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Good CCD Camera for 10k-15k Euro
Hi!
I am looking for a CCD camera in the price range of 10.000 - 15.000 Euro. I was told that SBIG produces good cameras. But I am still searching for more options or other producers respectively. Are there any cameras that you guys could recommend? What do I have to watch out for? What are common problems of cameras in this price range (if there still are any ;-) )? I appreciate any serious answer or additional links. Thanks! David |
#2
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Good CCD Camera for 10k-15k Euro
David Y. wrote:
Hi! I am looking for a CCD camera in the price range of 10.000 - 15.000 Euro. I was told that SBIG produces good cameras. What is good? I can sell you almost anything for 15K€... |
#3
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Good CCD Camera for 10k-15k Euro
Fred wrote:
What is good? I can sell you almost anything for 15K€... There are some camera types which have a guider camera included (which I also would need). But the disadvantage of those included guider cameras is that they stress the CCD chip. Is this disadvantage still given within my price range? What software is included? How is the image quality? I don't want to buy the pig in a poke so I try to find out which cameras are good or rather with which cameras people have made the best experiences. What do I have to watch out for concerning the chip? I hope this helps to understand more what I actually want ;-) David |
#4
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Good CCD Camera for 10k-15k Euro
"David Y." wrote in message ... Hi! I am looking for a CCD camera in the price range of 10.000 - 15.000 Euro. I was told that SBIG produces good cameras. But I am still searching for more options or other producers respectively. Are there any cameras that you guys could recommend? What do I have to watch out for? What are common problems of cameras in this price range (if there still are any ;-) )? I appreciate any serious answer or additional links. Thanks! David What do you want from the camera?. What focal length are you intending to use?. What do you want to image?. What mount do you have?. The SBIG cameras, are excellent units. They have the advantage of a built in OAG, which allows the guider to issue corrections for any changes in the optical system inside the scope (hence mirror shift in SCT's). This also allows them to be used with the simple 'first order' adaptive optic system (the AO7). This really has more to do with rapid guide correction, than correction for the atmosphere, but can allow good images to be generated on mounts that are otherwise borderline for imaging. StarLight do an excellent range of alternatives, with either their 'single chip' guiding solution on the MX cameras, or a seperate guide camera (on the SVX). They compete directly with the smaller SBIG models (and there is a new large format colour unit coming, that might represent an excellent choice if your target is 'pictorial imaging'). The advantage in Europe especially, is that their prices are much more agressive (though the recent week dollar should help SBIG here). The seperate guide camera, is the 'better' solution, if you want to image using very narrow bandpass filters, since the guider can be left 'unfiltered'. Most of the SBIG cameras, have a mechanical shutter, that limits the minimum exposure that can be used (but makes taking dark-frames, and absolute 'doddle'). Many mounts that would be considered adequate for visual work, will be inadequate for imaging. Large CCD's, need a large flat field from the scope (an SCT, has very significant field curvature, and correction will be needed). If your scope has a large flat field, and you guide with a seperate guider (the SBIG STV, is probably the best 'standalone' guider made), then you can consider cameras that have no guide ability. You could look at 'Finger lakes' (http://www.fli-cam.com/), or Apogee Instruments (http://www.optronis.com/docs/apogee.htm). Remember that larger pixels collect more light, so having large numbers of small pixels on a long focal length scope, is a waste (this is why 'professional' cameras, often have a quite small pixel count of larger pixels). Also larger pixels are easier to make with a larger well-depth. Hence camera selection, needs to be adjusted according to the scope to be used. Similarly, there are other camera 'features', that may be good/bad, according to what you actually want to do. A camera with ABG, is far easier to use for 'pictorial' imaging, where bright objects are close to the target object, 'clipping off' the signal at the bright end. The 'downside', is that for photometric measurements, this clipping introduces some non-linearity in the top part of the cameras response (this is probably least on the Sony chips used in the StarLight cameras). Conversely, NABG cameras have better linearity, but then have their data destroyed close to bright objects, by blooming. Remember that there will probably be a significant number of 'extras' with any camera you consider. Accurate focussing becomes critical with a CCD, and a system to provide this, is an extra cost. There are also things like colour wheels/filters, and perhaps focal compressors and/or field flatteners needed, depending on the CCD chosen. Best Wishes |
#5
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Good CCD Camera for 10k-15k Euro
