Showing results: 2761 - 2775 of 3061 items found.
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40-855-442 -
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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40-860-442 -
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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40-860-212-M -
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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40-855-212 -
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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40-855-512-M -
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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CMOSIS CMV2000 -
XIMEA GmbH
2K camera Applications: In-situ optical inspection camera, fast process capturing, e.g. Golf club swings, Intelligent Transportation Systems (ITS), Open road tolling and Traffic monitoring, Industrial Automation, Machine Vision, Facial Recognition, Motion Capture, Automotive crash testing, OCR/ OCV, 3D scanning, Robotic Arms, Material and Life science Microscopy, Ophthalmology and Retinal imaging, Medical Imaging, Flat panel inspection, Dental, Kiosks, Security, Biometrics
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iHR Series -
HORIBA, Ltd.
The iHR Series of 320 mm and 550 mm focal length high performance and versatile imaging spectrometers are HORIBA’s most popular and iconic spectrometers. The iHR series is built on decades of experience in spectroscopy and represents the highest quality, performance and versatility of any spectrometers in this class. The iHR 320 and iHR 550 spectrometers are immediately recognizable around the world by their unique shape, the result of a superior optical design. These spectrometers benefit from the highest quality of gratings, also designed and manufactured by HORIBA.
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40-860-222-M50 -
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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40-860-222-M62.5 -
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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40-860-522-M50 -
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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40-860-522-M62.5 -
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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LS4k -
Teledyne e2v
The LS4k is a high speed CMOS System on Chip (SoC) line scan image sensor optimized for applications requiring short exposure times and high accuracy line rates. It incorporates on chip two pixel arrays consisting of 2 rows with 4,096 7µm pitch pixels and 4 rows with 2,048 14µm pitch pixels respectively, a high accuracy (12-bit) high speed (84MHz) analog-to-digital conversion (ADC), and sophisticated on chip optical calibration for PRNU, DSNU, and lens shading correction.
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VideoCheck® UA -
Werth Inc.
Ultra Accurate multisensor coordinate measuring machine in fixed bridge designHighest accuracy due to use of low vibration precision air bearings and solid granite constructionThe VideoCheck® UA features scale resolution in the nanometer range and a special design that reduces measurement errorsCan be equipped with high-precision sensors including the high precision 3D Fiber Probe.Use of high precision telecentric lenses in a second optical beam pathModular structure guarantees customized solutions for individual applicationsIntegrated vibration isolation dampeners
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UVD-2950 -
Spectrophotometer.com
Spectro UV-Vis Double PC is a high performance UV-Vis double beam automatic scanning spectrophotometer. Spectro UV-Vis Double has a brand new optical system design, microcomputer controlled. It is capable of processing data, from analytical and spectrum testing. Precise with high accuracy of measurement and stability are also provided by the powerful built in software and large LCD screen, which can display the screen menu and other functions. It can also be linked to a computer and a printer to show Photometric and Spectral data in the PC monitor.
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DP-cPCI-2502 -
Data Patterns Pvt. Ltd.
The DP-cPCI-2502 is a 16 channel analog output module organized in four groups of 4 channels each. Each group is isolated with respect to each other and with respect to the system using optical isolators and DC-DC converters. Each output channel is driven by a 16 bit resolution precision DAC. The input digital data is converted to analog signals of ±10V range. The digital data for the DACs is written from the cPCI interface via two banks of latches enabling a double buffered output scheme.