Orion ED EQ Astrophotography, Moon Photography, Planetary Photography, Piggyback Photography

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powers, images rapidly lose sharpness and clarity due to “heat waves” caused by Sun-heated air.

Remember to aim well clear of the Sun, unless the front of the telescope is fitted with a professionally made solar filter and the finder scope is covered by an opaque material or removed altogether.

9. Astrophotography

With the included camera adapter, the SkyView Pro 100mm ED becomes a 900mm f/9 telephoto lens for a single-lens reflex camera. For long-distance terrestrial or astronomical photography, you need only a T-ring for your particular camera model. The T-ring attaches to your particular camera model and threads onto the camera adapter, coupling the camera body to the camera adapter. The camera adapter connects to the telescope in place of the 2" star diagonal. Remove the 2" diagonal by first loosening the two thumb screws on the focuser drawtube. Insert the camera adapter (with camera attached), and secure with the drawtube’s thumb screws.

Use the camera’s viewfinder to frame the picture. If you wish to rotate the field of view, simply loosen the two thumb screws on the focuser drawtube and rotate the camera body. Retighten the thumb screws once the desired orientation is achieved. Use the telescope’s focuser to focus the image. Tighten the focuser tension thumb screw to make sure the camera does not slip out of focus.

You may want to consider using a remote shutter release instead of the shutter release on the camera. Touching the camera can vibrate the system and blur the resulting photo- graphic image.

Moon Photography

This is perhaps the simplest form of astrophotography, as no motor drive is required. Point the telescope toward the Moon, and center it within the camera’s viewfinder. Focus the image with the telescope’s focuser. Try several exposure times, all less than 1 second, depending on the phase of the moon and the ISO (film speed) of the film being used. A remote shutter release is recommended, as touching the camera’s shutter release can vibrate the camera enough to ruin the exposure.

Planetary Photography

Once basic Moon photography has been mastered, it’s time to get images of the planets. This type of astrophotography also works to get highly magnified shots of the Moon. In addi- tion to the T-ring, you will need an optional Universal 1.25" Camera Adapter. The TrueTrack Motor Drive System (single or dual-axis) is also required. This is because a longer expo- sure is necessary, which would cause the image to blur if no motor drive was used for tracking. The equatorial mount must be accurately polar aligned, too.

As before, connect the T-ring to your camera. Before connect- ing the universal camera adapter to the T-ring, an eyepiece must be inserted and locked into the body of the universal camera adapter. Start by using a medium-low power eyepiece (about 25mm); you can increase the magnification later with

ahigher-power eyepiece. Then connect the entire camera adapter, with eyepiece inside, to the T-ring. Insert the whole system into the focuser (with the camera adapter that comes with the telescope attached to the drawtube) and secure firm- ly with the thumb screws.

Aim the telescope at the planet (or Moon) you wish to shoot. The image will be highly magnified, so you may need to use the finder scope to center it within the camera’s viewfinder. Turn the motor drive on. Adjust the telescope’s focuser so that the image appears sharp in the camera’s viewfinder. The camera’s shutter is now ready to be opened. A remote shut- ter release must be used or the image will be blurred beyond recognition. Try exposure times between 1 and 10 seconds, depending upon the brightness of the planet to be photo- graphed and the ISO of the film being used.

“Piggyback Photography”

The Moon and planets are interesting targets for the bud- ding astrophotographer, but what next? Literally thousands of deep-sky objects can be captured on film with a type of astro- photography called “piggybacking”. The basic idea is that the camera with its own camera lens attached rides on top of the main telescope. The telescope and camera both move with the rotation of the Earth when the mount is polar aligned and the motor drive is engaged. This allows for a long exposure through the camera without having the object or background stars blurred. In addition to the motor drive (dual-axis), an illuminated reticle eyepiece is also needed. The T-ring and camera adapter are not needed, since the camera is expos- ing through its own lens. Any camera lens with a focal length between 35mm and 400mm is appropriate.

On the top of one of the tube rings is a piggyback camera adapter. This is the black knob with the threaded shaft pro- truding through it. The tube ring with the piggyback adapter should be closest to the front end of the telescope tube. Remove the tube rings from the equatorial mount and swap their position if necessary. Now, connect the camera to the piggyback adapter. There should be a 1/4"-20 mounting hole in the bottom of the camera’s body. Thread the protruding shaft of the piggyback adapter into the 1/4"-20 mounting hole in the camera a few turns. Position the camera so it is paral- lel with the telescope tube and turn the knurled black knob of the piggyback adapter counter-clockwise until the camera is locked into position.

Aim the telescope at a deep-sky object. It should be a fairly large deep-sky object, as the camera lens will likely have a wide field of view. Check to make sure that the object is also centered in the camera’s viewfinder. Turn the motor drive on. Now, look into the telescope’s eyepiece and center the bright- est star within the field of view. Remove the eyepiece and insert the illuminated reticle eyepiece into the focuser draw- tube. Turn the eyepiece’s illuminator on (dimly!). Recenter the bright star (guide star) on the crosshairs of the reticle eyepiece. Check again to make sure that the object to be pho- tographed is still centered within the camera’s field of view. If it is not, recenter it by repositioning the camera on the piggy- back adapter, or by moving the main telescope. If you move the main telescope, then you will need to recenter another

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Contents Orion Finder scope Table of Contents Parts ListAssembly UnpackingInstalling the Finder Scope Balancing the Telescope Inserting the Diagonal and EyepieceFocusing the Telescope Using Your TelescopeViewing with Eyeglasses Focusing the Finder Scope Aligning the Finder ScopeMagnification & Eyepieces 900 mm = 25 mmUse of 1.25 Eyepieces without a Diagonal Setting Up and Using the Equatorial MountPolar Alignment Polar Alignment Using an Optional Polar Axis Finder Scope Optional polar axis finder scopeUsing the Polar Axis Finder Scope Alignment of the Polar Axis Finder ScopeUnderstanding the Setting Circles Calibrating the Declination Setting CircleTracking Celestial Objects Optional Motor Drives for Automatic TrackingCalibrating the Right Ascension Setting Circle Finding Objects With the Setting CirclesAstronomical Observing Confused About Pointing the Telescope?Seeing and Transparency Cooling the TelescopeLet Your Eyes Dark-Adapt Eyepiece SelectionAstronomical Objects MoonSun PlanetsHow to Find Deep-sky Objects Starhopping Terrestrial ObservingAstrophotography Moon PhotographyPlanetary Photography Piggyback PhotographySpecifications Care and MaintenanceCleaning Lenses One-Year Limited Warranty