Adapter Finder10 cameras · 4 connections

How do I connect my camera to my telescope?

Astrophotography fails before it starts if the camera won't mount to the scope. The connection is a two-piece chain — a T-Ring matched to your camera, then an adapter matched to your focuser — and getting either wrong means a part that won't thread or corners that go dark. Pick your camera and your scope's focuser and get the exact chain to buy.

✓ chain in seconds

1📷Your camera

2🔭Telescope connection

Pick your camera and your telescope's focuser 👆

How the Adapter Finder works

Pick your camera

Choose your camera's lens mount — or pick 'astro cam' or 'smartphone'.

Pick the focuser

Choose how your telescope connects: 1.25-inch, 2-inch, SCT thread or T2.

Buy the chain

Get the exact T-Ring and focuser adapter to buy, with a vignetting note for your setup.

Häufige Fragen

What is a T-Ring and do I need one?

A T-Ring (also called a T2 adapter) is a thin ring with your camera's exact bayonet on one side and a standard T2 thread (M42×0.75) on the other. Every interchangeable-lens camera needs the T-Ring made for its mount — a Canon RF T-Ring won't fit a Sony body. The T2 thread is then your universal connection point to everything else in the astro-imaging world.

1.25-inch or 2-inch — which adapter?

It depends on your sensor and your focuser. A 1.25-inch nosepiece is fine for small chips and planetary cameras but vignettes (dark corners) on APS-C and full-frame sensors. For deep-sky work with a larger sensor, use the 2-inch path, which illuminates the full frame. If your scope only has a 1.25-inch focuser, a bigger sensor will always show some vignetting there.

Will I keep autofocus and auto-exposure?

No. At prime focus the telescope is the lens — there's no electronic link, so you focus manually with the scope's focuser and expose in manual mode. That's normal for astrophotography: you use live view at high magnification to nail focus on a bright star, then shoot long manual exposures.

How do I connect a Schmidt-Cassegrain (SCT)?

SCT scopes from Celestron and Meade have a male thread on the rear cell. You use an SCT-to-T2 adapter that screws onto that thread, then your camera's T-Ring screws onto the T2. It's the sturdiest connection of all — no nosepiece sliding in a focuser, just metal threads all the way to the camera.

Can I just use my phone?

Yes, but differently. Phones can't do prime focus, so they shoot afocally — a clamp adapter holds the phone over an eyepiece you're already using. No T-Ring or focuser adapter needed. It's brilliant for the Moon and bright planets and a fun way to start, but limited for faint deep-sky targets.

Shooting through a telescope — the essentials

Prime focus turns your telescope into a giant camera lens. Here's the chain that connects them and the traps to avoid.

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It's a two-piece chain

Connecting a camera to a telescope at prime focus is always the same idea: a T-Ring matched to your camera mount, screwed to an adapter matched to your focuser. The T2 thread in the middle is the universal handshake — once you're at T2, everything in astronomy connects.

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Vignetting is about the path width

Light has to reach the corners of your sensor. A narrow 1.25-inch path physically can't illuminate a full-frame chip, so you get dark corners. Bigger sensors want the 2-inch path or an SCT/T2 connection. Small planetary cameras are happy in 1.25-inch because their chip is tiny.

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Prime focus = giant lens

At prime focus you remove the eyepiece and the camera lens; the telescope itself becomes one big fixed lens projecting straight onto the sensor. That's why there's no autofocus and no zoom — and why a long refractor or SCT gives you huge reach for the Moon, planets and deep sky.

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Afocal is the easy on-ramp

Don't have a T-Ring? Shoot afocally: a clamp holds your phone or camera over the eyepiece you already look through. The optics stay as-is, you just photograph the projected image. It's the fastest way to capture the Moon tonight, with gear you already own.

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Focus is manual and fiddly

With no electronic focus, you rack the scope's focuser by hand while watching live view zoomed in on a bright star. A Bahtinov mask makes this far easier by turning focus into a clean diffraction pattern. Budget time for it — sharp focus is the difference between a keeper and a blur.

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Balance and back-focus matter

A camera hanging off the back changes the scope's balance — re-balance the mount or your tracking suffers. Some flatteners and SCTs also need a specific back-focus distance (often 55 mm from the T2 shoulder) for sharp corners; spacer rings get you there. Worth checking before a long imaging night.