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Test Systems

group of interoperable devices whose integration perform a common test purpose.

See Also: Systems, Equipment, System Integrators, System Test, System Integration


Showing results: 4276 - 4290 of 5334 items found.

  • GPIB-ENET/1000, Ethernet GPIB Instrument Control Device - China 220VAC

    781630-10 - NI

    The GPIB‑ENET/1000 is an IEEE 488 controller device for computers with an Ethernet port. You can use this device to share a single GPIB system among many networked users or to control several test systems from a single networked host. The GPIB‑ENET/1000 features a password-protected web interface for easy configuration. It can also control IEEE 488 devices from anywhere on an Ethernet‑based (LAN) TCP/IP network (Gigabit, 100BASE‑TX, 10BASE‑T). Each device interfaces to and shares up to 14 GPIB devices from several network hosts, and you can control up to 100 GPIB‑ENET/1000 interfaces with a single computer. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.

  • GPIB-ENET/1000, Ethernet GPIB Instrument Control Device - Swiss 220VAC

    781630-02 - NI

    The GPIB‑ENET/1000 is an IEEE 488 controller device for computers with an Ethernet port. You can use this device to share a single GPIB system among many networked users or to control several test systems from a single networked host. The GPIB‑ENET/1000 features a password-protected web interface for easy configuration. It can also control IEEE 488 devices from anywhere on an Ethernet‑based (LAN) TCP/IP network (Gigabit, 100BASE‑TX, 10BASE‑T). Each device interfaces to and shares up to 14 GPIB devices from several network hosts, and you can control up to 100 GPIB‑ENET/1000 interfaces with a single computer. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.

  • GPIB-ENET/1000, Ethernet GPIB Instrument Control Device - Korea 220VAC

    781630-09 - NI

    The GPIB‑ENET/1000 is an IEEE 488 controller device for computers with an Ethernet port. You can use this device to share a single GPIB system among many networked users or to control several test systems from a single networked host. The GPIB‑ENET/1000 features a password-protected web interface for easy configuration. It can also control IEEE 488 devices from anywhere on an Ethernet‑based (LAN) TCP/IP network (Gigabit, 100BASE‑TX, 10BASE‑T). Each device interfaces to and shares up to 14 GPIB devices from several network hosts, and you can control up to 100 GPIB‑ENET/1000 interfaces with a single computer. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.

  • GPIB-ENET/1000 , Ethernet GPIB Instrument Control Device - Universal Euro 240VAC

    781630-04 - NI

    The GPIB‑ENET/1000 is an IEEE 488 controller device for computers with an Ethernet port. You can use this device to share a single GPIB system among many networked users or to control several test systems from a single networked host. The GPIB‑ENET/1000 features a password-protected web interface for easy configuration. It can also control IEEE 488 devices from anywhere on an Ethernet‑based (LAN) TCP/IP network (Gigabit, 100BASE‑TX, 10BASE‑T). Each device interfaces to and shares up to 14 GPIB devices from several network hosts, and you can control up to 100 GPIB‑ENET/1000 interfaces with a single computer. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.

  • GPIB-ENET/1000 , Ethernet GPIB Instrument Control Device - United States 120VAC

    781630-01 - NI

    The GPIB‑ENET/1000 is an IEEE 488 controller device for computers with an Ethernet port. You can use this device to share a single GPIB system among many networked users or to control several test systems from a single networked host. The GPIB‑ENET/1000 features a password-protected web interface for easy configuration. It can also control IEEE 488 devices from anywhere on an Ethernet‑based (LAN) TCP/IP network (Gigabit, 100BASE‑TX, 10BASE‑T). Each device interfaces to and shares up to 14 GPIB devices from several network hosts, and you can control up to 100 GPIB‑ENET/1000 interfaces with a single computer. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.

  • GPIB-ENET/1000, Ethernet GPIB Instrument Control Device - United Kingdom 240VAC

    781630-06 - NI

    The GPIB‑ENET/1000 is an IEEE 488 controller device for computers with an Ethernet port. You can use this device to share a single GPIB system among many networked users or to control several test systems from a single networked host. The GPIB‑ENET/1000 features a password-protected web interface for easy configuration. It can also control IEEE 488 devices from anywhere on an Ethernet‑based (LAN) TCP/IP network (Gigabit, 100BASE‑TX, 10BASE‑T). Each device interfaces to and shares up to 14 GPIB devices from several network hosts, and you can control up to 100 GPIB‑ENET/1000 interfaces with a single computer. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.

