I bought a Celestron 6" Schmidt Cassegrain for lunar and planetary work. I added a x0.8 reducer/corrector for small bright deep space work at f/6.3. I then added a Starzona Hyperstar 6 v4 for large dim deep space targets at f/2. I chose a 6" SVT (instead of an 8") because that with a SvBony 405cc (asi294) plus the reducer/corrector or Hyperstar plus a Celestron aluminum dew shield is the heaviest my Sky-Watcher Star Adventurer GTi can handle. Quite nice and versatile rig. I have and really like a couple Newtonians, but the wind keeps blowing dust down the tube onto the primary mirror and I have to keep disassembling them to clean it. They are also rather large sails and when the wind gets up I can do 12 knots on the lake. I have an SvBony 80mm ED refractor and it really easy to use, but is a wide field and not of much use for planetary and lunar work. I also have a wide field (70mm and 80mm) achromats and a Celestron 102mm achromat with a 1000mm focal length. I like it a lot. Good for lunar and planetary work and small bright deep space objects and only suffers limited chromatic aberration.
For wide view the Starizona Hyperstar is available for 6” SCT and larger. Gives you F/2 for wide field and less time needed for taking images. F/6.3 and F/10 for galaxies and planets. A very versatile scope. I just got into this hobby last year and I got an Celestron 8” SCT with AFX mount. My experience over the last 6 months tells me I would advise spending a little more on a mount vs getting something like the Celestron AVX, a Skywatcher HEQ5 would’ve been a better choice for an affordable equatorial mount. Higher focal lengths need better guiding. You will also need to use an OAG for guiding vs a guide scope. Higher focal lengths can cause issues with plate solving so choosing the correct camera for astrophotography is important. I had my C8 corrector plate adjusted and the secondary mirror collimated with the primary mirror as they were slightly off from the factory. My C8 with Starizona F7 corrector, Celestron OAG, ASI174mm guide camera and ASI071MC weighs in at about 19lbs.
@KJRitch Thanks for your feedback! The Starizona Hyperstar looks to be a very nice piece of kit, one that definitely can make an SCT more versatile. Also I completely agree with the Idea of investing a bit more in a better mount. It will pay off in the future.
Just bought my first refractor (Askar 71F) as a new option together with my 6SE-SCT. I love them both! As you say, they both have their place. For my favorite targets, the beautiful Gglaxies, the 71F certainly impresses me a lot when comparing the images. Great video, explains many of my struggles I had imaging nebulae with the 6SE.
In the past I used 8" and later 10" SCT scopes, for both visual observation and astrophotography (with film cameras, back then). Now in my 70s, I don't think I'd be up to managing anything as cumbersome as an 8" SCT on an equatorial mount. I have been getting back into some astrophotography using the latest 'smart' telescopes. I have a Celestron Origin, which uses a 6" RASA tube (somewhat similar to the SCT design, but dedicated to photography), coupled with a computerized mount and computerized camera control. I can manage this (though it is around the limit of what I can manage at my age, given that I have to observe at remote sites, often in extreme cold). So far I am very pleased with the results I have been able to produce. Of course, this is not a cheap option... but the price does need to be considered in terms of everything it includes, which is much more than just the OTA. The Origin (and smaller 'smart' scopes such as the Seestar S50 and Dwarf 3) are not really any use for planetary work, due to short focal length (the Origin is F2.2, 335mm). I am currently considering getting a scope specifically for planetary work - but it will have to be fairly small and easy to transport and set up. I'm thinking of a modest Mak, but I may also get a fairly light-weight refractor. And I really enjoy viewing with binoculars, which is another story.
Thanks for an excellent and informative video, as always. I acquired a 6-inch SCT as the largest practical size that I could bring on a commercial airliner as carry on. I was also able to transport it quite easily by car from Toronto to Dallas for the recent total solar eclipse and the view were absolutely outstanding.
Hi, the telescope’s visual back is 1.25″ with a compression ring and T-thread (M42x0.75). The diameter of the hole at the back of the telescope is 35mm. So basically any focuser with a T-thread should work.
