Showing results: 1591 - 1605 of 1619 items found.
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Thorlabs, Inc.
Welcome to Thorlabs; below you will find links to detectors and instrumentation that measure the various properties of light, a subset of our entire line of photonics products. Thorlabs offers an extensive selection of instruments that measure the properties of light. Our versatile power and energy meters can be used with over 25 different sensors in order to make NIST-traceable power and energy measurements. If the convenience of a meter is not desired, our selection of detectors includes basic photodiodes (uncalibrated and calibrated), photodetectors (biased, amplified, and avalanche), CCD and CMOS arrays, position detectors, integrating spheres, and photomultiplier tubes. The Beam Characterization category contains beam profilers (camera and scanning slit), a wavefront sensor, spectrometers, and interferometers, while the Polarimetery link leads to a selection of instruments used to measure and control the polarization of light.
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Multidyne
Sometimes you just want to connect everything at once. Recognized worldwide as a leading supplier of fiber-optic solutions, MultiDyne now operates a full-service cable fabrication lab. Our rigorous in-house qualification and testing processes bring greater quality control to our product manufacturing workflow. As a Neutrik COCA member, MultiDyne is one of the few certified assemblers of ruggedized opticalCON hybrid fiber cables. MultiDyne also terminates SMPTE 304M LEMO connectors and offers other tactical cables that easily mate to SMPTE fiber-optic cameras, standard breakout boxes, and our other fiber-optic transport solutions. With all assembly happening in-house by specialized technicians, customers can purchase all components of a complete MultiDyne fiber transport solution - or new cables and assemblies to upgrade existing fiber systems.
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787455-01 -
NI
The PXIe-1486 combines the Texas Instruments Flat Panel Display Link™ (FPD-Link™) interface with the Xilinx FPGA for high-throughput vision and imaging applications. This module provides a high-speed digital interface for using and testing modern advanced driver assistance systems (ADAS) and autonomous drive (AD) camera sensors and electronic control units (ECUs). Additionally, the PXIe-1486 makes use of a combination of FPD-Link™ serializers and deserializers with a Xilinx FPGA to provide a high-throughput and customizable FPD-Link™ interface on PXI. The included FlexRIO driver, with LabVIEW FPGA examples, provides access and control for power-over-coax, I²C back-channel communication, and general-purpose input/output (GPIO) communication on the FPD-Link™ channels. The PXIe-1486 is ideal for applications such as in-vehicle data logging, lab-based playback, or hardware-in-the-loop (HIL). FPD-Link is a trademark of Texas Instruments.
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787454-01 -
NI
The PXIe-1486 combines the Texas Instruments Flat Panel Display Link™ (FPD-Link™) interface with the Xilinx FPGA for high-throughput vision and imaging applications. This module provides a high-speed digital interface for using and testing modern advanced driver assistance systems (ADAS) and autonomous drive (AD) camera sensors and electronic control units (ECUs). Additionally, the PXIe-1486 makes use of a combination of FPD-Link™ serializers and deserializers with a Xilinx FPGA to provide a high-throughput and customizable FPD-Link™ interface on PXI. The included FlexRIO driver, with LabVIEW FPGA examples, provides access and control for power-over-coax, I²C back-channel communication, and general-purpose input/output (GPIO) communication on the FPD-Link™ channels. The PXIe-1486 is ideal for applications such as in-vehicle data logging, lab-based playback, or hardware-in-the-loop (HIL). FPD-Link is a trademark of Texas Instruments.
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787453-01 -
NI
The PXIe-1486 combines the Texas Instruments Flat Panel Display Link™ (FPD-Link™) interface with the Xilinx FPGA for high-throughput vision and imaging applications. This module provides a … high-speed digital interface for using and testing modern advanced driver assistance systems (ADAS) and autonomous drive (AD) camera sensors and electronic control units (ECUs). Additionally, the PXIe-1486 makes use of a combination of FPD-Link™ serializers and deserializers with a Xilinx FPGA to provide a high-throughput and customizable FPD-Link™ interface on PXI. The included FlexRIO driver, with LabVIEW FPGA examples, provides access and control for power-over-coax, I²C back-channel communication, and general-purpose input/output (GPIO) communication on the FPD-Link™ channels. The PXIe-1486 is ideal for applications such as in-vehicle data logging, lab-based playback, or hardware-in-the-loop (HIL). FPD-Link is a trademark of Texas Instruments.