"David Y." wrote in message ... Fred wrote: What is good? I can sell you almost anything for 15K€... There are some camera types which have a guider camera included (which I also would need). But the disadvantage of those included guider cameras is that they stress the CCD chip. 'Stress the chip'!... The ones with a seperate guide CCD, do nothing at all to the main chip. Ones using 'single chip' guiding (the Starlight MX models), do not 'stress' the chip (the life is massive), but do generate a tiny amount of heat on the chip, which results in an increase in background noise when using this feature. Seriously, a CCD, on a video camera, is being read every 25th/30th second. How often do you hear of these failing?. Electronic parts if properly designed, will not suffer from being used as they are meant to be used. Is this disadvantage still given within my price range? There are dozens of cameras in your 'price range', offering just about every feature imaginable. The question is which one will actually suit your scope. What software is included? Depends on the cameras. Most have basic imaging solutions. SBIG, have a fairly good 'suite', that covers most basic imaging. In most cases, extra software does allow more powerful operations. How is the image quality? Depends on your scope... I don't want to buy the pig in a poke so I try to find out which cameras are good or rather with which cameras people have made the best experiences. What do I have to watch out for concerning the chip? I'd really suggest perhaps buying Ron Wodawski's book on CCD imaging, _before_ looking any further. You need to understand how the cameras features interact with your scope, what large chips, guiding etc., involve/entail. I hope this helps to understand more what I actually want ;-) Not really. I think you need to learn more before making a decision. In your 'price range', with a bit of careful purchasing, you could (for instance), buy an SBIG ST10XME, with a CFW8, and an AO7. On something like a 700-800mm apochromatic refractor, this probably represents many peoples idea of an 'ideal' camera. However it still would not suit everybody, and there may well be cheaper solutions, that would suit you better. Best Wishes |
#6
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Good CCD Camera for 10k-15k Euro
Roger Hamlett wrote:
"David Y." wrote in message ... Fred wrote: What is good? I can sell you almost anything for 15K€... There are some camera types which have a guider camera included (which I also would need). But the disadvantage of those included guider cameras is that they stress the CCD chip. 'Stress the chip'!... The ones with a seperate guide CCD, do nothing at all to the main chip. Ones using 'single chip' guiding (the Starlight MX models), do not 'stress' the chip (the life is massive), but do generate a tiny amount of heat on the chip, which results in an increase in background noise when using this feature. Seriously, a CCD, on a video camera, is being read every 25th/30th second. How often do you hear of these failing?. Electronic parts if properly designed, will not suffer from being used as they are meant to be used. Is this disadvantage still given within my price range? There are dozens of cameras in your 'price range', offering just about every feature imaginable. The question is which one will actually suit your scope. What software is included? Depends on the cameras. Most have basic imaging solutions. SBIG, have a fairly good 'suite', that covers most basic imaging. In most cases, extra software does allow more powerful operations. How is the image quality? Depends on your scope... I don't want to buy the pig in a poke so I try to find out which cameras are good or rather with which cameras people have made the best experiences. What do I have to watch out for concerning the chip? I'd really suggest perhaps buying Ron Wodawski's book on CCD imaging, _before_ looking any further. You need to understand how the cameras features interact with your scope, what large chips, guiding etc., involve/entail. I hope this helps to understand more what I actually want ;-) Not really. I think you need to learn more before making a decision. In your 'price range', with a bit of careful purchasing, you could (for instance), buy an SBIG ST10XME, with a CFW8, and an AO7. On something like a 700-800mm apochromatic refractor, this probably represents many peoples idea of an 'ideal' camera. However it still would not suit everybody, and there may well be cheaper solutions, that would suit you better. Best Wishes Hey, thanks for the book advise. I will try and get it somewhere. And the CCD cam types will help me as well. Cu! David |
#7
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Good CCD Camera for 10k-15k Euro
Dear Roger, dear David,
On Thu, 26 Feb 2004 12:10:39 +0000, Roger Hamlett wrote: your target is 'pictorial imaging'). The advantage in Europe especially, is that their prices are much more agressive (though the recent week dollar should help SBIG here). As for Germany I can tell you that the "weak" dollar does nothing to the exorbitant prices one has to pay for the SBIG or Finger Lakes Instrumentation CCD cameras if you buy from an official dealer here. By the way: Our department considered to buy another ST9E from the Netherlands at a price of 1000 Euros(!!!) less than the price given here at Baader company which is the only official SBIG dealer in Germany. Most of the SBIG cameras, have a mechanical shutter, that limits the minimum exposure that can be used (but makes taking dark-frames, and absolute 'doddle'). Acknowledge: The SBIG cameras with mechanical shutter use a "thing" which has two blades rotating on an axis of which one closes the window at a time (like a propeller). The resulting minimum exposure time until you see the shutter in your images is 0.1 seconds. The Finger Lakes MaxCam with Kodak KAF0401 CCD (forgot the exact model number, sorry) uses a shutter as known from photographic camera objektives (radial lamellas) and has a minimum exposure time 0.01 seconds. But, you are right again, one has to consider the pixel size (on the same telescope) when talking about minimum and maximum exposure times. For our ST9E it is 20*20 µm², for the FLI it it 9 µm². I like the FLI shutter more due to the construction which has served in millions objectives very well. But the FLI has a big disadvantage. The ST9E comes at -20°C with a readout noise of approximately 135 counts at 16 Bits. The FLI comes at the same temperature with approx. 