Showing results: 2161 - 2175 of 2272 items found.
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T5230 -
Advantest Corp.
T5230 memory test system for NAND/NVM devices adopts a combined array architecture to achieve best-in-class cost-of-test performance for wafer test, including wafer-level burn-in (WLBI) and built-in self-test (BIST). The system can perform on-wafer test of 1,024 memory devices per test head in parallel, delivering high productivity and enabling floor space savings of up to 86%. Multiple test cells are connected per system controller in the T5230, allowing independent wafer test of each test cell. The test cells can be stored in a general multi-wafer prober while minimizing the test cell floor space, and the tester can be docked with probers in both linear and multi-stack configurations. For functional tests at a maximum test rate of 125MHz/250Mbps, the T5230 assures high timing accuracy, repeatability, and failure detection capability.
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40-196-101 -
Pickering Interfaces Ltd.
The 40-196 is a 10 Channel 5A Fault Insertion Switch, primarily designed for the simulation of fault conditions in automotive & avionics applications involving the reliability testing of safety critical controllers. It is designed to be able to insert different fault conditions between the test fixture and the equipment under test: Open-Circuit, Short-Circuit between signal pairs, Short-Circuit between signal pairs and user applied fault conditions e.g. Power or GND. Shorting relays on each channel enable UUT signals to be subjected to external user applied fault conditions or to be shorted to the adjacent signal in the same channel. Relays in line with the signal allow open circuit conditions to be simulated on either side or both sides of a channel signal pair. The switching topology of the 40-196 allows channels to be interconnected so that complex fault insertion systems can be constructed.
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40-196-001 -
Pickering Interfaces Ltd.
The 40-196 is a 10 Channel 5A Fault Insertion Switch, primarily designed for the simulation of fault conditions in automotive & avionics applications involving the reliability testing of safety critical controllers. It is designed to be able to insert different fault conditions between the test fixture and the equipment under test: Open-Circuit, Short-Circuit between signal pairs, Short-Circuit between signal pairs and user applied fault conditions e.g. Power or GND. Shorting relays on each channel enable UUT signals to be subjected to external user applied fault conditions or to be shorted to the adjacent signal in the same channel. Relays in line with the signal allow open circuit conditions to be simulated on either side or both sides of a channel signal pair. The switching topology of the 40-196 allows channels to be interconnected so that complex fault insertion systems can be constructed.
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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.
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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.
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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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780688-02 -
NI
2-Port, Software-Selectable PXI CAN Interface Module—The PXI‑8513 is a software-selectable Controller Area Network (CAN) interface for developing applications with the NI‑XNET driver. NI‑XNET Software‑Selectable CAN Interfaces offer the best flexibility for CAN development with onboard transceivers for High-Speed/Flexible Data‑rate, Low-Speed/Fault Tolerant Single Wire CAN as well as any external transceiver. The PXI‑8513 excels in applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals, such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. The NI‑XNET device-driven DMA engine enables the onboard processor to move CAN frames and signals between the interface and the user program without CPU interrupts.
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780688-01 -
NI
1‑Port, Software-Selectable PXI CAN Interface Module—The PXI‑8513 is a software-selectable Controller Area Network (CAN) interface for developing applications with the NI‑XNET driver. NI‑XNET Software‑Selectable CAN Interfaces offer the best flexibility for CAN development with onboard transceivers for High-Speed/Flexible Data‑rate, Low-Speed/Fault Tolerant Single Wire CAN as well as any external transceiver. The PXI‑8513 excels in applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals, such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. The NI‑XNET device-driven DMA engine enables the onboard processor to move CAN frames and signals between the interface and the user program without CPU interrupts.
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MS 1124 -
Meltronics Systemtech
The HSIR is the ground test facility and it simulates various LRUs/sensors interfaced with the HAWK Mission Computer. RIG consists of Industrial computers with Simulation modules, Acquisition modules, Video generator module and video display monitors. RIG provides the simulated inputs to both the MCs from each simulated sensor/ LRU through hardwired signals, through the MIL-1553B, Arinc 429, RS-422, RS232 and Ethernet etc. The rig is capable of testing two MCs together either of which can be used as the Bus Controller (BC) or the Remote Terminal (RT). The rig provides the facility to monitor and acquire the MIL-1553B, Arinc 429, RS-422, and RS232 Ethernet bus, Analog IOs, Synchro IOs, Discrete IOs and transactions that takes place between the MCs and various sensors/units. The RIG has the capability to test individual MCs also.
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Model 3565 -
Jinan Testing Equipment IE Corporation
The Model 3565 uses hard conical points to contact the bolt at the center of the head and at the bottom. It is fully adjustable for different length bolts ranging from 25 mm (1 inch) in length to 150 mm (6 inches) standard. Extension beams are available for longer bolts. The standard maximum measuring range is 1.25 mm (0.05 inches). Generally, on longer bolts this extensometer will be self-supported without requiring any centering marks or punch marks on the bolt. For shorter bolts these marks may be required. If the conical pins are sharp, marks are often not needed even on the shortest bolts.The extensometer has a zero adjustment screw to adjust the length between the contact pins. This is used to set the output voltage to zero, which corresponds to the correct starting position for the test. It also includes a breakaway lower arm. In the event a bolt should fail, the breakaway arm snaps free, helping to prevent damage to the extensometer. This is easily re-installed. In the event that bolt failures are likely during a test, it is recommended the user attach a cord around the upper part of the beam and tie the other end to the test frame to prevent the extensometer from falling. The conical point contacts included with the extensometer are made from tungsten carbide.The Model 3565 extensometers are strain gaged devices, making them compatible with any electronics designed for strain gaged transducers. Most often they are connected to a test machine controller. The signal conditioning electronics for the extensometer is typically included with the test machine controller or may often be added. In this case the extensometer is shipped with the proper connector and wiring to plug directly into the electronics. For systems lacking the required electronics, Epsilon can provide a variety of solutions, allowing the extensometer output to be connected to data acquisition boards, chart recorders or other equipment.