Excellent report! I would just like to comment that in reality the degree of obstruction of the secondary of the Cassegrain designs (classical or SCT), along with that of the Ritchey-Chrétien, is among the highest, in this sense the loss of contrast in a Newton design will always be somewhat minor, especially in Newtonians with high focal ratios. In astrophotography, SCT has the "advantage" (if I can say that, since many of us don't dislike how they look in photos) that it avoids the diffraction spikes typical of Newtonians. Finally, I think it is important to also note the "image-shift" effect typical of designs whose focusing is carried out by moving the primary mirror, and which, especially at high magnification, can be a bit annoying until the image is stabilized. It can be solved by incorporating an R&P focuser in the optical train. It is also worth mentioning that they are collimable (only the secondary mirror) and, in fact, their collimation status should be monitored, especially if they are transported. In this sense, the refractor is the world champion of "maintenance-free"... The comparison between the 4" ED refractor and the 5" SCT will be very interesting...
Right - the central obstruction of an SCT is larger than of a similar Newtonian just because it is located much farther from a focuser, that means the light cone is much wider at that point.
Bogdan, I just love your videos ❤. I am about to buy a 6" SCT and pair it with skywatcher AZ gtix, so I can add a Lunt solar telescope at the same time for sun observations in continuum and H alfa.
I have always wanted to own a SCT but could never afford it; maybe one day. Until then, I have owned a 10" Newtonian reflector on a German equatorial mount that has provided years of enjoyment. Thank you for a very informative video.
Outstanding video! Thank you so much for putting you together. I love my SCT. Would you please consider doing a similar video for the RASA design for Astro photography? Thanks again!
Would the larger focal length of an SCT benefit someone who just does visual astronomy? Higher focal length= higher magnification resolution which would mean planetary viewing would be better than a traditional Dobsonian? Let's say the dob/SCT have the same aperture for argument sake
@kmarsh3545 Yes, of course. The longer focal length of the SCT will allow you to reach higher magnifications more easily using longer focal length eyepieces. Short focal length eyepieces are more demanding on the optics and can be problematic if the quality is sub par. Longer focal length eyepieces are much more forgiving and can deliver decent images even if the quality of the optics isn't that good.
@Bogdan you tested 120mm triplet and this c8, cost is about the same around 1700eu, which one you think does a better job doing the jack of all trades for visual?
@PauI__ Hi Paul, the SCT in this video is a C5 so it's not a direct competitor to the 122mm triplet. But in terms of contrast, sharpness and color accuracy both the C5 and the C8 produce similar results. So comparing the SCT to the refractor with respect to these aspects, I would give the edge to the refractor. In my opinion it's really hard to beat a well corrected triplet refractor when it comes to image quality.
The math on light loss for SCTs from their secondary and overall transmission is their aperture *0.77, so an 8” SCT should perform like a 6” refractor under calm skies
@mazyar_ Thanks! The Classic Cassegrain Reflector does feature a parabolic main, but that design doesn't feature a corrector plate. I don't know of any SCT design with a parabolic main.
I had a 125 SCT and I could see the moons of Saturn there and it really kind of blew my mind to accually see this in space. I loved the field of view. and realized the bennifits of this wider field of view. I want to try a Bino Viewer and 2 inch eye pieces in the future but they will be an exstra 3000 dollars, since they would be the best They make in the bino viewer to the best 2 inch lenses specific for the bino viewer. What is this? Spend money on grand pa.? impossible.
Comparing SCT's with their cousins Maksutov-Cassegrains would be interesting too. I have heard the following points: 1) Maks have thicker and more complex corrector, and because of that, due to economic considerations, they're limited to about 6 inches of aperture (bigger corrector lenses for Maks are simply to expensive to manufacture); 2) Since Maksutovs have thicker correctors, they need more time to reach ambient temperature than Schmidt-Cassegrains; 3) On the bright side, Maksutovs have smaller secondary mirrors, which means less obstruction for the light, and bigger effective aperture, compared to SCTs of the same size. I have also noticed that Maksutovs have greater focal lengths and slower F-stops, but i'm not sure this is a hard rule. Are these points correct? Have I missed anything?
