Meade Instruments 8", 10", 12", 14", 16" LX200GPS-SMT
Schmidt-Cassegrain Telescopes, & 7" LX200GPS-SMT
Maksutov-Cassegrain Telescope with
Autostar II Hand Controller
TECHNICAL MANUAL FOR TELESCOPE ASSEMBLY
AND OPERATING PROCEDURES
Copyright Meade Instruments, 2003 All Rights Reserved / 73 Pages
Provided on line as a courtesy to our customers by Company Seven
Showroom: 14300 Cherry Lane Court
Laurel, Maryland 20707 U.S.A.
301-953-2000
Correspondence: Box 2587
Montpelier, Maryland 20709-2587 U.S.A.
Email: info@company7.com
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The Meade Schmidt-Cassegrain Optical System
(2)
(1)
(2)
(1)
Ray (2)
1/2°
Ray (1)
8.218"
8.016"
(2)
(1)
8.0"
Secondary
Mirror
8.0"
Focal
Plane
Secondary
Baffle
Primary Baffle Tube
Field Stops
Correcting
Plate
Primary Mirror
(8" model depicted in diagram. Not to scale.)
In the Schmidt-Cassegrain design of the Meade 8", 10", 12", 14", and 16" LX200GPS models, light enters from the right,
passes through a thin lens with 2-sided aspheric correction (“correcting plate”), proceeds to a spherical primary mirror, and
then to a convex secondary mirror. The convex secondary mirror multiplies the effective focal length of the primary mirror
and results in a focus at the focal plane, with light passing through a central perforation in the primary mirror.
The Meade 8", 10" and 12" Schmidt-Cassegrain models include an oversize primary mirror, yielding a fully illuminated field-
of-view significantly wider than is possible with a standard-size primary mirror. Note that light ray (2) in the figure would be
lost entirely, except for the oversize primary. It is this phenomenon which results in Meade Schmidt-Cassegrains having
off-axis field illuminations about 10% greater, aperture-for-aperture, than other Schmidt-Cassegrains utilizing standard-size
primary mirrors. Field stops machined into the inside-diameter surface of the primary mirror baffle tube significantly
increase lunar, planetary, and deep-space image contrast. These field stops effectively block off-axis stray light rays.
The Meade Maksutov-Cassegrain Optical System
The Meade 7" (178mm) Maksutov-Cassegrain Optical System
Field Stops
7"
8.25"
Meniscus
Lens
Focal
Plane
Primary Baffle Tube
Primary Mirror (f/2.5)
Secondary Baffle
(Diagram not to scale)
The Meade 7" Maksutov-Cassegrain design optimizes imaging performance by utilizing a combination of a two-sided
spherical meniscus lens (right), a strongly aspheric f/2.5 primary mirror, and a spherical secondary mirror. The convex sec-
ondary mirror multiplies the effective focal length of the primary by a factor of six, resulting in an overall a focal length of
2670mm and a focal ratio of f/15 system at the Cassegrain focus.
The oversize 8.25" primary mirror results in a fully-illuminated (unvignetted) field of view significantly wider than can be
obtained with Maksutov optics incorporating primary mirrors of the same aperture as their meniscus correcting lenses.
Computer-optimized primary and secondary mirror baffles, as well as a sequence of field stops internal to the primary mir-
ror baffle, yield lunar, planetary, stellar, and deep-space images of uncommonly high contrast and resolution.
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C O N T E N T S
Quick-Start Guide .......................................................... 4
Telescope Features ...................................................... 6
Autostar II Features........................................................ 9
Getting Started ..............................................................12
Parts Listing ..............................................................12
How to Attach the Tripod to the Telescope ..............12
How to Assemble Your Telescope ............................13
Choosing an Eyepiece..............................................14
Mounting and Adjusting the Viewfinder ....................15
Observing ......................................................................16
Observing by Moving the Telescope Manually ........16
Terrestrial Observing ................................................16
Observing Using Autostar II's Arrow Keys ................16
Focusing the Eyepiece with the Microfocuser ..........17
Slew Speeds ............................................................17
Observe the Moon, Astronomical Observing ..........18
To Track an Object Automatically..............................18
Moving Through Autostar II’s Menus ..................18
Automatic Alignment............................................18
Observe a Star Using Automatic Tracking ..........20
Go To Saturn ............................................................20
Using the Guided Tour ..............................................20
Basic Autostar II Operation ............................................22
Autostar II Navigation Exercise ................................22
Navigating Autostar II................................................23
Autostar II Menus ........................................................24
Menu Tree ................................................................24
Objects Menu............................................................25
Event Menu ..............................................................26
Glossary Menu, Utilities Menu..................................27
Setup Menu ..............................................................28
Hot Button Menus ....................................................31
Advanced Autostar II Features ......................................32
Adding Observing Sites ............................................32
Creating User Objects ..............................................33
Observing Satellites, Landmarks ..............................34
Identify ......................................................................35
Browse ......................................................................36
Alternate Alt/Az Alignment Methods..........................37
Initialize Autostar II (for Alternate Alignments)..........37
Easy (Two-Star) Alignment ......................................37
Two-Star Alt/Az Alignment ........................................37
To Set the Home Position Manually ....................38
One-Star Alt/Az Alignment ........................................38
Periodic Error Correction ..........................................39
Photography ..................................................................40
Optional Accessories......................................................41
Maintenance ..................................................................44
Specifications ................................................................47
Appendix A: Equatorial (Polar) Alignment ......................50
Appendix B: Latitude Chart ............................................55
Appendix C: How to Create Your Own Guided Tour ......56
Appendix D: Training the Drive ......................................60
Appendix E: The Moon Menu ........................................61
Appendix F: 16" LX200GPS Features............................62
Appendix G: 14" LX200GPS Features ..........................66
Appendix H: De-rotater and Microfocuser Assembly ....67
Appendix I: Smart Mount................................................68
Basic Astronomy ............................................................70
WARNING!
®
Never use a Meade LX200GPS Telescope
to look at the Sun! Looking at or near the
Sun will cause instant and irreversible dam-
age to your eye. Eye damage is often pain-
less, so there is no warning to the observer
that damage has occurred until it is too late.
Do not point the telescope or its viewfinder at
or near the Sun. Do not look through the tel-
escope or its viewfinder as it is moving.
Children should always have adult supervi-
sion while observing.
Caution: Use care to install batteries in the
orientation indicated by illustration in the bat-
tery slots of the battery holder. Follow battery
manufacturer's precautions. Do not install
batteries backwards or mix new and used
batteries. Do not mix battery types. If these
precautions are not followed, batteries may
explode, catch fire, or leak. Improperly
installed batteries void your Meade warranty.
If you are anxious to use your telescope
for the first time, read the QUICK-START
GUIDE on pages 4 and 5.
16" LX200GPS Users: See APPENDIX F,
page 62, for features unique to the 16"
model.
14" LX200GPS Users: See APPENDIX G,
page 66, for features unique to the 14"
model.
® The name "Meade" and the Meade logo are trademarks
registered with the U.S. Patent Office and in principal coun-
tries throughout the world. "LX200GPS" and "Autostar II" are
trademarks of Meade Instruments Corporation.
"Easy Align" U.S. patent 6,392,799 and other patents pend-
ing.
Intelligent Network Architecture to Facilitate Parallel Task
Management U.S. patent 6,304,376
© 2003 Meade Instruments Corporation.
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Q U IC K -S T A R T G U ID E
It is recommended that you attach the supplied tripod to the LX200GPS for observing. Perform the telescope and
Autostar II setup indoors in the light so that you become familiar with the parts and operation before moving the tele-
scope outside into the dark for observing. The setup is the same for the standard field tripod and the giant field tripod.
Remove the spreader bar (see above figure) from
the shipping carton. Slide the spreader bar onto
the threaded rod. Slide the rod through the tripod
base. Position the spreader bar so that its three
arms line up with the three tripod legs.
ᕡ
Threaded
ᕤ
“C” Clip
Rod
in slot
Tripod
Base
1. Remove the field tripod from the shipping carton.
Stand the tripod vertically with the tripod feet
down and with the tripod still fully collapsed.
Grasp two of the tripod legs and, with the full
weight of the tripod on the third leg, gently pull the
4. Place the "C" clip into the slot in the threaded rod
legs apart to a fully open position.
above the tripod head—this clip holds the thread-
ed rod in place.
ᕢ
ᕥ
Tension
Knob
5. Take the LX200GPS from its packaging and place
the entire telescope onto the top of the tripod
head, inserting the threaded rod into the central
hole in the bottom of the drive base of the tele-
scope. Tighten the tension knob (see above fig-
ure) to a firm feel only; firm tightening of the ten-
sion knob is sufficient to result in rigid positioning
of the tripod legs.
2. Thread in two lock-knobs on each leg (six total)
near the foot of each tripod leg. Use the lock-
knobs to vary the height of the inner, extendible
tripod leg sections. Tighten the locks to a firm feel
only; do not overtighten.
ᕣ
ᕦ
Slide rod
through
Tripod base
Battery
Compartment
Line up
with leg
6. Remove the covers of the battery compartments
located on the fork arms (one on each fork arm) and
carefully lift the battery holders from their compart-
ments, being mindful of the connector wires. Insert
four (user-supplied) C-cell batteries into each bat-
tery holder, oriented as shown on the diagram on
the battery holder. Return the battery holders to
their respective compartments. Replace the covers
when you are done.
Spreader Bar
3. Remove the threaded rod from the tripod head. A
small piece of plastic holds the threaded rod in
place. Remove the small plastic bag that is stapled
to the threaded rod. This bag contains the "C" clip
retainer and an extra clip.
4
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ᕧ
ᕩ
Display
ON/OFF
HBX Port
9. Press the Power Switch on the computer control
panel to the ON position. The copyright message
lights on Autostar II's LCD display.
7. Press the computer control panel power switch to
OFF, if necessary. Remove the Autostar II hand-
box and the Autostar II coil cord from the packing
materials. Plug one end into the HBX port of the
telescope's computer control panel and plug the
other end into the coil cord port on the Autostar II
handbox.
µ
Arrow
Keys
Slew Speeds:
ᕨ
Speed 9: Fast
Ấ
ẫ Ả ạ Ạ
.
.
Speed
Key
Speed 5: Medium
.
.
Speed 1: Slow
OR
Number
Keys
ấ
10. Press the key prompted by Autostar II to accept
the Sun warning. Autostar II now displays
"Automatic Alignment." You can then use the
Arrow keys to slew (move) the telescope up,
down, right, or left. To change the telescope’s slew
speed, press the Speed key and then the Number
keys. "9" is the fastest speed and "1" is the slow-
est speed. See page 17 for more details.
Ầ ả
ầ
ẩ
Ẩ
Ẫ
8. Attach microfocuser: Remove the dust cap from
the rear cell port (A) of the telescope (Note:
Telescope not shown for clarity). Thread the micro-
focuser adapter (B) into the rear cell port thread.
Slide the microfocuser (C) over the microfocuser
adapter and tighten the three hex screws on the
microfocuser (K) using the provided hex keys.
¸
Important Note:
The Microfocuser is shipped with the microfocuser
adapter (B) threaded to the SC accessory adapter (L).
Unthread the adapters from each other before attach-
ing the microfocuser. Set aside the SC accessory
adapter. For more information about the SC accessory
adapter, see SC OPTIONAL ACCESSORY USERS, page
14.
R.A.
Lock
Dec.
Lock
11. Tighten, to a firm feel only, the R.A. and Dec.
locks. Remove the dust cover from the end of the
telescope tube.
1.25" Diagonal Prism Users: If using the 1.25"
diagonal prism (G), slide the 1.25" adapter (D) into
the microfocuser. Line up the thumbscrew into the
groove in the microfocuser (I, also see Fig. 7a and
7b, page 14). Slide the 1.25" diagonal prism into
the adapter (D). Tighten the adapter thumbscrew
(H) to a firm feel only. Tighten the microfocuser
thumbscrews (I) to a firm feel only.
Place the Super Plössl 26mm eyepiece (F) into
the diagonal prism (G) and tighten the attachment
thumbscrew (E) to a firm feel only.
Sight along the side of the telescope’s main tube
to locate an object. Rotate the mirror lock knob
(9, Fig. 1) towards the “Unlock” position, until it
feels loose—the telescope is shipped with the
mirror locked. Use the telescope’s coarse focus
knob (6, Fig. 1) to bring the object into focus.
Practice using the Autostar II Arrow keys to cen-
ter an object in the telescope’s field of view.
2.0" Diagonal Mirror Users: If using the 2.0" diag-
onal mirror, slide the mirror directly into the micro-
focuser (C). Tighten the microfocuser thumb-
screws (I) to a firm feel only.
5
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T E L E S C O P E F E A T U R E S
1(
1*
2@ 2! 2%
2)
(not shown,
on left fork
arm)
2#
(not
shown)
2$
B
c
d
1&
1^
1%
1$
e
f
g
h
i
j
1)
Autostar II
Hand Controller.
See page 9.
1!
Ả
ả
Ấ
1@
1#
Ạ
ấ
Ầ Ầ ầ
ạ
Fig. 1: The LX200GPS Telescope; Computer Control Panel (inset); Autostar II Handbox (inset).
6
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L X 2 0 0 G P S : Y O U R P E R S O N A L
Caution:
W IN D O W T O T H E U N IV E R S E
The Meade LX200GPS models are extremely versatile, high-resolution telescopes.
With pushbutton controls, precision GPS alignment, zero image-shift microfocusing,
true-level and North electronic sensors, automatic tracking of celestial objects, peri-
Using products other than
standard Meade accessories
may cause damage to the
telescope’s internal electron-
ics and may void the Meade
warranty.
+
odic error correction for both axes, and a library of 145,000 objects in the Autostar II
database, the LX200GPS models offer unmatched state-of-the-art performance.
Observe the feather structure of an eagle from 50 yards or study the rings of the plan-
et Saturn from a distance of 800 million miles. Focus beyond the Solar System on
ancient star clusters, remote galaxies, and stars recently discovered to have planets
orbiting about them. Meade LX200GPS telescopes are capable of growing with your
interest and can meet the requirements of the most demanding advanced observer.
B
F
Want to learn more
about the eyepieces
available for your
LX200GPS telescope?
B
Eyepiece: Place the Super Plössl 26mm eyepiece into the 90° diagonal prism (3,
Fig. 1) and tighten in place with the eyepiece thumbscrew (2, Fig. 1). The eye-
piece magnifies the image collected in the optical tube.
See OPTIONAL
ACCESSORIES, pages
41, 42, and 43.
C
D
Eyepiece Thumbscrew: Tightens the eyepiece (1, Fig. 1) in place. Tighten to a
firm feel only.
1.25" Diagonal Prism (or 2" Mirror): Provides a more comfortable right angle view-
ing position. A 2" diagonal mirror with a 1.25" adapter is standard with the 12" model.
See page 14 for information about attaching the prism or mirror to the microfocuser.
Want to learn how to
attach the microfocuser
assembly to the rear
cell port of your
E
Diagonal Prism Thumbscrew: Tightens the diagonal prism in place. Tighten to
a firm feel only.
LX200GPS telescope?
F
G
Rear Cell Port: The microfocuser assembly threads onto this port.
See HOW TO ASSEM-
BLE YOUR TELESCOPE,
pages 13 and 14.
Coarse Manual Focus Knob: Moves the telescope’s primary mirror in a finely-
controlled motion to achieve coarse image focus. The LX200GPS telescopes can
be focused on objects from a distance of about 25 ft. to infinity. Rotate the focus
knob counterclockwise to focus on distant objects, and clockwise to focus on
nearby objects.
G
Want to learn more
about focusing your
telescope? See pages
17 and 31.
H
I
Fork Arms: This heavy-duty mount holds the optical tube securely in place.
Battery Compartments: Insert four user-supplied C-cell batteries into each com-
partment (one compartment on each fork arm; eight batteries total).
I
j
Want to learn how to
J
1)
Primary Mirror Lock: Rotate this knob towards the "Lock" position and adjust the
tension to a firm feel; this action serves to lock in the coarse focus and also to pre-
vent mirror flop. Use in conjunction with the Zero Image-Shift Microfocuser (see 2$).
install the batteries?
See page 13.
Right Ascension (R.A.) Slow-Motion Control: Make fine adjustments in the
Right Ascension, i.e., the horizontal axis, by turning this control with the R.A. Lock
(see ¹ below) in the unlocked position. Set the R.A. Lock to a "partially locked"
position to create a comfortable drag for the R.A. Slow Motion Control.
Want to learn more
about the primary
mirror lock? See
MIRROR MIRROR,
page 38.
Caution: Do not operate the R.A. Slow Motion Control with the R.A. Lock
in the fully locked position, as such operation may result in damage to the
internal gear system and also cause you to lose alignment.
1!
1@
Right Ascension (R.A.) Setting Circle: See APPENDIX A, page 50, for detailed
information.
1!
Want to learn more
about the Right
Right Ascension (R.A.) Lock: Controls the manual horizontal rotation of the tel-
escope. Turning the R.A. lock counterclockwise unlocks the telescope, enabling
it to be freely rotated by hand about the horizontal axis. Turning the R.A. lock
clockwise locks the telescope, prevents the telescope from being rotated manu-
ally, and engages the horizontal motor drive for Autostar II operation.
Ascension and
Declination setting
circles? See page 50.
1#
Computer Control Panel (see Fig. 1 inset):
A. ON/OFF Switch: Turns the computer control panel and Autostar II ON
or OFF. The red power indicator LED next to the switch illuminates
when power is supplied to the Autostar II handbox, the microfocuser,
and to the telescope’s motor drives (the LED can be turned off in the
Panel Light menu; see page 27).
7
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B. 12vDC Power Connector: Provides a connection so that the telescope
assembly may be powered from a standard 115v AC home outlet using
the optional #547 Power Adapter with Cable or the optional 12v DC #607
Cigarette Lighter Adapter. See OPTIONAL ACCESSORIES, page 43.
Definitions
Throughout this manual,
you will notice the terms
"Alt/Az," "Right
C. Focus Port: Plug the microfocuser into this port. Control the microfo-
cuser through the Autostar II menus. See HOT BUTTON MENUS, page
31, and 2$ below.
Ascension," and
"Declination." Alt/Az or
more properly, altazimuth,
is frequently used to refer
to altitude or Declination
(the up-and-down vertical
movement of the telescope)
and azimuth or Right
Ascension (the side-to-side
horizontal movement of the
telescope). Right
D. Reticle Port: Plug the optional reticle eyepiece into this port. Control
the reticle through the Autostar II menus. See HOT BUTTON MENUS
page 31. Also see OPTIONAL ACCESSORIES, page 42.
Note: See the instruction sheets that are included with the focuser, the
reticle, and the autoguider for more details.
E. 12vDC Output: Use the 12vDC output to power telescope accessories
and the Maksutov fan on the 7" LX200GPS model..
F. Handbox (HBX) Port: Plug the Autostar II coil cord into this port.
Ascension is abbreviated
as "R.A." and Declination
as "Dec."
G. RS232 Ports (2): Provides connection with a PC and for current and
future Meade accessories. Your PC can control your LX200GPS tele-
scope using serial commands. Go to the Meade website
device pinouts.
Important Note:
H. Autoguider Port: Plug the optional autoguider into this port. See the
After the telescope is
instruction sheet that came with your autoguider for more information.
aligned (see page 18), the
Dec. slow motion control 1^
may be used and the tele-
scope will remain in align-
ment. However, if the R.A.
slow motion control 1) is
used after the telescope
has been aligned, align-
ment will be lost and the
telescope will need to be
realigned.
1$
1%
1^
Tiltable Autostar II Holder: Attach to fork handles (see 1% below). Holds your
handbox in a convenient location.
Fork Handles: Use to lift optical tube assembly or to rotate the telescope when
attached to the tripod.
Declination (Dec.) Slow-Motion Control: Make fine adjustments in Declination
(altitude) by turning this control with the Dec. Lock (see 1& below) in the locked
position. In order for this control to operate properly, power must be off.
1&
1*
Dec. Lock: Controls the manual vertical movement of the telescope. Turning the
Dec. lock counterclockwise unlocks the telescope enabling it to be freely rotated
by hand about the vertical axis. Turning the Dec. lock clockwise (to a firm feel
only) prevents the telescope from being moved manually, but engages the verti-
cal motor drive for Autostar II operation.
Caution:
When loosening the Dec.
lock, be sure to support the
optical tube (19, Fig. 1).
The weight of the tube
could cause the tube to
swing through the fork arms
suddenly.
Dust Cover: Gently pry the dust cover from the front lens of the telescope.
Note: The dust cover should be replaced after each observing session
and the power turned off to the telescope. Verify that any dew that might
have collected during the observing session has evaporated prior to
replacing the dust cover.
1(
2)
2!
2@
2#
2$
Optical Tube: The main optical component that gathers the light from distant
objects and brings this light to a focus for examination through the eyepiece.
Declination (Dec.) Setting Circle (on left fork arm): See APPENDIX A, page 50,
for detailed information.
2!
Want to learn more about
attaching and aligning
the viewfinder? See
page 15.
Viewfinder Collimation Screws: Use these six screws to adjust the alignment
of the viewfinder.
8 x 50mm Viewfinder: A low-power, wide-field sighting scope with crosshairs
that enables easy centering of objects in the telescope eyepiece.
GPS Receiver (see page 21 for photo): Receives information transmitted from
Global Positioning System satellites. See pages 18, 19, and 21 for more information.
2$
Want to learn more
about the Zero Image
Shift Microfocuser?
See pages 13, 14, and
31.
4-Speed Zero Image-Shift Microfocuser: Allows precise image focus during
visual, CCD, and astrophotographic applications. Maintains precise image cen-
tering on even the smallest CCD chips. Operates at four speeds: Fine to fast
using the Arrow keys of the Autostar II hand controller. Plug microfocuser into the
Focus port (13C, Fig. 1).
2%
Tube Adapters: The optical and mechanical axes of the LX200GPS telescope
have been carefully aligned at the factory to ensure accurate object pointing. Do
not loosen or remove the optical tube assembly from the tube adapters. The
resulting misalignment of the axes will result in inaccurate slewing of the tele-
scope in the GO TO mode.
8
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A U T O S T A R II F E A T U R E S
¸
ᕡ
ᕢ
ᕤ
ᕨ
ᕣ
ᕥ
ᕦ
ᕩ
µ
ᕧ
Fig. 2: The Autostar II Handbox.
Tour the Cosmos with Just the Push of a Button
Control of the LX200GPS telescope models is through the operation of the standard
Autostar II system. Nearly all functions of the telescope are accomplished with just a
few pushes of Autostar II’s buttons.
Because the Autostar II system uses flash (rewritable) memory, your system will be
able to grow when new features and enhancements become available. Download the
latest satellite data, star and object catalogs, tours, serial commands list, and soft-
optional LX200 Interface Cable. See OPTIONAL ACCESSORIES, page 43.)
Want to learn more about
downloading the latest
updates of Autostar II
software from the
Meade website? See
page 31.
Some of the major features of the Autostar II system are:
I
Automatically move the telescope to any of the more than 145,000 objects stored
in the object library, including:
Library
# of Objects
New General Catalog (NGC):
Index Catalog (IC):
Messier Catalog (M):
7,840
5,386
110
Caldwell Catalog:
109
Named Objects:
227
Herschel Catalog:
400
Abell Catalog of Galaxy Clusters:
Arp Catalog of Irregular Galaxies:
Uppsala Galaxy Catalog:
Morphological Catalog of Galaxies:
General Catalog of Variable Stars:
SAO:
2,712
645
12,940
12,939
28,484
17,191
17,325
Hipparcos Star Catalog:
I
I
I
I
I
Take a guided tour of the best celestial objects to view on any given night of the year.
Control your LX200GPS with your PC using an RS232 interface.
Align your telescope automatically using GPS (Global Positioning System).
Access a glossary of astronomical terms.
Mount the telescope in the “Alt/Az” mode (altitude—azimuth, or vertical—hori-
zontal) for fully automatic tracking of celestial objects.
9
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The Autostar II system provides control of virtually every telescope function. The
Autostar II handbox has soft-touch keys designed to have a positive feel. The LCD
(Liquid Crystal Display) is backlit with red LEDs (Light Emitting Diodes) for easy view-
ing in the dark. The backlit display, key arrangement, and sequential menu structure
make Autostar II extremely user friendly.
B
2-Line LCD Display: This screen displays Autostar II's menus and information
about the telescope.
•
•
Top line: Lists the primary menu.
Bottom line: Displays other menus that may be chosen, menu
options, telescope status, or information about a function that is being
performed.
c
d
ENTER Key: Press to go to the next menu level or to choose an option in a
menu. The ENTER key is similar to the RETURN or ENTER key on a computer.
See MOVINGTHROUGH AUTOSTAR II'S MENUS, page 18 and AUTOSTAR II MENUS,
page 24.
MODE Key: Press to return to the previous menu or data level. The top menu
level is “Select Item." The MODE key is similar to the ESCAPE key on a com-
puter.
Note: Pressing MODE repeatedly while in the “Select Item” level moves
Autostar II to the topmost screen: “Select Item: Object.”
Note: If MODE is pressed and held for two seconds or more, information
about the telescope's status displays. When the status displays, press the
Scroll keys (7, Fig. 2) to display the following information:
• Right Ascension and Declination (astronomical) coordinates
• Altitude (vertical) and Azimuth (horizontal) coordinates
• Local Time and Local Sidereal Time (LST)
• Timer and Alarm Status
• Date
• Site coordinates
• Battery status
Press MODE again to return to the previous menu.
e
f
GO TO Key: Press to slew (move) the telescope to the coordinates of the cur-
rently selected object. While the telescope is slewing, the operation may be
aborted at any time by pressing any key except GO TO. Pressing GO TO again
resumes the slew to the object. Also, press during the alignment or GO TO pro-
cedures to activate a "spiral search."
e
Want to learn more
about using the GO TO
function? See page 20.
Want to learn how to
perform a spiral
Arrow Keys: The Arrow keys have several functions. Press an Arrow key to slew
the telescope in a specific direction (up, down, left, and right), at any one of nine
different speeds. See SLEW SPEEDS, page 17. Use the Up and Down Arrow keys
to move the telescope vertically up and down. The Left Arrow key rotates the tele-
scope horizontally counterclockwise, while the Right Arrow key rotates it clockwise
(unless reversed for Southern Hemisphere use).
search? See page 20.
