Showing results: 406 - 420 of 429 items found.
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Dione 320 CAM Series -
Xenics
The Dione 320 CAM series is based on an uncooled state-of-the-art 12 μm pitch detector with 320×240 pixels and NETD of less than 40 mK (available upon request) or 50 mK.The camera cores are optimized for low SWaP (Size, Weight, and Power). The Dione 320 CAM is both light weight and small. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.All Dione 320 versions have the same SAMTEC ST5 connector and are GenICam compliant. Dione 320 CAM is a LWIR uncooled thermal imaging camera SWaP module with housing supporting M24/M34 lens (optional)The compact Dione 320 CAM series find applications in industrial machine vision, medical, scientific and advanced research, safety and security systems.
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Aldec, Inc.
TySOM™ is a family of embedded system prototyping boards. Depending on the board, one of three FPGAs will be at its heart: a Xilinx Zynq® UltraScale+™, a Xilinx Xilinx Zynq-7000 or a Microchip PolarFire SoC. The boards are compatible, through industry standard interfaces (FMC or BPX), with Aldec’s wide range daughter cards, making Aldec’s TySOM embedded prototyping boards ideal for the rapid development of applications that include automotive (and ADAS, in particular), artificial intelligence (AI), machine learning (ML), embedded vision, embedded-HPC (including edge-processing), IoT, IIoT and industrial automation.
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igentic® 821t -
Sterner Automation Limited
Growing demand for light emitting diode (LED) products combined with increasing testing complexity continue to challenge electronic printed circuit board (PCB) manufacturers. Sterner Automation, a leader in LED test technology, provides solutions that address these specialized requirements, including the versatile igentic® 821t panel testing system. The igentic® 821t automated process combines advanced vision technology with flexible positioning and power-up capabilities to detect inconsistencies in individual LEDs at the panel production level. The resulting detection capabilities ensure that the highest standards are met while maintaining the capacity associated with today's high speed automated lines.
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Oryx 10GigE -
Teledyne FLIR
The award-winning Oryx 10GigE camera family allows systems designers to take advantage of the latest sensors by supporting transfer speeds of up to 10 Gbit/s enabling capture of 4K resolution, 12-bit images at over 60 FPS. Oryx features include IEEE1588 clock synchronization and full compatibility with several popular third-party software supporting GigE Vision. Reliable image transfer at high bandwidth is further improved with Myricom bundles and packet resend feature. Oryx’s 10GBASE-T interface is a proven and widely deployed standard that provides reliable image transfer at cable lengths over 50 meters on inexpensive CAT6A, and up to 30 meters on CAT5e.
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XiB -
XIMEA GmbH
*High speed interface with bandwidth of 20 GBit up to 64 Gbit / sec*CMOSIS / ams sensors: CMV12000, CMV20000, CMV50000*High image resolution and high throughput with 12 Mpix, 20 and 50 Megapixel*Speed of 133 - 333 Fps, 33 and 30 Fps respectively*Fast speed models with 1 Mpix at 3500 and HD at 2500 Fps*Robust PCI Express and Power/GPIO connectors*Integrated Canon EF-mount control with dynamic aperture and focus control*Support for Windows, macOS, Linux, ARM*Suitable for OEM customization and Embedded vision systems*Distances up to 300m over fiberoptic cable*Compact housing: 60 x 60 x 38 mm
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Hawk Radius® -
International Medcom
The Hawk® Radius is a ruggedized solution for monitoring both ambient and elevated levels of ionizing radiation. Like a Hawk with its remarkable vision, the Hawk Radius Probe “sees” things that other probes cannot. The high sensitivity weatherized pancake sensor can provide early warning of changing ambient radiation conditions, while the energy compensated detector can accurately report penetrating gamma radiation dose rate at elevated levels. Radius probes are typically deployed as part of an environmental radiation monitoring program, or for safety and security systems. In its standard configuration the probe detects beta, low energy gamma and x-radiation with one channel and energy compensated penetrating gamma radiation levels with a second channel. It can be configured to detect alpha radiation as well. The Hawk® Radius has been deployed worldwide in demanding conditions for protecting communities and collecting environmental radiation data. It can be deployed easily and requires minimum maintenance. The Radius is compatible with Medcomʻs GeigerLink adapter and the IMI Gateway App for use with personal computers. It can also be used with most data loggers including popular Campbell Scientific models.
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1024L1 -
Princeton Infrared Technologies, Inc.
