Showing results: 211 - 225 of 1189 items found.
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8800 Family -
Delaire USA, Inc.
Delaire USA qualification test systems are designed to act as worst-case links for bandwidth/dispersion and attenuation, or to meet the customer's loss, dispersion, and distance requirements for custom applications. Because the test links are constructed from hand-selected, industry-standard fiber and not simulated with dispersion elements, all of the effects including loss, dispersion, and fiber nonlinearities are present and authentic. Typical applications include optical transciever testing and qualification for 40G AND 100G systems
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Pickering Interfaces Ltd.
This LXI Optical Switching range consists of our LXI Scalable Chassis (model 65-200-002) that can be easily reconfigured by the removal and insertion of our optical switching plug-in modules shown below. The unit is purchased as an empty chassis along with the number of plug-in modules initially required (up to six optical matrix or multiplexer modules). As your requirements evolve, additional modules can be easily added, and the control software automatically detects the new configuration. The plug-ins are loaded into the chassis via the front panel, greatly improving the flexibility and ease of maintenance of the unit.
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610113173 -
Virginia Panel Corporation
* This contact available for purchase as a patchcord only. Choose link below to configure as a patchcord. Primary mating contact 610113172. (May mate with other Receiver contacts, as well.)
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610113172 -
Virginia Panel Corporation
* This contact available for purchase as a patchcord only. Choose link below to configure as a patchcord. Primary mating contact 610113173. (May mate with other ITA contacts, as well.)
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#TVFL100 -
NSI Industries
Fiber optic visual fault locator works with virtually all 1.25mm and 25mm fiber optic sizes and connector types.
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CS-100F1 Series -
HORIBA, Ltd.
The CS-100F1 Series is equipped with fiber optics cable based on the CS-100 Series. It offers real-time, in-line measurements by directly integrating the sample cell into the cleaning system piping and by using a fiber optic cable for light signal transmission. A single concentration monitor can take up to four measurements and monitoring of multiple chemical solutions in a single-bath or single-wafer cleaning system is also possible.
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40-855-112 -
Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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40-855-342 -
Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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40-855-312 -
Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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40-855-432 -
Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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40-855-012 -
Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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40-855-332 -
Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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40-855-122 -
Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.