Also, use the Arrow keys to scroll through numbers 0 through 9 and the alpha-
bet. The Down Arrow key begins with the letter "A;" the Up Arrow key begins with
digit "9."
Additionally, use the Arrow keys to to move the cursor across the display: Use the
Right or Left Arrow key (5, Fig. 2) to move the cursor from one number to the next
in the display.
g
Number Keys: Press to input digits 0 to 9. Each Number key also has a specif-
ic function, which is printed on each key (these are commonly known as "hot but-
tons"—see page 31):
SPEED
1
Want to learn more
about changing slew
speeds? See page 17.
1 SPEED: Changes the slew speeds. To operate, press Speed and then a
Number key (1 is the slowest speed, 9 is highest speed).
2 CALD (Caldwell): Press to display the Caldwell catalog on the Autostar II
handbox.
3 M (Messier): Press to display the Messier catalog library.
4 FOCUS: Press to display the Focus Control menu.
FOCUS
4
Want to learn
more about the Focus
menu? See page 31.
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5 SS: Press to display the Solar System library.
6 STAR: Press to display the Star library.
RET
7
Want to learn more
about the Reticle
menu? See page 31.
7 RET (Reticle): Press to display the Reticle Control menu.
8 IC: Press to display the Index Catalog library.
9 NGC (New General Catalog): Press to display the NGC catalog library.
0 LIGHT: Press to turn on and off the red utility light on the top of the hand-
box.
h
i
Scroll Keys: Press to access options within a selected menu. The menu is dis-
played on the first line of the screen. Options in the menu are displayed, one at
a time, on the second line. Press the Scroll keys to move through the options.
Press and hold a Scroll key to move quickly through the options.
The Scroll keys also control the speed of text scrolling on the Autostar II display.
When text is scrolling, press and hold the Up Scroll key for a faster display speed
and the Down Scroll key for a slower display speed.
? Key: Press to access the "Help" file. "Help" provides on-screen information on
how to accomplish whatever task is currently active.
Tip:
When an astronomical
term appears in [brack-
ets], press ENTER for a
definition or more detailed
information. Press MODE
to return to the scrolling
Autostar II Help display.
Press the ? key and then follow the prompts on the display to access details of
Autostar II functions in the Help feature. The Help system is essentially an on-
screen instruction manual.
If you have a question about an Autostar II operation, e.g., INITIALIZATION,
ALIGNMENT, etc., press the ? key and follow the directions that scroll on the sec-
ond line. When satisfied with the Help provided, press MODE to return to the orig-
inal screen and continue with the chosen procedure.
If a celestial object's
name appears in brackets
(and your telescope is
aligned), press ENTER
and then GO TO to slew
the telescope to the object.
j
1)
Coil Cord Port: Plug one end of the Autostar II coil cord (10, Fig. 2) into this port
located at the bottom of the Autostar II handbox.
Coil Cord: Plug one end of the Autostar II coil cord into the HBX port (13F, Fig. 1)
of the computer control panel of the telescope and the other end into the Autostar
II coil cord port. See j above.
1!
Utility Light: Use this built-in red light to illuminate star charts and accessories
without disturbing your eye's adaptation to darkness. Press "0" to turn the light on
and off.
LX200GPS TIPS
J o in a n A s t r o n o m y C lu b , A t t e n d
a
S t a r P a r t y
One of the best ways to increase your knowledge of astronomy is to join an astronomy
club. Check your local newspaper, school, library, or telescope dealer/store to find out if
there’s a club in your area.
At club meetings, you will meet other astronomy enthusiasts with whom you will be able
to share your discoveries. Clubs are an excellent way to learn more about observing the
sky, to find out where the best observing sites are, and to compare notes about tele-
scopes, eyepieces, filters, tripods, and so forth.
Often, club members are excellent astrophotographers. Not only will you be able to see
examples of their art, but you may even be able to pick up some “tricks of the trade” to
try out with your LX200GPS telescope. See page 40 for more information about photog-
raphy with the LX200GPS.
Many groups also hold regularly scheduled Star Parties at which you can check out and
observe with many different telescopes and other pieces of astronomical equipment.
Magazines such as Sky & Telescope and Astronomy print schedules for many popular
Star Parties around the United States and Canada.
11
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G E T T IN G S T A R T E D
Parts Listing
ᕡ
Getting the telescope ready for first observations requires only a few minutes. When
first opening the packing box, note carefully the following parts:
ᕤ
ᕦ
I
I
I
I
I
I
I
I
I
LX200GPS Telescope with fork mount system
Autostar II handbox and interface coil cord; handbox holder
Microfocuser assembly
ᕢ
ᕣ
8 x 50mm viewfinder assembly
Eyepiece holder and 1.25" diagonal prism (7", 8", and 10" models)
1.25" Adapter and 2" diagonal mirror (12" model only)
Super Plössl 26mm eyepiece, packed in a plastic storage container
Variable height tripod and mounting base (12" model only: Giant variable tripod)
Set of hex keys
How to Attach the Tripod to the Telescope Assembly
The telescope’s fork mount base (also called a drive base) attaches directly to the field
tripod. The telescope in this way is mounted in an “altazimuth” (“altitude-azimuth,” or
“vertical-horizontal”) format.
ᕥ
The field tripod also can be used in conjunction with the optional equatorial wedge
(see EQUATORIAL WEDGE, page 51) for long exposure astrophotography. The equa-
torial wedge permits alignment of the telescope’s polar axis with the Celestial Pole (or
North Star).
Fig. 3: Tripod components: (1) Tripod
Head; (2) Threaded Rod; (3) Tension
Knob; (4) Spreader Bar; (5) Lock
Knobs; (6) Strut Hub
1. Remove the field tripod from the shipping carton. Stand the tripod vertically with
the tripod feet down and with the tripod still fully collapsed. Grasp two of the tri-
pod legs and, with the full weight of the tripod on the third leg, gently pull the legs
apart to a fully open position.
2. Thread in the 6 lock-knobs (2 on each tripod leg) near the foot of each tripod leg
(5, Fig. 3). These lock-knobs are used to fix the height of the inner, extendible tri-
pod leg sections.
Note: Tightening to a firm-feel is sufficient; over-tightening may result in
stripping of the knob threads or damage to the tripod legs, and results in
no additional strength.
3. The spreader bar has been removed for shipment. To install, first remove the
threaded rod (2, Fig. 3) from the tripod head (1, Fig. 3); a small piece of plastic
holds the threaded rod in place. Remove the small plastic bag that is stapled to
the threaded rod. This bag contains the “C” clip retainer and an extra clip.
4. Slide the spreader bar (4, Fig. 3) onto the threaded rod (note the correct orienta-
tion as shown in Fig. 4) and position the threaded rod back through the tripod
head. Place the clip retainer ( a “C” clip) into the slot in the threaded rod above the
tripod head. This clip holds the threaded rod in place.
5. Position the spreader bar so that the 3 arms of the spreader bar line up with the
3 tripod legs.
Fig. 4: Attaching the telescope to the
tripod. Note the orientation of the
spreader bar.
6. Place the entire telescope onto the top of the tripod head, and insert the thread-
ed rod into the central hole in the bottom of the drive base of the telescope.
Tighten the tension knob (Fig. 4); firm tightening of the tension knob is sufficient
to result in rigid positioning of the tripod legs.
7. To vary the tripod height, loosen the 6 leg lock-knobs, slide the 3 inner tripod leg
sections out to the desired height, and firmly re-tighten (but do not overtighten)
the 6 lock-knobs.
To collapse the tripod (after removing the telescope and equatorial wedge, if appli-
cable) for storage, follow these steps:
1. Rotate the spreader bar 60° from its assembled position, so that one spreader
bar arm is located between each adjacent pair of tripod legs.
2. At the base of the tripod is a 3-vane extension strut system, with a circular hub at
its center (6, Fig. 3). Grasp the tripod head (1, Fig. 3) with one hand and, with the
other hand, pull directly “up” on the central hub of the extension strut system. This
operation will cause the tripod legs to move inward to a collapsed position.
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Notes Concerning the Tripod:
If the tripod does not seem to extend or collapse easily, do not force the
tripod legs in or out. By following the instructions above, the tripod will func-
tion properly, but if you are unclear on the proper procedure, forcing the tri-
pod into an incorrect position may damage the extension strut system.
Caution:
Use care to install batteries
as indicated by the battery
compartment. Follow bat-
tery manufacturer's pre-
cautions. Do not install bat-
teries backwards or mix
new and used batteries. Do
not mix battery types. If
these precautions are not
followed, batteries may
explode, catch fire, or leak.
Improperly installed batter-
ies void your Meade war-
ranty. Always remove the
batteries if they are not to
be used for a long period
of time.
Do not overtighten the 6 lock-knobs used to fix the inner tripod leg sections
at various heights. Tighten to a firm feel only.
Be sure the spreader bar (4, Fig. 3) is not upside-down on the threaded
rod.
How to Assemble Your Telescope
Assembly of the LX200GPS telescope requires eight C-cell (user-supplied) batteries or
the optional #547 Power Adapter with Cable connected to a standard 115v home outlet
or to an optional #607 Cigarette Lighter Adapter (see OPTIONAL ACCESSORIES, page
43). Plug an adapter into the 12vDC In port of the computer control panel (13B, Fig. 1).
To install batteries:
1. Position the optical tube: Turn the Dec. lock (17, Fig. 1) counterclockwise to
unlock the the optical tube (19, Fig. 1) and move it through the fork arms. Move
the optical tube to the position depicted in Fig. 1 and turn the Dec. lock clockwise
to a firm feel to relock the position of the optical tube.
Note:
2. Install batteries: Remove the battery compartment covers (8, Fig. 1) and care-
fully remove the battery holders, being mindful of the connector wires. Insert four
user-supplied C-cell batteries into each battery holder, oriented as shown on the
diagram on the battery slots inside the battery holder. Return the battery holders
to their respective compartments and replace the covers. (See Fig. 5.)
14" LX200GPS model users,
see page 66 for informa-
tion on battery installation.
3. Plug in the Autostar II handbox: Be certain that the power switch on the com-
puter control panel (13A, Fig. 1) is in the OFF position. Plug the coil cord of the
Autostar II handbox into the HBX port (13F, Fig. 1).
Note: The Autostar II handbox and the microfocuser do not require bat-
teries; the telescope supplies their power.
ẫ
Ấ
ả
Ạ
Ả ạ
Fig. 5: Battery installation.
ấ
OR
Note:
The microfocuser is
shipped with the microfo-
cuser adapter (B) threaded
to the SC accessory
adapter (L). Unthread the
adapters from each other
before attaching the micro-
focuser.
Ầ
Ẩ
ầ
ẩ Ẫ
Fig. 6: Microfocuser and eyepiece assembly. (A) Rear cell of telescope (shown separate
from the telescope assembly for the sake of clarity, see 5, Fig. 1); (B) Microfocuser
adapter; (C) Microfocuser; (D) 1.25" accessory adapter. SC accessory adapter (L) may be
used in this position instead if Schmidt-Cassegrain accessories are being used. Do not use
either adapter if using a 2" diagonal diagonal mirror; (E) Eyepiece holder thumbscrew; (F)
Eyepiece; (G) 1.25 "Diagonal Prism. 2" diagonal mirror may also be used in this position
(12" models); (H) Adapter Thumbscrew; (I) Microfocuser Thumbscrews; (J) Microfocuser
bearings; (K) Hex screws; (L) Microfocuser SC Accessory Adapter (see margin note).
Tip:
Although you can set up
the telescope to face any
direction to perform
Automatic Alignment, you
will achieve optimal per-
formance when the com-
puter control panel faces
South.
4. Attach microfocuser: Remove the dust cap from the rear cell port (5, Fig. 1) of
the telescope. Thread the microfocuser adapter (B, Fig. 6) onto the rear cell port
thread. Slide the microfocuser (C, Fig. 6) over the microfocuser adapter and
tighten the three hex screws (K, Fig. 6) using the provided hex key.
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5. Attach Diagonal (or accessories)
1.25" Diagonal Prism Users: If using the 1.25" diagonal prism (G, Fig. 6), slide
the 1.25" adapter (D, Fig. 6) into the microfocuser. Line up the thumbscrew into
the groove in the microfocuser (Fig. 7a and 7b). Tighten the microfocuser
thumbscrews (I, Fig. 6) to a firm feel only. Slide the 1.25" diagonal prism into the
adapter (D, Fig. 6). Tighten the accessory adapter thumbscrew (H, Fig. 6) to a
firm feel only.
Groove
SC Optional Accessory Users: If using any of the optional accessories (such as
the Off-Axis Guider, T-Adapter, etc.; see page 42) with the LX200GPS SC models,
slide the supplied SC accessory adapter (L, Fig. 6) into the microfocuser. Line up
the groove on the side of the adapter with either of the microfocuser thumbscrews
(Fig. 8a and 8b) and tighten that thumbscrew to a firm feel only. Slide the optional
accessory into the accessory adapter. Tighten the other microfocuser thumbscrew
to a firm feel only.
Fig. 7a: Microfocuser groove.
Fig. 7b: Microfocuser adapter thumb-
screw in groove.
2.0" Diagonal Mirror Users: If using the 2.0" diagonal mirror, slide the mirror
directly into the microfocuser. The adapters (H and L, Fig. 6) are not required.
Tighten the thumbscrews (I, Fig. 6) to a firm feel only.
Plug in the microfocuser: Plug the microfocuser into the Focus port (13C, Fig.
1).
Note: If you wish to mount a camera directly to the microfocuser, you need
to attach an optional T-Adapter to the microfocuser. See OPTIONAL ACCES-
SORIES, page 42.
Groove
Line up
Important Note: The microfocuser is carefully adjusted at the factory. If it
become necessary to adjust the microfocuser, it must be performed by fac-
tory trained technicians. If the microfocuser is improperly adjusted, perform-
ance will degrade and damage will result. Damage due to improper adjust-
ments not authorized by the factory will not be covered under warranty.
Fig. 8a: SC adapter groove.
Fig. 8b: Line up SC adapter groove
with microfocuser thumbscrew.
6. Insert eyepiece: Remove the Super Plössl 26mm eyepiece (1, Fig. 1) from its
container and place it in the diagonal prism (G, Fig. 6) or diagonal mirror. Tighten
the eyepiece holder thumbscrew (2, Fig. 1) to a firm feel only. Rotate the mirror
lock knob (9, Fig. 1) towards the “Unlock” position, until it feels loose—the tele-
scope is shipped with the mirror locked.
7. Remove dust cover: Remove the dust cover (18, Fig. 1) from the optical tube
assembly (19, Fig. 1) by gently prying it off.
8. Attach the handbox holder: Remove the handbox holder from the plastic bag.
If necessary, loosen the lock knob (A, Fig. 10a) and place the clamp (B, Fig. 10a)
about one of the fork arm handles (15, Fig. 1). Tighten the lock knob to a firm feel.
Slide the Autostar II handbox into the holder (C, Fig. 10a). You may also snap the
handbox into the holder: Slide one side of the handbox into the holder and then
firmly press the other side of the handbox into the holder until it snaps in place.
Adjust the tilt of of the holder by loosening the lock knob and then moving the
holder clamp to the desired angle. Retighten the lock knob.
Fig. 9: Microfocuser and 1.25 diago-
nal prism with eyepiece completely
assembled.
Choosing an Eyepiece
A telescope’s eyepiece magnifies the image formed by the telescope’s main optics.
Each eyepiece has a focal length, expressed in millimeters, or “mm.” The smaller the
focal length, the higher the magnification. For example: An eyepiece with a focal
length of 9mm has a higher magnification than an eyepiece with a focal length of
26mm.
Ạ
ạ
Your telescope comes supplied with a Super Plössl 26mm eyepiece which gives a
wide, comfortable field of view with high image resolution.
Ả
Low power eyepieces offer a wide field of view, bright, high-contrast images, and eye
relief during long observing sessions. To find an object with a telescope, always start
with a lower power eyepiece such as the Super Plössl 26mm. When the object is
located and centered in the eyepiece, you may wish to switch to a higher power eye-
piece to enlarge the image as much as practical for prevailing seeing conditions. For
information about optional eyepieces for the your telescope, see OPTIONAL ACCES-
SORIES, page 41.
Fig. 10a: Handbox holder: (A) Lock
knob; (B) Clamp; (C) Holder.
Fig. 10b: Handbox holder attached to
fork arm handle.
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The power, or magnification of a telescope is determined by the focal length of the tel-
escope and the focal length of the eyepiece being used (an eyepiece's focal length is
printed on the side of the eyepiece). To calculate eyepiece power, divide the tele-
scope's focal length by the eyepiece's focal length. For example: A 26mm eyepiece is
supplied with LX200GPS models. The focal length of the 8" f/10 LX200GPS is 2000mm
(see SPECIFICATIONS, pages 47 through 49).
Mounting
Slot
Eyepiece Power = Telescope focal length ÷ Eyepiece focal length
Eyepiece Power = 2000mm ÷ 26mm
Eyepiece Power = 77
Track
The eyepiece power, or magnification is therefore 77X (approximately).
Thumb-
screws
Note: For a list of magnification ratings of the eyepieces available for the
LX200GPS telescopes, see OPTIONAL ACCESSORIES, page 41.
Fig. 11: Viewfinder Assembly.
Mounting and Adjusting the Viewfinder
To align the viewfinder, perform steps 1 through 5 during the daytime; perform step 6
at night.
Collimation
Screws
Viewfinder
Eyepiece
GPS
1. Slide the track on the bottom of the viewfinder into the slot in the viewfinder
mounting assembly. See Fig. 11. To secure the viewfinder to the mounting
assembly, tighten the two thumbscrews (Fig. 11) to a firm feel only.
Receiver
2. If you have not already done so, insert the Super Plössl 26mm eyepiece into the
diagonal prism.
3. Unlock the R.A. (12, Fig. 1) and Dec. (17, Fig. 1) locks so that the telescope
moves freely on both axes.
4. Point the telescope at some well-defined and stationary land object at least 200
yards distant, such as the top of a telephone pole or street sign. Center the object
in the telescope eyepiece. Re-tighten the R.A. and Dec. locks.
Fig. 12: Viewfinder collimation screws
and eyepiece.
5. Look through the viewfinder eyepiece (Fig. 12) and loosen or tighten, as appro-
priate, one or more of the viewfinder collimation screws (Fig. 12) until the
viewfinder crosshairs are precisely centered on the object you previously cen-
tered in the telescope eyepiece.
Tip:
Because the space
6. Check this alignment on a celestial object, such as the Moon or a bright star, and
make any necessary refinements, using the method outlined in steps 3 through 5.
between the GPS receiver
and the viewfinder is a bit
tight, it is helpful if you
tighten the front, bottom
viewfinder collimation
thumbscrew first and use
the other screws to set the
alignment. However, if you
determine you need to
adjust the front thumb-
screw, choose an alignment
object that allows you to
slightly elevate or rotate the
telescope to a convenient
position for adjustment of
this thumbscrew.
Note: Seeing conditions vary widely from night-to-night and site-to-site.
Turbulence in the air, even on an apparently clear night, can distort
images. If an image appears fuzzy and ill-defined, back off to a lower
power eyepiece for a more well-resolved image (see Fig. 13a and 13b).
LX200GPS TIPS
T o o M u c h P o w e r ?
Can you ever have too much power? If the type of power you’re referring to is
eyepiece magnification, yes, you can! The most common mistake of the begin-
ning observer is to “overpower” a telescope by using high magnifications which
the telescope’s aperture and atmospheric conditions cannot reasonably support.
Keep in mind that a smaller, but bright and well-resolved image is far superior to
one that is larger, but dim and poorly resolved (see Figs. 13a and 13b). Powers
above 400X should be employed only under the steadiest atmospheric condi-
tions.
Autostar II can calculate the best eyepiece for you to use. Try out the “Eyepiece
Calc” feature in the Utilities menu.
Fig. 13a & 13b: Jupiter; examples of
the right amount of magnification and
too much magnification.
Most observers should have three or four additional eyepieces to achieve the full
range of reasonable magnifications possible with the LX200GPS telescopes. See
OPTIONAL ACCESSORIES, page 41.
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O B S E R V IN G
Important Note:
Observing by Moving the Telescope Manually
If you wish to observe a distant land object, such as a mountain top or a bird, you can
observe by merely pointing the telescope and looking through the eyepiece.
1. Loosen the telescope’s R.A. lock (12, Fig. 1) and Dec. lock (17, Fig. 1).
2. Move your telescope to observe distant street signs, mountains, trees, and other
structures. Use your viewfinder to help site-in on an object.
3. Center the object in the viewfinder’s crosshairs and then in the telescope eye-
piece. When the object is centered in your eyepiece, remember to re-tighten the
R.A. and Dec. locks.
4. To move telescope in the R.A. and Dec. axes again, remember to loosen the R.A.
lock and tighten the Dec. lock. Then rotate the manual slow motion control knobs
(10, Fig. 1) and (16, Fig. 1) .
5. Practice focusing objects using the coarse focus knob (6, Fig. 1).
Important Note: The telescope is shipped with the mirror locked. Before
using the coarse focus knob , rotate the mirror lock knob (9, Fig. 1) towards
the "unlock" position, until it feels loose.
Objects appear upside-
down and reversed left-for-
right when observed in the
viewfinder. Objects viewed
through the telescope eye-
piece when inserted into
the diagonal prism and
microfocuser assembly
appear right-side-up, but
reversed left-for-right.
This image inversion is of
no consequence when
observing astronomical
objects and, in fact, all
astronomical telescopes
yield inverted images.
During terrestrial observing,
where a fully-correctly-ori-
ented image (right-side-up
and correct left-for-right) is
desirable, an optional #928
45° Erecting Prism is avail-
able. See OPTIONAL
For more precise focusing, see FOCUSING THE EYEPIECE, page 17.
6. Once you get a feel for how your telescope moves and focuses, try to view some-
thing more challenging, like a bird or a distant moving train.
You can also observe stars and objects in the night sky using this method, but note
that objects begin to slowly drift across the eyepiece field. This motion is caused by
the rotation of the Earth. As you become familiar with the Autostar II handbox opera-
tion, you can counteract the drift using the automatic tracking feature in the Autostar
II Setup menu (see TO TRACK AN OBJECT AUTOMATICALLY, page 18), or by using
Autostar II's GO TO capabilities (see GO TO SATURN, page 20).
ACCESSORIES, page 42.
Note:
Viewing conditions vary wide-
Terrestrial Observing
ly from night-to-night and site-
to-site. Turbulence in the air,
even on an apparently clear
night, can distort images.
Low-power eyepieces, such
as the Super Plössl 26mm
supplied with your telescope,
are better suited to resolving
images in poor viewing condi-
tions.
The LX200GPS models are excellent high-resolution terrestrial (land) telescopes.
Viewing terrestrial objects requires looking along the Earth's surface through heat
waves. These heat waves often cause degradation of image quality. Lower power
eyepieces, like the Super Plössl 26mm, magnify these heat waves less than higher
power eyepieces. Therefore, lower power eyepieces provide a steadier, higher qual-
ity image. If the image is fuzzy or ill-defined, reduce to a lower power eyepiece, where
the heat waves do not have such an effect on image quality. Observing in early morn-
ing hours, before the ground has built up internal heat, produces better viewing con-
ditions than during late afternoon hours.
Observing Using Autostar II's Arrow Keys
You may observe land and astronomical objects using Autostar II's Arrow keys to
move the telescope.
NEVER point
the telescope
directly at or
1. Tighten the R.A. and Dec. locks (12 and 17, Fig. 1).
near the Sun at
any time! Observing the
Sun, even for the smallest
fraction of a second, will
result in instant and irre-
versible eye damage, as
well as physical damage to
the telescope itself.
2. Verify that Autostar II is properly connected to your telescope. See HOW TO
ASSEMBLE YOUR TELESCOPE page 13.
,
3. Flip the telescope power switch to the ON position.
The Autostar II screen is activated and a copyright message displays briefly, followed
by a short beep. Then Autostar II takes a few moments to start up the system.
4. A message displays that warns not to look at the Sun. At the end of this message,
press the key prompted by Autostar II to signify that the message has been read
and understood.
Warning:
Do not look through the tele-
scope's eyepiece or viewfind-
er while it is rapidly moving.
Children should always have
adult supervision while
observing.
5. "Automatic Alignment" displays. Press any Autostar II key to abort automatic
alignment.
6. The Arrow keys are now activated. Press the Arrow keys (5, Fig. 2) to slew
(move) the telescope up, down, right, or left.
7. Press the Speed key (Number key "1") and then a Number key (6, Fig. 2) to
change the telescope’s slew speed. ("1" is the slowest speed, "9" is highest
speed.)
Want to learn more about
Slew Speeds? See Slew
Speeds, this page.
8. Use the viewfinder (22, Fig. 1) to locate an object and practice using the Autostar
II’s Arrow keys to center the object in the telescope’s field of view.
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9. Bring the object into focus (see below).
Focusing the Eyepiece Using the Microfocuser
The LX200GPS zero image-shift microfocuser (24, Fig. 1) allows you to obtain the most
precise image focus possible during visual, photographic, and CCD applications, main-
taining precise and "jiggle-free" image centering on even the smallest CCD chips.
See MIRROR MIRROR, page
38, for more information
about the microfocuser and
the primary mirror lock.
To use the microfocuser:
1. Perform this part of the procedure during the daytime, without the eyepiece
assembly (eyepiece, diagonal, etc.) attached to the microfocuser. Press the
Autostar II Focus button and then the Up and Down Arrow keys. Observe the
microfocuser drawtube as it travels in and out. When the drawtube reaches the
furthest extension of its travel, listen for a change in the pitch of the motor. Notice
that the drawtube's maximum extension is about a half-inch out from the micro-
focuser. Set the drawtube so that it extends about a quarter-inch (about halfway).
2. When you begin your viewing session, attach the eyepiece assembly. See pages
13 and 14 for details.
3. Make sure that the microfocuser is plugged into the computer control panel focus
port (13C, Fig. 1).
4. Point the telescope at a bright star.
5. Rotate the mirror lock knob (9, Fig. 1) towards the "unlock" position, until it feels
loose. Use the coarse focus control (6, Fig. 1) to achieve a rough focus of the star.
6. Rotate the mirror lock knob towards the "lock" position and adjust the tension to
a firm feel; this action serves to lock in the coarse focus.