@Booruvcheek You are correct on all three accounts, although there are Maks with apertures greater than 6" out there. They just aren't cheap. I would also add that because of the more complex corrector lens, a Mak is capable of delivering better corrected views than an SCT. Maks tend to be a bit slower than SCTs, but I wouldn't call that a rule.
The typical off the shelf newtonian reflector in the F/6 to F/4 have a central obstruction of between 20 and 25% of the primary mirror area, as opposed to SCT's which range from 30% to 40%. Newtonians are often significantly better in central obstruction than an equivalent sized SCT, even fast newtonians at f/3.45 to f/2.8 enjoy a central obstruction smaller than some SCT's.
30 plus years ago I learnt to pronounce Cassegrain correctly - now I return to astronomy and the world (including yourself) mispronounce it, with the exception of when you mentioned his full name. Is this the standard now? Should we also start pronouncing the d in Schmidt?
Dude -- He cannot pronounce anything outside of an Indian accent. You can't bitch at that. I do understand. But . . . Didn't the word, "aperture" make you go, "Huh?" the first dozens times? Great video, BTW. But you can't shun it because he's a Brown guy.
I bought a Celestron 6" Schmidt Cassegrain for lunar and planetary work. I added a x0.8 reducer/corrector for small bright deep space work at f/6.3. I then added a Starzona Hyperstar 6 v4 for large dim deep space targets at f/2.
I chose a 6" SVT (instead of an 8") because that with a SvBony 405cc (asi294) plus the reducer/corrector or Hyperstar plus a Celestron aluminum dew shield is the heaviest my Sky-Watcher Star Adventurer GTi can handle.
Quite nice and versatile rig.
I have and really like a couple Newtonians, but the wind keeps blowing dust down the tube onto the primary mirror and I have to keep disassembling them to clean it. They are also rather large sails and when the wind gets up I can do 12 knots on the lake.
I have an SvBony 80mm ED refractor and it really easy to use, but is a wide field and not of much use for planetary and lunar work.
I also have a wide field (70mm and 80mm) achromats and a Celestron 102mm achromat with a 1000mm focal length. I like it a lot. Good for lunar and planetary work and small bright deep space objects and only suffers limited chromatic aberration.
I have an C8 and C5. Very good telescopes. Thanks for the video.
I am new to telescopes but old at looking at the sky. I understood most of what you said here. Thank you.
well presented, well thought out ! Look forward to more watching more of your content !
At 3:00, what chromatic aberation ?
Thank you! You are a fantastic teacher!
For wide view the Starizona Hyperstar is available for 6” SCT and larger. Gives you F/2 for wide field and less time needed for taking images. F/6.3 and F/10 for galaxies and planets. A very versatile scope. I just got into this hobby last year and I got an Celestron 8” SCT with AFX mount.
My experience over the last 6 months tells me I would advise spending a little more on a mount vs getting something like the Celestron AVX, a Skywatcher HEQ5 would’ve been a better choice for an affordable equatorial mount. Higher focal lengths need better guiding. You will also need to use an OAG for guiding vs a guide scope. Higher focal lengths can cause issues with plate solving so choosing the correct camera for astrophotography is important. I had my C8 corrector plate adjusted and the secondary mirror collimated with the primary mirror as they were slightly off from the factory. My C8 with Starizona F7 corrector, Celestron OAG, ASI174mm guide camera and ASI071MC weighs in at about 19lbs.
@KJRitch Thanks for your feedback! The Starizona Hyperstar looks to be a very nice piece of kit, one that definitely can make an SCT more versatile. Also I completely agree with the Idea of investing a bit more in a better mount. It will pay off in the future.
Great video!! Most appreciated!
Just bought my first refractor (Askar 71F) as a new option together with my 6SE-SCT. I love them both! As you say, they both have their place. For my favorite targets, the beautiful Gglaxies, the 71F certainly impresses me a lot when comparing the images. Great video, explains many of my struggles I had imaging nebulae with the 6SE.
