Meade ETX-125EC, ETX-105EC instruction manual Photography, ETX-90EC

Page 18
ALT/AZ: Tripod head locked at 90°
POLAR: Tripod head locked at observer’s latitude
Fig. 17: Examples of Alt/Az and polar mounting of an ETX-90EC to the optional #883 Deluxe Field Tripod.

CAUTION!

When using the #880 Table Tripod with the ETX-90EC, the optional #1422 Low- Latitude Balance Weight is recommended if the telescope is to be polar aligned below 30°, or if heavy accessories are attached to the eyepiece- end of the telescope. The low-latitude balance weight is recommended for the ETX-105EC or ETX- 125EC at all observing latitudes and is included as standard equipment with the #881 Table Tripod.

and horizontal locks. In this orientation the telescope’s optical tube is lined up parallel to the tripod’s adjustable leg.

8. Note the line and arrow extending from the telescope tube in Fig. 16. This line defines the telescope’s polar axis. Lift the entire telescope, including tripod, and place the telescope on a firm and level surface so that this axis is pointing due North (i.e., if the location of Polaris, the North Star, is known, then point the telescope directly at Polaris).

9. If using the high-latitude tripod leg in the Northern hemisphere, extend the leg until the telescope’s polar axis points to Polaris, or due North, an alignment obtained by sighting

along the telescope tube with the telescope oriented as shown in Fig. 16.

Note: Observers located in the earth’s Southern Hemisphere must point the telescope’s polar axis due South.

10.With the telescope now polar-aligned, the table tripod should not be moved, or else polar alignment will be lost. Motions of the telescope (e.g., to locate and/or track objects) can be affected only by (a) loosening the locks (6 and 9, Fig. 1), which permits the optical tube to be moved freely within the telescope mounting, or (b) more generally, with the locks in their “locked” positions, by using the Arrow keys of the Electronic Controller.

Note: For almost all astronomical observing requirements, approximate settings of the telescope’s polar axis are acceptable. Do not allow undue attention to precise polar alignment of the telescope to interfere with your enjoyment of the instrument. In those unusual cases where more precise polar alignment is desirable, refer to APPENDIX C, page 28.

PHOTOGRAPHY

Photography through your ETX model requires the addition of the optional #64 T-Adapter (see OPTIONAL ACCESSORIES, page 20). With the #64 T-Adapter attached to the telescope (Fig. 18), through-the-telescope photography is possible with any 35mm camera body with a removable lens. In this way the telescope effectively becomes the lens of the camera.

For through-the-telescope photography, turn the flip-mirror control (5, Fig. 18) to the “down” position, allowing light to pass straight through the telescope and out the photo port (15, Fig. 1). With the flip-mirror control in the “down” position and the photo port’s dust cover removed, you can see the front lens of the telescope when you look through the photo port. The #64 T-Adapter threads onto the photo port, followed by a T-mount for the particular brand of 35mm camera being used, followed by the camera body (with the camera lens removed).

The #64 T-Adapter consists of two sections (1 and 2, Fig. 18), which are threaded together in shipment. You may use either of the following photographic mounting formats to couple the camera body to the telescope’s photo port thread.

Format 1: Camera Body + T-Mount + Section (1) of the #64 T-Adapter (7, Fig. 18).

ETX-90EC

1250mm at f/13.8

ETX-105EC

1640mm at f/15.6

ETX-125EC

1900mm at f/15

Format 1 utilizes only the short section of the #64 T-Adapter to permit close-coupling of a camera body to the telescope. In this format vignetting will occur: the photographic image will appear on film with a slight darkening at the corners of the 35mm frame (see Fig. 19).

Format 2: Camera Body + T-Mount + Sections (1) and (2) of the #64 T-Adapter (see Fig. 18).

ETX-90EC

1450mm at f/16

ETX-105EC

1830mm at f/17.4

ETX-125EC

2310mm at f/18

- 18 -

Image 18
Contents Meade Instruments Corporation Page Contents QUICK-START Guide Slew SpeedTelescope and Electronic Controller Functions ETX-90EC Astro TelescopeETX Your Personal Window to the Universe Telescope ControlsViewfinder Flip mirror control in the up position Computer Control PanelIndicator Light Key Electronic Controller FunctionsLight Blinking Off Getting Started Aligning the Viewfinder Using The ViewfinderFocusing the Viewfinder ETX-90EC 8 x 21mm Erect-Image ViewfinderObservation Techniques Choosing an EyepieceAlignment Understanding Magnification Telescope Focal Length Power = Eyepiece Focal Length1900mm Power = = 26mm Terrestrial ObservingElectronic Controller Astronomical ObservingSidereal Rate Slew SpeedsAlt/Az Mode Modes of OperationTelescope Mountings Polar Mode To move the telescope using the Electronic ControllerYou use Polar or Equatorial mounting. By Polar Alignment Procedure Celestial CoordinatesLocating the Celestial Pole Standard Tripod Leg ETX-105EC, ETX-125EC Standard Tripod Leg ETX-90ECHigh-Latitude Tripod Leg ETX-90EC High-Latitude Tripod Leg ETX-105EC, ETX-125ECPhotography ETX-90ECExample of a format 1 photo Few Tips on PhotographyPower 2x Barlow Optional AccessoriesPower ETX-105EC ETX-125EC Eyepiece#825 Right- Angle Viewfinder General Maintenance Storage and TransportTroubleshooting Inspecting the OpticsMeade Customer Service Telescope moves off a terrestrial object while observingSpecifications ETX-90EC Astro Telescope Specifications ETX-105EC Astro TelescopeSpecifications ETX-125EC Astro Telescope Tracking Motor Speeds Changing Modes Using the Electronic ControllerAppendix a Advanced Electronic Controller Functions Northern Hemisphere PolarAppendix B Helpful Charts Appendix C Precise Polar Alignment Setting Circles Setting CirclesMoon Appendix D YOU and the UniverseAutostar Glossary PlanetsDeep-Sky Objects Pleiades is one of the most beautiful open clustersMeade Limited Warranty Meade Instruments Corporation