Realistic maximum for usable focal length

There’s of course this site that will give you some guidance https://astronomy.tools/calculators/ccd_suitability

As was mentioned, aperture will be a larger determinant of detail captured (given the same optical quality) of a given object than focal length, which determines FOV. But, at a given aperture, you need to have sufficient sampling such that you are capturing that detail. That said, drizzling can recapture some of that detail if you are undersampled.

If you have your focal length/sampling for the best possible conditions for your area, then you are compromising your imaging for normal conditions by being oversampled and having a narrower FOV.

To me, a FL of 800-1000mm with the largest aperture you can get with great optics is the sweet spot of capturing all the detail that can be gotten under normal conditions and still taking some advantage of good seeing nights.

I’ve found optical quality matters a lot as well…I’d rather have excellent optics at 600mm than average optics at 1000mm. My TOA-130 (130 f7.7, 990mm) consistently outresolves (lower arcsec FWHM) what I could get out of my old Quattro 250 (250 f4, 1000mm) at my location (2-3” seeing normally) despite being half the aperture and similar focal length. Even my OCAL H2 (200 f2.7 565mm) can normally outresolve the Quattro despite being a much shorter focal length. Both of those have incredible pinpoint across the field optics.

Tony Gondola · Apr 6, 2026, 07:24 PM

I would 2nd Rich’s comment about optical quality. This matters more and more as you start push out in focal length.

Just to put some of this in perspective. My 6” Newt. runs at F/6 with a focal length of 914mm giving 0.66” per pixel with my 585. I consider that my wide field view. Lately I’ve been using an ED Barlow to push out to a focal length of 1580mm, 0.38” per pixel. On most nights there is a gain in detail and smoothness of detail at the longer FL. Personally, From my point of view, you’re really operating at the low end of the focal length scale with plenty of room to expand IMO.

Here’s an example of what I’m getting at 1580mm:

https://app.astrobin.com/i/it8kws

I’m in Oklahoma under B8 skies. The bigger limitation for me is light pollution, not focal length.

My NP101 is a high-quality scope. It does pretty good at 540mm — better than I thought it would. I just don’t want to burn the money scaling up from that focal length with a refractor while trying to maintain fast speed.

How do you get 1.73X out of a 2X barlow? And is it a case where coma just isn’t noticeable at f/10.4? I’m guessing I couldn’t do that with an f/4 Newt as I’d only get f/7. Then again, I’m using a small 533 instead of a 2600, so…?

I heard APM is reintroducing a 1.5X coma-correcting barlow. 1,200mm @ f/6.0 doesn’t seem so bad if I needed it for something special.

Clear Skies,

Phil