IEEE 1394
FireWire is a high speed serial databus as defined by IEEE 1394.
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Product
Time-Triggered Ethernet / ARINC 664 Part 7 (AFDX®) / IEEE 802.3 Ethernet Deterministic Communications
TE2
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Module TE2 is one of NAI's latest generation of advanced function Configurable Open Systems Architecture™ (COSA®) compatible modules. The TE2 is a certifiable, single-port, tri-redundant, deterministic Ethernet communications interface module that supports TTTech’s certifiable TTEthernet® End System product consisting of three traffic classes: SAE AS6802 (Time-Triggered Ethernet), ARINC 664 Part 7 (Avionics Full-Duplex Switched Ethernet (AFDX®), and/or IEEE 802.3 best-effort protocol. By supporting all three traffic classes, NAI's TE2 is the ideal solution for current users of IEEE 802.3 Ethernet, who plan to upgrade to Deterministic Ethernet (ARINC 664 Part 7 (AFDX®) or Time-Triggered Ethernet SAE AS6802) protocols in the future at any time without changing hardware.
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Product
PCI, IEEE 488 GPIB Instrument Control Device for Windows
778032-01
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The PCI‑GPIB is a plug‑and‑play IEEE 488 interface for PCs and workstations with PCI expansion slots. The PCI‑GPIB can sustain data transfer rates of more than 1.5 MB/s using the IEEE 488.1 three‑wire interlocked handshake. It also implements the high-speed IEEE 488.1 noninterlocked handshake (HS488) for benchmarked data transfers at more than 7.7 MB/s. The onboard bus master DMA controller means that there are no microprocessor interruptions in data transfer.
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Product
PCI, IEEE 488 GPIB Instrument Control Device for Linux
778686-01
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The PCI‑GPIB is a plug‑and‑play IEEE 488 interface for PCs and workstations with PCI expansion slots. The PCI‑GPIB can sustain data transfer rates of more than 1.5 MB/s using the IEEE 488.1 three‑wire interlocked handshake. It also implements the high-speed IEEE 488.1 noninterlocked handshake (HS488) for benchmarked data transfers at more than 7.7 MB/s. The onboard bus master DMA controller means that there are no microprocessor interruptions in data transfer.
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Product
PCI-GPIB+, Analyzer Software Included, IEEE 488 GPIB Instrument Control Device for Windows, Onboard GPIB Analyzer
778033-01
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The PCI‑GPIB+ combines an IEEE 488 controller and an analyzer on one device for computers with PCI slots. You can use this device to integrate an instrument into your system using GPIB as well as to troubleshoot and solve GPIB hardware and software problems. The PCI‑GPIB+ achieves maximum IEEE 488.2 transfer rates. With an onboard bus master DMA controller, there is no microprocessor interruption in data transfers. 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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Product
PCI Express, IEEE 488 GPIB Instrument Control Device for Linux
779779-01
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The PCIe‑GPIB is an IEEE 488 controller device for computers with PCI Express slots. You can use this device to integrate an instrument into your system using GPIB. The PCIe‑GPIB achieves maximum IEEE 488.2 transfer rates. With an onboard bus master DMA controller, there is no microprocessor interruption in data transfers. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB. The PCIe‑GPIB includes a low-profile bracket option as well as a kit that includes the NI‑488.2 driver for Linux®. Regardless of which PCIe‑GPIB you purchase, the device is compatible with Windows, Linux®, and Mac OS X. Linux® is the registered trademark of Linus Torvalds in the U.S. and other countries.
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Product
PXI-6683, TCXO, GPS, IRIG-B, IEEE 1588 PXI Synchronization Module
782109-01
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TCXO, GPS, IRIG-B, IEEE 1588 PXI Synchronization Module - The PXI‑6683 timing and synchronization modules synchronize PXI and PXI Express systems using GPS, IEEE 1588, and IRIG‑B to perform synchronous events. The PXI‑6683 can generate events and clock signals at specified … synchronized future times and timestamp input events with the synchronized system time. The PXI‑6683 features an onboard temperature-compensated crystal oscillator (TCXO) that can be disciplined to GPS, IEEE 1588, and IRIG‑B for long-term stability. You also can use the PXI‑6683 to route clock signals and triggers with low skew within a PXI chassis or between multiple chassis, providing you a method for synchronizing multiple devices in a PXI system.
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Product
Machine Vision SBC With AMD® Ryzen™ Embedded V1807B And V1605B APU, DisplayPort, HDMI, 2 GbE LAN, 2 IEEE 802.3at PoE GbE LAN And Vision-specific I/O
MIRU130
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*AMD® Ryzen™ Embedded V1807B and V1605B APU*2 DDR4 SO-DIMM for up to 16GB of memory*2 GbE LAN and 2 IEEE 802.3at PoE GbE LAN*2-CH camera trigger outputs*2-CH LED lighting control*1-CH incremental quadrature encoder input*4 isolated DIO
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Product
IEEE Test Charts (Video /Cine)
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IEEE Test Charts (Video /Cine) by Applied Image - IEEE Video Resolution Chart, Picture Height Test Chart, Microsoft WebCam Image Quality Test, OTTO-2 Otto Nemenz Cine Lens Calibration Reticle
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Product
IEEE 802.11 Ax/ac/b/g/n, Bluetooth 5.3 HS, 1Tx/1Rx, WEP 64/128-Bit, WPA/WPA2/WPA3, 802.1x, -40 To 85°C, Compatible With NXP Platforms.