Important Note: Do not use or bump the coarse focus knob once you have
set the coarse focus. If you do so, repeat steps 5 and 6 above to reset the
coarse focus.
7. Press the Focus key (Number key "4"). "Focus Control: Speed: Fast" displays.
Press the Up or Down Scroll keys to cycle through the four speed options. Press
ENTER to select the desired speed. Or press one of the following Number keys
after pressing the Focus key to change the speed:
Key #
1 or 2
3, 4, or 5 Slow
Speed
Fine
Key #
6 or 7
8 or 9
Speed
Medium
Fastest
8. Use the Arrow keys to bring the star into fine focus.
9. You may need to repeat this procedure when you change eyepieces.
Slew Speeds
Autostar II has nine slew speeds that move the optical tube at rates that are directly pro-
portional to the sidereal rate and have been calculated to accomplish specific functions.
Press the Speed key (Number key "1") and then press a Number key to change the
slew speed, which is shown for about two seconds on Autostar II’s display.
Tip:
The slowest speed, 1x,
may be changed using the
Guiding Rate menu. This
menu allows you to change
the speed by entering a
percentage of the speed
(either more or less than
100%). This function may
be useful in guiding the tel-
escope during CCD and
long-exposure photogra-
phy. See GUIDING RATE,
page 29, for more informa-
tion.
The nine available speeds are:
Number Key 1 =
Number Key 2 =
Number Key 3 =
Number Key 4 =
Number Key 5 =
1x =
2x =
8x =
16x =
64x =
Guide Rate, programmable (see Tip at left)
2 x sidereal (0.5 arc-min/sec or 0.008°/sec)
8 x sidereal (2 arc-min/sec or 0.033°/sec)
16 x sidereal (4 arc-min/sec or 0.067°/sec)
64 x sidereal (16 arc-min/sec or 0.27°/sec)
30 arc-min/sec or 0.5°/sec
Number Key 6 = 128x =
Number Key 7 = 1.5° =
90 arc-min/sec or 1.5°/sec
Number Key 8 =
3° = 180 arc-min/sec or 3°/sec
Number Key 9 = Max = 480 arc-min/sec or 8°/sec)
Speeds 1, 2, or 3: Best used for fine centering of an object in the field of view of a
higher power eyepiece, such as a 12mm or a 9mm eyepiece.
Speeds 4, 5, or 6: Enable centering of an object in the field of a low-to-moderate
power eyepiece, such as the standard Super Plössl 26mm.
Speeds 7 or 8: Best used for rough centering of an object in the viewfinder.
Speed 9: Moves the telescope quickly from one point in the sky to another.
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Observe the Moon
Point your telescope at the Moon (note that the Moon is not visible every night) and
practice using the Arrow keys, the microfocuser and the slew speeds to view different
features. The Moon contains many interesting features, including craters, mountain
ranges, and fault lines. The best time to view the Moon is during its crescent or half
phase. Sunlight strikes the Moon at an angle during these periods and adds a depth
to the view. No shadows are seen during a full Moon, making the overly bright surface
to appear flat and rather uninteresting. Consider the use of a neutral density Moon fil-
ter when observing the Moon. See page 42. Not only does it cut down the Moon's
bright glare, but it also enhances contrast, providing a more dramatic image.
Definition:
Initialization is a proce-
dure that ensures that
Autostar II operates cor-
rectly. When you first use
Autostar II, it doesn't yet
know where the observa-
tion location site is or the
time or date of the obser-
vation session.
Astronomical Observing
Used as an astronomical instrument, your telescope has many optical and electro-
mechanical capabilities. It is in astronomical applications where the high level of opti-
cal performance is readily visible. The range of observable astronomical objects is
limited only by the observer’s motivation.
To Track an Object Automatically
During the automatic
As the Earth rotates beneath the night sky, the stars appear to move from East to
West. The speed at which the stars move is called the sidereal rate. You can setup
your telescope to move at the sidereal rate so that it automatically tracks (follows) the
stars and other objects in the night sky. If the telescope is not tracking an astronomi-
cal object, the object will drift out of the eyepiece field of view. The tracking function
automatically keeps an object centered in the telescope’s eyepiece.
alignment procedure, the
system calculates these
parameters automatically.
Autostar II uses this infor-
mation to precisely calcu-
late the location of celestial
objects (such as stars and
planets) and to move your
telescope correctly for vari-
ous operations.
To automatically track objects, you need to learn how the Autostar II keypad operates
in order to move through its menus. You'll need to initialize and align your telescope.
Moving Through Autostar II’s Menus
The Autostar II database is organized in levels for quick and easy navigation.
I
I
I
Press ENTER (2, Fig. 2) to go deeper into Autostar II's menu levels.
Press MODE (3, Fig. 2) to move back toward the top menu level.
Press the Scroll keys (7, Fig. 2) to move up and down through the options avail-
able for each level.
I
I
Press the Arrow keys (5, Fig. 2) to enter characters and digits. The Arrow keys
are also used to move the telescope.
Use the Number keys to enter digits.
Tip:
Automatic Alignment Feature
When multiple choices are
available within an Autostar
II menu option, the current
option is usually displayed
first and highlighted by a
right pointing arrow (>).
Autostar II offers four methods of altazimuth (alt/az) alignment; this section describes
how to initialize and align your telescope using Automatic Alignment. (For a descrip-
tion of the other alt/az alignment methods, see pages 37 and 38. For information
about equatorial (polar) alignment, see APPENDIX A, page 50.)
To prepare your telescope for Automatic Alignment:
1. Tighten the R.A. and Dec. locks (12 and 17, Fig. 1).
2. Verify that Autostar II is properly connected to your telescope. See HOW TO
Note:
Press any key on the
ASSEMBLE YOUR TELESCOPE page 13.
,
Autostar II handbox to abort
the GPS fix. If aborted,
Autostar II then displays
"Enter Date." You may follow
prompts to perform a manu-
al alt/az alignment (see
page 37) or press MODE
repeatedly until "Select
Item" displays to use the
Autostar II menu options.
3. Flip the telescope power switch to the ON position.
The Autostar II screen is activated and a copyright message displays briefly, followed
by a short beep. Then Autostar II takes a few moments to start up the system.
4. Autostar II initializes the Smart Drive if "On" has been previously chosen from
both the R.A. and Dec. PEC menus in the "Setup: Telescope" menu (the very first
time the system is turned on, the Smart Drive feature will not be enabled). Once
"On" is chosen, Autostar remembers the setting until "Off" is chosen again. If "On"
has been selected, the R.A. and Dec. motors operate briefly and "Initializing:
Smart Drive" displays.
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5. A message displays that warns not to look at the Sun. At the end of this message,
press the key prompted by Autostar II to signify that the message has been read
and understood.
Important Note:
Once the telescope is
aligned, only use the Arrow
keys to move the tele-
scope. Once the telescope
has been aligned, do not
loosen the telescope locks
(12 and 17, Fig. 1), or
move the base manually,
or alignment will be lost.
6. "Automatic Alignment" displays. Press ENTER. The system now performs the fol-
lowing routines (press any Autostar II key to abort Automatic Alignment; see
Important Note, at the bottom of page 18) :
Caution: As the telescope performs the following operations, it will swing
and rotate. Keep a safe distance from the telescope.
a. Finds the home position. Moves the telescope to find the "home" position.
When the home position is found, the system knows the limiting positions of
the telescope and can avoid tangling cables and over-rotating the telescope.
b. Detects “level” of the base of the telescope; finds tilt and tip. To detect
level, Autostar II must calculate "level" at three compass points. See FINDING
TRUE LEVEL in the LX200GPS INFO box on page 21.
Autostar II also determines the positioning (i.e., tilt and tip) of the optical tube.
c. Finds North. Locates magnetic North, then calculates true North. See
FINDING TRUE NORTH, page 21.
Important Notes:
It is recommended that you
do not attempt a GPS fix
indoors.
d. Attempts a "GPS Fix." The LX200's GPS receiver attempts to acquire and
sync up with signals from GPS satellites. "Getting GPS Fix" displays. See THE
GLOBAL POSITIONING SYSTEM in the LX200GPS INFO box on page 21.
After performing these operations, Autostar II now knows:
It is also recommended
that you CALIBRATE SEN-
SORS the first time your
telescope takes a GPS fix.
See page 29 for more
information.
I The telescope's limiting positions
I Where level is for the telescope
I The location of true North
I The observing site's location
I The date and time
e. Star Alignment. Autostar II then chooses two stars to align upon.
"Searching...." displays. When the telescope slews (moves) to the first star for
alignment, it may not appear in the field of view in the eyepiece. If it is not,
look through the viewfinder—in most cases, the star will be visible. Use the
Arrow keys to move the telescope (you can change speed at which the tele-
scope moves: see SLEW SPEEDS, page 17 for more information) until the star
is visible and centered in the eyepiece. The alignment star should be easily
recognized and be the brightest star in the area of the sky where the tele-
scope is pointing. Press ENTER. Repeat this procedure for the second star.
For more information about alignment stars, see WHICH ONE'S THE ALIGN-
MENT STAR? page 19.
Important Note:
The Daylight Saving
menu enables or disables
the Daylight Savings Time
setting: Remember to turn
this setting off or on the
two days a year when
Daylight Saving changes.
See TIMING IS
EVERYTHING, page 28.
LX200GPS TIPS
W h ic h O n e ’s t h e A lig n m e n t S t a r ?
If Autostar has chosen an alignment star with which you are unfamiliar, how can
you be sure if the star in your eyepiece is really the alignment star?
The rule of thumb is that an alignment star is usually the brightest star in that
area of the sky. If you perform a GO TO to an alignment star and you're not sure
if you have located the alignment star or it isn't in the eyepiece, look through your
viewfinder. When you view an alignment star in the viewfinder, it stands out dra-
matically from the rest of the stars in that portion of the sky. The viewfinder will
help you locate a star more quickly than the eyepiece, because it has a much
wider field of view than the eyepiece. Using Autostar, set the slew speed to 6 or
higher and use the Arrow keys to center the alignment star in the viewfinder. If
your viewfinder has been aligned with the telescope, the alignment star should
now be in the eyepiece. Set the slew speed to 4 or less and center the star in
the eyepiece. Also see the "Spiral Search" tip, page 20.
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When the procedure is performed correctly, "Alignment Successful" displays.
If Autostar II does not display this message, perform this procedure again.
Tip:
The GO TO key also
allows you to perform a
"spiral search." A spiral
search is useful when the
telescope slews to an
object, but that object is
not visible in the eyepiece
after the telescope finish-
es its search. (This some-
times occurs during an
alignment procedure.)
Note: Alignment stars may change from night to night. All that is required
is for the observer to center the selected stars in the eyepiece when
prompted.
Observe a Star using the Automatic Tracking Feature
Now that your telescope has been aligned, you are able to track celestial objects. In
this example, the Autostar II Arrow keys are used to find a star, and then Autostar II's
tracking capability automatically keeps the star centered in your telescope's eye-
piece.
1. When Automatic Alignment is completed (as described in the previous section),
"Select: Object" displays on Autostar II.
Press GO TO when the
telescope stops slewing.
The telescope begins to
move in a spiral pattern at
a very slow speed around
the search area. Look
through the eyepiece and
when the object does
become visible, press
MODE to stop the spiral
search. Then use the
Arrow keys to center the
object.
2. Select a bright star from one of the Object menus. You may choose any unob-
structed, bright star for the purposes of this example. Use the viewfinder (22, Fig.
1) to help line up on the star. Use Autostar II's Arrow keys to center the star in the
eyepiece. The tracking motors will then keep the star you have chosen in the
center of the eyepiece.
Go To Saturn
This exercise demonstrates how to select a celestial object, the planet Saturn, for
viewing from Autostar II’s Solar System library. Objects in the eyepiece should main-
tain their position even though the Earth is rotating beneath the stars. In other words,
the telescope tracks the chosen objects.
Note: Saturn is not visible the entire year; you may need to choose anoth-
er object from any of Autostar II's many object libraries; however, the pro-
cedure, as described below, remains the same.
Important Note:
While performing the
automatic tracking proce-
dure, only use the Arrow
keys to move the tele-
scope. Once the tele-
scope has been aligned,
do not loosen the tele-
scope locks (12 and 17,
Fig. 1), or move the base
manually, or alignment
will be lost.
1
After the telescope is aligned, press Number key "5."
2. “Solar System: Mercury” displays. Keep pressing the Scroll Down key until “Solar
System: Saturn” displays.
3. Press ENTER. “Calculating” displays. Then “Saturn” and a set of coordinates dis-
plays. Note that Saturn’s (and other planets’) coordinates change throughout the
year.
4. Press GO TO. “Saturn: Slewing...” displays and the telescope slews until it finds
Saturn. You may need to use the Arrow keys to center Saturn precisely in the
eyepiece. Autostar II then automatically moves the telescope so that it "tracks"
Saturn (or whatever other object you may have chosen); i.e., Saturn remains
centered in the eyepiece.
Tip:
To manually enter the
R.A. and Dec. coordi-
nates of an object:
Using the Guided Tour
The Guided Tour feature is an easy and fun method of exploring Autostar II's GO TO
capabilities. This example demonstrates using “Tonight’s Best” Guided Tour.
Press and hold MODE for
two seconds or more. The
R.A. and Dec. coordinates
display. Press GO TO.
"Object Position" and a
set of coordinates dis-
plays. Then enter the R.A.
and Dec. coordinates of
any celestial object using
Number keys. As soon as
the coordinates are
entered, Autostar II slews
the telescope to the coor-
dinates. Note that the tele-
scope must be initialized
for this procedure to oper-
ate properly.
1. After observing Saturn, keep pressing MODE until “Select Item: Object” displays
again.
2. Press the Scroll Down key twice. “Select Item: Guided Tour” displays.
3. Press ENTER. “Guided Tour: Tonight’s Best” displays. Press ENTER.
Note: If you wish to try out other Guided Tours, press the Scroll Down key
to scroll through other tour choices. When the tour you wish to select dis-
plays, press ENTER.
4. “Tonight’s Best: Searching...” displays. After calculating, “Tonight’s Best: Jupiter”
displays.
Note: Different objects may be displayed on a tour list on any given night.
Press ENTER to display information about the object. Press GO TO to move the
telescope to the object.
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5. Press MODE to return to the Tour list. Press the Scroll keys to scroll through the
list. Press ENTER when you find the next object you wish to observe.
6. Press and hold down MODE for two seconds to leave the Guided Tour menu.
Other Guided Tours are available, such as "How Far is Far" and "A Star's Life." If you
have programming skills, you may wish to create a custom Guided Tour. See CREATE
YOUR OWN GUIDED TOUR, page 56.
LX200GPS INFO
T h e G lo b a l P o s it io n in g S y s t e m
The Global Positioning System (GPS) is comprised of 24 satellites orbiting
the Earth that are constantly transmitting their precise position and time.
The system provides highly accurate, worldwide positioning and navigation
information for any number of applications.
GPS
Receiver
GPS receivers on the Earth acquire signals from three to twelve satellites
to determine the precise latitude, longitude, and time of the receiver.
(Accuracy of the receiver's position may be within 10 to 15 feet.) As
Autostar II uses latitude, longitude, and time information to calculate the
positions of celestial objects, GPS is an ideal tool for aligning your
LX200GPS telescope.
D e t e c t in g T r u e L e v e l
Fig. 14: LX200GPS GPS Receiver.
To detect level of the base of the telescope, Autostar II must calculate the tip
and tilt of the telescope at three compass points and then compensate for it.
Finding level involves the geometric calculations of a "plane." In order to
define a plane, three positions are necessary. This is not unlike building a
table: For a table to stand level and solid, it must have a minimum of three
legs. Autostar II makes gravitational measurements to make a precise deter-
mination of true level.
F in d in g T r u e N o r t h
Locating True North is one of the most important ingredients in the alignment
of a telescope. True North is the axis—the pole—which the Earth spins about
and is a key reference for the motion of the Earth.
As you look at the night sky, the stars seem to move; in fact, if you watched
long enough or took a long time-exposure photograph, you'd realize that the
stars seem to revolve around one point—the pole or True North. When
Autostar II knows where True North is and also knows the time, it can calcu-
late the location of all the other objects in the sky.
One traditional way to find True North is to locate the North Star, Polaris,
which lies very close to True North. Another way to calculate True North is to
use gyroscopes or accelerometers.
The LX200GPS determines True North by using a magnetic North sensor. The
sensor locates magnetic North. Magnetic North is not True North, but a
measurement of the magnetic lines of the Earth. Magnetic North may devi-
ate several degrees from True North. But Autostar II, using the observation
site location determined by the GPS and magnetic North information, can
calculate the position of True North.
Some areas are subject to magnetic disturbances, and the magnetic field of
the Earth changes slightly from year to year. Autostar II allows you to adjust
for discrepancies in the local magnetic field using the "Calibrate Sensors"
option in the Telescope menu. See page 29 for more information.
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B A S IC A U T O S T A R II
OBJECT MENU
SETUP MENU
Automatic alignment
permits all telescope
operations with only
minimal setup.
Select Item:
Object
Want to see Mars? The Orion nebula?
The Andromeda galaxy? Select from
over 145,000 objects and press
GO TO to move the telescope
automatically to an object.
Select Item:
Setup
Select Item:
Event
EVENT MENU
UTILITIES MENU
Display the time of
past, present, and future
astronomical events,
such as Moon phases
or meteor showers.
Calculate eyepiece
magnifications;
set timer alerts;
create your own
landmark survey.
The Universe of
Autosttar II
A
Select Item:
Utilities
Select Item:
Guided Tour
GUIDED TOUR
Autostar II escorts you
on a tour of tonight's
GLOSSARY
What is an elliptical galaxy?
How far away is the Sun?
best celestial objects
at your viewing location.
Expand your knowledge of
astronomy by displaying terms
and definitions, and other information.
Select Item:
Glossary
Fig. 15: The Autostar II Universe: The six primary categories listed in the Select Item menu of
Autostar II.
It is important to understand that menu selections are set in a loop (Fig. 16). This means
that pressing the Scroll Down key (7, Fig. 2) cycles down through all the available
options within a given category, then returns to the first option. The Scroll Up key (7,
Fig. 2) cycles up through the options in the opposite order. Note that this capability is a
quick way to get to an option that is near the bottom of the list. The following example
demonstrates this capability.
Object
Event
Guided Tours
Glossary
Utilities
Setup
Example:
To navigate to the “Select Item: Setup” menu option when the “Select Item: Object”
menu is displayed:
Fig. 16: Menus set in a loop.
1. Press the Scroll Down key five times or the Scroll Up key once.
The screen in Fig. 17 displays two lines of information. The top line shows the current
menu level. The second line displays an option which may be selected within that
menu level. Some options are choices that select the next menu level down. The
Scroll keys move up and down within the list of available options, showing one option
at a time.
Setup
Align
Date
Time
Daylight Saving
Telescope
Targets
etc.
When the desired option is displayed on the second line, press the ENTER key to
choose that option and move down one menu level.
Press the MODE key to leave a level; e.g., the wrong menu option is chosen.
Important Note: No matter how many levels into Autostar II are traveled,
each press of the MODE key moves up a level, until the top level, "Select
Item," is reached. Once in the Select Item level, press MODE to return to
the topmost level, "Select Item: Object."
Fig. 17: Menu options display on the
second line. Use the Scroll keys to
move up or down through the list of
options. Press ENTER to select the
desired option.
Autostar II Navigation Exercise
To demonstrate how the Autostar II menu structure works, the following exercise cal-
culates Sunset time so an evening observing session can be planned.
To Calculate Sunset time:
1. Press the MODE key several times, until “Select Item: Object” is displayed.
2. Press the Scroll Down key once to display the “Event” option in the “Select Item”
menu.
3. Press the ENTER key to choose the "Event" option and move down a level.
"Event: Sunrise" is displayed.
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4. Press the Scroll Down key once to display the "Sunset" option in the Event menu.
5. Press the ENTER key to choose the "Sunset" option and move down another
level.
6. Autostar II calculates the Sunset time based on the current date, time, and loca-
tion. Autostar II then displays the results of the calculation.
7. Press MODE once to start moving back up through the Autostar II levels. The first
level up is the Event menu.
8. Press MODE again to move up another level. This is the top level, "Select Item."
9. Press MODE again to return to the starting point of "Select Item: Object."
Navigating Autostar II
Autostar II's menus are organized for quick and easy navigation:
I
I
I
Press ENTER to go deeper into Autostar II's menu levels.
Press MODE to move back toward the top menu level.
Tip:
When multiple choices
are available within a
menu option, the current
option is usually dis-
played first and highlight-
ed by a right pointing
arrow (>).
Press Number key "1" to engage the Speed mode, and then press Number keys
1 through 9 to change speeds.
I
I
I
I
I
Press Number key "4" to access the Focus menu.
Press Number key "7" to access the Reticle menu.
Press the Scroll keys to move up and down through the options or lists.
Press the Arrow keys to move the cursor across the display.
Press the Help (?) key to access on-line help.
LX200GPS TIPS
L o o k in t o t h e F u t u r e
The Autostar II Date option in the Setup menu is much more than just an entry
of today's date; with it you can look far into the future or learn about past
events. Autostar II can calculate the date and times of future events and,
except for eclipses, past events as well (based on the current calendar sys-
tem). E.g., a Sunrise on March 6, 2043 A.D. or the Vernal Equinox in 1776 A.D.
To use this feature, enter the desired date in the Setup menu or select an
option in the Event menu.
Autostar II, using the Event menu, can calculate dates and times for Sunrises,
Sunsets, Moonrises, Moonsets, Moonphases, Solar and Lunar Eclipses (for
the next 100 years), meteor showers, equinoxes and solstices, and the mini-
mums of Algol.
One very practical use of the Event menu is to check the Sunset option to
determine when you can begin your astronomical observing session.
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Select Item:
Object
Select Item:
Event
Select Item:
Guided Tour
Select Item:
Glossary
Select Item:
Utilities
Select Item:
Setup
Sunrise
Sun Transit
Sunset
Moonrise
Moon Transit
Moonset
Solar System
Mercury
Etc.
Timer
Set
Start & Stop
Alarm
Set
On & Off
Eyepiece Calc.
Field of View
Magnification
Suggest
Sun Warning
Brightness Adj.
Contrast Adj.
Panel Light
Align
Tour Objects
A...
Automatic
Easy
One Star
Two Star
Align on Home
Accretion Disk
Etc.
Tonight's Best
How Far is Far
Etc.
Moon
B...
C...
Etc.
Asteroids
Comets
Constellations
Andromeda
Etc.
Deep Sky
Named Object
Galaxies
Nebulae
Planetary Neb.
Etc.
Moon Phases
Date
Time
Daylight Saving
Smart Mount
Configuration
Off
Next Full Moon
Next New Moon
Next 1st Qtr
Next 3rd Qtr
Meteor Showers
Quadrantids
Lyrids
On
Train
Update
Etc.
Aux Port Power
Beep
Solar Eclipses
Lunar Eclipses
Min. of Algol
Autumn Equinox
Vernal Equinox
Winter Solstice
Summer Solstice
Star
Load
Save As
Delete
Erase
Named
SAO Catalog
Etc.
Temperature
Battery Alarm
Landmark Survey
Sleep Scope
Park Scope
Satellite
Select
Telescope
Mount
Moon
Overview
Add
Delete
Edit
Model
Landing Sites
Apollo 11
Etc.
Craters
Abbot
Focal Length
Max Slew Rate
Mount Upper Limit
Mount Lower Limit
Park Position
Calibrate Home
Anti-Backlash
Train Drive
Calibrate Sensors
Tracking Rate
Guiding Rate
Reverse L/R
Reverse Up/Dn
Home Sensors
GPS Alignment
R.A. PEC
Dec. PEC
High Precision
Targets
User Objects
Select
Add
Delete
Edit
Etc.
Mountains
Mons Bradley
Etc.
Landmarks
Select
Add
Delete
Identify
Browse
Start Search
Edit Parameters
Mare, Lakes
Lacus Aestatis
Etc.
Valley, Rills
Rima Agatharchid
Etc.
Astronomical
Terrestrial
Site
Select
Add
Delete
Edit
Owner Info
Clone
Download
Statistics
Reset
Figur
e 18: T
he C
omple
te Au
tosta
r II M
enu T
ree S
tructu
re.
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Object Menu
Almost all observing with Autostar II is performed using the Object menu category.
(Note: Exceptions include Guided Tour and Landmark Survey. See GO TO SATURN,
)
page 20, for an example of observing using the Object menu. Also see USING THE
GUIDED TOUR, page 20.
Autostar II contains many libraries of viewable objects, such as stars, planets, comets,
nebulae and so forth. When one of these objects is selected from a library, Autostar II
moves your telescope (if properly aligned) and points it at the selected object. Six of
the most popular libraries can be accessed directly using the hot buttons.
The Object Menu options include:
Solar System: A library of the eight planets (Earth is not included) in order out from
the Sun, followed by the Moon, asteroids, and comets.
Constellation: A library of all 88 Northern and Southern Hemisphere constellations.
When this menu option is chosen and a constellation name appears on the first line
of the screen, press GO TO once to change the second line to the name of the bright-
est star in the constellation. Press GO TO a second time to slew the telescope to that
star. Use the Scroll keys to cycle through the list of stars in the constellation, from
brightest to dimmest.
Deep Sky: A library of objects outside our Solar System such as nebulae, star clus-
ters, galaxies, and quasars.
Star: A catalog of stars listed in different categories such as named, double, variable,
or nearby. Also included are the Hipparcos, SAO, HD, and HR catalogs. The Star cat-
alog may also be accessed directly by pressing the Number key "6."
Satellite: A library of Earth-orbiting objects such as the International Space Station,
the Hubble Space Telescope, Global Positioning System (GPS) satellites, and geo-
synchronous orbit satellites.
Want to learn more about
Observing Satellites? See
page 34.
Other Catalogs are accessed directly using the Autostar II "hot keys": Caldwell (key
"2"), Messier catalog ("3"), Solar System ("5"), IC ("8"), and NGC ("9").
To slew the telescope to catalog objects:
Enter the catalog number of the object using the Number keys and then press
ENTER. For example: To slew to NGC 6720, press Number Key "9," then using the
Number keys, enter the digits "6-7-2-0." Then press ENTER.
Autostar II displays the common name and alternate names of the object, if available.
