{"id":426,"date":"2021-01-24T19:49:52","date_gmt":"2021-01-24T19:49:52","guid":{"rendered":"http:\/\/scopedetective.com\/?p=426"},"modified":"2021-01-24T20:00:25","modified_gmt":"2021-01-24T20:00:25","slug":"ca-can-nik-slr","status":"publish","type":"post","link":"https:\/\/scopedetective.com\/ca-can-nik-slr\/","title":{"rendered":"CA-CAN-NIK-SLR Camera to Microscope Adapter Guide (Visual Instructions)"},"content":{"rendered":"\n
The CA-CAN-NIK-SLR is a DSLR camera to microscope adapter by Amscope. It allows you to take DSLR quality photographs through a microscope.<\/p>\n
This adapter is in my opinion the best of the DSLR camera to microscope adapters because it’s flexible<\/strong>.<\/p>\n It works with:<\/p>\n In other worse, it’s a universal (almost) catch-all DSLR camera to microscope adapter.<\/strong><\/p>\n <\/a><\/p>\n If you don’t have this adapter yet, you can buy it here<\/a>.<\/p>\n For the rest of this article, I’ll walk you through how to set up this camera to microscope adapter once it arrives on your doorstep.<\/p>\n\n It was infuriating when I got my CA-CAN-NIK-SLR camera to microscope adapter, only to find I couldn\u2019t attach it to my microscope.<\/p>\n It arrived with no instructions and the expectation that I knew exactly what to do.<\/p>\n And I went to Google to find instructions, as well as the Amscope website, and no information was available.<\/p>\n So I decided to make this little instruction guide.<\/p>\n The Good news is it\u2019s actually pretty easy once you figure it out. And on top of that \u2013 I\u2019m happy to report the adapter is working really well and I\u2019m getting great quality pictures of my experiments.<\/strong><\/p>\n To buy the CA-CAN-NIK-SLR, you can get it on Amazon<\/a>.<\/p>\n You should get these two boxes in the post. One holds the adapter set up for a Canon microscope, the other with the Nikon adapter:<\/p>\n <\/p>\n Once opened, you should have all the parts set out like this:<\/p>\n <\/p>\n This step is only if you have a Nikon camera. If you have a Canon camera, skip to Step 3.<\/p>\n This is the step where I got really stuck. Be aware that the Canon SLR ring is actually in two parts. Remove both the Canon rings so the lens is stripped down to just the nub. I removed only one ring and then tried to attach the Nikon ring on top, and I couldn’t for the life of me figure it out.<\/p>\n Look at the image below for what you need – just the lens nub, and the Nikon T2-AI ring:<\/p>\n <\/p>\n Screw the T2-AI ring onto the NDPL-2(2X) part. The side of the ring that reads “T2-AI” will be facing the NDPL-2 part, so the text will actually end up being covered when you thread the T-Ring onto the lens.<\/p>\n Get your DSLR camera and detach the DSLR lens. To do this, there should be a release button right beside the lens. It’s shown on my Nikon 3100 below in the red arrow. Hold down that button and rotate the lens to release it.<\/p>\n Once the DSLR lens is released, attach the adapter lens. To insert it, line up the red dot with the white dot, as shown by the red square below:<\/p>\n <\/p>\n Once the lens is inserted, rotate it anti-clockwise to secure it.<\/p>\n Your camera may not actually recognize that there is a lens attached to the camera. For my Nikon, I resolved this issue by flicking the switch that is directly below my finger in this image:<\/p>\n <\/p>\n This switch, which is indicated by an [Lv] sign on my camera, stands for ‘Live View’.<\/p>\n The end of the lens adapter (under the cap) is exactly 23.3mm in diameter.<\/p>\n Most compound light microscopes have internal ocular tube diameters of 23.3mm, so you should be able to insert the end right into an ocular tube on your microscope.<\/p>\n But if your microscope’s ocular tube has a different size, there are adapters for that too. This microscope comes with adapters for 30.0mm and 30.5mm ocular tube dimensions. These are the other two most common ocular tube sizes.<\/p>\n Below is an image of the two adapters. The 30.0mm adapter is inserted over the lens:<\/p>\n <\/p>\n Now all you need to do is place the camera over the ocular tune, then find focus using the coarse and fine focus knobs<\/a> on your microscope.<\/p>\n Here’s an image of the camera inserted onto my Amscope T490B:<\/p>\n <\/p>\n To achieve focus, you can’t use the camera – you need to use the microscope itself. This is just like you’d do it if you were looking through the eyepiece:<\/p>\n In my opinion, a DSLR camera adapter is the best quality solution for taking photographs through a microscope.<\/p>\n The other two solutions (using a cell phone against an eyepiece, and using a dedicated USB microscope camera) are, in my opinion, inferior. The cell phone is a free solution, but produces lower quality images. The USB microscope camera is a more expensive option and tends to deliver lower quality images than a DSLR camera.<\/p>\n Here’s a clear breakdown of your options:<\/p>\n\n
CA-CAN-NIK-SLR Camera to Microscope Adapter Set Up Instructions<\/h2>\n
Step 1 – Purchase and Unboxing<\/h3>\n
Step 2: Install the Nikon Adapter (Optional)<\/h3>\n
3. Detach your DSLR Lens and Insert your adapter Lens<\/h3>\n
4. Set the Camera to Live View Mode<\/h3>\n
4. Choose your Ocular Tube Size Adapter<\/h3>\n
5. Insert into Ocular Tube and Find your Focus<\/h3>\n
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Other Ways to Take Photos of your Experiments<\/h2>\n