Meade 50 AZ-T Collimation of the Optical System, 12vDC Outlet, Correct Collimation

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12vDC Outlet

The 12vDC Outlet accepts a #607 Power Cord (See OPTIONAL ACCESSORIES, page 12) for powering the 16" Starfinder Equatorial Telescope from a 12vDC automobile cigarette lighter plug. While the recommended supply voltage is 12vDC, the telescope will operate in a range of 6-18vDC.

COLLIMATION OF THE OPTICAL SYSTEM

After the secondary mirror assembly has been installed, it will be necessary to collimate, or align the secondary mirror with the primary mirror.

1. Correct Collimation

A properly collimated (aligned) mirror system in the Starfinder Reflecting telescope assures the sharpest images possible. The Starfinder is properly aligned when the primary mirror (3), Fig. 3, and secondary mirror (2), Fig. 3, are tilted so that the focused image (6), Fig. 3, falls directly through the center of the focuser drawtube (5), Fig. 3.

To inspect the view of the mirror collimation, remove the eyepiece and look down the focuser drawtube. The round edge of the focuser drawtube (1), Fig. 5, will frame the reflections of the primary mirror with the secondary mirror (2), Fig. 5, the spider vanes (3), Fig. 5, and your eye (4), Fig. 5. Properly aligned, all of these reflections will appear concentric (i.e. centered) as illustrated in Fig. 5. Any deviation from the concentric reflections will require adjustments to the secondary mirror assembly (Fig. 4), and/or the primary mirror cell.

Fig. 5: Correct Collimation. (1) Round Edge of Focuser Drawtube;

(2) Secondary Mirror; (3) Spider vanes; (4) Eye.

 

Fig. 6: Spider Vane Misalignment. (1) Secondary Mirror;

Face-on view

(2) Round Edge of Focuser Drawtube.

Edge-on view

1

3

 

2

 

Fig. 4: Secondary Mirror Assembly. (1) Spider Vanes; (2) Tilt

 

Screws; (3)Secondary Mirror Holder.

 

 

Fig. 7: Secondary Mirror Misalignment. (1) Secondary Mirror;

2. Spider Vane Adjustments

(2) Round Edge of Focuser Drawtube; (3) Reflection of Primary Mirror.

Looking down the open end of the telescope tube, check to see if the secondary mirror system is centered in the optical tube. If the assembly is off-center, loosen one of the spider vane adjustment/lock knobs while unscrewing the opposite knob. Only make adjustments to 2 knobs at a time until the secondary mirror is centered in the drawtube. When the spider vane is correctly positioned, the view through the drawtube will look like Fig. 7. (Note that the secondary mirror is misaligned.)

3. Secondary Mirror Adjustments

If the secondary mirror (1), Fig. 7, is centered in the drawtube (2), Fig. 7, but the primary mirror is only partially visible in the reflection (3), Fig. 7, the 3 hex screws located on the secondary mirror assembly (2), Fig. 4, must be unthreaded slightly to refine the tilt-angle of the secondary mirror until the entire primary mirror can be seen centered within the secondary mirror reflection. When the secondary mirror is correctly aligned, it will look like Fig. 8. (Note that the primary mirror is misaligned.)

Fig. 8: Primary Mirror Misalignment. (1) Secondary Mirror; (2) Round Edge of Focuser Drawtube; (3) Eye.

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Contents Meade Instruments Corporation Page Contents Parts Listing and Assembly Starfinder Reflecting Telescope IntroductionControl Panel On/Off SwitchBalancing the Telescope Encoder PlugCollimation of the Optical System Spider Vane AdjustmentsSecondary Mirror Adjustments 12vDC OutletViewfinder MagnificationAstronomical Observing Celestial Coordinates Declination and Right AscensionPolar Alignment How to Locate Objects in the Night Sky Motor DriveSetting Circles Observing TipsOptional Accessories AstrophotographyTelescope Maintenance and Servicing Star Testing the CollimationCare Of Optics And Main Tube Telescope Tracking Specifications Meade StarfinderTM 16 Reflecting Telescope Meade Customer ServiceFCC Notice Meade Limited Warranty Ver Part no
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