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Showing product results. 6676 - 6690 of 6879 products found.

  • Wide Range Ohmmeter - Wide Range Resistance Meter Designed to Support ANSI/ESD S20.20 Program Standard

    PAS-853B - Prostat Corporation

    - Wide Resistance Measurement Range from 0.01 ohm to 9.99x1012 ohms- Nominal Full Range Tolerance Averages <±5%- Fully Automatic Resistance Range, Test Voltage and Electrification Period Control- Automatic or Continuous Electrification ControlRugged High Performance 80 inches (200cm) Test Leads Included- Powered by one long lasting 9V Alkaline Battery- Large, Easy to Read LCD Display- Meets requirements of ESD Association Standards for material and audit resistance measurement requirements- Certificate of Calibration Traceable to NIST included

  • 12 GHz, 1 GHz Bandwidth PXI Vector Signal Transceiver

    PXIe-5830 / 787047-01 - NI

    12 GHz, 1 GHz Bandwidth PXI Vector Signal Transceiver - The PXIe-5830 supports validation and production test into mmWave frequency bands. This vector signal transceiver incorporates a vector signal generator, vector signal analyzer, and high-speed serial interface with FPGA-based … real-time signal processing and control. The PXIe-5830 helps you test a variety of cellular and wireless standards such as Wi-Fi 6. You can expand a test system in the PXI Express form factor to support multiple input, multiple output (MIMO) configurations with phase-coherent synchronization.

  • PXIe, 2.6 GHz Dual Core Processor PXI Controller

    PXIe-8821 / 787895-33 - NI

    PXIe, 2.6 GHz Dual Core Processor PXI Controller - The PXIe‑8821 is an Intel Core i3‑based embedded controller for PXI systems. You use it to create a compact and/or portable PC-based platform for industrial control, data acquisition, and test and measurement applications. The … PXIe‑8821 includes a 10/100/1000 BASE‑TX (Gigabit) Ethernet port, two Hi‑Speed USB ports, two USB 3.0 ports, as well as an integrated hard drive, serial port, and other peripheral I/O.

  • 8-Bit, 10-Channel PXI Programmable Resistor Module

    PXI-2720 / 781985-20 - NI

    8-Bit, 10-Channel PXI Programmable Resistor Module—The PXI‑2720 is a test module that replicates the behavior of resistance-based inputs and outputs such as potentiometers, resistance temperature detectors (RTDs), voltage dividers, and bridge elements. The PXI‑2720 programmatically controls a series of relays to vary the resistance across each channel of an I/O connector. This function is well suited for simulating environmental conditions in hardware‑in‑the‑loop (HIL) validation. The software provides a simple user interface that accepts inputs in units of temperature or resistance and configures the resistance across each channel.

  • 16-Bit, 9-Channel PXI Programmable Resistor Module

    PXIe-2727 / 781986-27 - NI

    16-Bit, 9-Channel PXI Programmable Resistor Module - The PXIe‑2727 is a test module that replicates the behavior of resistance-based inputs and outputs such as potentiometers, resistance temperature detectors (RTDs), voltage dividers, and bridge elements. The PXIe‑2727 … programmatically controls a series of relays to vary the resistance across each channel of an I/O connector. This function is well suited for simulating environmental conditions in hardware‑in‑the‑loop (HIL) validation. The software provides a simple user interface that accepts inputs in units of temperature or resistance and configures the resistance across each channel.

  • 8-Bit, 18-Channel PXI Programmable Resistor Module

    PXIe-2725 / 781986-25 - NI

    8-Bit, 18-Channel PXI Programmable Resistor Module - The PXIe‑2725 is a test module that replicates the behavior of resistance-based inputs and outputs such as potentiometers, resistance temperature detectors (RTDs), voltage dividers, and bridge elements. The PXIe‑2725 … programmatically controls a series of relays to vary the resistance across each channel of an I/O connector. This function is well suited for simulating environmental conditions in hardware‑in‑the‑loop (HIL) validation. The software provides a simple user interface that accepts inputs in units of temperature or resistance and configures the resistance across each channel.

  • 16-Bit, 5-Channel PXI Programmable Resistor Module

    PXI-2722 / 781985-22 - NI

    16-Bit, 5-Channel PXI Programmable Resistor Module—The PXI‑2722 is a test module that replicates the behavior of resistance-based inputs and outputs such as potentiometers, resistance temperature detectors (RTDs), voltage dividers, and bridge elements. The PXI‑2722 programmatically controls a series of relays to vary the resistance across each channel of an I/O connector. This function is well suited for simulating environmental conditions in hardware‑in‑the‑loop (HIL) validation. The software provides a simple user interface that accepts inputs in units of temperature or resistance and configures the resistance across each channel.