Press one of the Scroll keys to display some or all of the following information about
that object: Type of object (galaxy, nebula, etc.), Dec. and R.A. coordinates, constel-
lation it is located within, magnitude, size, distance, and star-type classification, if the
object is a star. If further information is available, it displays as scrolling text.
Press GO TO. The telescope, if aligned (see AUTOMATIC ALIGNMENT, page 18), will
slew to that chosen object. Press MODE repeatedly to return to previous menu levels.
User Objects: Allows the user to define and store in memory deep-sky objects of
specific interest that are not currently in the Autostar II libraries. See CREATING USER
OBJECTS, page 33, for more information.
Want to learn more about
Landmarks? See page 34.
Landmarks: Stores the location of terrestrial points of interest in the permanent
Autostar II database. This function works with a telescope that remains in one fixed
spot or can be setup in the exact same spot each time it is used.
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Select: To select a Landmark already in the database (see ADD below), choose
the "Select" option and scroll through the list. Press ENTER to select a
Landmark, then press GO TO and the telescope slews to the object.
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Add: To add a Landmark, choose the "Add" option. Enter a name for the
Landmark. Locate and center the Landmark in the eyepiece, then press ENTER.
Important Note: To add objects to the Landmark database, the telescope
must be located and aligned exactly as when the original objects were
added to the database.
25
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Identify: An exciting feature for an observer who wants to scan the night sky and start
exploring. After the telescope has been properly aligned, use the Autostar II Arrow
keys to move about in the sky. Then follow this procedure:
Important Note: Only use the Arrow keys to move the telescope during
the Identify procedure. Do not loosen the telescope locks or move the
base or alignment is lost.
1. When a desired object is visible in the eyepiece, keep pressing MODE until the
“Select Item: Object” menu is displayed. Press ENTER to select this menu.
2. Scroll through the Object menu options until the “Object: Identify” screen
appears.
3. Press ENTER. Autostar II searches the libraries for the identity of the object being
observed.
4. If the telescope is not directly on an Autostar II library object, the nearest library
object is located and displayed on the screen. Press GO TO and the telescope
slews to that object.
Browse: Allows you to search the library for objects with certain parameters, much
like a search engine. "Edit Parameters" lets you set various parameters for the search,
such as: Object Type, Minimum Elevation, Largest, etc. Once you have set the param-
eters of the search, select "Start Search" and press ENTER. Autostar II will display the
results of the search.
Want to learn more about
using the Browse menu?
See page 36.
Event Menu
The Event menu provides access to dates and times of astronomical events. The
Event database includes:
Want to learn more about
using the Date menu?
See the LX200GPS TIPS
box page 23.
Sunrise, SunTransit, and Sunset: Calculate the time of Sun rise, Sun transit, or Sun
set on the current date. Find rise and set times for other dates by entering a new date
into the “Setup: Date” menu.
Moonrise, Moon Transit, and Moonset: Calculate the time of Moon rise, Moon tran-
sit, or Moon set on the current date. Find rise and set times for other dates by enter-
ing a new date into the “Setup: Date” menu.
Definition:
Transit is the time when
the Sun, Moon, or other
celestial object crosses an
observer's meridian, i.e.,
the time when an object is
at its highest point in the
sky on any given date.
Moon Phases: Displays the date and time of the next Full, New, 1st Quarter, and 3rd
Quarter Moon.
Meteor Showers: Provides information on upcoming meteor showers, such as the
Perseids, the Leonids, etc. Also lists the dates of the showers and when they reach
maximum.
Note: Meteors are fast moving objects that cover large areas of the sky and
are usually best observed with the naked eye.
WARNING!
Never use
your Meade
Solar Eclipse: Lists upcoming Solar Eclipses, including the date and type (total,
annular, or partial) of eclipse. Use the Scroll Up and Down keys to display the avail-
able data. Remember, never use a telescope to look at the Sun! See WARNING! to the
left.
®
LX200GPS
Telescope to look at the
Sun! Looking at or near
the Sun will cause instant
and irreversible damage to
your eye. Eye damage is
often painless, so there is
no warning to the observ-
er that damage has
occurred until it is too
late. Do not point the tele-
scope or its viewfinder at
or near the Sun. Do not
look through the telescope
or its viewfinder as it is
moving. Children should
always have adult supervi-
sion while observing.
Lunar Eclipse: Lists upcoming Lunar Eclipses, including the date and type (total, par-
tial, penumbral) of eclipse. Use the Scroll Up and Down keys to display the available data.
Min. (Minimum) of Algol: Displays the minimum brightness of the dramatic eclipsing
binary star system, Algol. It is relatively close at a distance of 100 light years. Every
2.8 days during a 10-hour period, Algol undergoes a major change in apparent mag-
nitude as one of the two stars passes behind the other. The combined magnitude of
the two stars thus dips from +2.1 to a minimum of +3.4 halfway through the eclipse as
the second star is hidden. Autostar II calculates minimum magnitude time at mid-
eclipse.
Autumn and Vernal Equinox: Calculate the time and date of the fall or spring equi-
nox of the current year.
Winter and Summer Solstice: Calculate the time and date of the winter or summer
solstice of the current year.
26
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Glossary Menu
The Glossary menu provides an alphabetical listing of definitions and descriptions for
common astronomical terms and Autostar II functions. Access directly through the
Glossary menu or through hypertext words embedded in Autostar II. A hypertext word
is any word in [brackets], usually found when using the Autostar II Help function or
when reading a scrolling message such as a description of a planet or star. Press
ENTER whenever a hypertext word is on screen and Autostar II goes to the glossary
entry for that word.
To access directly from within the Glossary menu, use the Scroll keys to scroll through
the alphabet. Press ENTER on the desired letter. Scroll to the desired entry and then
press ENTER to read the description.
Utilities Menu
The Utilities menu provides access to several extra features within Autostar II, includ-
ing a countdown timer and an alarm. The Utilities functions include:
Timer: Selects a countdown timer. This feature is useful for functions such as
astrophotography and tracking satellites. To use the Timer, press ENTER, then
choose “Set” or “Start/Stop."
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Set: Enter the time to be counted down, in hours, minutes, and seconds, then press
ENTER.
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Start/Stop: Activates the timer set previously. Use the Scroll keys to toggle
between ON and OFF. When ON is displayed, press ENTER to activate the timer.
When the timer runs out, four beeps sound and the timer is deactivated.
Alarm: Selects a time for an alarm signal to sound as a reminder. To use the Alarm,
press ENTER, then choose "Set" or "Start/Stop."
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Set: Enter the time of day for the alarm to sound, in hours, minutes, and seconds,
then press ENTER.
Start/Stop: Activates the alarm set previously. Use the Scroll keys to toggle
between ON and OFF. When ON is displayed, press ENTER to activate the
alarm. When the alarm time arrives, Autostar II beeps. Press ENTER to deacti-
vate the alarm.
Eyepiece Calc: Calculates information about an eyepiece for the specific telescope
to which Autostar II is connected.
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Field of View: Scroll through a list of available eyepieces. When an eyepiece is
selected, the field of view is calculated.
Magnification: Scroll through a list of available eyepieces. When an eyepiece is
selected, the magnification is calculated.
Tip:
The Contrast Adjustment
feature is usually only
required in very cold
weather.
Suggest: Autostar II calculates and suggests the best eyepiece for viewing,
based on the telescope and the object being viewed.
Sun Warning: Enables or disables Autostar II’s Sun warning display.
Brightness Adj: Adjusts the brightness of the display using the Scroll keys. When com-
plete, press ENTER.
If you adjust the contrast
so that you can no longer
read the display, turn off
the power and turn it on
again. When Version
Contrast Adj: Adjusts the contrast of the display using the Scroll keys. When complete,
press ENTER.
Panel Light: Allows you to turn off LED panel light.
appears on the display
(the initial display
screens are not affected
by the Contrast control),
press MODE.
Aux Port Power: Allows you turn off and on the 12vDC OUT power port.
Beep: Turns the beep alerts on or off.
Temperature: Gives a temperature reading of the ambient air. This reading is not always
available.
Landmark Survey: Automatically slews the telescope to all user-defined landmarks
with a short pause at each location. Press ENTER to start the survey. While a slew is
in progress, press any key to skip that object and go to the next landmark on the list.
To observe a landmark for a longer period, press MODE when paused on the object
to stop the survey. Press ENTER to restart the survey at the first object on the list.
Want to learn more about
Landmarks? See page 34.
27
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Sleep Scope: A power saving option that shuts down Autostar II and the telescope
without forgetting its alignment. With "Sleep Scope" selected, press ENTER to acti-
vate the Sleep function. Autostar II goes dark, but the internal clock keeps running.
Press any key, except ENTER, to re-activate Autostar II and the telescope.
Park Scope: Designed for a telescope that is not moved between observing sessions.
Align the telescope one time, then use this function to park the telescope. The next
time it is powered up, pressing ENTER causes the telescope to move to its predeter-
mined Park position. Once parked, the screen prompts to turn off power.
Important Note: When the "Park Scope" option is chosen and the display
prompts you to turn off the telescope's power, Autostar II is unable to be
returned to operation without turning the power off and then back on.
Setup Menu
The Setup menu’s primary function is used for manual telescope alignment (see
MANUAL ALT/AZ ALIGNMENTS, pages 37 and 38). However, there are numerous other
features available within the Setup menu, including:
Want to learn more about
using the new Smart
Mount Feature? See
Appendix I: Smart
Align on Home: For permanently mounted telescopes only. If Calibrate Home has
been performed, power up your telescope and select this menu to return the previ-
ously calibrated home position. In other words, the telescope is fuly aligned according
to the setting that were stored in Autostar II's memory during the Calibrate Home pro-
cedure. See CALIBRATE HOME, page 29, for more information.
Mount pages 68 and 69.
Want to learn more about
using the Date menu?
See the LX200GPS TIPS
box, page 23.
Date: Changes the date used by Autostar II. This function is useful to check events in
the past or future. For example: Set the Date menu for a day three months in the
future. Then check the "Select Item: Event" menu for the Sunset time on that date.
See EVENT MENU, page 26.
Time: Changes the time entered into Autostar II. Setting the correct time is critical for
Autostar II to properly calculate locations and events. Time may be set to "AM," "PM,"
or 24-hour mode (military time). To select the 24-hour mode, press ENTER when the
the "blank" option displays (i.e., neither "AM" nor "PM" is displayed).
Daylight Saving: Enables or disables the Daylight Savings time setting.
Note: See TIMING IS EVERYTHING below.
Note: Daylight Savings Time may be referred to by different names in vari-
ous areas of the world. Check local time to verify.
Telescope: Accesses the several options, including:
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Mount: Set this option to "Alt/Az" if using alt/az alignment and to "Polar" if using
polar alignment. "Alt/Az" is the default value.
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Model: Allows you to select the telescope model connected to Autostar II.
Focal Length: Displays the focal length of the selected telescope.
Max Slew Rate: Sets the upper limit for the slew rate. 8 degrees per second is
the fastest setting.
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Mount Upper Limit: Allows you enter a number from 0 to 90 that sets an upper
limit as to how far the optical tube can swing upward during a programmed slew.
LX200GPS TIPS
T im in g is E v e r y t h in g
Your telescope receives the precise time when it synchs with the GPS. Precise time
is important in aligning your telescope so that it can accurately locate celestial
objects.
Autostar II receives time data in the Universal Time format. However, if you wish to
display the correct time in your local time zone, use the Daylight Saving menu (see
above) to turn the Daylight Saving option on or off. Keep in mind that the telescope
is receiving the correct time whether or not you set this option to display your local
time.
28
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(Note that it does not prevent you from performing a manual slew past this limit.)
This is useful when you have a camera or other peripheral attached to the tele-
scope—you can prevent it from striking the telescope base. 90 (straight up) is the
maximum value that can be entered.
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Mount Lower Limit: Allows you enter a number from 0 to 90 that sets a lower
limit as to how far the optical tube can swing downward during a programmed
slew. (Note that it does not prevent you from performing a manual slew past this
limit.) This is useful when you have a large optical tube (12" model) or have a
dewshield attached to the telescope—you can prevent it from striking the tele-
scope base. -90 (straight down) is the maximum value that can be entered.
Park Position: For permanently mounted telescopes only. After aligning your tel-
escope, select this menu and power down the telescope. The alignment set-
tings—level, North, time, alignment stars—are stored in Autostar II's memory and
are remembered after you power off the telescope. When you power on the tel-
escope, "Automatic Alignment" displays after the start up routine. Press MODE
(do not press ENTER). The telescope remembers its alignment and you can con-
tinue viewing or performing other operations without aligning the telescope again.
Park Position provides two options. Use Current Position uses the last position
set by the user. Use Default Position levels telescope and points it North.
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Calibrate Home: For permanently mounted telescopes only. After aligning your
telescope, select this menu and the alignment settings—level, North, time, align-
ment stars—are stored in Autostar II's memory and are remembered after you
power off the telescope. You can enable Autostar II to retrieve and automatical-
ly align your telescope using these settings the next time you power up by choos-
ing the Align on Home menu. See ALIGN ON HOME, page 28, for more informa-
tion. Note: This method is not as precise as PARK POSITION (see above).
I
Anti-Backlash: This option allows you to change the backlash along either the
R.A. and the Dec. axes by entering a number from 0% to 199%. This sets the
backlash in the way the Arrow keys move the telescope along an axis. If you enter
a value near 199%, telescope responds more quickly as you hold down an Arrow
key. If you enter a value near 0%, it takes longer for the tube to respond as you
hold down an Arrow key. Experiment with this option: Try changing the values until
the motion of the telscope (while holding down an Arrow key) feels comfortable to
you.
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Train Drive: All telescopes have a certain amount of "backlash" (looseness in the
interplay of gears). This menu allows you to compensate for the backlash in the
the Altitude and Azimuth motors—which helps locate objects with more precision.
Calibrate Sensors: This menu allows you to improve your telescope's pointing
accuracy to alignment stars. It calibrates to correct slight mechanical misalign-
ment due to transport, vibration, or aging. It is recommended that calibration be
performed once on a new telescope after the user initially assembles it.
When this menu is selected, the telescope slews to Polaris. Autostar II then
prompts you to center Polaris and to press ENTER. Autostar II uses the position
of Polaris to fine tune the position of North and also detects level for the base of
the telescope.
Note:
Custom Tracking Rate
allows you to enter values
from -999 (stands for -
99.9%) to 999 (stand for
+99.9%). The lower the
number, the slower the rate;
the higher the number the
faster the rate. If you enter
-999, the telescope will
move so slow as to appear
to be stopped. If you enter
999, the telescope will be
moving at approximately
twice the tracking rate.
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Tracking Rate: Changes the speed at which the telescope tracks targets in the
sky.
a. Sidereal: The default setting for Autostar II; sidereal rate is the standard rate
at which stars move from East to West across the sky due to the rotation of
the Earth.
b. Lunar: Choose this option to properly track the Moon over long observing
sessions.
c. Custom: Allows entry of user-defined tracking rates.
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Guiding Rate: Allows you to change the base slew speed, 1x. Enter a percent-
age of the speed (less than 100%) and press ENTER. This function may be use-
ful in guiding the telescope during CCD and long-exposure photography. See
SLEW SPEEDS, page 17, for more information.
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Reverse L/R: Reverses the functions of the Left and Right Arrow keys for con-
trolling the telescope's motion (i.e., the Right key moves the telescope to the left).
Reverse U/D: Reverses the functions of the Up and Down Arrow keys for con-
trolling the telescope's motion (i.e., the Up key moves the telescope down).
Home Sensors: Turns off or on the True North and True Level sensors, if pre-
ferred, for Easy, One-Star, and Two-Star alignment. User must then manually
level the telescope and point the telescope to True North during alignment.
Default setting is "On."
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GPS Alignment: Allows three options. Select "Off" if you wish to align the tele-
scope manually (turns off GPS). Select "On" (default setting) if you wish to auto-
matically align your telescope and want the telescope to get the GPS fix when it
is needed during alignment. Select "At Start Up" if you want the telescope to get
a GPS fix when the telescope is powered ip.
Do you want to learn how to
perform the periodic error
correction procedure?
See PERIODIC ERROR COR-
RECTION, page 39.
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Dec. PEC: Allows you to perform periodic error correction on the Dec. drive worm
gear. Must be performed with a high-power reticle (eg., 9mm).
R.A. PEC: Allows you to perform periodic error correction on the R.A. drive worm
gear. Must be performed with a high-power reticle (eg., 9mm).
Tip:
If the "ENTER to Sync"
feature is accessed by mis-
take (holding the ENTER
key for more than 2 sec-
onds), press MODE to
return to the previous
screen.
High Precision: If High Precision is turned on, when looking for a faint celestial
object (e.g., a nebula or galaxy), Autostar II first slews to a nearby bright star and
displays "ENTER to Sync." Center the star in the eyepiece, then press ENTER.
At that point the telescope has a high precision alignment to that part of the sky
and it then slews to the object that was originally requested.
Targets: Switches between Astronomical targets and Terrestrial targets. If
"Astronomical" is selected, the telescope tracking motor is activated and any object
you observe will remain centered in the eyepiece. If "Terrestrial" is selected, the track-
ing motor is turned off. See TO TRACK AN OBJECT AUTOMATICALLY, page 18.
Site provides access to several options including:
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Select: Displays the currently selected observing site. Use the Scroll keys to
cycle through all available sites (see ADD below). Press ENTER when the site
you wish to select displays. Use this option when you move to a different geo-
graphic location.
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Add: Allows you to add new observing sites to the database. Scroll through the list
of Countries/States. Press ENTER when the site you wish to add displays. Then
choose the desired city in the same manner.
However, when the GPS signal is received, the site is normally selected automati-
cally and the site list is updated automatically. Use of this option is not necessary
and is included for the convenience of those users who may wish to enter a site
manually. You may edit the name of a site using the Edit option (see below).
Want to learn more about
adding and editing sites?
See page 32.
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Delete: Deletes a stored site from the database.
Edit: Edits a selected site, including: the name, latitude, longitude, and time zone.
Time Zone refers to the Greenwich Mean Time (GMT) time zone shift. Users
West of Greenwich, England use “-” hours, East of Greenwich use “+” hours. For
the United States, look up the time zone shift in Table 1.
Time Zone
Atlantic
Eastern
Central
Mountain
Pacific
Shift
-4 Hours
-5 Hours
-6 Hours
-7 Hours
-8 Hours
-9 Hours
-10 Hours
Note: Autostar II compensates for daylight savings time, if selected. See
SETUP MENU: DAYLIGHT SAVING, page 28.
Alaska
Hawaii
Owner Info: Accesses the owner information menu, including:
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Name: Users may enter both their first and last names using the Up and Down
Arrow keys to cycle through the alphabet. Use the Right and Left Arrow keys to
move through the text. Press ENTER when the entry is complete.
Table 1: Time Zone Shift.
Calculations are for standard
time.
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Address: Use the Up and Down Arrow keys to enter your street address, city,
state, and zip code. Press ENTER when the entry is complete.
Clone: Uploads information from one Autostar II handbox to another. Three options
are available:
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Catalogs: Sends only user-defined object information, such as new satellite
orbits or comet data to another Autostar II handbox.
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Software: Sends only the basic Autostar II software. This is useful if one user has
downloaded a new version of Autostar II software from the Meade website
Note:
The Download function
requires the optional LX200
Interface Cable. See the
instruction sheet included
with the cable for more infor-
mation on how to download.
Also see OPTIONAL
All: Everything—user-defined information and Autostar II software—is sent to
another Autostar II.
Download: Transfers information from a personal computer or another Autostar II.
During the operation, the warning “Downloading Do Not Turn Off” appears.
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Catalogs: Receives only user-defined object information, such as new satellite
orbits or comet data to another Autostar II handbox.
ACCESSORIES, page 43.
Software: Receives only the basic Autostar II software. This is useful if one user
has downloaded a new version of Autostar II software from the Meade website
Important Note:
If your download fails in the
middle of the download
attempt (e.g., your PC
crashes), turn off the tele-
scope. Turn the telescope
back on and as soon the
Autostar II display lights up,
press "999." Then attempt
the download again
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All: Everything—user-defined information and Autostar II software—is received
by another Autostar II handbox.
Statistics: Provides basic statistical data about Autostar II, including:
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Characters Free: Displays how much room is available in user-defined object
memory.
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Version: Displays the current version of the Autostar II software.
Serial Number: Displays the unit's serial number.
Reset: Completely resets Autostar II. Most values entered into the menus revert to
factory defaults. Autostar II requires initialization again after a Reset before proceed-
ing with observations. See AUTOMATIC ALIGNMENT, page 18.
"Hot Button" Menus
Two menus, six object libraries and two functions can be accessed directly using the
Number keys (commonly referred to as "hot buttons"). The two functions, the Speed
mode and the Utility light are described earlier in the manual.
Focus Speeds:
Focus Control Menu: Press Number key "4" to select this menu directly from
Autostar II's keypad. Press the Up or Down Scroll keys to cycle through the four focus
speed options and then press ENTER to select the desired speed. Or press a Number
key after pressing the Focus key to change the speed (see chart to the left). Use the
Up or Down Arrow keys to achieve fine focus of the object. See page 17 for more
information.
Key #
1 or 2
Speed
Fine
3, 4, or 5
Slow
6 or 7
8 or 9
Medium
Fast
Reticle Control Menu: Press Number key "7" to select this menu directly from
Autostar II's keypad. "Reticle Control: Set Intensity" displays. Press ENTER. The
Intensity menu allows you to change the intensity of the Reticle Eyepiece Illuminator.
Use the Scroll keys to change the value. As you change the value, look through the
reticle to note how the Intensity changes.
Note:You may continue to change the values using the Scroll keys (and thus
changing the intensity) until you press ENTER again. This allows you to
experiment with the intensity level until you decide which intensity level
works best for you. This feature operates in the same manner in the Rate
and Duty Cycle menus.
When you have finished adjusting the intensity, press ENTER. Press Number key "7"
again and the Rate menu displays. Press ENTER again. Use the Scroll keys to change
the value of the the rate at which the Reticle Eyepiece blinks. As you change the value,
look through the reticle to note how the Blink Rate changes.
When you have finished adjusting the rate, press ENTER. Next, Press Number key
"7" again and the Duty Cycle menu displays. Press ENTER again. The Duty Cycle
menu controls how long the Reticle Eyepiece Illuminator is on during a blink cycle.
Use the Scroll keys to change the value. As you change the value, look through the
reticle to note how the Duty Cycle changes. When you have decided on a Duty Cycle
value, press ENTER.
To exit the Reticle menu, press MODE once.
Object Catalogs: See page 25 for more information.
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A D VA N C E D A U T O S TA R II F E A T U R E S
Before trying out the examples in this section, familiarize yourself with the basic oper-
ations of Autostar II described earlier in this manual. The following examples assume
that you have a basic knowledge of Autostar II and understand how to scroll to a
desired menu or menu option, and how to enter numbers and text. It also assumes
that you have initialized and aligned your telescope.
Adding Observing Sites
Important Note:
The Site information is
stored in the Site menu. If
you move the telescope
outside of a 5 miles area of
your initial observing loca-
tion, Autostar II automati-
cally determines your loca-
tion when it gets a GPS
Fix, and adds the new
location to the Site menu.
If you plan to observe using Autostar II at different geographic locations, you can store
observation sites in Autostar II's memory to help simplify your telescope setup.
Perform these procedures using the Site options (Add, Select, Delete, Edit) of the
Setup menu.
To Add a Site to the user-defined site list:
In this example, you will choose a city and add it to the database list. You will then
select the site to enable it.
1. Navigate to the "Setup: Site" menu. Press ENTER,
2. Scroll through the options until "Site: Add" displays. Press ENTER.
3. Scroll through the list of countries/states. Press ENTER when the country/state
you wish to add displays.
4. Scroll through the list of cities. Press ENTER when the city you wish to add dis-
plays. The Site is now added to the database. You may add sites using this
method.
5. To choose a site, navigate to "Setup: Select." Press ENTER. Scroll through the
list of sites. When the desired site displays, press ENTER.
To Edit a Site:
In this procedure, you will enter a location that is not available in the Autostar II data-
base by editing data of a nearby site. You will edit the location's name, latitude, longi-
tude, and the time zone shift. You will then select the site to enable it.
You will need to know the latitude and longitude of your location to perform this pro-
cedure.
1. Using the Add option, choose a site on the list that is closest to your observing
site and press ENTER so that the site is added to your observing sites list.
Choosing a site already on the list (as opposed to using the "Custom" feature)
makes it easier to edit, as the "Time Zone" value may not need to be changed.
2. Scroll to "Site: Edit" and press ENTER. "Edit: Name" displays. Press ENTER.
3. The name of the site you have just entered to your list displays; if it does not,
scroll to the site.
4. Using the Arrow keys, change the name of the site so that it now reads the name
of your observing location. Press ENTER. "Edit: Name" displays again.
5. Press the Scroll Down key and "Edit: Latitude" displays. Press ENTER.
6. Using the Number Keys, enter the latitude of your observing site and then press
ENTER. "Edit: Latitude" displays again.
7. Press the Scroll Down key and "Edit: Longitude" displays. Press ENTER.
8. Using the Number Keys, enter the longitude of your observing site and then press
ENTER. "Edit: Longitude" displays again.
9. Press the Scroll Down key and "Edit: Time Zone" displays. Press ENTER. (If the
site you chose from the list in step 1 has the same Time Zone as the site you are
editing, just press ENTER again to go on to the next step.) "Time Zone" refers to
the Greenwich Time Zone shift. Users West of Greenwich, use "-" hours (one
hour per time zone) and users East of Greenwich use "+" hours. For the United
States, look up the shift in TABLE 1, page 30.
10. After entering the shift, press ENTER. "Edit Time Zone" displays.
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11. Press MODE. "Site: Edit" displays.
12. Using the Arrow keys, scroll to "Site: Select." The site you have just edited dis-
plays. Press ENTER to select the site.
Creating User Objects
In this procedure, you will enter coordinates of celestial objects that do not appear in
any of the Autostar II libraries. You will enter the object's name and R.A. and Dec.
coordinates (required information). You may also enter the object's magnitude and
size (optional information).
Although Autostar II contains an extensive database of celestial objects (stars, nebu-
lae, planets, etc.) that you can observe, you may eventually want to view objects that
are not part of a library. Autostar II provides a feature that allows you to enter an
object's R.A and Dec. coordinates in the "User: Objects" option of the Object menu
and allows automatic slewing of the telescope to the user-entered coordinates.