In the past I used 8" and later 10" SCT scopes, for both visual observation and astrophotography (with film cameras, back then). Now in my 70s, I don't think I'd be up to managing anything as cumbersome as an 8" SCT on an equatorial mount. I have been getting back into some astrophotography using the latest 'smart' telescopes. I have a Celestron Origin, which uses a 6" RASA tube (somewhat similar to the SCT design, but dedicated to photography), coupled with a computerized mount and computerized camera control. I can manage this (though it is around the limit of what I can manage at my age, given that I have to observe at remote sites, often in extreme cold). So far I am very pleased with the results I have been able to produce. Of course, this is not a cheap option... but the price does need to be considered in terms of everything it includes, which is much more than just the OTA. The Origin (and smaller 'smart' scopes such as the Seestar S50 and Dwarf 3) are not really any use for planetary work, due to short focal length (the Origin is F2.2, 335mm). I am currently considering getting a scope specifically for planetary work - but it will have to be fairly small and easy to transport and set up. I'm thinking of a modest Mak, but I may also get a fairly light-weight refractor. And I really enjoy viewing with binoculars, which is another story.
Thanks for an excellent and informative video, as always. I acquired a 6-inch SCT as the largest practical size that I could bring on a commercial airliner as carry on. I was also able to transport it quite easily by car from Toronto to Dallas for the recent total solar eclipse and the view were absolutely outstanding.
Excellent video. I wonder how the 125mm SCT would compare on the Moon, planets and DSO to the 102mm Svbony ED :)
3dfxvoodoocards6 Stay tuned for that comparison ;)
@@BogdanDamian great, can’t wait to see that video :). I also have the 102mm SvBony ED.
Is there a focuser for svbony MK105mm?
Hi, the telescope’s visual back is 1.25″ with a compression ring and T-thread (M42x0.75). The diameter of the hole at the back of the telescope is 35mm. So basically any focuser with a T-thread should work.
Excellent report! I would just like to comment that in reality the degree of obstruction of the secondary of the Cassegrain designs (classical or SCT), along with that of the Ritchey-Chrétien, is among the highest, in this sense the loss of contrast in a Newton design will always be somewhat minor, especially in Newtonians with high focal ratios. In astrophotography, SCT has the "advantage" (if I can say that, since many of us don't dislike how they look in photos) that it avoids the diffraction spikes typical of Newtonians. Finally, I think it is important to also note the "image-shift" effect typical of designs whose focusing is carried out by moving the primary mirror, and which, especially at high magnification, can be a bit annoying until the image is stabilized. It can be solved by incorporating an R&P focuser in the optical train. It is also worth mentioning that they are collimable (only the secondary mirror) and, in fact, their collimation status should be monitored, especially if they are transported. In this sense, the refractor is the world champion of "maintenance-free"... The comparison between the 4" ED refractor and the 5" SCT will be very interesting...
Right - the central obstruction of an SCT is larger than of a similar Newtonian just because it is located much farther from a focuser, that means the light cone is much wider at that point.
A video with the 5 inch SCT vs 4 inch Svbony ED please :)
@Hitzaponylife It's already planned ;) Stay tuned!
Bogdan, I just love your videos ❤. I am about to buy a 6" SCT and pair it with skywatcher AZ gtix, so I can add a Lunt solar telescope at the same time for sun observations in continuum and H alfa.
I have always wanted to own a SCT but could never afford it; maybe one day.
Until then, I have owned a 10" Newtonian reflector on a German equatorial mount that has provided years of enjoyment.
Thank you for a very informative video.
Outstanding video! Thank you so much for putting you together. I love my SCT. Would you please consider doing a similar video for the RASA design for Astro photography? Thanks again!
@motoreffpv9073 Thanks! Sure, I put it on the list for future videos.
Thanks Bogdan.
Unfortunately SCTs are so expensive, the one with 150mm aperture is over 1000 euro and the 200mm over 2000 euro.
Would the larger focal length of an SCT benefit someone who just does visual astronomy? Higher focal length= higher magnification resolution which would mean planetary viewing would be better than a traditional Dobsonian? Let's say the dob/SCT have the same aperture for argument sake
@kmarsh3545 Yes, of course. The longer focal length of the SCT will allow you to reach higher magnifications more easily using longer focal length eyepieces. Short focal length eyepieces are more demanding on the optics and can be problematic if the quality is sub par. Longer focal length eyepieces are much more forgiving and can deliver decent images even if the quality of the optics isn't that good.