  • Sub-mm Sources From 179 To 1250 GHz Based On BWO

    Insight Product Company

    Insight Product Company offers BWO based sub-mm wave sources of radiation in frequencies from 179 GHz to 1250 GHz. Each source includes a sub-mm wave BWO tube and a specially designed permanent magnet. BWO tube is installed inside the permanent magnet and does not require any adjustments by the customer. Offered sources are the most wide banded, they are very reliable, small sized, powerful and easy to operate. They allow users to control frequency in very wide band and with extremely high speed.

  • Director's LCD Monitor with Wireless RF Link

    EZ-ROAM D - Murraypro Electronics

    The highly portable "EZ-ROAM D" has been designed for life on the road, and is ruggedly constructed in an extruded aluminium case sealed to IP67, and tough enough to take every day knocks and bumps. Battery powered (and with an external dc input too), the EZ-ROAM D with it's 7" LCD provides robust diversity radio reception, whilst the recessed controls offer selection between video inputs, 16:9 or 4:3 aspect ratios, Horizontal & Vertical flip, and stereo audio monitoring. There is even an RX OP on BNC.

  • 4-slot Industrial System With LGA1151 Socket Intel® Xeon® E3 V5, 7th/6th Gen Intel® Core™ I7/i5/i3 & Celeron® Processor, Intel® C236, Front-access I/O, PCIe And PCI Slots

    IPC974-519-FL - Axiomtek Co., Ltd.

    The IPC974-519-FL provides edge computing capabilities for a wide variety of industrial AIoT applications, such as real-time control, data analysis, deep learning and automated optical inspection, making great strides to utilize an ideal solution. The industrial PC is powered by the high-performance Intel® Xeon® E3 v5, 7th/6th generation Intel® Core™ (codename: Kaby Lake/Skylake) or Celeron® processors with the Intel® C236 chipset. It also supports powerful NVIDIA® GPU with up to 300W TDP. In addition, the system has a wide operating temperature range of -10°C to +70°C with 0.5 m/s airflow and a wide range of 19V to 30V DC power input for harsh operating environments. The IPC974-519-FL has a flexible I/O window slot for ease of customization to meet the requirements of various applications. It has a choice of four different types of I/O modules - a four-port RS-232/422/485 module (AX93511); a four-port isolated RS-232/422/485 module (AX93516); a one-port GbE Ethernet, two-port USB 3.0 and two-port RS-232/422/485 module (AX93519); and a two-port isolated RS-232/422/485 and 8-in/8-out DIO module (AX93512). Additionally, it provides four high speed and full-size PCIe /PCI slots supporting the vision, motion, data acquisition and I/O cards. The AIoT industrial automation computer has an optional built-in power board which provides 300W power to add-in graphics card. To satisfy the wide temperature variations, it also offers an easy-to-install fan module to help dissipate heat generated within the system when high power consumption PCI/PCIe cards are installed.

  • AWD Dynamometers

    MD-AWD-500-AC/EC-100/250 - Mustang Dynamometer

    The key to designing an AWD dynamometer properly is to understand the methods currently being used by manufacturers in the field of AWD drivetrain technology. A dynamometer that can accommodate various types of AWD vehicle transmissions and wheelbases without excessive complication and, more importantly, without risking damage to a client’s AWD system is paramount. Full time AWD vehicles are designed to provide maximum performance regardless of road conditions. In cases where traction is less than ideal, a vehicle may be designed to improve stability and traction at the expense of power. This means adding torque to a spinning wheel or retarding of timing. In order to properly test an AWD vehicle for peak performance, an AWD chassis dynamometer must be able to simulate ideal road-load conditions to the vehicle. This approach allows the vehicle to be evaluated under “optimum” operational conditions; whereby torque is distributed to the vehicle’s tires in the same manner that would normally occur when a vehicle has equal traction at all four drive wheels, and is therefore operating at peak efficiency. To achieve this, Mustang’s AWD-500 Series incorporates an internal drive system that synchronizes the front and back rollers to simulate a flat, dry road condition. Synchronization, or linkage, insures that the front and rear rollers are always spinning at precisely the same road speed. This process eliminates the possibility of activating a vehicle’s traction control system and also insures that a vehicle’s torque management system is operating under the assumption that the vehicle is not skidding, turning or slipping. Mustang’s AWD-500 can be operated in AWD Mode while testing two-wheel drive vehicles. This process allows the non-driven axle to be spun by the dynamometer rollers at the same speed as the driven axle, eliminating the speed differential that occurs on two-wheel drive dynamometers – problem solved.

  • MIMIC NetFlow Simulator

    MIMIC NetFlow Simulator - Gambit Communications, Inc.

