MV-900E HD image acquisition card for machine vision and medical imaging

[Product introduction]
MV-900E machine vision and medical imaging high-definition image capture card with high acquisition accuracy, high color reproduction, and excellent image detail processing, are welcomed by users. For many years, Vevision image products have been The accurate product positioning has been recognized by the majority of users, especially in the industrial machine vision and medical imaging industry image products have in-depth research and development and product application experience. Combining industrial machine vision with accurate image data, single-frame, continuous-frame image quality, no smearing, and no aliasing.The medical imaging industry requires true color reproduction, excessively smooth edges, clear image boundaries, and good hardware compatibility. specialty. In order to provide customers with higher-quality image acquisition products, based on the MV-600, MV-700, MV-750, MV-800, and MV-810 generations of products, comprehensive technical application, accumulation, and effort have been made to create the first Six-generation boutique PCI-EX1 interface frame grabber MV-900E.

MV-900E high-definition image acquisition card for machine vision and medicine MV-900E high-definition image acquisition card for machine vision and medicine

This product uses Philips' excellent 10bit A / D chip. Using image processing technologies such as digital comb filtering, anti-aliasing filtering, and our company's de-interlacing, noise reduction, and digital subtraction technologies make this capture card have higher definition, better image details, and more convenient industrial applications, perfect It solves the problems of drawing, brushing, smearing, and jaggedness of moving image collection and processing. The high quality, low price and high cost performance of MV-900E capture card is a better choice for medical imaging industry, industrial machine vision and streaming media applications.

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【Performance】
● Can collect PAL, NTSC color / black and white signals;

● Using the PCI-E X1 interface bus design, the transmission rate is twice that of the PCI bus;

● 6 composite video signals and 4 S-Video signals can be quickly switched input;

● Using Philips 10bit A / D chip, 10bit in black and white, 10bit each in RGB;

● Adopt advanced technology such as comb filter and anti-aliasing filter;

● Use de-interlacing, noise reduction, digital subtraction technology;

● It has the functions of hardware output flip up and down, mirror image left and right, software character graphics overlay function;

● The maximum resolution that can be captured is 768 × 576; 25 frames / second AVI format and static single BMPJPG format capture are provided;

● Any user-defined acquisition method and size of the acquisition window;

● Real-time acquisition of single field, single frame, arbitrary interval and continuous frame images;

● Brightness, contrast, chroma, saturation, screen size ratio are all software adjusted;

● Real-time image acquisition can be transferred to computer memory through PCI-E X1 bus;

● Two external hardware trigger functions, two output control; (TTL level)

● Capture format: such as RGB8, RGB24, RGB32, YUY2, Gray8 and other image formats;

● The underlying program is stable, rich in functions, easy to develop, easy to transplant, and stable in supply, and there is no need to worry about stopping production;

● Good hardware compatibility and stable and reliable work. Can be used on compatible machines, original machines / industrial computers;

● Software programming can fully use the DirectShow / VFW interface provided by Microsoft, and can use Microsoft's AmCap, VidCap, Windows Media Encode, Window Movie Maker, etc. or LabView and other application software provided by third parties.

【development tools】
● Operating system support: Windows 2000, XP, Win7.

● SDK support: VC, VB, Delphi, provide demo program and demo program source code.

● Driver support: WDM, VFW, DirectX, OpenCV, Matlab, LabView, Halcon.

[Application field]
● Medical industry: image acquisition of B-ultrasonic workstations, endoscopes, X-ray machines (image intensifiers), biomedicine, microscopy, etc .;

● Streaming media: multimedia video recording and broadcasting, online live broadcast, on-demand system, etc.

● In the industrial field: on-line inspection of production lines, machine vision imaging systems, industrial image processing, etc .;

● Scientific research: pattern recognition, image acquisition algorithm research, image processing, modeling, etc .;

● Transportation: electronic police, license plate recognition, road capture.