Vividia 3R-600 Portable Digital Autofocus Android Microscope with 4.7' Touch Screen and Measurement
$799.98
Unavailable
Vitiny UM05 is Vitiny's newest generation Auto Focus USB microscope can observe objects by automatically or manual zoom. Above all, the Auto Focus can be. MP 1500X USB Digital Portable Pen Mini HD Manual Focus Microscope Endoscope Magnifier. Auto white balance and auto brightness balance function.
Vividia 3R-600 Portable Android Microscope is a handheld pocket microscope to be easily used anywhere on the field for inspection and detailed examination. 3R-600 Portable Microscope has Android operating system interface to navigate, observe, measure and share information quickly. Autofocus design makes focus adjustment faster. Measurement on microscope 4.7' touch screen is useful for quick measurement. Magnification up to 200x on build-in screen. HDMI out can be connected to a TV monitor. USB port for charging and data output.
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- Integrated design with compact size, easy to carry and highly portable
- Android system with on-screen analysis and measurement
- 4.7 inch HD touch screen
- Auto focus, easy to operate.
- High-resolution optical lens, up to 40 times of optical magnification, real Color Processing.
- One-key saving, preview.
- Measured data can be saved in the picture at the same time.
Technical Specs : Sensor: CMOS 1.3 million pixel color Magnification: 5X, 15X, 40X (digital zoom 4 maximum 160X) Screen: 4.7 inch, 720p LCD touch screen Battery: DV 5V, 3200mAh Power: Up to 2 hours Operating System: Android 5.0 Capacity: 16GB Image size: 1280X720 pixels Microscope Size: 185 * 70 * 55mm (length and width) Data interface: Micro USB2.0, HDMI Network interface: WIFI Operating temperature: 5-35 degrees celcius Storage temperature: -20 degrees — +50 degrees Image format: BMP Lighting source: Eight high brightness white LED lights Body memory: 4GB ROM Weight: About 300g | Applications:
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For as long as mankind has walked the Earth, we've wanted to know if there are little bugs crawling in our eyelashes. Well, maybe not — we're probably better off not knowing — but we've long been fascinated by the possibilities of an unseen world all around us.
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The first attempt to shed light on the microscopic realm came in the 14th century, with the creation of the first ground-glass lenses. These were designed only to improve eyesight, but the basic concept would be used a few centuries later by a pair of Dutch lensgrinders, Hans and Zacharias Janssen. They put two lenses together in a tube, creating a primitive compound microscope.
This new device was mainly seen as a mere novelty until the 1660s, when naturalists in several countries began to use them to study biology. The most famous of these was Antonie von Leeuwenhoek, who was the first person to describe cells and bacteria. He was able to do so by modifying his microscope, adding a glass ball lens that allowed him to magnify subjects up to 300 times.
The main limitation of these early microscopes was their ability to capture and focus light. Until electric lamps became available, it was very difficult to evenly light your subject, and it turns out that it's extremely hard to use a microscope in the dark. In 1893, the German scientist August Kohler developed a form of illumination that bears his name, allowing for sharper images and improved analysis.
However, about a half century later, an alternative to the light microscope was created. Designed by German physicist Ernst Ruska, this model used electrons instead of light to illuminate the subject, allowing for significantly better resolution. It would eventually lead to the ability to visually identify viruses, making it easier to quickly respond to infections. Ruska won the Nobel Prize for his efforts.
Since then, there have been many more advancements in the field of microscopy, with scanning probes, x-rays, fluorescence, and super resolution microscopes all helping to further our knowledge of the infinitesimal world around us. We can now see things that were previously only discussed theoretically, like nanoparticles.
Of course, we can also now see things we wish we could unsee, like the mites crawling around in our eyelashes right now...