    MIMIC NetFlow Simulator creates a lab full of devices based on Cisco® NetFlow, Juniper® J-Flow, IPFIX, & sFlow data to completely evaluate and test your Flow monitoring, management and analysis applications.MIMIC NetFlow Simulator generates a variety of flows and enables you to fully test your applications. Since you have a complete control over generated flowsets you can easily verify that your graphing application is correctly displaying the values and your collector correctly collects precisely generated flowsets.Flow Simulation: Configuration - Configure simulated NetFlow devices to create exactly how you want to show your network's functions (how it is used, by whom, and for what purpose). Correlation - Test the correlation of the traffic arriving from designated ports, source/destination IPs and protocols. Traffic generation - Create a comprehensive view of your simulated network traffic, with bottlenecks and bandwidth hogs. Customize the simulation - Start using without any customization or fully customize any/all flow record values. Flow changes - Prove that value changes are detected according to the specified rules. SNMP to NetFlow - Change SNMP values of the devices and report those results in the Flow applications. NetFlow to SNMP - Change Flow values of the devices and report those results in the SNMP based applications.The MIMIC NetFlow Simulator, the industry's first integrated simulation tool supporting NetFlow and SNMP, allows developers to perform real world, integrated device simulations. MIMIC simulates NetFlow-capable networking devices. MIMIC allows suppliers of NetFlow devices and applications to design, develop and test their products in a virtual and scalable network environment, assuring customers that their applications will work properly when deployed across heterogeneous environments.

  • MIMIC sFlow Simulator

    MIMIC sFlow Simulator - Gambit Communications, Inc.

    MIMIC sFlow® Simulator creates a lab full of devices based on sFlow, Cisco® NetFlow, Juniper® J-Flow, IPFIX data to completely evaluate and test your Flow monitoring, management and analysis applications.MIMIC sFlow Simulator generates a variety of flows and enables you to fully test your applications. Since you have a complete control over generated flowsets you can easily verify that your graphing application is correctly displaying the values and your collector correctly collects precisely generated flowsets.Flow Simulation: Configuration - Configure simulated sFlow devices to create exactly how you want to show your network's functions (how it is used, by whom, and for what purpose). Correlation - Test the correlation of the traffic arriving from designated ports, source/destination IPs and protocols. Traffic generation - Create a comprehensive view of your simulated network traffic, with bottlenecks and bandwidth hogs. Customize the simulation - Start using without any customization or fully customize any/all flow record values. Flow changes - Prove that value changes are detected according to the specified rules. SNMP to sFlow - Change SNMP values of the devices and report those results in the Flow applications. sFlow to SNMP - Change Flow values of the devices and report those results in the SNMP based applications.The MIMIC sFlow Simulator, the industry's first integrated simulation tool supporting sFlow, NetFlow and SNMP, allows developers to perform real world, integrated device simulations. MIMIC simulates sFlow-capable networking devices. MIMIC allows suppliers of sFlow devices and applications to design, develop and test their products in a virtual and scalable network environment, assuring customers that their applications will work properly when deployed across heterogeneous environments.

  • Three-Phase Transformer Demagnetizer

    DEM60C - IBEKO Power AB

    After a DC current test, such as winding resistance measurement, the magnetic core of a power or instrument transformer may be magnetized (remnant magnetism). It can cause various problems such as wrong diagnostics, inaccurate measurements on a transformer, inrush current at the start-up of a power transformer, or incorrect operation of protective relays due to magnetized CT cores. The best way to eliminate this source of potential problems is to use demagnetizer on the power or instrument transformer.The DEM60C is a fully automatic test instrument which performs three-phase transformer demagnetization. Transformer magnetic core demagnetization requires the application of AC current with magnitude decreasing to zero. DEM60C provides this AC current by internally changing the polarity of a controlled DC current. During the demagnetization process, the instrument supplies the current at decreasing magnitude for each step, following a proprietary algorithm. It can demagnetize single-phase and three-phase power transformers.The instrument can be connected to all three phases of a power transformer to be demagnetized, on either the primary or the secondary side. If a user selects specific vector diagrams for different types of transformers, DEM60C will run a specific demagnetization procedure for each transformer type (i.e., single phase, delta, wye/star, zig-zag.) without switching the test leads.DEM60C enables safe and efficient power transformer demagnetization. The instrument automatically regulates the injection of current and discharging energy from the inductance. During and after the operation, an intrinsically safe discharge circuit with an indicator rapidly dissipates the stored magnetic energy. The discharging circuit is independent of the power supply, which improves its reliability in case of loss of power.Test currents of up to 60 A DC enable efficient demagnetization of even the largest power transformers. Using a DV Win software, it is possible to control DEM60C externally.

  • Programmable Multifrequency Clock Synthesizer - PMC

    Model 7191 - Pentek, Inc.

    - Simultaneous synthesis of up to up to 5 different clocks- Eight SMC clock outputs- Ideal for A/D and D/A converter clock sources- Typical phase noise: -105 dBc/Hz @ 1 kHz offset- All clocks are phase-locked to input reference signal- Input reference frequency of 5 or 100 MHz- Four programmable VCXOs with 32-bit tuning resolution- Output clocks of 1, 2, 4, 8, or 16 submultiples of VCXO base frequencies- Output clock frequencies between 50 and 700 MHz- Control and status via PCI bus interface

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