channel & Ethernet)Time Synchronization with IRIG-B & IEEE 1588 Master ClocksFull Data Capture with time stampingData simulation with precise timing & synchronizationNetwork data replay from previously captured trafficPerform Network analysis using AIT's intuitive, easy to use, Ethernet & Fibre Channel simulation tools
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OSA201C -
Thorlabs, Inc.
Thorlabs' Optical Spectrum Analyzers (OSAs) perform highly accurate spectral measurements. Compatible with fiber-coupled and free-space light sources, these compact benchtop instruments suit a wide variety of applications, such as analyzing the spectrum of a telecom signal, resolving the Fabry-Perot modes of a gain chip, and identifying gas absorption lines. Many commonly available OSAs use grating-based monochromators, which have slow acquisition times due to the need to mechanically scan the grating and average out noise at each wavelength. Thorlabs' OSAs acquire the spectrum via a Fourier transform using a scanning Michelson interferometer in a push/pull configuration. This approach dramatically improves the acquisition time, enables a high-precision wavelength meter mode with 7 significant figures and ±1 part-per-million accuracy, and allows the included software to provide robust statistical analysis of the acquired spectra, as explained in the Design tab.
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OSA202C -
Thorlabs, Inc.
Thorlabs' Optical Spectrum Analyzers (OSAs) perform highly accurate spectral measurements. Compatible with fiber-coupled and free-space light sources, these compact benchtop instruments suit a wide variety of applications, such as analyzing the spectrum of a telecom signal, resolving the Fabry-Perot modes of a gain chip, and identifying gas absorption lines. Many commonly available OSAs use grating-based monochromators, which have slow acquisition times due to the need to mechanically scan the grating and average out noise at each wavelength. Thorlabs' OSAs acquire the spectrum via a Fourier transform using a scanning Michelson interferometer in a push/pull configuration. This approach dramatically improves the acquisition time, enables a high-precision wavelength meter mode with 7 significant figures and ±1 part-per-million accuracy, and allows the included software to provide robust statistical analysis of the acquired spectra, as explained in the Design tab.
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HS4-50-DIFF -
TEAM SOLUTIONS, INC.
* record length is 131060 samples * 128K samples on screen without loss of information * free settable pre trigger position, from 0 to 100% * easy time axis zoom using unique scaleable sroll bar slider * free adjustable sample frequency * vertical offset and gain adjustable with graphical shiftable and scaleable axis * WYSIWYG trigger level, slope and hysteresis adjustment using combined trigger control * Auto setup to reduce setting time with unknown signals * linear/quadratical interpolation * extended cursor measurements * all settings accessable through popup menus * storing and recalling reference signals * software math channel available * easy to use speedbutton toolbar for easy access of all functions * comment tags to mark specific events in the signal * color hardcopy supported * explanatory comments with all controls * envelope mode * averaging of signals
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6109A / 7109A -
Fluke Calibration
The Fluke Calibration 6109A and 7109A Portable Calibration Baths are liquid baths that let process industry professionals calibrate four times more sanitary sensors per batch in less time and with twice the accuracy of other portable baths in this class. Larger than micro baths, up to four tri-clamp sanitary sensors fit easily into these baths for calibration at ± 0.1 °C temperature display accuracy. Throughput is even higher for sanitary RTDs with small or no flanges. Two bath models cover a wide temperature range: 35 °C to 250 °C for the 6109A and -25 °C to 140 °C for the 7109A. Each model offers a “-P” version that includes process electronics for connecting an external reference probe. Professionals working in clean process industries, including facilities managers, production engineers and calibration technicians, prefer these baths for a variety of reasons.
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Talon RTR 2726A -
Pentek, Inc.
- Designed to operate under conditions of shock and vibration- Portable system measuring 16.0" W x 6.9" D x 13.0" H- Lightweight: just less than 30 pounds- Shock-and-vibration resistant SSDs perform well in vehicles, ships and aircraft- 200 MHz 16-bit A/Ds- 800 MHz 16-bit D/As- 80 MHz record and playback signal bandwidths- Recording & playback of IF signals up to 700 MHz- Real-time sustained recording rates of up to 3.2 GB/sec- Windows® workstation with high-performance Intel® processor- Up to 30.7 TB of SSD storage to NTFS RAID solid state disk arraySystemFlow® GUI with signal viewer analysis tool- File headers include time stamping and recording parameters- Optional GPS time and position stamping- Optional 18-36 VDC power supply
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136 -
Electronic Specialties Inc.
*Mag Lead features a magnetic disconnect near the test probe end. *Just disconnect the test probe and you can “stick” to any metallic ground or test point. *Quit fumbling with alligator clips that fall off - Mag Lead’s powerfull magnet will hold tight! *This is a time saving tool - if you don’t have to walk to your tool box to retrieve your alligator clips, even on just half the occasions, then you’ve saved time. *Very helpful for automotive reference points and troubleshooting. *Can eliminate the need to hold probes while checking or monitoring a signal. *Two high power, low resistance magnets hold the probe to the lead. *Fits almost all Digital Multimeters and can be used with hand-held scopes too. *Get the Mag Lead, it stays put and won’t fall off, like alligator clips do!
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XMC-SoftDAC-32F -
ALPHI Technology Corporation
2µS settling time, 0-5V range• Six programmable output ranges perchannel• Up to 30mA output drive• Output Specification:o 16 bits settling time: 700ns (typ)o Low offset:125µV (typ)o Offset drift: 0.35µV/ºC (typ)• Unipolar mode: 0V to 5V, 0V to 10V• Bipolar mode: ±5V, ±10V, ±2.5V, –2.5Vto 7.5V, ±10 mA continuous, ±30 mA max• 1LSB max DNL and INL over the IndustrialTemperature Range• 1M words x 32 bits dynamically allocatable among channels• 500K samples/second throughput• Power-on reset to 0V• Flash RAM for configuration file• Two-stage buffers• Global output buffer with internal or external triggering• 4-user digital I/O (TTL levels, outputs: 48mA sinking, 12mA sourcing)• Optional A/D for reading back• Internal ±15V
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Lambient Technologies
Organizations working on new thermosets or new thermoset formulations need an intimate understanding of how these materials cure before they can proceed to the next step in the research, quality control, or production process. What happens when the material is heated? When is the best time to apply pressure to squeeze out voids? How fast does the material react at 120C? 150C? 180C? Most organizations today address this need by curing a sample for an arbitrary amount of time before using inexact, error-prone manual methods, or complex thermal analytical instruments to test cure state. Maybe the sample has reached the end of cure, but maybe not. With traditional methods, it’s difficult to tell for sure. How can organizations determine whether they’re processing materials longer than necessary? Dielectric cure monitoring lets them know for sure.
