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LCAS - Ccd Pixel Wars - Size Does Matter
- https://www.lcas-astronomy.org/articles/display.php?filename=ccd_pixel_wars_-_size_does_matter&category=astrophotography#:~:text=Assuming%20three%20pixel%20sampling%2C%20perfect%20seeing%2C%20optics%2C%20focus%2C,with%20a%20CCD%20camera%20using%2020%20micron%20pixels.
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Astrophotography: Picking Your Pixels - Sky & Telescope
- https://skyandtelescope.org/astronomy-blogs/imaging-foundations-richard-wright/astrophotography-pick-your-pixels/
- Pixel size is a big consideration when selecting a camera for astrophotography. Smaller pixels have both some inherent advantages and disadvantages over larger pixels, but the truth is that in most things that matter, larger pixels are generally better. However, CMOS-based sensors for astrophotography are becoming increasingly popular (see my recent article in Sky …
Astrophotography, Pixel-by-Pixel: Part 1 - Well Depth, …
- https://cloudbreakoptics.com/blogs/news/astrophotography-pixel-by-pixel-part-1
- 1) Pixels gather incoming photons and convert them to electrons to convert to an image. 2) Larger well-depth allows you to catch more photons in each image. 3) There are trade-offs with larger or smaller pixel sizes. 4) Aim for as much QE as you can find. There is plenty more ground to cover with our bucket and pixel analogy.
LCAS - Ccd Pixel Wars - Size Does Matter
- https://www.lcas-astronomy.org/articles/display.php?filename=ccd_pixel_wars_-_size_does_matter&category=astrophotography
- Assuming three pixel sampling, perfect seeing, optics, focus, and tracking, the pixel size in microns should be about the same as the focal ratio of the telescope. Since we rarely have such perfect conditions, a more realistic size would be twice the focal ratio. Therefore an f/10 scope should be matched with a CCD camera using 20 micron pixels.
Pixel scale and resolution in astrophotography - astrojolo
- https://astrojolo.com/gears/pixel-scale-and-resolution/
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astronomy.tools
- https://astronomy.tools/calculators/ccd
- Calculate the resoution in arc seconds per pixel of a CCD with a particular telescope. Formula: ( Pixel Size / Telescope Focal Length ) X 206.265 CCD Pixel Size
CCD - astrophotography.app
- https://astrophotography.app/usersguide/ccd.htm
- Auto CCD Profile. If enabled, on CCD /CMOS camera connection, APT will read and calculate the pixel size, sensor with and height from the camera driver. The value will be populated in the Tools tab for usage in the Object Calculator, Object Browser and PointCraft. Top.
Everything you need to know about Astrophotography …
- https://astronomy-imaging-camera.com/tutorials/everything-you-need-to-know-about-astrophotography-pixel-binning-the-fundamentals.html
- At first glance, it seems that the effect after CCD BIN is better than that after CMOS BIN, but here we combine the actual data and simply compare the read noise of ASI6200 (CMOS camera) and KAI11002 (CCD camera): Since the original pixel size of ASI6200 is 3.76um, the pixel size after BIN2 is 7.52um. The popular KAI11002 pixel size is 9um.
The best CCD cameras for astrophotography | Digital …
- https://www.digitalcameraworld.com/uk/buying-guides/the-best-ccd-cameras-for-astrophotography
- The last entry in our list of the best CCD cameras for astrophotography is the ATIK 383L+. The Kodak 8300 CCD chip is found in a few of the most popular cameras used by experienced deep-sky photographers.
CCD vs. DSLR Astrophotography — Starizona
- https://starizona.com/blogs/tutorials/ccd-vs-dslr-astrophotography
- The larger the chip is in a CCD or DSLR, the more the camera will cost (all else being equal). For a given size chip, a DSLR will cost less than a CCD. This is due to several reasons. CCD chips are much more sensitive, they have fewer pixel defects, they have less noise, and the cameras often feature thermoelectric cooling to reduce noise even ...
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