Showing results: 5956 - 5970 of 8144 items found.
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50-670C-021-49/2 -
Pickering Interfaces Ltd.
The 50-670C-021-49/2 is a 49-channel, 2-pole MUX and is part of a series of very high density multiplexer cards feature a wide range of switching configurations. Typical applications include signal routing in ATE and data acquisition systems.The 50-670C shares exactly the same architecture as the established 40-670 range of PXI modules.
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50-670C-022-10/16 -
Pickering Interfaces Ltd.
The 50-670C-022-10/16 is a 10-channel, 16-pole MUX and is part of a series of very high density multiplexer cards feature a wide range of switching configurations. Typical applications include signal routing in ATE and data acquisition systems.The 50-670C shares exactly the same architecture as the established 40-670 range of PXI modules.
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50-670C-021-24/4 -
Pickering Interfaces Ltd.
The 50-670C-021-24/4 is a 24-channel, 4-pole MUX and is part of a series of very high density multiplexer cards feature a wide range of switching configurations. Typical applications include signal routing in ATE and data acquisition systems.The 50-670C shares exactly the same architecture as the established 40-670 range of PXI modules.
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50-670C-022-5/32 -
Pickering Interfaces Ltd.
The 50-670C-022-5/32 is a 5-channel, 32-pole MUX and is part of a series of very high density multiplexer cards feature a wide range of switching configurations. Typical applications include signal routing in ATE and data acquisition systems.The 50-670C shares exactly the same architecture as the established 40-670 range of PXI modules.
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50-670C-021-5/16 -
Pickering Interfaces Ltd.
The 50-670C-021-5/16 is a 5-channel, 16-pole MUX and is part of a series of very high density multiplexer cards feature a wide range of switching configurations. Typical applications include signal routing in ATE and data acquisition systems.The 50-670C shares exactly the same architecture as the established 40-670 range of PXI modules.
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50-670C-022-49/4 -
Pickering Interfaces Ltd.
The 50-670C-022-49/4 is a 49-channel, 4-pole MUX and is part of a series of very high density multiplexer cards feature a wide range of switching configurations. Typical applications include signal routing in ATE and data acquisition systems.The 50-670C shares exactly the same architecture as the established 40-670 range of PXI modules.
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50-670C-021-10/8 -
Pickering Interfaces Ltd.
The 50-670C-021-10/8 is a 10-channel, 8-pole MUX and is part of a series of very high density multiplexer cards feature a wide range of switching configurations. Typical applications include signal routing in ATE and data acquisition systems.The 50-670C shares exactly the same architecture as the established 40-670 range of PXI modules.
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50-670C-021-99/1 -
Pickering Interfaces Ltd.
The 50-670C-021-99/1 is a 99-channel,1-pole MUX and is part of a series of very high density multiplexer cards feature a wide range of switching configurations. Typical applications include signal routing in ATE and data acquisition systems.The 50-670C shares exactly the same architecture as the established 40-670 range of PXI modules.
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Precise Time and Frequency, Inc.
To complement the range of high quality frequency and timing references, Precise Time and Frequency, LLC. has now introduced a new Optical Time Code Receiver, with Auto Switching, a full complement of time code outputs, and Ethernet/RS232 remote monitoring/control interface.In addition to the auto switching capability, the new ptf 1211A delivers up to thirty six channels of Time Code outputs, including re-transmission of the optical input. The unit can accept a pair of inputs (usually from separate primary and backup sources), and provides monitoring of both the inputs and outputs for signal integrity.If the primary input fails, the unit will automatically switch to the backup input and indicate a primary signal fault.Full remote monitoring and control via RS232 and Ethernet interfaces includes telnet, http (web browser), and SNMP protocols.