4170(!) counts at 16 Bits. Many mounts that would be considered adequate for visual work, will be inadequate for imaging. Again, I must acknowledge. Our LX200 16" mount is a pain. It could never - since it has been set up and has been repaired twice - track an exposure for more than 30 seconds. Large CCD's, need a large flat field from the scope (an SCT, has very significant field curvature, and correction will be needed). This problem could be solved by using dome flats. according to what you actually want to do. A camera with ABG, is far easier to use for 'pictorial' imaging, where bright objects are close to the target object, 'clipping off' the signal at the bright end. The 'downside', is that for photometric measurements, this clipping introduces some non-linearity in the top part of the cameras response (this is probably least on the Sony chips used in the StarLight cameras). Conversely, NABG cameras have better linearity, but then have their data destroyed close to bright objects, by blooming. Remember that I consider the ABG feature of some cameras as a widget which is not really usable. Think of usual photographic emulsions, I have to time my exposure exactly to get the best out of them. The same is obviously true for CCDs to use their advantage of linearity. ABG does not show up with "some" non-linearity as you said, Roger, but it is completely non-linear. Everytime the full well capacity for a pixel is reached, some amount of it is dumped and the pixel is dimmed. The result is that "overexposed" pixel cannot be compared in brightness to their not overexposed neighbours, not to mention that one cannot compare these exposures to exposures taken with other cameras. As for the extras: I suggest you buy a camera which has a USB interface for data transfer. Any chip size greater than 512*512 pixels makes it awfully to wait until the complete exposure is tranferred via parallel port into the computer. By the way: Does anyone know why SBIG introduced a USB 1.1 interface with their semi-research grade cameras (STL series)? The cameras come with up to 10 million pixels and it takes a while to tranfer them via USB 1.1 to the computer. USB 2.0 should not be too expensive and it is for sure not very complicated to implement a USB 2.0 but a 1.1 controller into the camera. Another point I would like to mention: Our department develops the camera software ourselves. Therefore it is necessary that the manufacturer supports you with some kind of drivers or libraries to set up the software. On the one hand it is nice to have some Win software which can do everything the camera is capable of but if you are not going to do consumer stuff, you have to rely on the manufacturer's support. The example I can give is that SBIG and FLI provide driver sets or libraries (ST9E/STL, MaxCam) which are usable with Linux. SBIG has added MacOS X support some weeks ago, too. |
#8
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Good CCD Camera for 10k-15k Euro
Hi Roger,
thank you for your long explanation. What do you want from the camera?. The camera is planned to be installed on a reflector telescope with a diameter of 50-60 cm. What do you want to image?. The pictures which will be taken are going to be of the sun and light objects at night. What mount do you have?. Have not decided yet. It still is to be planned. But I think I understand that in order to decide for the correct camera I first need to think about the telescope which is being used. David |
#9
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Good CCD Camera for 10k-15k Euro
Oh, and sorry Thomas!
Of course thanks for your reply, too!!! David David Yasli wrote: Hi Roger, thank you for your long explanation. What do you want from the camera?. The camera is planned to be installed on a reflector telescope with a diameter of 50-60 cm. What do you want to image?. The pictures which will be taken are going to be of the sun and light objects at night. What mount do you have?. Have not decided yet. It still is to be planned. But I think I understand that in order to decide for the correct camera I first need to think about the telescope which is being used. David |
#10
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Good CCD Camera for 10k-15k Euro
Thomas Juerges wrote:
I like the FLI shutter more due to the construction which has served in millions objectives very well. But the FLI has a big disadvantage. The ST9E comes at -20°C with a readout noise of approximately 135 counts at 16 Bits. The FLI comes at the same temperature with approx. 4170(!) counts at 16 Bits. That's not read noise, it must be the bias level. You can subtract it off relatively cleanly. Another point I would like to mention: Our department develops the camera software ourselves. Therefore it is necessary that the manufacturer supports you with some kind of drivers or libraries to set up the software. On the one hand it is nice to have some Win software which can do everything the camera is capable of but if you are not going to do consumer stuff, you have to rely on the manufacturer's support. The example I can give is that SBIG and FLI provide driver sets or libraries (ST9E/STL, MaxCam) which are usable with Linux. SBIG has added MacOS X support some weeks ago, too. If you're working on driving the newer SBIG cameras from Linux, I'd love to hear about it. I'm thinking about doing that myself. Dave David Whysong DWhysong (at) physics (dot) ucsb (dot) edu |
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