Showing results: 121 - 135 of 325 items found.
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TurboBSD -
Syntest Technologies
TurboBSD is SynTest high-performance Boundary Scan Designer. It is 100% compliant to the IEEE 1149.1 Boundary Scan Standard. TurboBSD performs Boundary Scan logic synthesis, creates BSDL (Boundary Scan Description Language) file, and generates Boundary Scan test patterns
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Silex Technology
Supports up to 150 Mbps data rateCompliant with IEEE802.11 b/g/n standardsCompliant with IEEE 802.11b, 802.11d, 802.11e and 802.11g standards and the 802.11i specification Includes signal-sustain technology (SST) rate-over-range enhancements such as low-density parity check (LDPC), and maximum likelihood demodulation (MLD)Supports all mandatory IEEE 802.11n features as well as several optional features such as HT40, half-guard interval in HT40 and Rx space-time block coding (STBC)Supports low-power sleep modes and wake-on-wireless (WoW) LANFeatures the Atheros AR3012 Bluetooth 4.0 + HS chipset and Bluetooth Class 1 RadioUSB 2.0 device interface supports standard HCI USBRoHS compliant
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PICMG 2.0 -
VECTOR Electronics and Technology, Inc.
The specification for PCI based industrial computers is called CompactPCI. It is electrically a superset of desktop PCI with IEEE 1101.10 mechanical form factor. Vector offers RoHS compliant 3U and 6U cPCI backplanes sold separately or integrated into VectorPak™ EMC subracks or chassis.
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779733-02 -
NI
Serial, RS485/RS422 GPIB Instrument Control Device - The GPIB‑RS485 is an IEEE 488 controller device for PCs with RS485 or RS422 ports. You can use this device to integrate an instrument into your system using GPIB. This device transforms a computer with an RS485 or RS422 serial port into a talker, listener, or controller on the GPIB bus. It can also interface RS485 and RS422 instruments and peripherals to the GPIB bus. It can implement the physical and electrical specifications of the IEEE 488, RS485, and RS422 standards, as well as interpret and execute high-level commands from the serial port, including serial‑to‑GPIB, and GPIB‑to‑serial protocol conversions. This device is IEEE 488.2 compatible. 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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779733-01 -
NI
Serial, RS485/RS422 GPIB Instrument Control Device - The GPIB‑RS485 is an IEEE 488 controller device for PCs with RS485 or RS422 ports. You can use this device to integrate an instrument into your system using GPIB. This device transforms a computer with an RS485 or RS422 serial port into a talker, listener, or controller on the GPIB bus. It can also interface RS485 and RS422 instruments and peripherals to the GPIB bus. It can implement the physical and electrical specifications of the IEEE 488, RS485, and RS422 standards, as well as interpret and execute high-level commands from the serial port, including serial‑to‑GPIB, and GPIB‑to‑serial protocol conversions. This device is IEEE 488.2 compatible. 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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779733-04 -
NI
Serial, RS485/RS422 GPIB Instrument Control Device - The GPIB‑RS485 is an IEEE 488 controller device for PCs with RS485 or RS422 ports. You can use this device to integrate an instrument into your system using GPIB. This device transforms a computer with an RS485 or RS422 … serial port into a talker, listener, or controller on the GPIB bus. It can also interface RS485 and RS422 instruments and peripherals to the GPIB bus. It can implement the physical and electrical specifications of the IEEE 488, RS485, and RS422 standards, as well as interpret and execute high-level commands from the serial port, including serial‑to‑GPIB, and GPIB‑to‑serial protocol conversions. This device is IEEE 488.2 compatible. 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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X-STEP -
Sarokal Test Systems
The X-STEP™ platform includes innovative test solutions for fronthaul networks. Support for O-RAN, CPRI, eCPRI, OBSAI, JESD204B/C, Ethernet and upcoming IEEE 1914 enables chipset vendors, fronthaul equipment manufacturers, and telecom operators to develop, test and verify their 4G and 5G network devices.