In order to use this menu option, you first need to look up the R.A and Dec. coordi-
nates of the object or objects you wish to observe. Check your local library, computer
store, or bookstore for astronomy books, CD Roms, or magazines (such as Sky &
Telescope or Astronomy), to find coordinates of celestial objects. The objects/coordi-
nates you enter become part of your own permanent database, called "User Objects."
To enter coordinates of an object into the "User: Objects" option of the Object
menu:
1. Make sure Autostar II has been initialized and the telescope has been aligned.
Tip:
2. After the telescope is aligned, "Select Item: Object" displays. (If necessary, use
the Scroll keys to scroll through the menus, as previously described, to find this
option.) Press ENTER.
Using Autostar II to find
objects not in the libraries:
If you do not wish to navigate
through the menus, a more
direct way to enter coordi-
nates is to press and hold
MODE for two seconds or
more. R.A. and Dec. coordi-
nates display. Press GO TO.
"Object Position" and a set of
coordinates displays. Enter
the R.A. and Dec. coordinates
of any celestial object using
Number keys, overwriting the
coordinates currently dis-
played. As soon as the coor-
dinates are entered, Autostar
II slews the telescope to the
coordinates. Note that the tel-
escope must be aligned (see
page 18).
3. "Object: Solar System" displays. Keep pressing the Scroll Up key until "Object:
User Object" displays and press ENTER.
4. "User Object: Select" displays. Press the Scroll Down key once. "User Object:
Add" displays. Press ENTER.
5. "Name" displays on the top line and a blinking cursor on the second line. Use the
Arrow keys, as previously described, to enter the name of the object you wish to
add to the database. When you are finished, press ENTER.
6. "Right Asc.: 00.00.0" displays. Use the Number keys to enter the digits for the
Right Ascension coordinate of your object. When you are finished, press ENTER.
7. "Declination: +00°.00'" displays. Use the Number keys to enter the digits for the
Declination coordinate of your object. If necessary, use the Scroll Keys to change
"+" to "-." When you are finished, press ENTER.
8. Autostar II then prompts you to enter the size of the object. This step is optional.
Use the Number keys to enter the size (in arc-minutes), if so desired, and press
ENTER to go to the next display. If you do not wish to enter this information, sim-
ply press ENTER.
However, if you wish to store
the coordinates of an object
in memory, use the method
described at the right.
9. Autostar II then prompts you to enter the magnitude of the object. This step is also
optional. Use the Number keys to enter this information, if so desired, and press
ENTER to go to the next display. "User Object: Add" displays again.
To GO TO a user-entered object:
In this procedure, you will choose an object from the User Object list and GO TO the
object.
1. With "User Object: Add" displayed, press the Scroll Up key once. "User Object:
Select" displays. Press ENTER.
2. Use the Scroll keys (if necessary) to scroll to the desired object. Press ENTER.
3. The name of the object and the Right Ascension and Declination coordinates display.
4. Press GO TO and the telescope slews to the object.
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Observing Satellites
In this procedure, you will prepare your telescope to observe a satellite pass.
1. Navigate to the "Object: Satellite" menu option and press ENTER.
2. Use the Scroll keys to scroll through the list of satellites.
3. Select a satellite from the list and press ENTER.
4. "Calculating...." and then "Tracking..." displays. If the satellite is going to make a
pass, "Located" displays.
5. Use the Scroll keys to display data about the pass: aos—acquisition of signal and
los—loss of signal. If you subtract the aos from the los, you can calculate how
long the satellite will be visible. Location information also displays.
6. "Alarm" displays after the location information. Press ENTER and Autostar II
automatically sets the alarm to sound a minute before the satellite's scheduled
appearance. You may return to regular observations until the alarm goes off.
7. When the alarm goes off, return to the Satellite menu and press a Scroll key until
the desired satellite is on the top line of the display.
8. Press GO TO. Autostar II slews the telescope to where the satellite should
appear. The motor drive stops and a countdown is displayed.
NOTE: If the scheduled appearance position of the satellite is obstructed
(i.e., by a building, tree, or hill), press ENTER and Autostar II starts to
move the telescope along the expected satellite track. When the track
clears the obstruction, press ENTER again to pause the telescope, then
continue with this procedure.
9. With about 20 seconds left on the countdown timer, start watching through the
telescope viewfinder for the satellite to enter the field of view.
10. When the satellite enters the viewfinder field of view, press ENTER. The tele-
scope starts to track with the satellite.
11. Use the Autostar II Arrow keys to center the object in the viewfinder, then look
through the eyepiece to view the object.
Satellite orbits change and new satellites (including the Space Shuttle) are launched.
updated information and instructions on how to download this data to Autostar II. If
orbital parameters are more than one month old, the satellite pass may not happen at
the time predicted by Autostar II. Downloading requires the optional LX200 Interface
Cable. See OPTIONAL ACCESSORIES, page 43.
Note: Satellite observing is an exciting challenge. Most satellites are in
low orbit, travelling at approximately 17,500 mph.When visible, they move
quickly across the sky and are only in the field of view for a few minutes,
requiring Autostar II to slew the telescope rapidly. Best viewing is near
Sunrise or Sunset when the sky is still dark. Viewing in the middle of the
night can be problematic because a satellite may pass overhead, but not
be visible as it is in the Earth's shadow.
Landmarks
Tips:
This menu option allows you to define and store terrestrial objects in the Landmark
database. First, a landmark needs to be stored in memory using the "Landmark: Add"
option. To view a landmark, use the "Landmark: Select" option. Landmarks may also
be viewed using the "Landmark Survey" option in the Utilities menu.
To use the Landmark func-
tion, the telescope must be
located and aligned exactly
as when the landmark(s)
was added to the database.
To Add a landmark to the database:
In this procedure, you will store the location of terrestrial landmarks in Autostar II's
memory.
1. Note for future reference where the telescope is located and if you have aligned the
telescope, which alignment method is used.
To add objects to the
Landmark database, the tel-
escope must be located and
aligned exactly as when the
original objects were added
to the database.
2. Display the "Setup: Targets" menu option. Chose "Terrestrial" and press ENTER.
"Setup: Targets" displays again. Choosing this option turns off tracking for astro-
nomical objects which is not useful for the viewing of terrestrial objects such as
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those in the Landmark database. Be sure to change this option back to
"Astronomical" when you wish to view celestial objects again.
3. Press MODE once. "Select Item: Setup" displays.
4. Press the Scroll Down key once and "Select Item: Object" displays. Press
ENTER. "Object: Solar System" displays.
5. Press the Scroll Up key twice and "Object: Landmarks" displays. Press ENTER.
"Landmark: Select" displays.
6. Press the Scroll Down key once. "Landmark: Add" displays. Press ENTER.
7. "Landmark Name" displays. Using Arrow keys, enter a name for the landmark
you wish to add to the database. When finished, press ENTER.
8. "Center Landmark. Press Enter" displays. Using only the Arrow keys (do not
manually move the telescope), move the telescope to the desired landmark and
center the object in the eyepiece. Press ENTER. The object is now stored in
memory.
9. "Landmark: Add" displays. If you wish to add more landmarks, repeat steps 5
through 8.
To Select a landmark from the database:
1. Make sure the telescope is located and aligned exactly as when the desired land-
mark was entered into memory.
2. Display the "Landmark: Select" menu option. Press ENTER.
3. Use the Scroll keys to scroll through the list of objects you have previously
entered. When the desired object displays, press ENTER to select the object.
Use the Scroll keys to scroll through location information about the object, if
desired. Press GO TO to slew the telescope to the landmark.
4. Press MODE to exit.
To perform a Landmark Survey:
This procedure allows you to perform a tour of the objects entered in the "Object:
Landmark" menu option—note that the Landmark Survey will function only if you have
previously entered objects in the Landmark menu.
1. Navigate to "Utilities: Landmark Survey" menu and press ENTER.
2. "Landmark Survey: Slewing..." displays. The telescope moves to the first object
on the Survey list and displays the name of the object.
3. Press MODE to stop the Survey. Press ENTER to restart the survey at the first
object of the survey.
To check on the available amount of memory in Autostar II:
Autostar II has a limited amount of memory. Once you begin to store Landmarks, user
objects and other bits of information in Autostar II, you will begin to use up memory.
This procedure allows you to check on how much memory is still available.
1. Navigate to the "Setup: Statistics" menu option and press ENTER.
2. "Statistics: 37.2K Char. Free" displays. This is the amount of memory that is still
available to the user.
Identify
This procedure allows you to use Autostar II to identify objects you have found in the
night sky using the Arrow keys. If the object is not in Autostar II's database, Autostar
II displays information about an object in its database that is closest to the one you
queried about.
Important Note: For this function to operate properly, you must first ini-
tialize and align Autostar II. If you physically move the telescope after ini-
tialization, this function will fail to operate properly.
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In this procedure, you will center an object you wish to have identified by Autostar II
in the telescope eyepiece and use the "Identify" menu to find out information about the
object or the nearest object to it in the Autostar II database.
1. Center the object you wish to have identified in the telescope's eyepiece.
2. Navigate to the "Object: Identify" option and press ENTER.
3. "Searching..." displays. When Autostar II finishes calculating, the name of the
closest object displays.
4. Press a Scroll key to display information about this object. Autostar II displays
some or all of the following information about the object with each press of a
Scroll key:
Displayed information:
Catalog or common name of object
Type of object
Example:
Messier 107, NGC6171, Orion Nebula, etc
Globular Cluster, Nebula, Black Hole, etc.
Right Ascension
Declination
16:32:4
13°03'
Constellation
Virgo, Orion, etc.
Magnitude
3
Size
2'
Scrolling message
"This Globular Cluster is 10,000 light years
away...."
Browse
This menu allows you to search the libraries for objects with certain parameters, much
like a search engine. "Edit Parameters" lets you set various parameters for the search,
and "Start Search" activates the search. A typical search might be performed as fol-
lows:
1. Select "Browse" from the Object menu. Press ENTER. "Browse: Start Search"
displays.
2. Press one of the Scroll Keys and "Browse: Edit Parameters" displays. Press
ENTER.
3. "Edit Parameters: Largest (mins)" displays. "Mins" stands for arc-minutes. Press
ENTER.
4. "Largest (mins)" and a value displays. Using the Number keys, enter a size in arc-
minutes. Autostar II will search for objects up to this size and no larger. Press
ENTER.
5. "Edit Parameters: Largest (mins)" displays again. Press the Scroll Down key.
"Edit Parameters: Smallest (mins)" displays. Enter the value for the smallest size
of an object that Autostar II will search for in the database. Continue with
"Brightest," Faintest," and "Minimum Elevation," using the procedure described in
steps 3 and 4.
6. After "Minimum Elevation," "Object Type" displays. Press ENTER." "+Black Hole"
displays. If you do not wish to have "Black Holes" in your search, press ENTER
and the "+" changes to a "–." Press the Scroll Down key to scroll to the next item.
"+Diffuse Nebula" displays. Continue to scroll through the list and press ENTER
if you wish to change the "+" to a "–" or vice-versa.
7. After you have scrolled to the last item on the "Object Type" list, press MODE
twice and the Scroll Down key once. "Browse: Start Search" displays. Press
ENTER. "Start Search: Next" displays. Press ENTER. Autostar II searches the
database and displays the first object that matches the search parameters you
have entered. Use the scroll keys to display information about the object. Press
MODE and "Start Search: Next" displays again. Press ENTER and the next item
matching the parameters displays. Repeat this procedure to display all the
objects. Press GO TO to slew telescope to a displayed object.
8. Press MODE repeatedly to leave this menu.
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Alternate Alt/Az Alignments
If you would rather set up your telescope without using automatic alignment, Autostar
II offers alternative alignment methods for both alt/az and equatorial mounting. During
the One-Star and Two-Star alt/az alignment procedures, you will (unlike the Automatic
and Easy alignment procedures) manually place the telescope in the home position.
The procedures for equatorial (polar) alignment are discussed in APPENDIX A, page
50; the three alternative alt/az alignment methods are discussed below.
Important Note:
Initialize Autostar II
If you disable the automatic
alignment/GPS function and
then use the alternate align-
ments described in this sec-
tion, you will be prompted to
enter the Time, Date, and
Daylight Savings status.
First, you need to initialize Autostar II.
1. Tighten the R.A. and Dec. locks (12 and 17, Fig. 1) to a firm feel.
2. Verify that Autostar II is properly connected to your telescope. See HOW TO
ASSEMBLE YOUR TELESCOPE page 13.
,
3. Flip the telescope power switch to the ON position.
The Autostar II screen is activated and a copyright message displays briefly, followed
by a short beep. Autostar II takes a few moments to start up the system.
4. A message then displays that warns not to look at the Sun. At the end of this mes-
sage, press the key prompted by Autostar II to signify that the message has been
read and understood.
6. Autostar II displays "Align: Automatic."
North
You are now ready to align your telescope using one of the three alt/az alignment pro-
cedures.
Easy (Two-Star) Alignment
In this method, Autostar II automatically picks two stars from its libraries for alignment.
During the procedure, Autostar II slews the telescope to a first alignment star. The
user is asked to verify that the telescope is pointed at the chosen star and then
prompted to center the star in the eyepiece. The process is repeated with a second
star to complete the alignment.
Level
Base
Dec.
Setting
Circle
Note: Before performing this procedure, first verify that INITIALIZE
AUTOSTAR II, above, has been performed.
Fig. 19: Alt/Az Home Position.
How to perform the Easy Align Procedure
1. Alignment Option Screen. Following initialization, "Align: Automatic" displays.
2. Select Alignment. Press the Scroll keys until "Align: Easy" displays. Press
ENTER.
3. Home Position. The telescope automatically sets the following positions: home,
level, North, and True North. You may turn off the sensors and manually set these
positions. See HOME SENSORS, page 30 for more information.
4 . Star Alignment. Autostar II chooses two stars to align upon. The telescope slews
to the first star for alignment. Should the alignment star not appear in the field of
view in the eyepiece, it should be easily recognized: It will be the brightest star in
the area of the sky where the telescope is pointing. Use the Arrow keys to move
the telescope until the star is visible and centered in the eyepiece. Press ENTER.
Repeat the procedure for the second alignment star.
Note: See WHICH ONE'STHE ALIGNMENT STAR, page 19, for some impor-
tant tips concerning alignments stars and using your viewfinder.
Fig. 20: Dec. Setting Circle at 0°.
When the procedure is performed correctly, "Alignment Successful" displays. If
Autostar II does not display this message, perform this procedure again. (Keep
pressing MODE until "Align: Easy" displays and repeat the procedure.)
Two-Star Alt/Az Alignment
Two-Star Alignment requires some knowledge of the night sky. Autostar II provides a
library of bright stars and two stars from this library are chosen by the observer for
alignment. In this procedure, Autostar II does not automatically find home, level, or
North.
1. Alignment Option Screen. "Align: Automatic" displays.
2. Select Alignment. Press the Scroll keys until "Align: Two Star" displays. Press
ENTER.
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3. Set Home Position. Place the telescope in the home position.
To Set the Home Position Manually:
a. See Figs. 19 and 20, page 37. Loosen the telescope’s Dec. lock (17, Fig.
1). Set the optical tube to 0° on the Dec. setting circle (Fig. 20).
b. Tighten the Dec. lock (17, Fig. 1) to a firm feel only.
c. Level the tripod base.
Note:
d. Move the base of the telescope so that the computer control panel (13, Fig.
Autostar II locates align-
ment stars based on the
date, time, and location
entered. The alignment
stars may change from
night to night. All that is
required is for the observer
to center the selected stars
in the eyepiece when
prompted.
1) approximately faces South.
e. Unlock the R.A. lock (12, Fig. 1) and turn the telescope's optical tube hori-
zontally until it points North. See Fig. 37, page 52, for more information.
f. Re-lock the R.A. lock (12, Fig. 1). Press ENTER.
g. Press ENTER.
4 . Star Alignment. "Select Star" displays. Autostar II then displays a library of stars
for the observer to choose from. Use the Scroll keys to scroll to a star on the list
that you wish to align upon. Select a star that you can easily locate in the night
sky. Press ENTER.
5. Center Star. The telescope slews to the star. Use the Arrow keys to move the
telescope until the star is centered in the eyepiece. Press ENTER.
Tip:
6. Center Star. Repeat procedure for the second alignment star. The telescope is
aligned and you are now ready to use Autostar II's GO TO capabilities for a night
of observing.
Try a Spiral Search
The GO TO key also
allows you to perform a
"spiral search." A spiral
search is useful when the
telescope slews to an
object, but that object is
not visible in the eyepiece
after the telescope finish-
es its search. (This some-
times occurs during an
alignment procedure.)
Press GO TO when the
slew is finished and the
telescope starts slewing in
a spiral pattern at a very
slow speed around the
search area. Look through
the eyepiece and when
the object does become
visible, press MODE to
stop the spiral search.
Then use the Arrow keys
to center the object.
One-Star Alt/Az Alignment
One-Star Alignment requires some knowledge of the night sky. Autostar II provides a
library of bright stars. One-Star Alignment is identical to Two-Star Alt/Az: Alignment
(see TWO-STAR ALT/AZ ALIGNMENT, page 37), except only one star from the data-
base is chosen by the observer for alignment.
LX200GPS TIPS
M ir r o r , M ir r o r . . .
The LX200GPS telescopes provide features that allow you to control the primary opti-
cal mirror and focus functions for more precise viewing capability.
One control feature is the primary mirror lock (9, Fig. 1). The primary mirror lock helps
eliminate mirror flop. Mirror flop can sometimes occur when the optical tube slews to
opposite sides of the sky and the primary mirror shifts out of position, causing the loss
of focus and pointing precision. To prevent mirror flop: Rotate the primary mirror lock
knob toward the "lock" position and adjust the tension to a firm feel.
Another control feature is the zero-shift microfocuser (24, Fig. 1). The microfocuser
allows for "jiggle-free" focusing. It also allows you to achieve focus without causing a
viewed object to move out of position in the eyepiece.
Some tips to help you make the most out of your microfocuser (see FOCUSING THE
EYEPIECE USING THE MICROFOCUSER, page 17, for more detailed instructions):
1. Set the "travel" (extension) of the drawtube of the microfocuser to about
halfway.
2. Rotate the mirror lock knob towards the "unlock" position, until it feels loose.
3. Use the coarse focus control (6, Fig. 1) to achieve a rough focus of a bright star.
4. Rotate the mirror lock knob towards the "lock" position and adjust the tension to
a firm feel; this action serves to lock in the coarse focus. But make sure that
you don't adjust or bump the coarse focus knob once you have tightened
tension on the mirror. If you do, reset the coarse focus as described
above.
5. Press the Autostar II Focus key and then use the Up and Down keys to control
the microfocuser. If desired, you may change the focus speed.
6. You may need to repeat this procedure when you change eyepieces.
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Periodic Error Correction
If you wish to perform high-precision astrophotography, you may wish to "train" your
telescope in order to keep objects that you are imaging dead center in the telescope's
mirror during the photographic exposure. Periodic error correction (PEC) helps to
remove the slight perturbations from center that occur due to the mechanical nature
of a telescope. To perform this procedure, you need to use a high-power reticle, such
as the 9mm reticle (see OPTIONAL ACCESSORIES, page 42). PEC training is available
for both drives.
Train Menu Option
If you perform this procedure in alt/az alignment, you can train the telescope in both
the R.A. and the Dec. axes; in polar alignment, you need only train the telescope's
R.A. axis. If you train the telescope in polar alignment, make sure that "Polar" is
selected in the "Telescope: Mount" menu ("Alt/Az" is the default setting).
To perform the procedure on the Dec. axis, pick a bright star in the East or West that
is about about 20° above the horizon.
To perform the procedure on the R.A. axis, pick a bright star in the South that has min-
imal movement and is about 30° above the horizon (Note: If in the Southern hemi-
sphere, pick a star in the North that is about 30° above the horizon).
Important Note: The Train option overwrites any previous PEC data.
1. Select "Train" from the Dec. PEC menu (in the "Setup: Telescope" menu) and press
ENTER.
2. Look through the reticle. Use the Arrow keys to keep the star centered in the reticle
cross-hairs. Autostar II displays a count of the 200 positions of the worm gear. When
the count reaches 200, one cycle is complete. A full cycle takes about 8 minutes.
3. Select "Train" from the R.A. PEC menu (in the "Setup: Telescope" menu) and press
ENTER.
4. Look through the reticle. Use the Arrow keys to keep the star centered in the reticle
cross-hairs. Autostar II displays a count of the 200 positions of the worm gear. When
the count reaches 200, one cycle is complete. A full cycle takes about 8 minutes.
5. Press MODE to exit.
Update Menu Option
Use the Update option to further refine your training; it is recommended that you
update your original training two or three times when first using your telescope.
Update does not overwrite the data, but updates the training using information gath-
ered from both the last and the current training sessions. Press the MODE key to exit
from this option. If you wish to further refine your training, select this menu again and
repeat the procedure.
Erase Menu Option
Select this option to erase all PEC training data.
On and Off Menu Options
Select "On" when you want the telescope to use the training information. Select "Off"
when you do not want for the telescope to use the training information. Select "On" to
enable the Smart Drive.
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P H O T O G R A P H Y
You may perform through-the-telescope photography with any 35mm camera body with
a removable lens. You may connect a camera to a #62 T-Adapter which is then con-
nected to the microfocuser assembly. See Fig. 21. Using this method, the telescope
effectively becomes the lens of the camera.
1
The #62 T-Adapter (1, Fig. 21) connects to the microfocuser assembly, followed by a
T-Mount (2, Fig. 21) for the particular brand of 35mm camera being used, followed by
the camera body (3, Fig. 21).
2
To orient an object in the viewfinder of the 35mm camera body, use a small jeweler’s
screwdriver to slightly loosen three adjustment screws around the outer knurled ring
of the T-Mount. Rotate the camera body to achieve proper orientation of the object;
then re-tighten the adjustment screws.
3
The #62 T-Adapter permits close-coupling of a camera body to the telescope. In this
format vignetting occurs: The photographic image appears on film with a slight dark-
ening (vignetting) at the corners of the 35mm frame (Fig. 22).
Fig. 21: LX200GPS with #62
T-Adapter: (1) camera adapter, (2) T-
mount, (3) camera body.
Photography through a long lens such as the LX200GPS requires special technique for
good results, and the photographer should probably expect to waste a roll or two of
film in acquiring this technique. Long-lens photography has its own rewards, however,
rewards that short-focus lenses cannot duplicate.
A few tips on photography with the LX200GPS telescopes:
1. Use the Field Tripod for the telescope. At an effective focal length of 2000mm,
even small external vibrations can easily ruin an otherwise good photo.
For best results in photographing celestial objects, a wedge and One-Star polar
alignment is recommended. See APPENDIX A, pages 50 through 54.
Caution: With the #62 T-Adapter and a camera body mounted to the
LX200GPS photo port, the telescope can only be rotated vertically about
45°. Moving past this point may damage the telescope and camera.
2. Use a cable-operated shutter release. Touching the camera body to initiate shut-
ter operation almost certainly introduces undesirable vibrations.
Fig. 22: Example of vignetting.
3. Focus the image with extreme care. While observing the subject through the cam-
era’s reflex viewfinder, turn the telescope’s focus knob (6, Fig. 1) to achieve the
sharpest possible focus. Note that some 35mm cameras may have an optional
focusing screen (available from the manufacturer) for use with a long telephoto
lens. This screen provides a brighter and clearer image to focus, and is highly rec-
ommended.
4. Correct shutter speeds vary widely, depending on lighting conditions and film
used. Trial-and-error is the best way to determine proper shutter speed in any
given application.
Note: The camera used with your telescope may have an exposure meter
that is still active when the standard lens is removed and the body is con-
nected to the telescope with the T-Mount. If used for terrestrial photogra-
phy, the camera meter should be acceptable. If used for astrophotography,
the meter probably will not provide good results since camera meters are
not made to compensate for a dark sky.
5. Terrestrial photography through the LX200GPS is sensitive to heat waves rising
from the Earth’s surface. Long distance photography is best accomplished in the
early morning hours before the Earth has had time to build up heat.
6. Photography of the Moon and planets through the LX200GPS can be especially
gratifying, but points 1 through 4 should be particularly noted in this case. If you
wish to take photographs using polar alignment, see APPENDIX A, page 50.
40
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O P T IO N A L A C C E S S O R IE S
A wide assortment of professional Meade accessories is available for the LX200GPS
telescope models. The premium quality of these accessories is well-suited to the qual-
ity of the instrument itself. Consult the Meade General Catalog for complete details
on these and other accessories.
Meade Series 4000 Eyepieces:
7” f/15
8” f/6.3
10” f/6.3
Eyepiece
Power/Actual Field
Power/Actual Field
Power/Actual Field
Super Plössl Eyepieces (4-elements; 1.25” O.D., except as noted)
6.4mm
9.7mm
12.4mm
15mm
20mm
26mm
417/0.12°
275/0.19°
215/0.24°
178/0.29°
134/0.39°
103/0.50°
83/0.63°
67/0.66°
48/1.08°
200/0.26°
132/0.39°
103/0.50°
85/0.61°
64/0.81°
49/1.06°
40/1.30°
32/1.69°
23/2.27°
250/0.21°
165/0.32°
129/0.40°
107/0.49°
80/0.65°
62/0.84°
50/1.04°
40/1.35°
29/1.82°
32mm
40mm
56mm (2" O.D.)
Super Wide Angle Eyepieces (6-elements; 1.25” O.D., except as noted)
13.8mm
18mm
24.5mm
193/0.35°
148/0.45°
109/0.61°
83/0.81°
67/1.00°
93/0.72°
71/0.94°
52/1.28°
40/1.67°
32/2.09°
116/0.58°
89/0.75°
65/103°
50/1.34°
40/1.67°
32mm (2" O.D.)
40mm (2" O.D.)
Fig. 23: Series 4000 Eyepieces.
Ultra Wide Angle Eyepieces (8-elements; 1.25” O.D., except as noted)
4.7mm
6.7mm
568/0.15°
399/0.21°
303/0.28°
199/0.44°
272/0.31°
191/0.44°
145/0.58°
91/0.92°
340/0.25°
239/0.35°
182/0.46°
114/0.73°
8.8mm (1.25” - 2” O.D.)
14mm° (1.25” - 2” O.D.)
