Equipment

Telescopes:

• Celestron Edge HD 11″ (Aplanatic Catadioptric)
  • Planetary Imaging at F/10 (2800mm), F/20 (5600mm) or F/30 (8400mm) with the native or Barlowed imaging trains.
  • Deep Sky Imaging at F/1.9 (540mm) with a Hyperstar imaging train
  • Deep Sky Imaging at F/7 (1960mm) with Focal Reducer
  • Deep Sky Imaging at F/10 (2800mm) with the native imaging train
• William Optics Zenithstar 81mm (Apochromatic Doublet Refractor)
  • F/6.9 (559mm) native
  • F/5.4 (447mm) with 0.8x field flattener
  • Deep Space Imaging
  • Lunar Imaging
  • Lightweight grab-and-go
• Orion XX12i Dobsonian (Newtonian Reflector)
  • F/4.9 (1500mm)
  • Visual Observations

Cameras:

• ASI533MC Pro
  • Primary Imaging camera
  • 3008×3008 one shot color camera
  • 11.31×11.31mm Sensor
  • 3.76uM pixels
  • Read noise: 1.0e
  • Cooled
  • Sensor: IMX533
• ASI224MC
  • Primary Planetary Imaging Camera
  • 1304×976 one shot color camera
  • 4.9×3.7mm Sensor
  • 3.75uM Pixels
  • Read noise: 0.8e
  • Sensor: IMX224
• ASI120MC-S
  • Old Planetary Camera, trying to use it now as guide camera
  • 1280×960 one shot color camera
  • 4.8×3.8mm Sensor
  • 3.75uM Pixels
  • Read noise: 4.0e (ergh)
  • Sensor: AR0130CS
• Under consideration for the future:
  • ASI290MM Mini – The ASI120 really stinks so far as a guide camera. Needs 10+ second exposures to see stars…. Seeing if removing the IR window helps. In daylight tests it seems like that might give me a ~30% improvement, but waiting until there is a clear night again to test and see if its sufficient in the short term or not….
  • ASI2600MC Pro – 24MP APC-C Sensor (23.5×15.7mm). Much larger sensor that would be nice for big things. Not big enough though that I shouldn’t be able to use my entire existing imaging train….