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AX92325 -
Axiomtek Co., Ltd.
Four M12 x-coded connectors with special design (to avoid occupying two slots) 2 or 4 independent Gigabit PoE ports, Supports 9.5KB Jumbo Frame and IEEE 1588, Compliant with IEEE802.3at to deliver 30W at 54 VDC per port, PCI Express x4 compliant
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QSFP28 -
Eoptolink Technology Inc., Ltd.
Eoptolink’s EOLQ-851HG-02 QSFP28 SR4 100G Optical transceiver module are designed for use in 100 Gigabit Ethernet links over multimode fiber. They are compliant with the QSFP28 MSA and IEEE 802.3bm 100GBASE-SR4 and CAUI-4. Digital diagnostics functions are available via the I2C interface, as specified by the QSFP28 MSA.
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ART-3D -
ndb Technologies Inc.
The ART-3D is high precision instrument designed to measure ratios, magnetization currents, phase-shifting in power transformers, distribution transformers, potential and current transformers, in conformity to IEEE C57.12.90 and CEI/IEC 60076.
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Pulse Electronics
Pulse’s Ethernet transformers are RoHS compliant and qualified at major PHY suppliers. 100/1000/2.5G/5G/10GBASE-T Ethernet transformer modules are optimized for all major LAN transceivers. All modules provide electrical circuit isolation that meets IEEE 802.3, while maintaining signal integrity needed for the most demanding applications.
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ADLINK Technology Inc.
Why ADLINK?*Full product line support, including analog, GigE Vision, IEEE 1394b, Camera Link, HDMI, and 3G-SDI*Compatible with most popular cameras and software*Carefully selected embedded components ensure long term availability*Highly integrated with ADLINK I/O cards and embedded computing platforms
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IBEKO Power AB
DV Power offers a wide range of battery capacity testers to meet specific customer needs. All of them are portable, powerful and most of all universal. Any battery string, such as lead-acid, lithium-ion, nickel-cadmium based and others, with voltages in the range of 0,9 – 800 V DC can be tested in an accurate, user-friendly way.The capacity test is carried out following the battery testing standards: IEEE 450-2010, IEEE 1188-2005, IEEE 1106-2015, IEC 60896-11/22, and other relevant standards.BLU battery testers enable setting the discharge current up to 350 A, with 0,1 A resolution. If higher currents are required, several units can be connected in parallel, or BXL additional load units can be used. Discharge parameters can be monitored in real-time during the capacity test. Overall battery voltage, current, elapsed test time and capacity will be presented during the entire test on a touch screen display.
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IBEKO Power AB
Performing capacity/discharge test on a high-capacity battery may be challenging since high requirements are set on the discharge system. In cases when discharge test times need to be reduced, high load capacities are required from the discharge system. The battery extra load unit BXL is an additional load unit designed especially for this purpose.It is primarily used with BLU battery testers. However, the unit is a universal add-on device. This means it can be used as an additional load with any other discharge/capacity tester in the market.When discharge current exceeds the capacity of a single BLU device, extra load unit increases discharge capacity. A system of BLU and BXL instruments enables performing the capacity test in an accurate, user-friendly way in accordance to battery testing standards: IEEE 450-2010, IEEE 1188-2005, IEEE 1106-2015, IEC 60896-11/22, and other relevant standards.
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TCR180PEX -
Meinberg Funkuhren GmbH & Co. KG
The TCR180PEX receives IRIG-A/B/G, IEEE 1344, IEEE C37.118 or AFNOR NF S87-500 time codes and can be used for synchronizing the system time of its host PC. The IRIG output of this card can generate an IRIG signal for other IRIG time code readers. The output format is independent from the incoming IRIG signal - a perfect solution to your IRIG conversion requirements. It is used in applications like data acquisition, standalone computer time synchronization (for systems without a network connection or higher accuracy requirements) or as an IRIG converter device.