8” f/10
10” f/10
12” f/10
Eyepiece
Power/Actual Field
Power/Actual Field
Power/Actual Field
Super Plössl Eyepieces (4-elements; 1.25” O.D., except as noted)
6.4mm
9.7mm
12.4mm
15mm
20mm
26mm
313/0.17°
206/0.25°
161/0.32°
133/0.39°
100/0.52°
77/0.68°
63/0.83°
50/0.88°
36/1.46°
391/0.13°
258/0.20°
202/0.26°
167/0.31°
125/0.42°
96/0.54°
78/0.67°
63/0.70°
45/1.16°
476/0.11°
314/0.17°
246/0.21°
203/0.26°
152/0.34°
117/0.44°
95/0.55°
76/0.53°
54/1.04°
32mm
40mm
56mm (2" O.D.)
Super Wide Angle Eyepieces (6-elements; 1.25” O.D., except as noted)
13.8mm
18mm
24.5mm
145/0.46°
111/0.60°
82/0.82°
63/1.07°
50/1.34°
181/0.37°
139/0.48°
102/0.66°
78/0.86°
63/1.07°
221/0.30°
169/0.40°
124/0.54°
95/0.71°
76/0.88°
32mm (2" O.D.)
40mm (2" O.D.)
Ultra Wide Angle Eyepieces (8-elements; 1.25” O.D., except as noted)
4.7mm
6.7mm
426/0.20°
299/0.28°
227/0.37°
143/0.59°
532/0.16°
373/0.23°
284/0.30°
179/0.47°
649/0.13°
455/0.18°
346/0.24°
218/0.39°
8.8mm (1.25” - 2” O.D.)
14mm (1.25” - 2” O.D.)
41
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Series 4000 8 - 24mm Zoom Eyepiece: The internal zoom optics of this eyepiece
move on smooth, precisely machined surfaces which maintain optical collimation at
all zoom settings. A scale graduated in 1mm units indicates the zoom focal length in
operation. An excellent addition to any eyepiece set.
#140 2x Barlow Lens: A 3-element design, doubles each eyepiece power while
maintaining uncompromised image resolution, color correction, and contrast. Insert
the #140 into the telescope’s eyepiece-holder first, followed by the diagonal prism and
eyepiece. The #126 2x Barlow Lens, a compact 2-element alternative to the #140,
may also be employed with any LX200GPS-Series telescope.
Series 4000 Photo-Visual Color Filters: Color filters significantly enhance visual
and photographic image contrast of the Moon and planets. Each filter threads into
the barrel of any Meade 1.25" eyepiece, and into the barrels of virtually all other eye-
piece brands as well. Meade filters are available in 12 colors for lunar and planetary
applications, and in Neutral Density as a lunar glare-reduction filter.
Fig. 24: Series 4000 8 - 24mm Zoom
Eyepiece.
Series 4000 Nebular Filters: A modern boon to the city-dwelling deep-space
observer, the interference nebular filter effectively cancels out the effects of most
urban light pollution, while leaving the light of deep-space nebular emissions virtual-
ly unattenuated. Meade Series 4000 Nebular Filters utilize the very latest in coating
technology, and are available with threaded cells for eyepieces or for attachment to
the rear cells of Meade Schmidt-Cassegrain models.
Variable Tele-Extender: For eyepiece-projection photography of the Moon and the
planets, a Tele-Extender is required. The variable Tele-Extender threads onto the tele-
scope's eyepiece-holder, into which is inserted an eyepiece of typically about 26mm
focal length; the 35mm camera body couples to the tele-extender by means of a T-
Mount. The Meade Variable Tele-Extender permits a range of projection images.
Fig. 25: #140 2x Barlow Lens.
#929 2" Diagonal Mirror; #928 45° Erect-Image Diagonal Prism: The #929 2"
Diagonal Mirror (provided as standard equipment on the 12" LX200GPS, available
optionally on other models) attaches to the rear cell of all LX200GPS telescopes and
permits the use of wide-field 2" O.D. eyepieces (e.g., Meade Series 4000 Super Wide
32mm and 40mm eyepieces and others). Each diagonal includes a Meade optical-flat
mirror of Pyrex® glass, aluminized and multi-coated. Diagonal mirrors and prisms
result in images that are correctly oriented up-and-down but reversed left-for-right. For
terrestrial observing a fully correctly oriented telescopic image is desirable; the #928
Diagonal Prism accomplishes this image correction and places the eyepiece at a
convenient 45° viewing angle. The #928 is for use with the 1.25" Eyepiece-Holder.
Series 4000 Plössl 9mm Illuminated Reticle Eyepiece: The most advanced com-
mercially-available illuminated reticle eyepiece, this Series 4000 Plössl 9mm model,
powered by an internal battery, includes micrometric x-y positioning controls which
greatly facilitate locking onto the guide star: Turn the finely-threaded controls and
place the reticle’s crossline pattern precisely at the desired position in the field. The
sharp, high-power imaging of the 4-element, multi-coated Plössl optical system is
complemented by a rubber eyecup (foldable for eyeglass wearers) that shuts out dis-
tracting stray light from the observer’s eye. The upper (lens) section of the eyepiece
rotates on a fine thread for precise diopter adjustment to the user’s eye. Reticle pat-
tern is a double crossline with two concentric circles.
Fig. 26: #905 Variable Polarizer and
#1A Skylight Filter.
#62T-Adapter: The T-Adapter is the basic means of prime-focus photography through
all Meade Schmidt-Cassegrain models. Thread the T-Adapter on to the rear cell of
your telescope, followed by a T-Mount for your 35mm camera, and the camera body
is rigidly coupled to the telescope.
#777 Off-Axis Guider: The Off-Axis Guider provides a means during long-exposure
astrophotography for the photographer to monitor the tracking of the telescope to
assure that the telescope remains precisely positioned on the object being pho-
tographed. Like the T-Adapter, the Off-Axis Guider couples the camera body to the tel-
escope but it also causes a small amount of the guidestar’s incoming light to be divert-
ed at a right angle, where the star’s position can be examined for tracking errors with
an illuminated reticle eyepiece; position corrections can then be effected using
Autostar II.
Fig. 27: #929 2" Diagonal Mirror and
#928 45° Erect-Image Diagonal
Prism.
42
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Piggyback Brackets: Piggyback photography is one of the most popular and easiest
ways to get started in astrophotography. Attach your 35mm camera, with its own
35mm-to-250mm lens, atop your LX200GPS in equatorial mode, and guiding the cam-
era through the main telescope, wide-field photos of the Milky Way of remarkable
detail and clarity can be taken.
Dew Shields: In moist climates, water particles suspended in the atmosphere may
condense on the front surface of the telescope's correcting plate. This dew formation
may be inhibited to a significant extent by the addition of a dew shield, essentially an
extension tube attaching to the front-cell of the telescope. #608 for Meade 7"
Maksutov and 8" Schmidt-Cassegrain models; #610 for all 10" Schmidt-Cassegrain
models; #612 for all 12" Schmidt-Cassegrain models.
#905 Variable Polarizer (1.25"): #1A Skylight Filter: The #905 system includes 2
Polarizer filters mounted in a specially-machined cell, for glare-reduction in observ-
ing the Moon. Rotate the thumbscrew at the side of the unit to achieve light trans-
mission between 5% and 25% of its original value. The #905 inserts into the diago-
nal prism of the telescope, followed by an eyepiece. The #1A Skylight Filter threads
onto the rear cells of all Meade Schmidt-Cassegrains and effectively seals the inte-
rior of the telescope from dust. All other rear cell accessories may then be threaded
to the #1A filter. The filter increases visual and photographic contrast, decreases
glare, and helps to penetrate haze.
Fig. 28: Illuminated Reticle Eyepiece.
#1220 Field De-rotater: For use with the 7", 8", 10" and 12" LX200GPS models in the
altazimuth mode, the field de-rotater attaches to the rear cell of the telescope and
plugs into an RS232 port. Digital data fed from the telescope's microprocessor to the
field de-rotater permit precise and continuous update of the de-rotation required to
maintain pinpoint star images throughout the field. The effect is that even during the
longest CCD or photographic exposures, the telescope acts as if it were precisely
equatorially mounted. #1222 Field De-rotater: For use with the 16" LX200GPS. Plugs
into a special connector on the control panel.
Epoch 2000sk-CD Sky Software: Epoch 2000sk is a powerful sky software supplied
on a CD-Rom, allowing users to click on any one of 19 million database objects,
including the complete Hubble Guide Star Catalog, to display an object's name, coor-
dinates, magnitude, object type, and description. Other features allow a user to zoom-
in on telescope fields smaller than one arc second, locate planets to a precision of 0.1
arc seconds, print professional quality star charts, and much more.
Fig. 29: #62 T-Adapter.
LX200 Interface Cable: With Meade Epoch 2000sk loaded into your PC, Autostar II-
equipped telescopes, such as the LX200GPS, may be remotely controlled from the PC
display. Used to download the latest satellite data, star and object catalogs, tours,
serial commands list, and software revisions, directly from the Meade website
#547 Power Adapter with Cable (all models except 16” LX200GPS): Includes a 25
ft. cord and permits powering from a standard home (115v AC) outlet.
#607 Cigarette Lighter Adapter: Powering the LX200GPS telescope by means of an
automobile cigarette lighter plug. The LX200GPS may be powered for a full night’s
observing without risk of car-battery drain.
To find out more about these and other accessories available for your telescope,
check out the Meade General Catalog or contact your local Meade dealer.
LX200GPS TIPS
S t a r C h a r t s
Even with the Autostar II's massive 145,000 object library, star charts and
planispheres are still useful for a variety of reasons. In particular, they are a
great aid in planning a night of celestial viewing.
A wide variety of star charts are available in books, in magazines, on the inter-
net and on CD Roms. Meade offers Epoch 2000sk™ and other star locator
software. Contact your Meade dealer or Meade's Customer Service depart-
ment for more information.
Astronomy and Sky and Telescope magazines print star charts each month
for up-to-the-minute maps of the heavens.
43
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M A IN T E N A N C E
LX200GPS telescopes are precision optical instruments designed to yield a lifetime of
rewarding applications. Given the care and respect due any precision instrument, your
LX200GPS will rarely, if ever, require factory servicing. Maintenance guidelines include:
a. Avoid cleaning the telescope’s optics: A little dust on the front surface of the tele-
scope’s correcting lens causes virtually no degradation of image quality and
should not be considered reason to clean the lens.
b. When absolutely necessary, dust on the front lens should be removed with gen-
tle strokes of a camel hair brush or blown off with an ear syringe (available at any
pharmacy). DO NOT use a commercial photographic lens cleaner.
c. Organic materials (e.g., fingerprints) on the front lens may be removed with a
solution of 3 parts distilled water to 1 part isopropyl alcohol. You may also add 1
drop of biodegradable dishwashing soap per pint of solution. Use soft, white facial
tissues and make short, gentle strokes. Change tissues often.
Caution: Do not use scented or lotioned tissues or damage could result
to the optics.
d. Do not, for any reason, remove the correcting plate from its machined housing for
cleaning or other purposes. You will almost certainly not be able to replace the
corrector in its proper rotational orientation and serious degradation of optical per-
formance will result. Meade Instruments assumes no liability for damage incurred
to the telescope in this way.
e. If the LX200GPS is used outdoors on a humid night, water condensation on the
telescope surfaces will probably result. While such condensation does not nor-
mally cause any damage to the telescope, it is recommended that the entire tel-
escope be wiped down with a dry cloth before the telescope is packed away. Do
not, however, wipe any of the optical surfaces. Rather, simply allow the telescope
to sit for some time in the warm indoor air, so that the wet optical surfaces can
dry unattended.
f. If your LX200GPS is not to be used for an extended period, perhaps for one month
or more, it is advisable to remove the batteries from the telescope. Batteries left
in the telescope for prolonged periods may leak, causing damage to the tele-
scope’s electronic circuitry.
g. Do not leave your LX200GPS inside a sealed car on a warm summer day; exces-
sive ambient temperatures can damage the telescope’s internal lubrication and
electronic circuitry.
h. The microfocuser is carefully adjusted at the factory. If it becomes necessary to
adjust the microfocuser ball bearings (see Fig. 30), it must be performed by fac-
tory trained technicians. If the microfocuser is improperly adjusted, performance
will degrade and damage will result. Damage due to improper adjustments not
authorized by the factory will not be covered under warranty.
Collimation
Fig. 30: Microfocuser ball bearings.
The optical collimation (alignment) of any astronomical telescope used for serious
purposes is important, but in the case of the Schmidt-Cassegrain design of the 8", 10",
and 12" LX200GPS models, such collimation is absolutely essential for good perform-
ance. (Note: The 7" model, a Maksutov-Cassegrain, does not need to be collimated.)
Take special care to read and understand this section well so that your LX200GPS will
give you the best optical performance.
As part of final optical testing, every Meade Schmidt-Cassegrain is precisely collimat-
ed at the Meade factory before shipment. However, vibrations in shipping can cause
the optical system to become misaligned. Re-aligning the optics is, however, a
straightforward process.
To check the collimation of your LX200GPS, center a bright star that is overhead, or
use a “hot spot” of reflected Sunlight from a chrome car bumper, with the supplied
26mm eyepiece. Allow the telescope to adjust to the temperature of your observation
site before proceeding; temperature differences between the optics and the outside
air can cause distortion in the images.
44
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With the star or hot spot centered, de-focus the image. You will notice that the out of
focus star image looks like a ring of light surrounding a dark central spot; the dark cen-
tral spot is in fact the shadow of the secondary mirror. Turn the focus knob until the
ring of light fills about 10% of the eyepiece field-diameter. If the dark central spot is
offset in (i.e., not concentric with) the ring of light, your telescope’s optical system is
misaligned and requires collimation.
1
2
3
Fig. 31a: Defocused star images. Misaligned (1, 2), Aligned
Fig. 31b: Collimation screws.
Follow these steps for collimation of the optical system:
Caution:
a. The only adjustments possible, or necessary, on the Schmidt-Cassegrain
LX200GPS models are from the three screws (Fig. 31b) located at the edge of the
outer surface of the secondary mirror housing.
It is recommended that
you begin collimating by
first tightening the colli-
mation screws. When
you reach a point where
you encounter resistance
while tightening, then
attempt collimation by
loosening the screw(s).
While loosening, be
Caution: Do not force the three collimation screws past their normal trav-
el and do not loosen them more than two full turns in a counterclockwise
direction or the secondary mirror may come loose from its support. You
will find that the adjustments are very sensitive, usually requiring only
one-half turn or less to produce the desired result.
b. While looking at the defocused star image, notice which direction the darker
shadow is offset in the ring of light or notice which part of the ring is the thinnest
(1, Fig. 31a). Place your index finger in front of the telescope so that it touches
one of the collimation set screws. You will see the shadow of your finger in the
ring of light. Move your finger around the edge of the black plastic secondary mir-
ror support until you see the shadow of the finger crossing the thinnest part of the
ring of light. At this point, look at the front of the telescope where your finger is
aiming. It will either be pointing directly at a set screw, or it will be between two
set screws aiming at the set screw on the far side of the black plastic secondary
mirror support. This is the set screw that you will adjust.
careful that you do not
remove the screw(s)
from the secondary mir-
ror housing assembly .
c. Using the Autostar II's Arrow keys at the slowest slew speed, move the defocused
image to the edge of the eyepiece field of view (2, Fig. 31a), in the same direc-
tion as the darker shadow is offset in the ring of light.
d. Turn the set screw that you found with the pointing exercise while looking in the
eyepiece. You will notice that the star image will move across the field. If while
turning the defocused star image flies out of the eyepiece field, then you are turn-
ing the screw the wrong way. Turn the opposite direction and bring the image
back to the center of the field.
e. If the screw you are turning becomes very loose, tighten the other two screws by
even amounts. If the screw you are turning gets too tight, unthread the other two
by even amounts.
f. When you bring the image to center (3, Fig. 31a), carefully examine the evenness
of the ring of light (concentricity). If you find that the dark center is still off in the
same direction, continue to make the adjustment in the original turning direction.
If it is now off in the opposite direction, you have turned too far and you need to
turn in the opposite direction. Always double check the image in the center of the
field of the eyepiece.
g. You may find after your initial adjustment that the dark center is off in a new direc-
tion (e.g., instead of being off side-to-side it is now off in an up-and-down direc-
tion). In this case repeat steps b through f to find the new adjustment screw.
h. Now try a higher power eyepiece (e.g., 9mm or less) and repeat the above tests.
Any lack of collimation at this point will require only very slight adjustments of the
three set screws. You now have good collimation of the optics.
45
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i.
As a final check of alignment, examine the star image in focus with the higher
power eyepiece as suggested (j), under good viewing conditions. The star point
should appear as a small central dot (commonly referred to as an “Airy disc”) with
a diffraction ring surrounding it. To give a final precision collimation, make
extremely slight adjustments of the three set screws, if necessary, to center the
Airy disc in the diffraction ring. You now have the best alignment of the optics pos-
sible with this telescope.
Inspecting the Optics
A Note about the “Flashlight Test:" If a flashlight or other high-intensity light source
is pointed down the main telescope tube, the view (depending upon the observer’s
line of sight and the angle of the light) may reveal what appear to be scratches, dark
or bright spots, or just generally uneven coatings, giving the appearance of poor qual-
ity optics. These effects are only seen when a high intensity light is transmitted
through lenses or reflected off the mirrors, and can be seen on any high quality opti-
cal system, including giant research telescopes.
Fig. 32: R.A. Lock.
The optical quality of a telescope cannot be judged by the “flashlight test;" the true test
of optical quality can only be conducted through careful star testing.
Gauging the Movement of the Telescope
A common complaint of many first-time motorized telescope owners is that they can-
not see the telescope “move” when the motor drive is engaged. If fact, when the bat-
teries are installed, the power is on and the R.A. lock (Fig. 32) engaged, the telescope
is moving. However, the movement is at the same speed as the hour hand of a 24-
hour clock; as such, the movement is difficult to discern visually.
To check the movement of your telescope, look at an astronomical object through the
telescope’s eyepiece with the telescope aligned and with the motor drive on. If the
object remains stationary in the field of view, your telescope is operating properly. If
not, check to ensure that you have engaged the R.A. lock and that the power switch
on the control panel is on.
Fig. 33: Dec. Lock.
Meade Customer Service
If you have a question concerning your LX200GPS, contact the Meade Instruments
Customer Service Department at:
Telephone: (949) 451-1450
Fax: (949) 451-1460
Customer Service hours are 8:30 AM to 4:30 PM, Pacific Time, Monday through
Friday. In the unlikely event that your LX200GPS requires factory servicing or repairs,
write or call the Meade Customer Service Department first, before returning the tele-
scope to the factory, giving full particulars as to the nature of the problem, as well as
your name, address, and daytime telephone number. The great majority of servicing
issues can be resolved by telephone, avoiding return of the telescope to the factory.
If factory service is required, you will be assigned a Return Goods Authorization
(RGA) number prior to return.
LX200GPS TIPS
W h a t is S m a r t D r iv e ?
Smart Drive is a feature that allows you to train almost all of the periodic error from
the R.A. and Dec. motor drive worm gears. Periodic error is brought about by tiny
gear imperfections. These imperfections exist in all manufactured worm gears.
These imperfections tend to ever so slightly speed up or slow down the drive track-
ing speed during each rotation of the worm gear. This inconsistency in the tracking
rate can have a negative effect on astrophotography. Smart drive lets you train your
telescope system to compensate for these inconsistencies and, as a result, perform
more accurate tracking during astrophotography. Smart Drive remembers the train-
ing even after the telescope is turned off.
If you'd like to learn more about about Periodic Error Correction, see page 39.
46
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S P E C IF IC A T IO N S
7" f/15 LX200GPS Specifications
Optical design..............................................Maksutov-Cassegrain
Clear aperture..............................................178mm (7")
Focal length ................................................2670mm
Focal ratio (photographic speed) ................f/15
Resolving power ..........................................0.64 arc sec
Coatings ......................................................Meade EMC Super Multi-Coatings
Mounting......................................................Cast-aluminum, double-tine forks
Gears ..........................................................5.75"-dia worm gears, both axes
Alignment ....................................................Altazimuth or equatorial w/optional wedge
Pointing Precision ......................................2 arc-minutes in GO TO mode
Power ..........................................................8 C-cell (user-supplied) batteries
or optional 12v power supply
Slew Speeds................................................1x sidereal to 8°/sec in 9 increments
Tripod ..........................................................Variable-height field tripod
Accessories ................................................8 x 50mm viewfinder
1.25" diagonal prism
Super Plössl 26mm eyepiece
4-speed zero image-shift microfocuser
16-channel GPS receiver
True-level electronic sensor
Net telescope weight ..................................53 lbs.
Net tripod weight..........................................20 lbs.
Maksutov Fan
The Maksutov optics are equipped with a fan which will assist in the stabilization of
the temperature of these optics. The fan operates when a special power cord (sup-
plied in the accessory box) is plugged into the fan unit of the telescope and the12v DC
OUT (13E, Fig. 1) of the computer control panel with the power switch in the “ON”
position. The amount of time required to stabilize the temperature will be dependent
upon ambient conditions including the observation site and preexisting condition of
the telescope. The fan should be activated at the beginning of the observation ses-
sion to accelerate the temperature stabilization. As soon as the optics have reached
an equilibrium with the environment the fan should be turned off by unplugging the fan
power cord or by turning the power off in the AUX Port Power menu. Fan operation
time should range between 5 and 25 minutes. While it is permissible to run the fan
continuously it is not recommended because the very slight vibration of the fan may
cause noticeable movement of the objects observed in the sensitive optics.
8" f/10 LX200GPS Specifications
Optical design..............................................Schmidt-Cassegrain
Clear aperture..............................................203mm (8")
Focal length ................................................2000mm
Focal ratio (photographic speed) ................f/10
Resolving power ..........................................0.56 arc sec
Coatings ......................................................Meade EMC Super Multi-Coatings
Mounting......................................................Cast-aluminum, double-tine forks
Gears ..........................................................5.75"-dia. worm gears, both axes
Periodic Error Correction ............................Both axes
Alignment ....................................................Altazimuth or equatorial w/optional wedge
Pointing Precision ......................................2 arc-minutes in GO TO mode
Slew Speeds................................................1x sidereal to 8°/sec in 9 increments
Power ..........................................................8 C-cell (user-supplied) batteries
or optional 12v power supply
Tripod ..........................................................Variable-height field tripod
Accessories ................................................8 x 50mm viewfinder
1.25" diagonal prism
Super Plössl 26mm eyepiece
4-speed zero image-shift microfocuser
16-channel GPS receiver
True-level electronic sensor
Net telescope weight ..................................46 lbs.
Net tripod weight..........................................20 lbs.
47
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10" f/10 LX200GPS Specifications
Optical design..............................................Schmidt-Cassegrain
Clear aperture..............................................254mm (10")
Focal length ................................................2500mm
Focal ratio (photographic speed) ................f/10
Resolving power ..........................................0.45 arc sec
Coatings ......................................................Meade EMC Super Multi-Coatings
Mounting......................................................Cast-aluminum, double-tine forks
Gears ..........................................................5.75"-dia. worm gears, both axes
Periodic Error Correction ............................Both axes
Alignment ....................................................Altazimuth or equatorial w/optional wedge
Pointing Precision ......................................2 arc-minutes in GO TO mode
Slew Speeds................................................1x sidereal to 8°/sec in 9 increments
Power ..........................................................8 C-cell (user-supplied) batteries
or optional 12v power supply
Tripod ..........................................................Variable-height field tripod
Accessories ................................................8 x 50mm viewfinder
1.25" diagonal prism
Super Plössl 26mm eyepiece
4-speed zero image-shift microfocuser
16-channel GPS receiver
True-level electronic sensor
Net telescope weight ..................................62 lbs.
Net tripod weight..........................................20 lbs.
12" f/10 LX200GPS Specifications
Optical design..............................................Schmidt-Cassegrain
Clear aperture..............................................305mm (12")
Focal length ................................................3048mm
Focal ratio (photographic speed) ................f/10
Resolving power ..........................................0.375 arc sec
Coatings ......................................................Meade EMC Super Multi-Coatings
Mounting......................................................Cast-aluminum, double-tine forks
Gears ..........................................................5.75"-dia. worm gears, both axes
Periodic Error Correction ............................Both axes
Alignment ....................................................Altazimuth or equatorial w/optional wedge
Pointing Precision ......................................2 arc-minutes in GO TO mode
Slew Speeds................................................1x sidereal to 8°/sec in 9 increments
Power ..........................................................8 C-cell (user-supplied) batteries
or optional 12v power supply
Tripod ..........................................................Variable-height giant field tripod
Accessories ................................................8 x 50mm viewfinder
2" diagonal prism, with1.25" adapter
Super Plössl 26mm eyepiece
4-speed zero image-shift microfocuser
16-channel GPS receiver
True-level electronic sensor
Net telescope weight ..................................73 lbs.
Net tripod weight..........................................50 lbs.
14" f/10 LX200GPS Specifications
Optical design..............................................Schmidt-Cassegrain
Clear aperture..............................................356mm (14")
Focal length ................................................3556mm
Focal ratio (photographic speed) ................f/10
Resolving power ..........................................0.321 arc sec
Coatings ......................................................Meade EMC Super Multi-Coatings
Mounting......................................................Cast-aluminum, double-tine forks
Gears ..........................................................5.75"-dia. worm gears, both axes
Periodic Error Correction ............................Both axes
48
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Alignment ....................................................Altazimuth
Pointing Precision ......................................2 arc-minutes in GO TO mode
Slew Speeds................................................1x sidereal to 8°/sec in 9 increments
Power ..........................................................8 C-cell (user-supplied) batteries
or optional 12v power supply
Tripod ..........................................................Variable-height giant field tripod
Accessories ................................................8 x 50mm viewfinder
2" diagonal prism, with1.25" adapter
Super Plössl 26mm eyepiece
4-speed zero image-shift microfocuser
16-channel GPS receiver
True-level electronic sensor
Net telescope weight ..................................110 lbs.
Net tripod weight..........................................50 lbs.
