Showing results: 316 - 330 of 343 items found.
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Magic series -
New Imaging Technologies
New Imaging Technologies proposes a broad range of visible products. From sensors to complete camera systems, all of our products integrate our unique NATIVE WDR capabilities. Our NATIVE WDR™ is a new generation of CMOS imaging technology named MAGIC™ (standing in english for Active Matrix with indexed generated contrast ), capable of generating a highly stable image even under very wide intra scene dynamic range (> 120dB) in a single frame time and without multi-exposure, any setting of knee points or external control. Our products are suited for many demanding applications and industries.
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e-con Systems Inc.
e-CAM & See3CAM Series of Camera Boards. e-CAM camera board is e-con's reference design featuring a board camera interfaced to a processor on its high speed CMOS interface. Board cameras are available for Jetson Developer kits and NXP i.MX6 boards. For processors, that don't have the Camera ISP pipeline, e-con Systems provides the complete software stack for raw image sensors. The software stack has a wide variety of features ranging from color correction, gamma correction, dead pixel correction, color space conversion, sharpen filter etc.
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STMicroelectronics
ST’s sensors now address an increasing number of imaging applications in the automotive, security, gaming, medical and high-end traditional camera market. As a leading supplier in the wireless industry, ST is constantly innovating in all aspects of our product offer. Camera modules featuring extended depth of field (EDoF), where the consumer benefits from an enhanced imaging experience over a traditional fixed focus (FF) approach, was first industrialized by ST. Leveraging extensive system on chip (SOC) knowhow, a wide range of features can be integrated on the same silicon die as the pixel array including autofocus (AF) drivers and lens shading correction (LSC) algorithms, as well as innovative solutions, such as high dynamic range (HDR) technology, at an affordable cost.
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Fraunhofer Institute for Telecommunications
The Computer Vision and Visualization Department consists of three research and development groups working on innovative technologies in the field of monocular, stereoscopic and multichannel video processing. It covers the entire processing chain from original capture to rendering, with a focus on advanced 2D and 3D analysis, post-production synthesis, computer vision, image understanding, human-machine interaction, and immersive media , The department also has expertise in processing complex systems consisting of multiple cameras, sensors, displays, projectors or screens.
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NI
Digital Modules for Remote I/O provide 24 V digital inputs or outputs and offer 1‐, 2‐, 3‐, and 4‐wire spring terminal connection options. You can use inputs as counters or standard digital inputs, and you can adjust filter time to improve measurement quality. Inputs can include a built‐in power supply for sensors. Output modules feature circuit and overload protection and can drive up to 500 mA per channel, up to 8 A per module.A remote I/O system consists of an EtherCAT bus coupler and individual modules mounted on a DIN rail. You control the Digital Module for Remote I/O from a NI real‐time controller. You can use remote I/O hardware to add low‐cost I/O for simple tasks while your controller handles advanced tasks such as image processing, motion control, and high‐speed or specialty measurements.
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Inframet
Surveillance cameras based on CCD/CMOS/ ICCD/ EMCCD/EBAPS imaging sensors sensitive in visible and near infrared range are widely used in many long range surveillance applications as independent imagers or as part of a bigger multi-sensor surveillance systems. Majority of VIS-NIR cameras are used for day level applications but an increasing number of these cameras is used to enable surveillance in both night and day conditions. In both cases it is important to verify performance of these cameras under varying illumination conditions from very dark nights to ultra bright days. Important missions can fail due to too low sensitivity of VIS-NIR cameras at night conditions (dark, noisy images) or due to too low dynamic at ultra bright day conditions (saturated, blurred images). Next, it is important to use VIS-NIR cameras that generate high quality images in order to achieve maximal effective surveillance ranges.