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SP-RS485-12V-O -
Network Technologies Inc
Ideal for applications such as video surveillance cameras and access control. Protects sensors running on 22 AWG 2-wire sensor cables or 12VDC power lines against the effects of electrostatic discharge, faulty wiring and lightning. RS485 protection: Stage 1 clamping voltage: ±90V; Stage 2 resistance: 3.3 Ohms; Stage 3 clamping voltage: ±7.5V. 12VDC power lines protection: Stage 1 clamping voltage: ±90V; Stage 2 current rating: 3A; Stage 3: 12V TVS (transient voltage suppression) diode. Screw terminal pairs for RS485 and 12VDC power lines protection. Will also protect two single ended data, analog or control lines. Impact and weather resistant enclosure with locking hinged cover.
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ImageMaster PRO 10 -
Trioptics GmbH
As a result of various improvements the ImageMaster® PRO 10 enables customers to significantally increase their yield. It is the fastest and most accurate MTF measurement system on the market for qualifying mobile phone lenses and other miniature lenses. Besides the new software architecture and functions, the more precise mechanical components lead to best performance in accuracy, reliability and measurement speed. Faster MTF algorithms reduce the test cycle time so that an outstanding throughput is achieved. The ImageMaster® PRO 10 features a 15% increased productivity compared to the ImageMaster® PRO 9.The new ImageMaster® PRO 10 also provides additional measurement functions. For example, measurements at different frequencies and RGB measurements can be performed to determine chromatic aberration. An upgrade of four additional cameras allows the measurement of relative illumination for testing the homogeneous illumination of lenses in the field.
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Amida Technology, Inc.
AMIDA 2020XP CIS tester is the latest generation of CMOS image sensor-specific measuring instruments from Metatech. In addition to the original true and accurate measurement, the high-throughput mass production solution designed for the high-throughput inspection of image lens modules and camera lenses has been well received after nearly 20 years of mass production experience. First-class factories at home and abroad import production. AMIDA 2020XP CIS testing machine not only meets the customer's testing time and high output and accuracy requirements. Within the range of functional flexibility, users can customize their measurement requirements according to the definition of various sensors. AMIDA 2020XP CIS tester is a new generation of CMOS Image Sensor dedicated tester, which integrates DC open/short/leakage test, AC Pattern test and image test. It uses 180 Pin high-speed cable to connect to the test end
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QTouch 1408 C -
Qmax Test Technologies Pvt. Ltd.
QTouch 1408 C – Automated Multi-Functional Tester with in-built camera is designed to make automatic image capturing and probing of electrical signals with ease and speed especially in PCBs with high density/high pin count device that are mounted on the PCB. It is designed to move on X, Y, Z directions making it possible to probe every component as close as 20 mils. Easy tagging feature allows the user to get the real time XY coordinates using the library information with minimal intervention. CAD import feature is available for Auto Test Generation/to extract the XY coordinates from the CAD data. Qmax Automated Multi Functional Tester can perform Board level functional test of a PCB and guided probe / Back tracking diagnostics utility to reliably test Digital, Analog and Mixed Signal PCBs and fault isolation to the PCB level or component level.
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787457-01 -
NI
The PXIe-1487 combines the Maxim Integrated Gigabit Multimedia Serial Link™ (GMSL™) interface with the Xilinx FPGA for high-throughput vision and imaging applications. This module provides a high-speed digital interface for using and testing modern advanced driver assistance systems (ADAS) and autonomous drive (AD) camera sensors and electronic control units (ECUs). Additionally, the PXIe-1487 makes use of a combination of GMSL™ serializers and deserializers with a Xilinx FPGA to provide a high-throughput and customizable GMSL™ interface on PXI. The included FlexRIO driver, with LabVIEW FPGA examples, provides access and control for power-over-coax, I²C back-channel communication, and general-purpose input/output (GPIO) communication on the GMSL™ channels. The PXIe-1487 is ideal for applications such as in-vehicle data logging, lab-based playback, or hardware-in-the-loop (HIL). GMSL is a trademark of Maxim Integrated Products, Inc.
