Losmandy G-11 Equatorial Mount w/ Digital Drive - No TripodThe G-11 Equatorial Mount w/ Digital Drive by Losmandy: No Tripod. If you're tired of messing around with equatorial mounts that just can't handle your observing and imaging requirements, the Losmandy G-11 is definitely worth a look. This heavy-duty mount is machined of aluminum and stainless steel, employs high precision gears, utilizes all stainless steel hardware and has a load capacity of 60 pounds.
The telescope attaches to the mount via a dovetail bar bolted to the bottom of the telescope. Before you attach the optical tube, make sure that the declination and right ascension clutch knobs are tight. This will ensure that the mount does not move suddenly while attaching the telescope.
Once the telescope is set up, you will need to point it at various locations to observe different objects. Unlike other mounts, the Losmandy mounts have a clutch system. To make rough adjustments, loosen the R.A. and DEC clutch knobs slightly and move the telescope in the desired direction. The R.A. clutch knob is near the Polar Axis Finder while the DEC clutch knob is at the top of the counterweight bar. How tight should the clutch knobs be? You set the clutch knobs to the friction you like. When you want to move the telescope for rough adjustments, all you do is grab the telescope and move it to its new position.
Losmandy G-11 Equatorial Mount Specifications:
- All machined aluminum and stainless steel, black anodized
- All stainless steel hardware
- One 3.750-inch diameter needle thrust bearing
- One 2.000-inch diameter needle thrust bearing
- Two 1.500-inch diameter needle bearings
- 5.625-inch diameter, 7075 aluminum worm gear, 360 tooth
- Dual supported, ball bearing housed stainless steel worm-heat treated and ground
- Variable slip clutch, both axes. One knob design.
- 1.250-inch diameter stainless steel shafts
- Fully locking, unique tangent arm design altitude adjustment, 14 to 64-degrees, large knob for easy alignment. (8 to 68-degrees with small modification)
- Laser engraved latitude scale in 2-degree increments
- Single knob azimuth control, bi-directional +/- 8.5-degree
- 5.000-inch diameter laser engraved setting circles, 4 minute R.A., vernier reading to 1 minute / 1-degree DEC., vernier reading to 0.1-degree. R.A. circle engraved for Northern and Southern Hemisphere
- Porter slip ring design
- 160 oz/in stepper motor, 0.5-arcsecond step
- Dovetail saddle-plate allows for the interchanging of any tube assembly-reduces need for DEC. weights
- Removable stainless steel weight shaft w/safety knob
- 21-pound counterweight
- 7-pound and 11-pound extra counterweights available
- Through the axis polar scope, works in Northern and Southern Hemisphere. Polar scope optional.
- Instrument weight capacity 60 pounds.
- Equatorial head weight 36 pounds.
- R.A. and DEC. reversing switches
- Three guiding rates; 30-percent, 50-percent, and 2x sidereal rate
- Three setting rates; 4x, 8x, and 16x sidereal rate
- Quartz tracking rates: sidereal, solar, lunar, king
- Periodic Error Correction (PEC)
- Programmable DEC. Backlash Compensation (TVC).
- Control panel dimmer
- Accepts auto-guider systems
- Northern and Southern Hemisphere operation
- 12V DC - 500 ma power use
- Tiltable control panel for easy access
- Small hand control box for comfortable use
Your Losmandy GM 11 telescope comes equipped with setting circles that translate the celestial coordinates into a precise location for the telescope to point. The daily motion of the Sun across the sky is familiar to even the most casual observer. This daily trek is, of course, not the Sun moving as early astronomers thought, but the result of the Earth's rotation. This rotation also causes the stars to do the same, scribing-out large circles as the Earth completes one rotation.
In order for the telescope to track the stars, you must meet two criteria, First, you need a drive motor that moves at the same rate as the stars. A polar axis finder is offered as an optional accessory. The second thing you need is to set the telescope's axis of rotation so that it tracks in the right direction. Since the motion of the stars across the sky is caused by the Earth's rotation about its axis, the telescope's axis must be made parallel to the Earth's. The polar axis is the axis around which the telescope rotates when moved in right ascension. This axis points in the same direction even when the telescope moves in right ascension.
Although there are several methods of polar alignment, you will never use all of them during one particular observing session. Instead, you may use only one if it is a casual observing session. Or, you may use two methods, one for rough alignment followed by a more accurate method if you plan on doing astrophotography.
OPT Product Number: LO-G11SLT
|Head Design||German Equatorial|
|Instrument Capacity||60 lbs|