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110 Degree FOV, MLX90640 (Qwiic) -
SparkFun Electronics
It's time to say hip hip array for this IR Breakout! The MLX90640 SparkFun IR Array Breakout is equipped with a 32x24 array of thermopile sensors creating, in essence, a low resolution thermal imaging camera. With this breakout you can detect surface temperatures from many feet away with an accuracy of ±1.5°C (best case). To make it even easier to get your low-resolution infrared image, all communication is enacted exclusively via I2C, utilizing our handy Qwiic system. However, we still have broken out 0.1"-spaced pins in case you prefer to use a breadboard.
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55 Degree FOV, MLX90640 (Qwiic) -
SparkFun Electronics
It's time to say hip hip array for this IR Breakout! The MLX90640 SparkFun IR Array Breakout is equipped with a 32x24 array of thermopile sensors creating, in essence, a low resolution thermal imaging camera. With this breakout you can detect surface temperatures from many feet away with an accuracy of ±1.5°C (best case). To make it even easier to get your infrared image, all communication is enacted exclusively via I2C, utilizing our handy Qwiic system. However, we still have broken out 0.1"-spaced pins in case you prefer to use a breadboard.
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NI
The Voltage Input Module for Remote I/O features 2-, 3-, and 4-wire spring terminal connection methods, a built-in power supply for sensors, four selectable input ranges, and simultaneous sampling. A remote I/O system consists of an EtherCAT bus coupler and individual modules mounted on a DIN rail. You control the Voltage Input Module for Remote I/O from a real-time controller, such as a CompactRIO Controller or an Industrial Controller. You can use remote I/O hardware to add low-cost I/O for simple tasks while your controller handles advanced tasks such as image processing, motion control, and high-speed or specialty measurements.
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TL1 -
North Atlantic Industries
Function module TL1 provides 24 channels of TTL/CMOS transceiver functionality as either inputs or outputs. The transistor-transistor logic (TTL) employs transmitters with multiple emitters in gates having more than one input. TTL offers high switching speed and relative immunity to noisy systems. CMOS sensors provide image sensing technology by converting light waves into signals that are small bursts of current. These waves can be light or other electromagnetic radiation.
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Pulse Instruments
Multiple timing signals ("clocks") are required by CCDs, IR FPAs, and some CMOS image sensors to transport electrical charge across the array to a sense amplifier for conversion into image data. Pulse Instruments offers a line of "clock drivers" for generating these timing signals. The parameters of these clocks (clock rate, pulse width, pulse amplitude, rise- and fall-times, etc.) greatly influence the behavior and performance of the imaging device. Our products take logic-level inputs from a pattern generator and allow the user to adjust the output parameters to suit their device and testing requirements. Clocks can be "tweaked" in real-time to determine optimal operating parameters for a particular device, or else programmed in accordance with a test plan for automated production test.
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Pulse Instruments
Imaging devices, such as CCDs, IR FPAs, and CMOS image sensors, require DC bias with very low electrical noise to prevent contamination of the image. Image quality can also be enhanced by carefully tuning each bias voltage to extract the maximum signal/noise ratio out of an array. Pulse Instruments has decades of experience providing DC bias supplies with the flexibility required tocharacterize and test a variety of devices while maintaining the noise immunity required for satellite and astronomy applications.
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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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Fairview Microwave Inc.
The new MMIC IQ mixers from Fairview (also known as IQ modulators) utilize a highly reliable GaAs MESFET semiconductor process which integrates a pair of matched double balanced mixer cells, a 90-degree hybrid and a 0-degree splitter/combiner that produces exceptional amplitude and phase balance performance. This level of integration offers size and performance advantages in comparison to discrete module assemblies. With the addition of an external 90-degree IF hybrid module, these IQ mixers can be used as either a Single Sideband Up-converter Mixer or an Image Reject Down-converter Mixer. The benefit of image rejection and sideband suppression can reduce overall system cost and complexity by removing the need for pre-selection filtering. Typical applications include point-to-point and point-to-multipoint radio, VSAT, military radar, electronic warfare, satellite communications, test equipment, and sensors.
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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
