DIY Off-Axis Guider (OAG)

I have built a DIY off-axis guider (OAG) using a mirror from a DSLR camera, some tube extenders (2 in and 1.25 in diameter), and a webcam. Best guiding performance currently at 0.33″ (arcsecond) RMS error, at 900 mm focal length, using a mount with DIY controller.

In off-axis guiding, the telescope functions both as an imaging scope and a guide scope. In this configuration, a mirror or a prism receives a portion of the light without blocking the main imaging sensor, sending the light to a guide camera. The critical component in this DIY is a high-quality mirror, which I happen to have found in a non-working Canon 1100D. To build the OAG, I removed the lens from a Barlow so I could get a 1.25 inch barrel for the webcam attachment, and then fastened it perpendicular to a 2 inch extender, where an appropriate side hole has been made. I then fabricated a small mirror mount (like a secondary mirror mount in a Newtonian) using some brass material, to send the reflected light on to the side. The placement of the mirror and the proper spacing to achieve focus required trial-and-error. To use the OAG, focus the main camera first, and then slide the guide camera (webcam) in or out to achieve focus.

I have tested the off-axis guider to work with the SPC900NC web camera, Kenko NES mount, Sky-Watcher Equinox 100ED, and an ASI 533, with best guiding performance at 0.33″ (arcseconds) at 900 mm focal length. I tried using the ASI 533 as a guide camera and found out that the mirror fully illuminates the full width of the sensor, which means a dedicated OAG camera with large sensor (such as those using the Sony IMX 174 sensor) should be fully-illuminated as well.

To watch a video showing this DIY off-axis guider, click here. To view posts on DIY projects and astronomical equipment, click here.

Related link: Kenko NES Mount

Night Sky in Focus | Astronomy and Amateur Radio
© Anthony Urbano | Manila, Philippines

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