We can accommodate semi-custom requests with a short lead time! Display output can be provided at full frame rate!
The "KIT1090NTSC Addax" is a capture board that allows you to capture NTSC composite input image signals to a PC and write image data from the PC to onboard memory, enabling full frame rate display output. Furthermore, if you have requests for semi-custom solutions, such as modifying the FPGA (CycloneEP1C20) to implement a 3×3 spatial filter (color) in hardware, we can accommodate them with a short lead time. 【Features】 ■ Can capture NTSC composite input image signals to a PC ■ Can output PC image data at video rates to NTSC composite ■ Semi-custom solutions can also be accommodated with a short lead time *For more details, please refer to the PDF document or feel free to contact us.
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【Specifications】 ■ Board Size: 174.63mm × 106.68mm ■ Video Input/Output: NTSC Composite 1ch ■ Operating Frequency: PCI Local 24.5454MHz ■ Sampling Frequency: NTSC Square Pixel 12.2727MHz ■ Memory: SSRAM 512K × 32bit × 2BANK ■ Input Image Size: 640 × 480 × 24bit ■ Output Image Size: 640 × 480 × 24bit ■ General I/O: LED: 2 units, DipSW: 1 unit (2bit) *For more details, please refer to the PDF document or feel free to contact us.
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For more details, please refer to the PDF document or feel free to contact us.
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Due to our focus on image processing, we have a wide range of applications, including "medical devices," "image processing for automobiles," "inspection equipment," and "wide dynamic range cameras," among others. We have prepared many implementation methods, so if you specify the image processing functions you would like to add to your products, we will consider the implementation specifications, schedule, and costs, and create a "proposal." For image processing software development, we provide implementation methods using algorithms for "learning," "recognition," "search," "image synthesis," and "defect repair," as well as device drivers for PCIe and ARM firmware. In hardware development, we have 27 years of experience with image processing boards using SoC FPGAs from Intel (Altera) and AMD (Xilinx), as well as FFT, labeling IP, image transformation, and more.