16" f/10 LX200GPS Specifications
Optical design..............................................Schmidt-Cassegrain
Clear aperture..............................................406.4mm (16")
Focal length ................................................4064mm
Focal ratio (photographic speed) ................f/10
Resolving power ..........................................0.28 arc sec
Coatings ......................................................Meade EMC Super Multi-Coatings
Mounting......................................................Heavy-duty double-tine forks
Gears ..........................................................11"-dia. worm gears, both axes
Periodic Error Correction ............................Both axes
Alignment ....................................................Altazimuth or equatorial w/optional pier
Pointing Precision ......................................2 arc-minutes in GO TO mode
Slew Speeds................................................1x sidereal to 8°/sec in 9 increments
Power ..........................................................18v power supply
Tripod ..........................................................Variable-height super giant field tripod
Accessories ................................................8 x 50mm viewfinder
2" diagonal prism with1.25" adapter
Super Plössl 26mm eyepiece
4-speed zero image-shift microfocuser
16-channel GPS receiver
True-level electronic sensor
Net telescope weight ..................................318 lbs.
Net tripod weight..........................................88 lbs.
Autostar II System Specifications
Processors ........................................................10 processors arranged in a Distributed
Intelligent Network Architecture to
facilitate parallel task management
(U.S. Patent 6,304,376)
Flash Memory ............................................3.5MB, reloadable
Database......................................................145,000 objects
Autostar II Handbox Specifications
Keypad ........................................................20 key alphanumeric
Display ........................................................2 line, 16 character LCD
Backlight ......................................................Red LED
Utility Light ..................................................Yes
Coil Cord......................................................24"
Length..........................................................6.56" (16.6cm)
Width (LCD end)..........................................3.19" (80cm)
Width (Connector end) ................................2.25" (57cm)
Depth ..........................................................0.81" (21cm)
Autostar II net weight ..................................1.12 lbs (0.51kg)
49
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A P P E N D IX A : E Q U A T O R IA L
(P O L A R ) A L IG N M E N T
Equatorial Alignment
In equatorial (or "polar") Alignment, the telescope is oriented so that the horizontal and
vertical axes of the telescope are lined up with the celestial coordinate system.
Important Note:
The "Telescope: Mount"
In order to equatorial align your telescope, it is essential to have an understanding of
how and where to locate celestial objects as they move across the sky. This section
provides a basic introduction to the terminology of equatorial-aligned astronomy, and
includes instructions for finding the celestial pole and for finding objects in the night
sky using Declination and Right Ascension.
option of the Setup menu is
set to "Alt/Az" as the default
mount by the factory.The
example presented in this
section assumes that you are
performing an alignment pro-
cedure for the first time with
your telescope and therefore,
the "Telescope: Mount" option
does not need to be selected.
Celestial Coordinates
A celestial coordinate system was created that maps an imaginary sphere surround-
ing the Earth upon which all stars appear to be placed. This mapping system is simi-
lar to the system of latitude and longitude on Earth surface maps.
If the telescope is equatorially
mounted, you must choose
the "Polar" option from the
Autostar II "Telescope Mount"
menu.
In mapping the surface of the Earth, lines of longitude are drawn between the North
and South Poles and lines of latitude are drawn in an East-West direction, parallel to
the Earth’s equator. Similarly, imaginary lines have been drawn to form a latitude and
longitude grid for the celestial sphere. These lines are known as Right Ascension
and Declination.
The celestial map also contains two poles and an equator just like a map of the Earth.
The poles of this coordinate system are defined as those two points where the Earth’s
North and South poles (i.e., the Earth's axis), if extended to infinity, would cross the
celestial sphere. Thus, the North Celestial Pole (1, Fig. 34) is that point in the sky
where an extension of the North Pole intersects the celestial sphere. The North Star,
Polaris, is located very near the North Celestial Pole (1, Fig. 34). The celestial equa-
tor (2, Fig. 34) is a projection of the Earth’s equator onto the celestial sphere.
North
Celestial
Pole
(Vicinity
of Polaris)
+90 Dec.
So just as an object's position on the Earth’s surface can be located by its latitude and
longitude, celestial objects may also be located using Right Ascension and
Declination. For example: You could locate Los Angeles, California, by its latitude
(+34°) and longitude (118°). Similarly, you could locate the Ring Nebula (M57) by its
Right Ascension (18hr) and its Declination (+33°).
Star
1
12
11
1
13
10
2
14
15
9
8
16
17
18
7
Earth’s
Rotation
6
5
19
I
Right Ascension (R.A.): This celestial version of longitude is measured in units
of hours (hr), minutes (min), and seconds (sec) on a 24-hour "clock" (similar to
how Earth's time zones are determined by longitude lines). The "zero" line was
arbitrarily chosen to pass through the constellation Pegasus, a sort of cosmic
Greenwich meridian. R.A. coordinates range from 0hr 0min 0sec to 23hr 59min
59sec. There are 24 primary lines of R.A., located at 15-degree intervals along
the celestial equator. Objects located further and further East of the zero R.A. grid
line (0hr 0min 0sec) carry higher R.A. coordinates.
4
3
20
Celestial
Equator
21
22
23
0
Right Ascension
0 Dec.
2
South
Celestial
Pole
-90 Dec.
Fig. 34: Celestial Sphere.
I
Declination (Dec.): This celestial version of latitude is measured in degrees, arc-
minutes, and arc-seconds (e.g., 15° 27' 33"). Dec. locations North of the celestial
equator are indicated with a plus (+) sign (e.g., the Dec. of the North celestial pole
is +90°). Dec. locations South of the celestial equator are indicated with a minus
(–) sign (e.g., the Dec. of the South celestial pole is –90°). Any point on the celes-
tial equator (such as the the constellations of Orion, Virgo, and Aquarius) is said
to have a Declination of zero, shown as 0° 0' 0."
Setting Circles
Setting circles included with the LX200GPS models permit the location of faint celestial
objects not easily found by direct visual observation. The R.A. circle (11, Fig. 1 and
Fig. 36) is located on the top surface of the telescope’s drive base. The Declination
circle (Fig. 35) is located at the top of the fork tine. With the telescope pointed at the
North Celestial Pole, the Dec. circle should read 90° (understood to mean +90°).
Objects located below the 0-0 line of the Dec. circle carry minus Declination coordi-
nates. Each division of the Dec. circle represents a 1° increment. The R.A. circle runs
from 0hr to (but not including) 24hr, and reads in increments of 5min.
50
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Using setting circles requires a developed technique. When using the circles for the
first time, try hopping from one bright star (the calibration star) to another bright star
of known coordinates. Practice moving the telescope from one easy-to-find object to
another. In this way, the precision required for accurate object location becomes evi-
dent.
Note You may also enter an object's R.A. and Dec. coordinates using the
"User: Objects" option of Autostar II's Object menu. Autostar II then auto-
matically slews the telescope to the entered coordinates.
Note that the R.A. circle is double-indexed (i.e., there are two series of numbers run-
ning in opposite directions around the circumference of the R.A. circle). The upper
series of numbers (increasing counterclockwise) applies to observers located in the
Earth’s Northern Hemisphere; the lower series of numbers (increasing clockwise)
applies to observers located in the Earth’s Southern Hemisphere.
To use the setting circles to locate an object not easily found by direct visual
observation:
With the telescope aligned to the Celestial Pole, first look up the celestial coordinates
(R.A. and Dec.) of the object in a star atlas. Then loosen the R.A. lock and move the
telescope to read the correct R.A. of the desired object; lock the R.A. lock onto the
coordinate. Next, move the telescope in Declination to read the correct Declination of
the object. If the procedure has been followed carefully, and if the telescope was well-
aligned with the pole, the desired object should now be in the telescopic field of a low-
power eyepiece.
Fig. 35: Declination Setting Circle.
If you do not immediately see the object you are seeking, try searching the adjacent
sky area. Keep in mind that, with the 26mm eyepiece, the field of view of the
LX200GPS is about 0.5°. Because of its much wider field, the viewfinder may be of sig-
nificant assistance in locating and centering objects, after the setting circles have
been used to locate the approximate position of the object.
Pinpoint application of the setting circles requires that the telescope be precisely
aligned with the pole. See PRECISE POLAR ALIGNMENTS, page 53.
Fig. 36: Section of Right Ascension
Setting Circle.
Equatorial Wedge
An optional equatorial wedge is required for equatorial (polar) alignment.
Note: The Meade Superwedge is available for models using the giant tripod.
Contact the factory for more information.
Caution (14" model users only): An adapter plate is required to mount the
Superwedge with 14" models. It is recommended that you only mount the
Superwedge using the adapter plate; failure to use the adapter plate may
result in damage to the telescope or injury to the user. Contact the factory for
more information.
The equatorial wedge permits use in an astronomical, or “equatorial,” mode. The
wedge fits onto the field tripod. Equatorial alignment allows you to take longer expo-
sure photographs with your LX200GPS.
See the instruction sheet supplied with the wedge for installation and setup information.
Note: For almost all astronomical observing requirements, approximate set-
tings of the telescope’s latitude and polar axis are acceptable. Do not allow
undue attention to precise polar alignment of the telescope to interfere with
your basic enjoyment of the instrument.
Note: The Meade equatorial wedge is designed solely for use in conjunction
with your Meade tripod. The wedge should never be used without the tripod
(e.g., by placing the wedge alone on a table top and then mounting the tele-
scope on the wedge—the wedge may become seriously unbalanced, to the
point where the telescope may actually tip over.
Fig. 37: Equatorial Wedge.
Included features:
I
I
I
I
Attachment of the wedge to the tripod by means of only one manual knob.
Quick azimuth adjustment by loosening the manual knob.
Bubble level for rapid tripod/wedge leveling.
Etched latitude scale for fast adjustment of the latitude angle.
51
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Lining Up with the Celestial Pole
Objects in the sky appear to revolve around the celestial pole. (Actually, celestial
objects are essentially “fixed.” Their apparent motion is caused by the Earth’s rota-
tion). During any 24 hour period, stars make one complete revolution about the pole,
making concentric circles with the pole at the center. By lining up the telescope’s polar
axis with the North Celestial Pole (or for observers located in Earth’s Southern
Hemisphere, with the South Celestial Pole), astronomical objects may be followed, or
tracked, simply by moving the telescope about one axis, the polar axis. This tracking
may be accomplished automatically with the LX200GPS electric motor drive.
If the telescope is reasonably well aligned with the pole, very little use of the tele-
scope’s Declination slow motion control is necessary. Virtually all of the required tele-
scope tracking will be in Right Ascension. (If the telescope were perfectly aligned with
the pole, no Declination tracking of celestial objects would be required.) For the pur-
poses of casual telescopic observations, lining up the telescope’s polar axis to within
a degree or two of the pole is more than sufficient: with this level of pointing accura-
cy, the telescope’s motor drive will track accurately and keep objects in the telescop-
ic field of view for perhaps 20 to 30 minutes.
Begin polar aligning the telescope by locating Polaris. Finding Polaris is simple. Most
people recognize the “Big Dipper.” The Big Dipper has two stars that point the way to
Polaris (Fig. 38). Once Polaris is found, it is a straightforward procedure to obtain a
rough polar alignment.
Little Dipper
Polaris
To line up with Polaris, follow the procedure described below. Refer to the instruction
sheet included with your equatorial wedge for information about attaching the wedge
to the telescope and also about using the azimuth and latitude controls.
Big Dipper
Cassiopeia
Fig. 38: Locating Polaris.
1. Select "Setup: Telescope" from the Autostar II menus. Press ENTER. Scroll to
"Telescope: Mount" and press ENTER. Scroll to "Scope Mounting: Polar" and
press ENTER. The telescope mount is now set to the polar mode.
2. Press MODE until "Select Item: Setup" displays. Press ENTER. "Setup: Align"
displays. Press ENTER. "Align: Easy" displays. Scroll to "Align: One-Star" and
press ENTER. Autostar II now prompts you to set the telescope in the polar home
position.
Tip:
You can check if the declina-
tion is set at true 90° in step
2c. Look through the eyepiece
and rapidly slew the optical
tube on the R.A. axis. If all the
stars rotate around the center
of the field of view, the
Declination is set at 90°. If the
stars arc out of the field of
view, slew the optical tube on
the Declination axis until you
achieve the centering effect.
a. Using the bubble level of the wedge, adjust the tripod legs so that the bub-
ble is level.
b. Set the wedge to your observing latitude.
c. Using the Up and Down Arrow keys, rotate the telescope tube in Declination
so that the telescope’s Declination reads 90°. See SETTING CIRCLES, page 50.
d. Loosen the R.A. lock, and rotate the fork arms to the 00 position H. A. : Move
the forks arms so that center tick mark on fork arm base (A, Fig. 39) aligns
with the tick mark on the base (B, Fig. 39).
e. Press ENTER. The telescope slews to Polaris.
f. Use the azimuth and latitude controls on the wedge to center Polaris in the
field of view. Do not use the Autostar II handbox during this process. When
Polaris is centered, press ENTER. The telescope is now polar aligned. See
AUTOSTAR II POLAR ALIGNMENT, page 54, for more information.
Ả
At this point, your polar alignment is good enough for casual observations. There are
times, however, when you will need to have precise polar alignment, such as when
making fine astrophotographs.
Ạ
Once the latitude angle of the wedge has been fixed and locked-in according to the
above procedure, it is not necessary to repeat this operation each time the telescope
is used, unless you move a considerable distance North or South from your original
observing position. (Approximately 70 miles movement in North-South observing
position is equivalent to 1° in latitude change.) The wedge may be detached from the
field tripod and, as long as the latitude angle setting is not altered and the field tripod
is leveled, it will retain the correct latitude setting when replaced on the tripod.
ạ
Fig. 39: Align tick marks to set the
fork arms to 00 H.A. position.
The first time you polar align the telescope, check the calibration of the Declination
setting circle (Fig. 35). After performing the polar alignment procedure, center the star
Polaris in the telescope field. Remove the knurled central hub of the Declination set-
52
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ting circle and slightly loosen the two bolts located under the knob. Now turn the cir-
cle unit until it reads 89.2°, the Declination of Polaris. Then tighten down the two bolts
and replace the knurled knob.
Should you wish to use the manual setting circles, the R.A. setting circle (Fig. 36) must
be calibrated manually on the Right Ascension of a star every time the telescope is set
up. (The R.A. setting circle has two sets of numbers, the inner set is for Southern
hemisphere use, while the other is for Northern hemisphere use.) Locate a star with
which you're familiar. Look up the R.A. for the star in a star chart or other aid. With the
star centered in the telescope's eyepiece, move the R.A. setting circle, using one of
knobs (C, Fig. 39), so that the R.A. of the star lines up with the tick mark on the base
of the telescope (B, Fig. 39).
Precise Polar Alignment
It should be emphasized that while doing casual observing, precise alignment of the
telescope’s polar axis to the celestial pole is not necessary. Don’t allow a time-con-
suming effort at lining up with the pole to interfere with your basic enjoyment of the tel-
escope. For long-exposure photography, however, the ground rules are quite different,
and precise polar alignment is not only advisable, but almost essential.
Even though the LX200GPS telescopes offers a very precise and sophisticated drive
system, the fewer tracking corrections required during the course of a long-exposure
photograph, the better. (“Long-exposure” means any photograph of a celestial object
that last for 10 minutes or longer). In particular, the number of Declination corrections
required is a direct function of the precision of polar alignment.
Fig. 40: LX200GPS mounted on an
equatorial wedge.
Precise polar alignment requires the use of a crosshair eyepiece. The Meade
Illuminated Reticle Eyepiece (see OPTIONAL ACCESSORIES, page 42) is well-suited in
this application, but it is also preferable to increase the effective magnification through
the use of a 2X or 3X Barlow lens as well. Follow this procedure (particularly if the pole
star is not visible), sometimes better known as the “Drift” method:
1. Obtain a rough polar alignment as described earlier. Place the illuminated reticle
eyepiece (or eyepiece/Barlow combination) into the eyepiece holder of the tele-
scope.
2. Point the telescope, with the motor drive running, at a moderately bright star near
where the meridian (the North-South line passing through your local zenith) and
the celestial equator intersect. For best results, the star should be located within
±30 minutes in R.A. of the meridian and within ±5° of the celestial equator (see
CELESTIAL COORDINATES, page 50). Pointing the telescope at a star that is
straight up, with the Declination set to 0°, will point the telescope in the right direc-
tion.
3. Note the extent of the star’s drift in Declination (disregard drift in Right Ascension):
a. If the star drifts South (or down), the telescope’s polar axis is pointing too far
East.
b. If the star drifts North (or up), the telescope’s polar axis is pointing too far
West.
4. Move the wedge in azimuth (horizontally) to effect the appropriate change in polar
alignment. Reposition the telescope’s East-West polar axis orientation until there
is no further North-South drift by the star. Track the star for a period of time to be
certain that its Declination drift has ceased.
5. Next, point the telescope at another moderately bright star near the Eastern hori-
zon, but still near the celestial equator. For best results, the star should be about
20° or 30° above the Eastern horizon and within ± 5° of the celestial equator.
6. Again note the extent of the star’s drift in Declination:
a. If the star drifts South, (or down) the telescope’s polar axis is pointing too low.
b. If the star drifts North, (or up) the telescope’s polar axis is pointing too high.
7. Use the altitude adjust control on the wedge to make appropriate changes in alti-
tude, based on your observations above. Again, track the star for a period of time
to be certain that Declination drift has ceased.
The above procedure results in very accurate polar alignment, and minimizes the
need for tracking corrections during astrophotography.
53
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Autostar II Polar Alignment
Autostar II provides three different (manual) methods for polar alignment: Easy, One-
Star and Two-Star.
Important Note:
In order to select any of
Autostar II's three polar
alignment options, you must
first select "Polar" in the
"Mount" option of the
Easy Polar Alignment
Two alignment stars are chosen by Autostar II based on the date, time, and location.
First, choose "Polar" from the "Setup: Telescope: Mount" menu. The rest of the pro-
cedure is identical to the (Alt/Az) EASY (TWO-STAR) ALIGN, page 37.
"Setup: Telescope" menu.
One-Star Polar Alignment
Polar One-Star Alignment requires some knowledge of the night sky. Autostar II pro-
vides a library of bright stars and one star from this library is chosen by the observer
for alignment. Polaris is chosen by Autostar II. First, choose "Polar" from the "Setup:
Telescope: Mount" menu. The rest of the procedure is almost identical to the (Alt/Az)
ONE STAR ALT/AZ ALIGNMENT, page 38, except that Autostar II prompts you to point
the telescope at Polaris and center it in the telescope eyepiece.
Two-Star Polar Alignment
Polar Two-Star Alignment requires some knowledge of the night sky. Autostar II pro-
vides a library of bright stars and two stars from this library are chosen by the observ-
er for alignment. First, choose "Polar" from the "Setup: Telescope: Mount" menu. The
rest of the procedure is almost identical to the (Alt/Az) TWO STAR ALT/AZ ALIGNMENT,
page 37.
LX200GPS TIPS
S u r f t h e W e b
One of the most exciting resources for astronomy is the internet. The internet is full
of websites with new images, discoveries, and the latest astronomical information.
For example: When comet Hale-Bopp made its approach to our Sun in 1998,
astronomers around the world posted new photos daily.
On the internet, you can find websites for almost any topic relating to astronomy. Try
the following key word searches: NASA, Hubble, HST, astronomy, Messier, satellite,
nebula, black hole, variable stars, etc.
Check Meade’s website for the latest product and technical information. You can
download the latest software revisions, links to other astronomical sites, coordinates
of celestial objects and the latest satellite tracking information for your Autostar II
handset. See page 31 for more information. You’ll find our website at:
Here are some other sites you might find interesting:
• Sky & Telescope:
• Astronomy:
• The Starfield:
• Astronomy Picture of the Day:
• Heavens Above (satellite observing information):
• Photographic Atlas of the Moon:
• Hubble Space Telescope Public Pictures
54
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A P P E N D IX B : L A T IT U D E C H A R T
Latitude Chart for Major Cities of the World
To aid in the polar alignment procedure (see page 52), latitudes of major cities around the world are listed below. To determine the latitude of
an observing site not listed on the chart, locate the city closest to your site. Then follow the procedure below:
Northern hemisphere observers (N): If the site is over 70 miles (110 km) North of the listed city, add one degree for every 70 miles. If the
site is over 70 miles South of the listed city, subtract one degree per 70 miles.
Southern Hemisphere observers (S): If the site is over 70 miles (110 km) North of the listed city, subtract one degree for every 70 miles. If
the site is over 70 miles South of the listed city, add one degree per 70 miles.
NORTH AMERICA
City
Albuquerque
Anchorage
Atlanta
Boston
Calgary
Chicago
Cleveland
Dallas
Denver
Detroit
Honolulu
Jackson
Kansas City
Kenosha
Las Vegas
Little Rock
Los Angeles
Mexico City
Miami
Minneapolis
Nashville
New Orleans
New York
Oklahoma City
Ottawa
Philadelphia
Phoenix
Portland
Salt Lake City
San Antonio
San Diego
San Francisco
Seattle
SOUTH AMERICA
City
Bogotá
São Paulo
Buenos Aires
Montevideo
Santiago
State/Prov./Country Latitude
Country
Colombia
Brazil
Argentina
Uruguay
Chile
Latitude
4° N
New Mexico
Alaska
Georgia
Massachusetts
Alberta
Illinois
Ohio
Texas
Colorado
Michigan
Hawaii
Mississippi
Missouri
Wisconsin
Nevada
Arkansas
California
Mexico
35° N
61° N
34° N
42° N
51° N
42° N
41° N
33° N
40° N
42° N
21° N
32° N
39° N
45° N
36° N
35° N
34° N
19° N
26° N
45° N
36° N
30° N
41° N
35° N
45° N
40° N
33° N
46° N
41° N
29° N
33° N
38° N
47° N
39° N
23° S
35° S
35° S
34° S
10° N
Caracas
Venezuela
ASIA
City
Beijing
Hong Kong
Seoul
Taipei
Tokyo
Sapporo
Bombay
Calcutta
Hanoi
Country
China
China
South Korea
Taiwan
Japan
Japan
India
India
Vietnam
Saudi Arabia
Latitude
40° N
23° N
37° N
25° N
36° N
43° N
19° N
22° N
21° N
21° N
Jedda
Florida
AFRICA
City
Cairo
Cape Town
Rabat
Tunis
Minnesota
Tennessee
Louisiana
New York
Oklahoma
Ontario
Pennsylvania
Arizona
Oregon
Utah
Texas
California
California
Washington
District of Columbia
Country
Egypt
South Africa
Morocco
Tunisia
Latitude
30° N
34° S
34° N
37° N
Windhoek
Namibia
23° S
AUSTRALIA AND OCEANIA
City
Adelaide
Brisbane
Canberra
Alice Springs
Hobart
Perth
Sydney
Melbourne
Auckland
State/Country
South Australia
Queensland
New South Wales
Northern Territory
Tasmania
Western Australia
New South Wales
Victoria
Latitude
35° S
27° S
35° S
24° S
43° S
32° S
34° S
38° S
37° S
Washington
EUROPE
City
Amsterdam
Athens
Bern
Copenhagen
Dublin
Frankfurt
Glasgow
Helsinki
Lisbon
London
Madrid
Oslo
Paris
Rome
Country
Netherlands
Greece
Switzerland
Denmark
Ireland
Germany
Scotland
Finland
Portugal
England
Spain
Norway
France
Italy
Sweden
Austria
Poland
Latitude
52° N
38° N
47° N
56° N
53° N
50° N
56° N
60° N
39° N
51° N
40° N
60° N
49° N
42° N
59° N
48° N
52° N
New Zealand
Stockholm
Vienna
Warsaw
55
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A P P E N D IX C : C R E A T E
Y O U R O W N G U ID E D T O U R
Creating your own Guided Tour can be an extremely useful tool. You can preprogram a
script of objects you wish to view and study on any given night. You can also create a
viewing script for students or for a friend.
More commands will be added from time-to-time to the list below. Periodically visit
When a Guided Tour is selected, Autostar II slews your telescope to a predetermined
list of objects and displays information about each object, such as type of object, con-
stellation location, R.A. and Dec. coordinates, and so forth. Autostar II contains a few
Guided Tours which are programmed at the factory. But it is also possible for an observ-
er to create a custom Guided Tour.
A tour is basically an ASCII text file that contains a list of directions and descriptions.
Each line of a tour is either a comment line, a command line, or a description.
What you will need:
I
A PC with text editor or word processing software installed (the tour must be
saved as a "text only" or as a "MS-DOS text" file).
I
The optional Meade LX200 Interface Cable to download tour information to the
Autostar II handbox.
Tour Modes
The objects chosen for a tour list are selected from Autostar II's database or by enter-
ing the object's R.A. and Dec. coordinates. The tour is presented in one of two modes:
Automatic Mode: The title of an object appears on first line and descriptive text scrolls
on line 2.
Interactive Mode: Tour name appears on the first line of the Autostar II display and the
name of the object displays on line 2. To display descriptive text in this mode, the user
must press ENTER.
Comment Line
Information in the Tour program that is not displayed, such as authorship, revision his-
tory, copyrights, etc. All comments begin with a "/" character in column 1 of the line.
For example:
/ Extreme Objects
/ (c) 2002 Meade Instruments Corporation
Command Line
This line contains programming commands, including: R.A. and Dec. coordinates, a
title string, a description string, and a keyword.
R.A.: Enter the Right Ascension of an object in the following format: HH:MM:SS.
Eg., 18:51:05
Dec.: Enter the Declination of an object in the following format: DDdMMmSSs. Eg., –
06d16m00s
Title String: Text within a title string is displayed as the title of the object. A title string
can contain up to 16 characters and must be surrounded by quotation marks. For
example: "M64" or "My Favorite Star."
In Interactive Mode, the title string appears on line 2 until it is selected with the ENTER
key.
In Automatic Mode, or after Interactive Mode selection, the title string appears on line
1 while the description scrolls across line 2.
Keywords: Action to be performed during a tour. Autostar II recognizes the following
keywords:
56
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TITLE
IC
PLANET
COMET
CONSTELLATION
TEXT
SAO
MOON
USER
MESSIER
SATELLITE
NGC
CALDWELL
ASTEROID
LUNAR ECLIPSE METEOR SHOWER DEEP SKY
STAR
LANDMARK
ON/OFF
DEFINE
#END
PICK ONE/PICK END AUTO SLEW
Description String: Description of an object. Must be surrounded by quotation
marks. If the description is longer than one line, each line must end with a quotation
mark and a hard return. Begin the next description line with a quotation mark.
If quotation marks are to be displayed in the on-screen description, use two quote
marks at the beginning and end of the desired phrase. For example: "The Orion
Nebula is considered ""awesome"" by many who view it."
