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Ample Scientific TCA-3.0C PACK 3.0 MP Digital Microscope CMOS Camera with Image Capturing and Processing Software, 2.8 x 2.8 Micron Pixels

Product ID : 13155097


Galleon Product ID 13155097
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About Ample Scientific TCA-3.0C PACK 3.0 MP Digital

The Ample Scientific TCA-3.0C microscope camera pack has a digital, 3.0 megapixel (MP), complementary metal-oxide semiconductor (CMOS) camera for microscopes with non-compressed image capturing and recording ability, a C/CS-mount interface, and image-processing TSView software. This digital camera for microscopes enhances object or image resolution, and can display an image on a monitor. It is commonly used for education, medical and scientific research, and for industry documentation. This microscope digital camera features a high-resolution 3.0 MP CMOS color image sensor to manage noise reduction and image quality. It is used with trinocular ports and eyepieces, and connects to a camera with a 1.8-meter USB 2.0 cable. A 1/2" micron sensor shows 2.8 x 2.8 micron pixels, and provides maximum resolution frame rate output of 8 frames per second (FPS) for 2048 x 1536 (horizontal by vertical measurement), and 30 FPS for 640 x 480. The camera supports both automatic and manual adjustment capabilities. It has a TCN 0.5 reduce lens with 23, 30, and 30.6 mm direct insert interface adaptors. The camera has a red, green, and blue (RGB) Bayer filter for color image acquisition. It has an 8-bit RGB pixel mode for depth and image display. Program controls include image size, gain, brightness, exposure time, and color. It has program image processing capabilities of crop, contrast, mirror, invert, rotate, flip, length, area, and angle. In addition to the TCN 0.5 reduce lens, the camera comes with a 0.01 mm micrometer, and a driver installation CD. Included software is compatible with Microsoft Windows 2000, Windows XP, Windows Vista, and Windows 7. Specifications Camera Digital, 3.0 MP CMOS Interface C/CS-mount Software TSView software compatible with Microsoft Windows 2000, Windows XP, Windows Vista, and Windows 7 Camera connection 1.8-meter USB 2.0 cable Micron sensor 1/2 inch Pixels 2.8 x 2.8 micron pixels Maximum resolution frame rate output 8 FPS for 2048 x 1536 (W x H), 30 FPS for 640 x 480 Data transport and electrical input 1.8-meter USB 2.0 cable port Lens TCN 0.5 reduce lens, with 23, 30, and 30.6 mm direct insert interface Filter RGB Bayer Pixel mode 8-bit RGB Program control Image size, gain, brightness, exposure time, and color Program image processing capabilities Crop, contrast, mirror, invert, rotate, flip, length, area, and angle Micrometer 0.01mm (included) Operational temperature 0 to 60 degrees C Storage temperature -20 to +70 degrees C Operational humidity 45 to 85% Sensitivity 1.0V/Lux-S (550nm) S/N ratio 44dB Dynamic range >71dB Exposure time 1ms~0.3s Data interface 480 megabytes per second (MBps) Mount Standard C/CS-mount Overall dimensions 100 x 81 x 48 mm/3.94 x 3.19 x 1.89 inches (H x W x D) Weight 480g H is height, the vertical distance from lowest to highest point; W is width, the horizontal distance from left to right; D is depth, the horizontal distance from front to back. Microscopes are instruments used to enhance the resolution of an object or image. Types include compound, stereo, or digital. Compound microscopes use a compound optical system with an objective lens and an eyepiece. Stereo microscopes show object depth in a three-dimensional image. Digital microscopes are used to display an image on a monitor, rather than looking through a lens. Microscopes can have monocular (one), binocular (two), or trinocular (three) eyepieces, with varying viewing abilities. A trinocular eyepiece is used to output digital images to an internal or external device such as a camera or monitor. Magnification ability refers to the size of an image. Resolution, also known as resolvant power, refers to the clarity of the image. The interaction between field of view (FOV), numerical aperture (NA), and working distance (WD) determines resolution. Microscopes can control magnification through a fixed focus, or through a range of adjustments. They can also use LED, fluoresc