The 1024L1 is a 1024x1 state of the art InGaAs linear array imager on 12.5 µm pitch that was built for both spectroscopy and machine vision in the short wave infrared band. The 1024L1-12.5-T is an advanced digital array with the lowest read noise available <110e- for a 250 μm tall pixel. Our new advanced SWIR On-chip Noise Suppression Circuit will enable some spectroscopic applications to see read noise levels <80e-. A single ROIC chip is used thus minimizing variation from output to output found on linear arrays with multiple ROICs. The chips have built in 14bit A/Ds that are designed for the system thus maximizing dynamic range and minimizing the noise while enabling 34k lines/s at 1024 elements. Multiple full well capacities from 75ke- to 100Me- with 128 steps are available to optimize the array for the signal levels. On chip optical pixel binning (where every other detector is disconnected from the ROIC thus signal is captured by neighboring pixels) is available by command to trade spectral resolution for increased signal level. Pixel skipping or binning is also available allowing for 48k lines/s at 512 resolution on the same imager.
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B&W Tek, Inc.
We offer a full suite of software for spectroscopic data collection and analysis designed for users at all levels, and varying applications. Our standard BWSpec® spectral data acquisition software allows for easy collection of data from our Raman systems and modular spectrometers. It includes tools for instrument control for data collection and spectral manipulation. The raw data and corrected data are stored and can be easily viewed. Data manipulation tools include smoothing, baseline correction and derivatives. Data can be saved in different formats for use in additional application software. For spectral identification against Raman spectral libraries with a simple interface for immediate identification for verification with a pass/fail result, our BWID® software provides qualitative analysis. Users of BWID software can create their own Raman spectral libraries, or select from our numerous ready to use libraries. For identification with portable Raman in regulated environments, the US FDA 21 CFR part 11- complaint version of BWID can be used. B&W Tek’s unique see-through identification using the STRam® can also be done using the BWID software operating on the embedded tablet computer of the STRam system. For quantitative analysis, data collected with BWSpec or other packages can be imported into the BWIQ® multivariate data analysis software, offering a full suite of data preprocessing, regression and classification analysis algorithms. PLS regression models from the BWIQ software an be used in rel-time in our BWAnalyst software, for use with the QTRam , as well as in Metrohm’s Vision® software. The i-Raman series portable Raman instruments can also be operated for single acquisition, or for real-time analysis in the Routine Analysis mode of the Vision software.
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Blackfly S GigE -
Teledyne FLIR
The Blackfly® S leverages the industry’s most advanced sensors in an ice-cube form factor. It is packed with powerful features enabling you to easily produce the exact images you need and accelerate your application development. This includes both automatic and precise manual control over image capture and on-camera pre-processing. On-camera features including IEEE1588 clock synchronization and full compatibility with popular third-party software supporting GigE Vision, gives system designers the tools to quickly develop innovative solutions. GigE models featuring Lossless Compression (LLC) are also available with higher maximum frame rates and lower bandwidth requirements, helping maximize output without compromising image quality. The Blackfly S is available in GigE, USB3, cased, and board-level versions.
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Hyper Vision HPV-X2 -
Shimadzu Corp.
Medical science and engineering have made dramatic progress thanks to visualization technology. Examples include the invention of microscopes capable of enlarged observations of phenomena occurring in the microscopic domain, invisible to the human eye, X-ray inspection systems, which enable the observation of images utilizing light at imperceptible wavelengths, and infrared cameras. Our eyes are incapable of capturing phenomena occurring at times shorter than 50 to 100 ms. As a result, high-speed video cameras have become necessary in order to record phenomena occurring at intervals that cannot be seen with the human eye, and then replay them at a slower rate so that they can be visualized. As the standard tool for visualizing ultra high-speed domains, the Hyper Vision high-speed video camera contributes to our understanding of ultra high-speed phenomena in a variety of fields.
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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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AIE500-901-FL -
Axiomtek Co., Ltd.
The AIE500-901-FL is an advanced Artificial Intelligence embedded system for edge AI computing and deep learning applications. The high-performance embedded system employs an NVIDIA Jetson™ TX2 module which has a powerful 64-bit ARM® A57 processor; NVIDIA® Pascal™ GPU with 256 CUDA cores; and 8GB of 128-bit LPDDR4 memory. To withstand the rigors of day-to-day operation, the AIE500-901-FL has an extended operating temperature range of -30°C to +60°C and vibration of up to 3 Grms with its strong construction. This fanless Artificial Intelligence edge system is dedicated to achieving operational excellence, efficiency, reliability in smart manufacturing and intelligent edge applications. The edge computing device provides solutions as Edge AI embedded system, specifically designed for video analysis, object classification, computer vision, quality control and more. Under the ultra-compact enclosure design, the AIE500-901-FL comes with 32GB eMMC onboard and is equipped with one M.2 Key M 2280 SSD slot with PCIe and SATA signal and one Micro SD slot for massive data processing and AI applications. Besides, this reliable embedded system has one full-size PCI Express Mini Card slot and one SIM slot for 3G/4G, GPS, Wi-Fi and Bluetooth connections.
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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.