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DPNA-6G AXIe -
Holding Informtest
The AXI DPNA-6G module is the world's first network analyzer in the form factor of the AXIe-1 module, as well as the first Russian device that meets the AXIe-1 standard. In the mode of the network parameters meter, the AXI DPNA-6G module measures the vector values of the network parameters on two ports: transmission coefficients (S12, S21) and reflection (S11, S22). At the same time, all necessary types of calibrations are supported: one- and two-port short-circuit, XX, matched load, transmission normalization. The software supports the import of third party calibration standard parameters. In the measuring receiver mode, the module provides:*generation of a harmonic signal (frequency synthesizer);*spectrum analyzer and power level in a given band;*measuring the frequency of a known signal;*measurement of analog modulation parameters;*phase noise measurement.
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40-521-022 -
Pickering Interfaces Ltd.
Typical applications for this high density matrix include signal routing in Functional ATE and data acquisitionsystems. These PXI matrix cards are constructed using high reliability rutheniumelectro-plated reed relays, offering >10e8 operations to give maximum switchingconfidence with long life and stable contact resistance. Larger matrices may be constructed by Daisy Chaining the common signals from multiple PXI modules. For example, 7 PXI modules will form a 168x8 Matrix, a total of 1344 crosspoints in a 7-slot PXI Chassis. All 40-521 series modules are fitted with reed relays (ruthenium sputtered type), these offer very long life with good low level switching performance and excellent contact resistance stability.Spare Reed Relays are built onto the circuit board to facilitate easy maintenance with minimum downtime.
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RJ Series -
Cytec Corp.
The RJ Series of computer controlled switching systems are designed for physical layer switching of multiwire signals on RJ style connectors. Since the system uses mechanical relays it acts exactly like a piece of cable which makes it perfect for testing networks without altering the signals or regeneration. These systems are typically used for Ethernet LAN 10BaseT through 1000BaseT, DSL including ASML through GFAST, CAT5 through CAT6A cable testing, USB up to 2.0, RS232, RS422, RS485 up to 8 wire at 20 Mbps and many other applications switched over RJ45 connectors up to 8 wires. They may also be used as lab automation switches, network testing switches, patch panels, network redundancy switches or any number of physical layer applications.
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SMPTE-HUT Series -
Multidyne
We work in an industry of hybrid workflows and solutions, but sometimes we need authentic innovation that changes how we work. MultiDyne’s next-generation SMPTE-HUT Series is the definition of a pure solution that elevates the live production workflow. SMPTE-HUT universal camera transceivers free SMPTE-based camera chains from the limitations of hybrid copper and fiber cabling, and removes interferences associated with copper connectivity. Camera operators instead have a plug-and-play system that requires only two stands of single-mode fiber - reducing costs, weight, and set-up times – while ensuring the best possible signal integrity. With options to multiplex camera signals, boost the optical range of cameras and regenerate optical power over fiber, SMPTE-HUT is a purist’s solution for remote broadcasting, sports production and other long-distance SMPTE studio camera applications.
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Fairview Microwave Inc.
Our millimeter wave variable waveguide attenuators allow designers and engineers to test their systems at various signal strengths and attenuation values to determine the optimum signal performance of the system. The key feature of these waveguide attenuators is that the attenuation level is adjusted using a built-in micrometer which enables repeatable and rapid re-setting to different attenuation levels without the need for additional external components. Our waveguide attenuators handle varying attenuation levels from 0 to 30 dB over the specified band allowing the designer to tune the attenuation level needed for the application. These continuously variable waveguide attenuators cover a broad frequency range of 33 to 110 GHz in five bands and also display flat performance across a wide band with low insertion loss.
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Analog Devices Inc.
Analog Devices Clock synchronizers are designed for wired networking applications, providing the clock redundancy functionality needed to maximize system uptime. Our technology supports clock synchronization with common standards, including 1 pulse per second (PPS) output signal from a GPS receiver. GPS signals are broadly available and utilize an extremely stable atomic clock as its time base, but they are often noisy. Systems rely on the IEEE1588 timing protocol to establish synchronous communications across the wired network, including synchronous Ethernet and synchronous digital hierarchy (SDH) to optical transport network (OTN) mapping/demapping. The IEEE1588 protocol has emerged as the preferred method for Clock synchronizing systems throughout both computer networks and local area networks (LAN).
