Showing results: 256 - 265 of 265 items found.
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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.
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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.
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778512-01 -
NI
16-Bit, 8-Channel, 1 MS/s PXI Analog Output Module—The PXI‑6733 is a high-speed analog output device designed to deliver simultaneous, multichannel updates for control and waveform output applications, such as stimulus-response tests (including acoustic distortion testing) and simulation (such as three-phase power simulation). In addition, the device provides eight 5 V TTL/CMOS digital I/O lines; two 24‑bit, 20 MHz counter/timers; and digital triggering and external clocking capabilities. The PXI‑6733 can replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators. You can control each data point for each channel to define common waveforms, such as square, sine, or sawtooth, as well as complex waveforms.
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777795-01 -
NI
12-Bit, 8-Channel, 1 MS/s PXI Analog Output Module—The PXI‑6713 is a high-speed analog output device designed to deliver simultaneous, multichannel updates for control and waveform output applications, such as stimulus-response, power supply control, high-speed, deterministic control, and sensor/signal simulation. In addition, the device provides eight 5 V TTL/CMOS digital I/O lines; two 24‑bit, 20 MHz counter/timers; and digital triggering and external clocking capabilities. The PXI‑6713 can replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators. You can control each data point for each channel to define common waveforms, such as square, sine, or sawtooth, as well as complex waveforms.
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778999-01 -
NI
13-Bit, 8-Channel, 800 kS/s PXI Analog Output Module—The PXI‑6722 is a high-speed analog output device designed to deliver simultaneous, multichannel updates for control and waveform output applications, such as stimulus-response, power supply control, high-speed, deterministic control, and sensor/signal simulation. In addition, the device provides eight 5 V TTL/CMOS digital I/O lines; two 24‑bit, 20 MHz counter/timers; and digital triggering and external clocking capabilities. The PXI‑6722 can replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators. You can control each data point for each channel to define common waveforms, such as square, sine, or sawtooth, as well as complex waveforms.
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777794-01 -
NI
12-Bit, 4-Channel, 1 MS/s PXI Analog Output Module—The PXI‑6711 is a high-speed analog output device designed to deliver simultaneous, multichannel updates for control and waveform output applications, such as stimulus-response, power supply control, high-speed, deterministic control, and sensor/signal simulation. In addition, the device provides eight 5 V TTL/CMOS digital I/O lines; two 24‑bit, 20 MHz counter/timers; and digital triggering and external clocking capabilities. The PXI‑6711 can replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators. You can control each data point for each channel to define common waveforms, such as square, sine, or sawtooth, as well as complex waveforms.
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ICS Electronics
ICS's Model 9065 Ethernet Gateway is an Ethernet to GPIB Controller that connects easily to your computer's Ethernet port, company network or to the Internet to control GPIB instruments. The Model 9065 is VXI-11 compliant, does not require special drivers and is compatible with the following systems: LINUX, UNIX, SunOS, MAC OS X, HP-UX, IBM-AIX and Windows 2K or later Windows systems. ICS's 9065 uses VXI-11 RPC calls for secure communication with virtually any computer. Eliminates the need for special drivers. Easily programmed on a PC by making VISA calls or on a MAC/UNIX/LINUX computer with RPC calls. See our extensive Application Notes or download our VXI-11 Tutorial and the VXI-11 Specification for more information about the VXI-11 Standard. ICS Electronics is the premier VXI-11 device supplier with 100% VXI-11 compliance in every product.
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Electron Plus
The CTL503 Curve Tracer is a low-cost transistor (BJT and FET) computer controller curve tracer. Unlike other simple curve tracing units the CTL503 is designed to measure devices to 100V and upto 3A. Four collector resistors (relay selected) allow the user to test the smallest of BJT’s and FET’s as well as extracting meaningful curves from larger TO3/TO247 packaged devices. Limits on both peak test voltage and peak test current can be easily set to prevent exceeding device parameters.Pulse testing (80us/300us) is used to minimise device heating and to ensure the CTL503 can be powered via USB. This may be disabled for smaller parts.Connected and powered via USB and running our own free software the CTL503 is easily configured using a built in wizard (for quick results), or the user can adjust every instrument parameter to suit. Works with EPIC 21.010 and above.Users can save data from runs, as well simply grab images directly from EPIC.Connections are made to the DUT (device-under-test) with the built-in colour coded test leads with crocodile clips.
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MCL-NSOM -
Mad City Labs Inc.
The MCL-NSOM is a fully operational near field scanning optical microscope. It has been built on Mad City Labs versatile RM21™ inverted optical microscope which allows users to convert between NSOM, SPM, and fluorescence optical microscopy techniques. The MCL-NSOM builds on our successful resonant probe SPM and incorporates common elements such as the MadPLL® phase lock loop controller. The NSOM also exploits our expertise in precision motion control by including six axes of motorized positioning, for the sample and NSOM probe, and three axes of closed loop nanopositioning to provide exceptional position resolution and accuracy. The MCL-NSOM also includes a 635nm laser excitation source, fiber launch, oil immersion objective lens (100x, 1.25 N.A.), CMOS alignment camera and avalanche photodiode detector. The microscope configurable design allows researchers to tailor the instrument for many different optical microscopy techniques including near field spectroscopy. The MCL-NSOM is operated in aperture mode with shear force feedback. The standard 5 modes are supported: illumination, collection, illumination and collection, reflection and reflection collection. We supply a LabVIEW™ based software package which automates the motion control features.
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ATE -
Frontier Electronic Systems Corp.
The design, development, manufacture and integration of Automated Test Equipment (ATE) systems is a core technology focus for FES. Our engineers have designed and manufactured complex flight line test systems for military aircraft such as the F-15, F-18, C-17, B-1, B-52 and OV-22 aircraft. In 1994, FES developed the Common Core Test Set to test space systems electronics for the Defense Support Program (DSP). This open-architecture, high-reliability electronics test set has been upgraded over the last 20 years with new hardware and graphics-based software to accommodate the complex testing requirements associated with the International Space Station Rotary Joint Motor Controller and other satellite electronics. Maritime ATE systems designed and manufactured by FES include Radar & Video Distribution factory test systems supporting US and Canadian Navy customer production requirements. Core components of FES-developed ATE systems include the use of PXI/PCI/VXI/VME technologies, National Instruments Test Stand software, Agilent Technologies instrumentation, and Virginia Panel interface hardware. The FES ATE design team employs CMMI level 3 compliant processes throughout the design process from Systems Requirements Analysis through verification and validation of ATE compliance with customer hardware, software, and documentation requirements.
