Showing results: 121 - 135 of 418 items found.
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ML4070-SFP -
multiLane
The ML4070-SFP is a state of the art transceiver test set specifically designed for quick production testing Go/No Go applications. It features Pulse Pattern Generators and Error Detectors as well as SFP host control circuitry with power supply noise injection capability. The ML4070 has got 3 SFP ports for 0 dB trace loss, 9 dB trace loss and for loopback. A full set of APIs and a production GUI enable quick one-button measurements and automatic report generation.
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iOptics -
EXFO Inc.
iOptics offers a complete, powerful and easy-to-use tool for CFP and QSFP qualification and can validate the full range of low- to high-rate transceivers including SFP, SFP+, XFP, CFP, CFP2, CFP4, QSFP+ and QSFP28. iOptics offers a faster, streamlined and automated test sequence aimed at quickly and simply validating any type of 10M to 100G interface. It is the ideal solution for multirate field commissioning with a simple one-button pass/fail. It offers automated stress testing for lab qualification and is also ideally suited for data center and data center interconnect (DCI) testing.
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783967-01 -
NI
500 MHz, 1 GHz I/Q Bandwidth, Baseband PXI Vector Signal Transceiver—The PXIe‑5820 is the baseband model of the second-generation vector signal transceiver (VST) with 1 GHz of complex I/Q bandwidth. It combines a wideband I/Q digitizer, wideband I/Q arbitrary waveform generator, and high-performance user-programmable FPGA in a single 2-slot PXI Express module. You can use the VST for a variety of applications including baseband I/Q test of wireless and cellular chipsets; envelope tracking of digitally predistorted waveforms for power amplifiers; and the generation and analysis of new wireless standards such as 5G, 802.11ax, and LTE-Advanced Pro.
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782376-01 -
NI
6 GHz, 80 MHz Bandwidth, RF PXI Vector Signal Transceiver—The PXIe‑5644 combines a vector signal generator and vector signal analyzer with FPGA-based real-time signal processing and control into a single device, also known as a VST. Because of this software-designed approach, the PXIe‑5644 features the flexibility of a software defined radio architecture with RF instrument class performance.
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782952-01 -
NI
6 GHz, 200 MHz Bandwidth, RF PXI Vector Signal Transceiver—The PXIe‑5646 combines a vector signal generator and vector signal analyzer with FPGA-based real-time signal processing and control into a single device, also known as a VST. Because of this software-designed approach, the PXIe‑5646 features the flexibility of a software defined radio architecture with RF instrument class performance. The additional bandwidth of the PXIe‑5646 enables you to test wireless and cellular standards such as 802.11ac 160 MHz and LTE‑A carrier aggregation while leveraging the latest performance-enhancing processing techniques such as digital predistortion.
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JT 2149/MPV eMPV -
JTAG Technologies Inc.
The JT 2149/MPV and the JT 2149/eMPV are a 32 channel multi purpose DIOS/TAP pod modules/interfaces that can be plugged into any spare JT 2148 QuadPOD transceiver slot. The DIOS channels of these units I/O interface pods enable increased fault coverage and thus improved diagnostic resolution during boundary-scan testing. The principal difference between the two versions is the use of an extended case on the eMPV that allows standard 0.1″ connections to be used to access ths TAP and static IO signals (see tab below)- on the standard /MPV unit these signals are available at the front face 0.05″ connector. The units are fully supported by JTAG Technologies’ development tools. Additional DIOS modules can be serially connected if more parallel access points are required.
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782377-01 -
NI
6 GHz, 80 MHz Bandwidth, RF and Baseband PXI Vector Signal Transceiver—The PXIe‑5645 combines a vector signal generator and vector signal analyzer with FPGA-based real-time signal processing and control into a single device, also known as a VST. Because of this software-designed approach, the PXIe‑5645 offers the flexibility of a software defined radio architecture with RF instrument class performance. The PXIe‑5645 features a high-performance, differential or single-ended baseband I/Q interface. This interface allows the PXIe‑5645 to address many additional applications, such as testing both the upconverted RF and downconverted baseband signals of a device with a single instrument.
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CWDM SFP Transceivers -
M2 Optics, Inc.
CWDM transceiver modules are offered at wavelengths from 1470nm to 1610nm and include LC connectors. These SFPs are 100% compatible with Cisco equipment.
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SFP Transceivers - Copper -
M2 Optics, Inc.
Copper SFP transceiver modules (1000Base-T) are 100% compatible with Cisco equipment, include RJ-45 connector, and compliant with applicable industry standards.
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SFP Transceivers - 1000Base SFP -
M2 Optics, Inc.
SFP transceiver modules (1000Base SFP) from M2 Optics are 100% compatible with Cisco equipment, include LC connectors, and are compliant with industry standards.
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10G Transceivers: SFP+, XFP, X2, XENPAK -
M2 Optics, Inc.
10G transceiver modules from M2 optics are available in a range of types including SFP+, XFP, X2, and XENPAK. All types meet industry standards and we can offer Cisco-compatible along with other major brands.
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Renesas Electronics Corp.
Renesas' fault protected RS-485/RS-422 transceivers, also known as overvoltage protected transceivers (OVP), offer robust fault tolerance and high performance.
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LE-270A -
LINEEYE Co., Ltd.
LE-270A is a Communication Data Logger, which records CAN/LIN communication logs in the SD/SDHC card for long hours. Using with a PC, it performs as a CAN/LIN protocol analyzer, and monitors data on the PC at real time (Line Monitor). Using without a PC, it performs as the CAN/LIN data logger, and saves data in the SD/SDHC card. It has two High-speed CAN transceivers, two Low-speed CAN transceivers and two LIN (TJA1020) transceivers. It monitors two channels of CAN or LIN, or one CAN and one LIN transceivers. In addition, four channels of Analog/Digital signals can be recorded.
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ETEK TECHNOLOGY CO., LTD
1. Design and implementation of filters and oscillators for wireless communication. 2. Design and implementation of transceiver for analog wireless communication. 3. Design and implementation of telephone system and controllable. 4. Design and implementation of transceiver for digital wireless communication.