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787456-01 -
NI
The PXIe-1487 combines the Maxim Integrated Gigabit Multimedia Serial Link™ (GMSL™) interface with the Xilinx FPGA for high-throughput vision and imaging applications. This module provides a … high-speed digital interface for using and testing modern advanced driver assistance systems (ADAS) and autonomous drive (AD) camera sensors and electronic control units (ECUs). Additionally, the PXIe-1487 makes use of a combination of GMSL™ serializers and deserializers with a Xilinx FPGA to provide a high-throughput and customizable GMSL™ interface on PXI. The included FlexRIO driver, with LabVIEW FPGA examples, provides access and control for power-over-coax, I²C back-channel communication, and general-purpose input/output (GPIO) communication on the GMSL™ channels. The PXIe-1487 is ideal for applications such as in-vehicle data logging, lab-based playback, or hardware-in-the-loop (HIL). GMSL is a trademark of Maxim Integrated Products, Inc.
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787458-01 -
NI
The PXIe-1487 combines the Maxim Integrated Gigabit Multimedia Serial Link™ (GMSL™) interface with the Xilinx FPGA for high-throughput vision and imaging applications. This module provides a high-speed digital interface for using and testing modern advanced driver assistance systems (ADAS) and autonomous drive (AD) camera sensors and electronic control units (ECUs). Additionally, the PXIe-1487 makes use of a combination of GMSL™ serializers and deserializers with a Xilinx FPGA to provide a high-throughput and customizable GMSL™ interface on PXI. The included FlexRIO driver, with LabVIEW FPGA examples, provides access and control for power-over-coax, I²C back-channel communication, and general-purpose input/output (GPIO) communication on the GMSL™ channels. The PXIe-1487 is ideal for applications such as in-vehicle data logging, lab-based playback, or hardware-in-the-loop (HIL). GMSL is a trademark of Maxim Integrated Products, Inc.
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Applied Image, Inc.
Sinusoidal Target Arrays have been recognized as a superior test method for a variety of applications, from moiré contouring to reliable MTF Evaluation of materials, lenses, cameras, and electro-optical systems (Follow the hyperlink to learn about using Sinusoids for MTF eval). Sinusoidal Pattern Arrays are manufactured on two different materials for both reflective and transmissive applications. Because of the inherent limitations of reflective materials, the maximum spatial frequency of the reflective pattern arrays is limited to 20 cycles per mm, while the transmission film arrays are offered in various sizes up to 256 cycles per mm. In addition, the sinusoidal arrays are available in a Single Frequency Grating or with Multi-Frequency Gratings. If instead of continuous sinusoidal frequency, you are looking for a square wave frequency design, then look to the Ronchi Gratings page. Should you need to alter the size of the pattern or the substrate, fill out our Custom Test Targets and Charts form and start the conversation.
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Duma Optronics LTD
The M2 factor wil define the beam propagation characteristics compared to ideal Gaussian beam propagation. According to ISO Standard 11146 rightfully offers the laser beam characterization as "M2 times diffraction limited beam", as such, a perfect beam will have an M2 of 1. 1 will be the best achievable value and no beam could have an M2 less than 1. Our conceptual design is based on sub-assemblies allowing to change the sensing head in the M2 device, offering multiple wavelengths heads up to 2.7 microns from deep UV (knife-edge technology) and camera based technology with built-in automatic filter wheel for adjustment. For focused beams, the same measuring head could be attached to a device for meauring highly divergent or highly convergent beams - FocusGage-BA, wherein the Laser Analyzing Electronic Autocollimator offers the capability of divergence measurement with Coming Soon M2 definition. M2Beam is the cornerstone of those measuring devices.
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Sinowon Innovation Metrology Manufacture Ltd.
◆ The lifting system adopts linear guide rail and precision screw drive, which makes the lift drive more comfortable and stable;◆ With precision toothless rod and fast movement locking device, ensure return error is within 2um;◆ High accuracy A optical scale and precision working stage, ensure machine accuracy is within 3+L/200 um;◆ HD zoom lens and HD color digital camera, ensure clear image without distortion;◆ With programmable surface 4-ring 8-division LED cold light and contour LED parallel illumination, it can control the brightness of the 4-ring 8-division independently;◆ With powerful iMeasuring2.1 software system , to enhance the control quality;◆ Optional imported contact probes and 3D measuring software, it can help upgrade the machine to be coordinate measuring machine;◆ Optional FexQMS measurement data analysis and real-time monitor software, enhance process control, reduce material consumption;