@Bogdan you tested 120mm triplet and this c8, cost is about the same around 1700eu, which one you think does a better job doing the jack of all trades for visual?
@PauI__ Hi Paul, the SCT in this video is a C5 so it's not a direct competitor to the 122mm triplet. But in terms of contrast, sharpness and color accuracy both the C5 and the C8 produce similar results. So comparing the SCT to the refractor with respect to these aspects, I would give the edge to the refractor. In my opinion it's really hard to beat a well corrected triplet refractor when it comes to image quality.
The math on light loss for SCTs from their secondary and overall transmission is their aperture *0.77, so an 8” SCT should perform like a 6” refractor under calm skies
I would be interested in a side by side comparison between the SCT and your 4 inch APO.
Excellent review of the Schmidt-Cassegrain telescope Bogdan, thank you. A question; are there SCTs with parabolic as oppose to spherical mirror?
@mazyar_ Thanks! The Classic Cassegrain Reflector does feature a parabolic main, but that design doesn't feature a corrector plate. I don't know of any SCT design with a parabolic main.
Well a 5 inch SCT is 450-500 euro, for that money I would rather buy a 4 inch ED FPL51 Svbony doublet like yours.
I agree. No one ota will give you everything. But, I think the SCT offers the best of the reflect/ refract world
I had a 125 SCT and I could see the moons of Saturn there and it really kind of blew my mind to accually see this in space. I loved the field of view. and realized the bennifits of this wider field of view. I want to try a Bino Viewer and 2 inch eye pieces in the future but they will be an exstra 3000 dollars, since they would be the best They make in the bino viewer to the best 2 inch lenses specific for the bino viewer. What is this? Spend money on grand pa.? impossible.
Comparing SCT's with their cousins Maksutov-Cassegrains would be interesting too.
I have heard the following points:
1) Maks have thicker and more complex corrector, and because of that, due to economic considerations, they're limited to about 6 inches of aperture (bigger corrector lenses for Maks are simply to expensive to manufacture);
2) Since Maksutovs have thicker correctors, they need more time to reach ambient temperature than Schmidt-Cassegrains;
3) On the bright side, Maksutovs have smaller secondary mirrors, which means less obstruction for the light, and bigger effective aperture, compared to SCTs of the same size.
I have also noticed that Maksutovs have greater focal lengths and slower F-stops, but i'm not sure this is a hard rule.
Are these points correct? Have I missed anything?
@Booruvcheek You are correct on all three accounts, although there are Maks with apertures greater than 6" out there. They just aren't cheap. I would also add that because of the more complex corrector lens, a Mak is capable of delivering better corrected views than an SCT. Maks tend to be a bit slower than SCTs, but I wouldn't call that a rule.
The typical off the shelf newtonian reflector in the F/6 to F/4 have a central obstruction of between 20 and 25% of the primary mirror area, as opposed to SCT's which range from 30% to 40%.
Newtonians are often significantly better in central obstruction than an equivalent sized SCT, even fast newtonians at f/3.45 to f/2.8 enjoy a central obstruction smaller than some SCT's.
Where is your 122mm apochromat?
@Sergey_Sergeev Unfortunately, I had to send it back to Svbony.
👌👌👌
30 plus years ago I learnt to pronounce Cassegrain correctly - now I return to astronomy and the world (including yourself) mispronounce it, with the exception of when you mentioned his full name. Is this the standard now? Should we also start pronouncing the d in Schmidt?
Dude -- He cannot pronounce anything outside of an Indian accent. You can't bitch at that. I do understand. But . . . Didn't the word, "aperture" make you go, "Huh?" the first dozens times? Great video, BTW. But you can't shun it because he's a Brown guy.
I am having a very hard time plate solving with my C14 and a full frame camera😢
For example, impossible to plate solve when pointing at M 51 .
A deep dive into SCT that stopped at Celestron. LOL