![]() If your graph displays a zigzag pattern like the one below, it is a good sign that you are over-correcting. ![]() When looking at the graph in PHD, remember that blue is RA, and red is DEC. As a rule of thumb, do not expose so long that the stars begin to over saturate, or PHD will not be able to provide an accurate pulse correction. In the example used for Andy’s equipment, that was an exposure of 2.7 seconds. Earlier, I mentioned using the guiding assistant to give you a recommended guide exposure length. He recommends using longer guide exposures for improved performance. The diagram below illustrates how longer guide exposures can provide a smoother graph: Generally, my guide exposures were about 1 to 1.5 seconds. This was a big eye-opener for me, as I had never given much thought to the guide exposure length I would use. In the video, Andy explains that his tests show that using longer guide exposures results in fewer pulse corrections needed. This guessing game no longer takes place thanks to the auto star select feature within PHD2 Guiding. In the past, I would try to select a star that was “medium-sized” and near the center of the frame. ![]() Why not let PHD choose the best possible star, rather than guessing yourself! It will select a star based on algorithms to avoid over saturated or poorly sized stars. PHD 2 Guiding has an advanced feature that calculates the best possible star in your field of view to use for guiding. You’ll want to make sure that PHD2 Guiding is making the necessary corrections relevant to your unique setup. This includes entering in your guide scope focal length and autoguiding camera pixel size.Īt this point it will also prompt you to build a dark frame library. Here you can set all of the specific details of your gear. The built-in equipment profile wizard in PHD2 guiding allows you to tell PHD exactly which hardware you are using. Very handy! Create a New Profile using the Wizard The Right Ascension Max Drift rate displayed in the guiding assistant will display a recommended guide exposure length. Again, explore this tool for a more detailed insight into your particular mount’s characteristics. This gives you a window into the amplitude of the RA (Right Ascension) periodic error. This is an interesting method that involves watching your mounts behavior before you start guiding.įind this feature under Tools > Guiding AssistantĪs Andy puts it, you’ll want to observe an unguided star motion to see what you are up against. The guiding assistant was built to show you how your mount performs, and where corrections can be applied. Here are the top 5 tips I gathered from watching Andy explain exactly how to use PHD2 guiding for best results: Use the Guiding Assistant This includes accurate Polar Alignment and balancing the weight of your payload. Before adjusting the settings in PHD2 Guiding, it is important to make sure that your equipment is prepared for imaging. The intelligent folks over at PHD can explain the full power of PHD2 guiding better than I can, but I thought I would share what I personally took away from this enlightening presentation. The video is quite long, but contains a wealth of information about autoguiding with PHD: Andy Galasso quickly reveals just how passionate he is about the project, and how knowledgeable he is with the PHD guiding software. The guys over at the Astro Imaging Channel released an informative video featuring one of the team members of PHD who worked on the software. The latest version of the software (PHD2) has been totally overhauled by a team of passionate developers that aim to make autoguiding even better.ĭownload the latest version of PHD2 Guiding I have been using this software for a long time, starting with the original PHD “1” verion. I have found PHD2 Guiding to be an incredible tool for my backyard deep sky astrophotography. My autoguiding graph in PHD2 using the Sky-Watcher EQ6-R Pro telescope mount PHD2 Guiding Settings for Astrophotography The built-in help file inside PHD2 contains a wealth of information, or you can download the instruction manual here. The software is available for Windows, Linux and Mac operating systems. PHD2 is easy enough for a beginner to use right away, yet also includes sophisticated guiding analysis tools that experienced users will appreciate. This is an important aspect of deep sky astrophotography because it allows you to focus on capturing successful long exposure images and get the most out of your telescope mount. PHD2 is a telescope autoguiding software that automates the process of tracking a guide star.
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