  • GPIB-ENET/1000, Ethernet GPIB Instrument Control Device - Taiwan 110VAC

    781630-11 - NI

    The GPIB‑ENET/1000 is an IEEE 488 controller device for computers with an Ethernet port. You can use this device to share a single GPIB system among many networked users or to control several test systems from a single networked host. The GPIB‑ENET/1000 features a password-protected web interface for easy configuration. It can also control IEEE 488 devices from anywhere on an Ethernet‑based (LAN) TCP/IP network (Gigabit, 100BASE‑TX, 10BASE‑T). Each device interfaces to and shares up to 14 GPIB devices from several network hosts, and you can control up to 100 GPIB‑ENET/1000 interfaces with a single computer. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.

  • Automotive Tester

    PCE Instruments

    An automotive tester can be used to inspect one or more aspects of an automobile. For example, a borescope automotive tester is an automotive inspection camera used by auto body mechanics to see inside car, truck and other vehicle engines before removing any engine parts. Other kinds of automotive tester devices are used to adjust belt tension, test the electronic ignition starter, search for air conditioning leaks, measure the force required to press a brake pedal, determine the antifreeze concentration, or check the paint thickness over collision repairs.PCE Instruments (PCE) offers a wide variety of automotive tester products. These diagnostic support tools help professional automobile mechanics identify a number of vehicle repair needs. PCE's automotive tester products can aid in the diagnosis of many different mechanical and electrical system issues, including but not limited to locating the cause of an engine misfire, testing fuel injector resistance, pinpointing an engine coolant leak, or detecting car cylinder head problems. It's no wonder so many auto repair technicians choose to stock theirs shops and garages with PCE automotive tester products.

  • ARINC825 Cards

    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.

  • Resonance Dip Meter

    NRM-2 - National RF, Inc

    National RF’s Resonance Dip Meter is a test instrument used to determine the resonant frequency of a tuned circuit or resonant network, such as an antenna system. In addition, the unit may function as an RF detector, or a secondary frequency source. The instrument is analogous to the older vacuum tube “grid dip meter,” once popular in every electronic laboratory or radio station. Unique to this updated version is a buffered output that may drive a digital frequency counter for exact measurement of resonant frequency, or connected to an oscilloscope to be used as an RF detector and waveform/modulation monitor.

  • PXI Automotive Ethernet Interface Module

    NI

    The PXI Automotive Ethernet Interface Module communicates with Automotive Ethernet so that you can use the NI‑XNET driver or standard networking drivers to develop applications that require Automotive Ethernet to test and validate automotive electronic control units (ECUs). It provides up to four independent endpoints or up to two network terminal access points (TAPs). With onboard hardware timestamping and the ability to act as 802.1AS masters or slaves, the PXI Automotive Ethernet Interface Module can synchronize with an external network as well as the rest of a PXI system.

  • PXI Power Supply Modules

    Pickering Interfaces Ltd.

    Fixed power supply modules provide you with up to four separate voltage outputs isolated from the PXI backplane. Any combination of 3.3V, 5V, 12V or 15V can be specified with a maximum current capability of 4A for the 3.3V option; the software provides on/off control and status monitoring for each output. Dual programmable power supplies are capable of supplying up to 60 Watts of power. These are ideal solution for applications where a self contained test system with a high power supply power capability is required in a PXI format.

  • Structure-Borne Sound Probe

    T10 - SONOTEC GmbH

    The T10 structure-borne sound probe can be used to monitor the condition of machines, systems and processes, provided that they generate detectable structure-borne sound in the ultrasonic range. Changes in the sound signals indicate a change in the condition and/or process of the plant. The detection of these changes forms the basis for condition monitoring in preventive maintenance. The T10 structure-borne sound probe is used when the installation space is very limited or the test specimen must not be loaded with a large sensor mass. The T10 structure-borne sound probe is also suitable for use on non-magnetic surfaces.

  • Advanced Serial Protocol Analyzer

    CommFront Communications

    Most data networks are complicated, not just the hardware and network issues, but also the high-level protocols that devices use to communicate; and to make things even more complicated, many manufacturers have incorporated proprietary protocols for their devices. Integrating different devices and protocols within a data network is always the most challenging task for system integrators, firmware / software developers, and site engineers. From the simplest loopback test to complicated checksum calculation and sophisticated firmware and GUI software development, the 232Analyzer is designed to tackle all these challenges.

  • Circular Locus Tester

    TF225 - TESTEX Testing Equipment Systems Ltd.

    Circular Locus Tester, to determine surface deterioration and quality of fabrics (wool, chemical fiber, mixed, kitted and woven fabrics). Using an active friction system, fabric is rubbed against a nylon brush and abrasive or an abrasive only under controlled conditions. Results of the test are achieved in minutes. The relative motion of the locus specimen grip and the abrasive platform is a circle with a relative speed of 60+/-1 r/min. The grip offers pressure to the specimen which is adjustable with a tolerance of +/-1%. For added control and safety, the machine is equipped with a self-stop switch.

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