AIW-167BN
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IEEE 802.11 ax/ac/b/g/n + Bluetooth 5.3 HS standard1T1R SDIO interface in M.2 form factorIndustrial grade operating temperature range (-40~85°C)Compatible with NXP i.MX platforms
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Product
IEEE 802.11ax (2.4GHz + 5GHz) + Bluetooth 5.3, LGA Type
AIW-164
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NXP 88W9098IEEE 802.11 a/b/g/n/ac/ax (2.4GHz/5GHz) + BT 5.3Wi-Fi: PCIe/SDIO ; Bluetooth: UARTOS: LinuxOperating Temp: -40 ~ 85 °C (-40 ~ 185 °F)form factor: LGA type
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Product
IEEE 802.3 CK Tx License Suite
SW00IECK
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The IEEE 802.3 CK Tx License Suite is part of the subscription based Oscilloscope Compliance Test Software Suites. This suite covers Tx Validation license for IEEE 802.3 CK (100/200/400 Gb/s). Together with the subscription model, this enables the support and coverage continuity as the IEEE 802.3 CK technology specification progresses through revisions.
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Product
PoE IEEE 802.3af/at 15.4W/30W Power Sourcing Equipment (PSE) For MIO SBC
MIOe-PSE
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PSE delivers 15.4 W/30 W power to PDDual / Single port supportCompliant with IEEE 802.3 af/at standardSupports wide temperature -40 ~ 85 °CSupport Model: MIO-5354, MIO-2364, MIO-5376, AFE-E350, AFE-E420
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Product
IEEE 1394b/AS5643 Mil1394 (FireWire), Triple-Node Multi-Port, Communications
FW3
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The FW3 function module provides IEEE 1394b/AS5643 (Mil1394) support on each of its three nodes, which are configured as 2 nodes with 3-ports and 1 node with 2-ports. AS5643 defined flight ready robustness and active transformer isolation to enable longer cable lengths (20 meter) between nodes. Together these standards provide the deterministic and redundant communications protocol required for Vehicle System (Flight Control) Networks. The FW3 multiple ports per node configuration allows the user to create tree, daisy-chain and looped topologies needed to optimize cable length and weight while creating redundancy.
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Product
IEEE 802.11ax (2.4GHz + 5GHz) + Bluetooth 5.3, M.2 2830, PCIe-UART
AIW-165
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NXP 88W90982Tx/2RxIEEE 802.11 a/b/g/n/ac/ax (2.4GHz/5GHz) + BT 5.3Form factor: M.2 2830 E keyWi-Fi: PCIe; Bluetooth: UARTOS: LinuxOperating Temp: -40 ~ 85 °C (-40 ~ 185 °F)28 x 30 x 3.95 mm (1.10 x 1.18 x 0.15 in)IC: NXP 88W9098
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Product
PCI Express, IEEE 488 GPIB Instrument Control Device for Windows
778930-01
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The PCIe‑GPIB is an IEEE 488 controller device for computers with PCI Express slots. You can use this device to integrate an instrument into your system using GPIB. The PCIe‑GPIB achieves maximum IEEE 488.2 transfer rates. With an onboard bus master DMA controller, there is no microprocessor interruption in data transfers. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB. The PCIe‑GPIB includes a low-profile bracket option as well as a kit that includes the NI‑488.2 driver for Linux®. Regardless of which PCIe‑GPIB you purchase, the device is compatible with Windows, Linux®, and Mac OS X. Linux® is the registered trademark of Linus Torvalds in the U.S. and other countries.
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Product
PCI Express, Analyzer Software Included, IEEE 488 GPIB Instrument Control Device for Windows - Onboard GBIP Analyzer
780935-01
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The PCIe‑GPIB+ combines an IEEE 488 controller and an analyzer on one device for computers with PCIe slots. You can use this device to integrate an instrument into your system using GPIB as well as to troubleshoot and solve GPIB hardware and software problems. The PCIe‑GPIB+ achieves maximum IEEE 488.2 transfer rates. With an onboard bus master DMA controller, there is no microprocessor interruption in data transfers. 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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Product
2-CH PCI ExpressR IEEE 1394b Frame Grabber
PCIe-FIW62
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The PCIe-FIW62 is an IEEE 1394b (FireWire 800) interface card which provides two high-speed FireWire 800 ports with data transfer rates up to 800 Mb/s on a PCI ExpressR x1 lane. The PCIe-FIW62 provides two direct-connect IEEE 1394b bilingual connectors with a screw-lock mechanism. These screw-lock connectors provide a reliable connection between the PCIe-FIW62 and up to two IEEE 1394b cameras. A 4-pin ATX power connector on the PCIe-FIW62 supports IEEE 1394b cameras that draw power directly from the frame grabber. Each port has a green LED on the front panel that will illuminate when the PCIe-FIW62 is connected to a IEEE 1394b camera for convenient identification of channel connection status.
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Product
PXI-6683, TCXO, GPS, IRIG-B, IEEE 1588 PXI Synchronization Module
782110-01
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TCXO, GPS, IRIG-B, IEEE 1588 PXI Synchronization Module—The PXI‑6683 timing and synchronization modules synchronize PXI and PXI Express systems using GPS, IEEE 1588, and IRIG‑B to perform synchronous events. The PXI‑6683 can generate events and clock signals at specified synchronized future times and timestamp input events with the synchronized system time. The PXI‑6683 features an onboard temperature-compensated crystal oscillator (TCXO) that can be disciplined to GPS, IEEE 1588, and IRIG‑B for long-term stability. You also can use the PXI‑6683 to route clock signals and triggers with low skew within a PXI chassis or between multiple chassis, providing you a method for synchronizing multiple devices in a PXI system.