Writing a Tour
Using the list of commands listed above, a custom tour can be created. Placing the
word AUTO SELECT before any of the command lines activates Automatic Mode and,
when selected, Autostar II automatically searches and finds the designated object.
The following is a list of command lines, complete with keywords and necessary
strings:
TITLE
Title must be the first keyword in your tour after any comment lines and must be 15
characters or less. Autostar II displays this title when "Guided Tour" is selected from
the menus.
For example: TITLE "A Star's Life"
TEXT "title string" "description string"
This command allows you to display a text title and description.
USER ra dec "title string" "description string"
This command line allows you to access a specific object with your own description.
Enter USER, then the R.A. and Dec. of a desired object, and its title and description.
Use the format described in the Command Line section.
The following commands specify objects that are already in the Autostar II database.
If these commands follow the command AUTO SELECT, the object's title displays on
line 1 and its description scrolls across line 2.
Do not add a description string after the following command lines; these commands
access objects with existing description in the Autostar II database.
NGC xxxx
Enter NGC followed by the desired New General Catalog number and Autostar II pro-
vides the user with a description of the object from its database. For example: NGC
4256
IC xxxx
Enter IC followed by the desired Index Catalog number and Autostar II provides the
user with a description of the object from its database. For example: IC 1217
SAO xxxxxx
Enter SAO followed by the desired SAO number and Autostar II provides the user with
a description of the object from its database. For example: SAO 30200
Messier xxx
Enter MESSIER followed by the desired Messier number and Autostar II provides the
user with a description of the object from its database. For example: M 101
CALDWELL xxx
Enter CALDWELL followed by the Caldwell number and Autostar II provides the user
with a description of the object from its database. For example: CALDWELL 17
57
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PLANET "name"
Enter PLANET and then the name of the desired planet in quotes. Autostar II provides
the user with a description of the selected planet from its database. For example:
PLANET "Pluto"
MOON
This command accesses information about the Moon from the Autostar II database.
SATELLITE "name"
Enter SATELLITE and then the name of the desired satellite in quotes. Autostar II dis-
plays information about the satellite from its database. For example: SATELLITE: "Intl
Space Stn"
ASTEROID "name"
Enter ASTEROID and then the name of the desired asteroid in quotes. Autostar II dis-
plays information about the asteroid from its database. For example: ASTEROID:
"Ceres"
COMET "name"
Enter COMET and then the name of the desired comet in quotes. Autostar II displays
information about the comet from its database. For example: COMET: "Halley"
LUNAR ECLIPSE
If LUNAR ECLIPSE is part of the tour, Autostar II checks its database every time the
tour is activated to see if a lunar eclipse is visible that evening. If no eclipse is visible,
this option is skipped and the tour proceeds on to the next object.
METEOR SHOWER
If METEOR SHOWER is part of the tour, Autostar II checks its database every time
the tour is activated to see if a meteor shower is visible that evening. If no meteor
shower is visible, this option is skipped and the tour proceeds on to the next object.
DEEP SKY "name"
Enter DEEP SKY followed by the name of the desired object in quotes. For example:
DEEP SKY "Small Magellanic Cloud"
CONSTELLATION "name"
Enter CONSTELLATION followed by the name of the desired constellation in quotes.
For example: CONSTELLATION "Leo Major"
STAR "name"
Enter STAR followed by the name of the desired star in quotes. For example: STAR
"Vega"
LANDMARK az alt "title" "description"
Enter the azimuth (az) for the desired object in the following format: xxxdxxmxxs. For
example: 123d27m00s. Then enter the altitude of the desired object in the following
format: xxdxxmxxs. Then enter the title string and description string in quotes. For
example:
LANDMARK 123d27m00s 57d20m20s "Landmark 1" "North corner of apartment
building"
PICK ONE / PICK END
These two statements are used to surround a list of items that Autostar II can choose
from during a tour. Autostar II begins at the top of the PICK ONE list and displays the
first object from the list that is above the horizon and ignores the rest.
This statement is useful for developing tours that can be presented year-round. For
each object type you wish to use to illustrate in your tour, pick 10 to 12 examples
spaced across the range of right ascension. Bracket them by the PICK ONE / PICK
END statements. One current example displays for the user. For example:
AUTO SELECT TEXT "Globular Cluster" "Globular clusters are huge balls of stars."
"They contain 50,000 to 100,000 stars and are located on the fringes of our"
"galaxy."
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PICK ONE
AUTO SELECT MESSIER 13
AUTO SELECT MESSIER 15
AUTO SELECT MESSIER 92
AUTO SELECT MESSIER 4
AUTO SELECT MESSIER 68
AUTO SELECT NGC 1234
AUTO SELECT TEXT "None Available" "I'm sorry. There are no bright globular"
"clusters visible at this time."
PICK END
AUTO SLEW ON / AUTO SLEW OFF
With AUTO SLEW ON enabled in the tour, Autostar II automatically slews the tele-
scope to objects first before displaying the text description. This feature is useful when
designing tours in which observing certain objects is required. For example: An
astronomy professor may require his students to observe six objects, four of which
Autostar II automatically slews to in a tour. The students would have to manually slew
to the last two objects. He would then place AUTO SLEW ON before his first required
object and AUTO SLEW OFF after the fourth object.
#END
To end a tour, type the command #END on a separate line at the very end of the tour.
Downloading Tours
Once a tour is written and stored as an ASCII file (saved either as a "text only" or "MS
DOS text" file), load it into Autostar II using the Autostar II Update Utility on your PC.
As tours are downloaded into the handbox, Autostar II examines the programming. If
it doesn't understand the terminology used within a tour, it flags questionable areas
and displays them in a pop-up window on your computer screen. Make the necessary
corrections and try to download again. See the instruction sheet with your LX200
Interface Cable for more information about downloading data to and interfacing with
Autostar II.
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A P P E N D IX D : T R A IN IN G T H E D R IV E
Train the telescope motors using Autostar II. Perform this procedure if you are experiencing any pointing accuracy
problems. Fig. 41 depicts the complete Drive Training procedure.
Note: Use a terrestrial object, such as a telephone pole or lamp post, to train the drive. Complete this exer-
cise once every 3 to 6 months to maintain the highest level of telescope pointing accuracy.
LX200GPS TIPS
F u r t h e r S t u d y. . . .
Verify that AUTOSTAR
INITIALIZATION is
complete.
Press > until it
is centered
1
2
12
This manual gives only the briefest introduction to astron-
omy. If you are interested in pursuing further studies in
astronomy, a few topics are suggested below that are
worth reading up on. Try looking up some of these in the
optional Autostar II glossary.
Scope slews left.
Bring target back
to center using
Press MODE until
Select Item is displayed.
the Right Arrow key.
Select Item
3
Also included below is a small sampling of books, maga-
zines, and organizations that you might find helpful.
Object
Press < until it
is centered
13
Press the scroll
up key once.
Topics
Scope slews right.
Bring target back
to center using
1. How is a star born? How does a solar system form?
Select Item
Setup
2. How is the distance to a star measured? What is a
light year? What is red shift and blue shift?
4
the Left Arrow key.
Access the Setup
menu.
3. How are the craters on our Moon formed? Is there
water under the surface of the Moon?
Train Drive
Az. Train
14
4. What is a black hole? A neutron star? A quark star?
A gamma burster? An Einstein lens?
Menu returns to
Az. training.
Setup
5
Align
5. What are stars made of? Why are stars different
colors? How is the elemental composition of a star
determined? What is an Lyman Alpha forest?
Multiple presses.
Train Drive
Alt. Train
Altitude
15
16
6. What is the difference between a Type 1 and a Type
II supernova?
Setup
6
(vertical)
training.
7. What is the importance of studying the composition
of comets? Where do comets come from?
Telescope
Access the
Telescope menu.
Drive Setup
For this op. . .
8. How old is our Sun? Will our Sun evolve into a plan-
etary nebula or go supernova?
Reminder to
use terrestrial
target.
9. What is the Inflationary Big Bang? What is dark mat-
ter? What are MACHO's?
Telescope
Telescope Model
7
10. How are extrasolar planets discovered? What is an
accretion (or protoplanetary) disk?
Multiple presses.
Center reference
17
object
11. What are the differences between elliptical, spiral,
and irregular galaxies? Can globular clusters be
older than the universe itself?
Center target
using Arrow
keys.
Telescope
Train Drive
8
Books
Choose the Train
Drive option.
Press until it
is centered
1. The Guide to Amateur Astronomy by Jack Newton
and Philip Teece
18
Scope slews down.
Bring target back
to center using
Train Drive
Az. Train
Azimuth
2. The Sky: A User’s Guide by David Levy
9
3. Turn Left at Orion by Guy Consolmagno & Dan Davis
the Up Arrow key.
4. Astrophotography for the Amateur by Michael
Covington
(horizontal)
training.
Press until it
is centered
19
Magazines
Drive Setup
For this op. . .
Reminder to
10
1. Sky & Telescope
Box 9111, Belmont, MA 02178
2. Astronomy
Scope slews up.
Bring target back
to center using
use terrestrial
target.
the Down Arrow key.
Box 1612, Waukesha, WI 53187
Organizations:
Center reference
object.
Train Drive
Az. Train
Multiple presses.
11
20
1. Astronomical League
Center target
using Arrow
keys.
Executive Secretary
MODE
5675 Real del Norte, Las Cruces, NM 88012
2. The Astronomical Society of the Pacific
390 Ashton Ave., San Francisco, CA 94112
3. The Planetary Society
Select Item
Object
21
65 North Catalina Ave, Pasadena., CA 91106
And watch Jack Horkheimer, Star Gazer, on your local
PBS station.
Figure 41: Training the Drive Procedure.
60
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A P P E N D IX E : T H E M O O N M E N U
The Moon option of the Object menu allows you to observe the moon in a way never
possible before. You will be able locate many specific features of the lunar surface,
including hundreds of craters, mare, valleys, and mountains. One special feature
allows you to view all six Apollo landing sites. While you won't be able to see details
such as any of the lunar landers or lunar excursion modules left behind by the astro-
nauts (the best earth-based telescopes can only resolve features of about a half-mile
across), you'll be able pinpoint the landing sites and study the terrain surrounding
these sites.
When Autostar II synchs to a lunar feature, the telescope switches to Selenographic
coordinates, i.e., lunar latitude and longitude.
To observe the Apollo 15 landing site using the Moon option:
1. Initialize and align the telescope system as previously described.
2. Press "5" on the Autostar II keypad. "Solar System: Mercury" displays.
3. Press a Scroll key until "Solar System: Moon" displays. Press ENTER.
4. "Moon: Overview" displays. Press GO TO. The telescope slews to the Moon.
5. With "Moon: Overview" on Autostar II's display, use the Scroll keys to browse
through the menus options. Five categories of features are available: Landing
Sites, Craters, Mountains, Mare and Lakes, and Valleys and Rills.
6. Select a distinct lunar crater with which you are familiar, such as Copernicus or
Kepler, from the Craters option and press ENTER.
7. Then press GO TO to slew to that feature. Center the feature in the eyepiece
and hold down ENTER for more than two seconds to ENTER TO SYNC. The
telescope is now synced to Selenographic coordinates.
8. Press MODE twice to return to the features list. Press a Scroll key until "Moon:
Landing Sites" displays.
9. Press ENTER. "Landing Sites: Apollo 11" displays.
10. Press a Scroll key until "Landing Sites: Apollo 15" displays.
11. Press GO TO. The telescope slews to the Apollo 15 site.
12. Press MODE to return to the previous menu option. Continue to press MODE
to exit this menu.
Use this method to find other lunar features and points of interest. When you have
selected a feature, press the "?" key or use the Scroll keys to display detailed infor-
mation about the feature. Press MODE to return to the menu options.
Kepler
Copernicus
Tycho
Figure 42: Some easily recognized lunar craters.
61
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A P P E N D IX F :
1 6 " L X 2 0 0 G P S F E A T U R E S
Ả
Ạ
ả
ạ
ấ
Ầ ầ Ẩ
Ấ
Figure 43: 16" LX200GPS Computer Control Panel.
16" LX200GPS Unique Features
Caution:
The 16" LX200GPS contains, for the most part, the same features (covered earlier in
this manual) as all other LX200GPS telescope models. The following features are
unique to the 16" model.
Due to the weight and size
of the 14" and the 16"
LX200GPS models, please
use extreme caution when-
ever assembling, disassem-
bling, lifting, transporting or
storing this product. Two or
more persons should
Control Panel Features:
18vDC Power Connector (B, Fig. 43): Provides a connection so that the telescope
assembly may be powered from a standard 115v AC home outlet using the supplied
Power Adapter.
always be used whenever
performing any of the above
tasks. Disregard for the
above warning could result
in serious injury or death.
The De-Rotater port (G, Fig. 43), for use in altazimuth alignment, allows you connect
the optional #1222 Field De-Rotater for long-exposure astrophotography by eliminat-
ing the image rotation inherent in altazimuth tracking. See OPTIONAL ACCESSORIES,
page 43.
The "De-Rotater" menu option in the Utilities menu allows you to turn the De-rotater
on or off using the Autostar II handbox.
12 vDC Output (Fan) Port (E, Fig. 43) is used to power the fans located on the opti-
cal tube assembly (OTA). The fans evacuate the warm air trapped inside the tube,
allowing for faster cool-down.
The fan takes warm air from the OTA so that cool air can enter the OTA through the
filtered hole on the side of the OTA. The input filter prevents dust from entering the
OTA. Periodically replace the filter by removing the four bolts holding the grill. The fan
also has a filter, but this filter keeps dust out of the OTA while the fan is off; it should
not need replacing.
The "AUX Power" option in the Utilities menu allows you to turn the fan on or off.
Select "Yes" to turn on.
Commercial Shipping
Caution: Serious damage to the drive gears may result from shock in han-
dling. During transport or commercial shipping, the R.A. lock (12, Fig. 1)
and/or the Dec. lock (17, Fig. 1) must not be engaged. Always release the
locks when storing in the case or when crating for commercial shipment.
This allows the telescope to give if the case or crate is sharply jarred or
dropped.
The optical and mechanical axes of the 16" LX200GPS telescope have
been carefully aligned at the factory to ensure accurate object pointing. Do
not loosen or remove the optical tube assembly from the tube adapters (25,
Fig 1).The resulting misalignment of the axes will result in inaccurate slew-
ing of the telescope in the GO TO mode. Do not attempt to turn the focus
knob of the optical tube (6, Fig. 1) until you have read the following note.
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Caution: Next to the focus assembly are two red slot-head bolts, used
only for safety reasons in shipment. Remove these bolts before attempt-
ing to turn the focus knob. In its place, insert the rubber plugs provided as
a dust protector (these rubber plugs are included with your hardware
package).
B
c
The 16” LX200GPS should never be commercially shipped without the red
bolts in place. This is essential during commercial transport, where rough
handling may occur. Your transport and storage of the telescope never
requires these bolts.
e
f
d
To re-ship the 16” LX200GPS commercially, be sure to follow this procedure:
1. Turn the focus knob clockwise until it stops so that it moves the primary mirror all
the way back in the tube.
2. Remove the rubber plug and insert the red bolt. Thread it in to a firm feel (if you
have misplaced the red bolt, you may use any bolt that is 1/4-20x1" long).
h g
Fig. 44: The Super Giant Field Tripod:
(1) Tripod head;
(2) Threaded rod; (3) Tension knob;
(4) Spreader bar; (5) Lock knobs;
(6) Extension strut; (7) Tension hub.
3. When packaging the 16” LX200GPS, be sure to release the R.A. lock (12, Fig. 1) and
Dec. lock (17, Fig. 1) to prevent shock to the gears in the motor assemblies should
the package suffer rough handling.
Commercial shipment of the 16" LX200GPS telescope without the red safety bolt in
place as described above is done at the owner’s risk and your warranty may be void-
ed if shipping damage results.
16" TELESCOPE ASSEMBLY
Use the following procedure to assemble your telescope:
B
To Assemble the 16” Super Field Tripod
The 16” Super Field Tripod (Figs. 44 and 45) for the Meade 16” LX200GPS telescope
is supplied as a completely assembled unit, except for the spreader bar (4, Fig. 44)
and the six lock-knobs (5, Fig. 44). There are two knobs for each of the three tripod
legs. They are used to adjust the level of the tripod. These knobs are packed sepa-
rately for safety in shipment.
Fig. 45: The Super Giant Field Tripod
collapsed.
For most observations, the drive base of the telescope’s fork mount is attached direct-
ly to the super giant field tripod, in the altazimuth (altitude-azimuth or vertical-hori-
zontal) format.
The telescope also can be mounted on a permanent pier in the equatorial format,
which is set for the latitude of the observing location (see APPENDIX A, pages 50 through
54, for instructions on using the telescope in equatorial mode). The equatorial mode
permits alignment of the telescope’s polar axis with the celestial pole.
After removing the field tripod from its shipping carton, stand the tripod vertically, with
the tripod feet down and with the tripod still fully collapsed (Fig. 45). Remove the lower
knob (1, Fig. 45), releasing the tension hub (7, Fig. 44). This knob is used only when
storing the field tripod. Moving one leg at a time, gently pull the legs apart. As the legs
are opened, the tension hub will move down the threaded rod (2, Fig. 44) until it is free
from the threaded rod. Continue to move the legs apart to a fully open position.
Fig. 46: Tighten the tripod spreader
bar with the tension knob.
Thread in the two lock-knobs (5, Fig. 44) for each tripod leg, near the foot of each leg.
These lock-knobs are used to fix the position of the inner tripod leg sections. These
sections are used to level the telescope (described below).
Note: Tightening to a firm-feel is sufficient. Over-tightening may result in
stripping of the knob threads or damage to the tripod legs; it provides no
additional strength.
Loosen the tension knob (3, Fig. 44), holding the spreader bar (4, Fig. 44), and slide
the spreader bar down the threaded rod until you can rotated it so that the three arms
align with the three tripod legs. Tighten the tension knob ( Fig. 46) to a firm feel; firm
tightening of the tension knob is sufficient to result in rigid positioning of the legs. Do
not use force in tightening this knob.
Fig. 47: Remove the pointed bolts
from the drive base.
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To collapse the tripod (after removing the telescope) for storage, follow these
steps:
a. Loosen the tension knob and rotate the spreader bar 60° from its assembled posi-
tion, so that one spreader bar arm is located between each adjacent pair of tripod
legs.
b. Move the spreader bar to the top of the threaded rod. Tighten the tension knob,
locking the bar.
c. Working one leg at a time, gradually collapse the legs of the field tripod until the
tension hub is positioned onto the threaded rod. Use the second tension knob to
secure the tension hub in place.
Attaching the 16” Drive Base
a. Remove the three pointed bolts that hold the packing material in place. These bolts
are used only for shipping purposes and not used in the telescope assembly pro-
cedure. See Fig. 47.
Fig. 48: Attach the drive base to the
tripod.
b. Rotate the field tripod so that one leg is pointing approximately South (it need not
point exactly South).
c. Position the 16” drive base onto the field tripod, with the power panel facing South.
Secure the drive base using the three 1/2”-13x1-1/2” long bolts. Thread these bolts
up through the underside of the tripod head into the drive base using the supplied
hex key. Firmly tighten these bolts. See Fig. 48.
c. Level the drive base by loosening the six lock-knobs (5, Fig. 44) and sliding out the
inner tripod legs.
d. Note the DB-15 connector at the center of the base.
Attaching the Fork
a. Place the single-piece fork onto the top of the drive base. One side of the base of
the fork has a cutout to allow clearance for the R.A. lock (12, Fig. 1) and R.A. slow-
motion control (10, Fig. 1), which are located on top of the drive base.
Fig. 49: Bolt the fork to the drive
base.
b. Bolt the fork to the drive base using the four 3/8”-16x3/4” long bolts (Fig. 49). Using
the supplied hex key, tighten to a firm feel only.
c. Unscrew and remove the four thumbscrews from the rectangular plate (Fig. 50) in
the center of the fork base. Remove the plate. Note the DB-15 plug under the fork
base.
d. Connect the DB-15 plug to the DB-15 connector underneath the plate. Tighten the
two thumbscrews onto the connector to a firm feel. See Fig. 51.
e. A fifth 3/8”-16x3/4” long bolt is supplied with the telescope. Just using your fingers,
loosely tighten this bolt under the plate. See Fig. 51. This bolt acts as a safety fea-
ture to prevent the DB-15 connector and cable from being damaged when you dis-
assemble the telescope. You will not be able to disassemble the telescope until the
bolt is removed. The bolt is located near the DB-15 assembly in the base as a
reminder to unplug the connector before removing the fork from the drive base.
Fig. 50: Remove the for thumbscrews
from the plate.
Mounting the Optical Tube Assembly (OTA)
This step requires two people who can lift up to 70 pounds each (Note: See Caution
on page 62). The optical tube assembly (OTA) weighs about 125 lbs. and it must be
positioned accurately in order to mount to the fork.
a. Located on the two top surfaces of the fork are two shoulder bolts. These two bolts
function as locating pins for the OTA. On the inside edge of the Dec. castings are
two matching holes (with slots). Before trying to mount the OTA, be sure to locate
these two bolts and holes. Notice that the bolts and holes are located on one side
of the castings, requiring the OTA to be mounted one way only.
Fifth bolt
DB-15
Connector
Connector
thumbscrew
b. Tighten the Dec. lock (12, Fig. 1) to a firm feel only. With you on one side of the
OTA and your assistant on the other side, grasp the two handles on each side and
lift the OTA onto the top of the fork. Position the holes over the shoulder bolts.
When they are in place, slide the OTA back so that the shoulder bolts lock into the
slots (Fig. 52).
Fig. 51: View beneath plate (fork base
not shown for clarity sake): Thread-in
the fifth bolt and attach the DB-15
connector underneath the plate.
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c. Lock the OTA in place using the four 3/8”-16x3/4” bolts. Thread up the four bolts
into the bottom of the Dec. castings, two on each side. Using the supplied hex key,
tighten to a firm feel only (Fig. 53).
Attaching the Power and Data Cords
Several power and data cords are supplied with the 16” LX200GPS. These should all
be attached before powering up the telescope.
a. Confirm that the power switch (A, Fig. 43) on the power panel is in the OFF posi-
tion. Connect the power adapter to the 18vDC connector (B, Fig. 43).
b. 2 short cords (8” long) with DB-9 connectors are supplied to provide power to the
Dec. system, the GPS, and the level sensor. Plug into the two DB-9 connectors
located at the top of the sides of the fork and the Dec. casting (Fig. 54).
c. Connect the Autostar II handbox to the HBX connector (F, Fig. 43) on the control
panel.
d. Connect the supplied coil cord from the fan to the 12vDC output jack (E, Fig. 43)
on the control panel.
Fig. 52: Position the holes over the
shoulder bolts. When they are in
place, slide the OTA back so that the
shoulder bolts lock into the slots.
Fig. 53: Tighten the fork arm assem-
bly using the provided hex key.
LX200GPS TIPS
O b s e r v in g C o n s id e r a t io n s
•
•
Try to pick an observing site away from street and house lights and car head-
lights. While this is not always possible, the darker the site, the better.
Give your eyes about ten minutes to adjust to the darkness before observing.
Give your eyes a rest from observing every ten or fifteen minutes to relieve
eyestrain.
•
Try not to use a standard flashlight. Experienced observers use red LED flash-
lights, the red utility light on the Autostar II handbox, or tape red cellophane
over their flashlights to use for setup and map reading so they don’t have to
continually readjust their eyes to the darkness. Be careful not to shine bright
lights if there are other observers in the area. Do not shine a flashlight into the
telescope while someone is observing!
•
•
Dress warmly. It gets chilly when you’re sitting for prolonged periods.
Fig. 54: Plug in the DB-9 connectors
to provide power from the Dec. motor
to the fork arms.
Practice setting up your equipment during the day or in a lighted area to
become familiar with it before going to a dark site.
•
Use your 26mm eyepiece to view terrestrial objects and wider areas of space,
such as open star clusters. Use optional higher power eyepieces, such as a
9mm eyepiece (see OPTIONAL ACCESSORIES, page 41 for more details), when
you wish to view something up close, such as craters on the Moon or the rings
of Saturn.
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A P P E N D IX G :
1 4 " L X 2 0 0 G P S F E A T U R E S
14" LX200GPS Unique Features
The 14" LX200GPS contains, for the most part, the same features (covered earlier in
this manual) as all other LX200GPS telescope models.
The following features are unique to the 14" model:
Battery Compartment
Fig. 55a: One of the two 14"
The battery compartments for the 14" LX200GPS are located under the horizontal
beam of the fork arms (Fig. 55a). Each compartment has an indentation below it (Fig.
55b) to allow you to slide out the compartment easily.
LX200GPS battery compartments.
Important Note: The compartments are designed to hold batteries only.
Do not use these compartments to store any other items.
Two button-head screws are provided to secure the battery compartments when using
the telescope in equatorial alignment. The telescope ships with the screws installed.
To install the batteries, first remove the screws with the supplied hex key. See Fig. 55c
for location of the screws. Next, remove the battery holder and install the batteries as
described in step #2 on page 13. Replace the holder and close the compartment.
Replace the screws if you plan to use the telescope in equatorial alignment. These
screws are not necessary when using the telescope in altazimuth alignment.
Fig. 55b: An indentation on the
underside of one of the 14"
LX200GPS battery compartments.
2" Diagonal Mirror with 1.25" Adapter
The 14" LX200GPS comes equipped with a 2" diagonal mirror with a 1.25" adapter.
See pages 13 and 14 for information on how to install these devices to the microfo-
cuser assembly.
Optical Tube Assembly
Important Note: Attaching the 14" LX200GPS optical tube assembly to the
tripod is identical to the procedure described on pages 12 and 13.
Caution: Due to the weight and size of this product please use extreme
caution whenever assembling, disassembling, lifting, transporting or stor-
ing this product. Two or more persons should always be used whenever
performing any of the above tasks. Disregard for the above warning could
result in serious injury or death.
Fig. 55c: Location of one of the bat-
tery compartment screws. The other
is located on the opposite end of the
horizontal beam of the fork arms
near the other battery compartment.
Caution: On the rear section of the optical tube is a red slot-head bolt,
used only for safety reasons in shipment. Remove this bolt before
attempting to turn the focus knob. In its place, insert the rubber plug pro-
vided as a dust protector (this rubber plug is included with your hardware
package).
The 14” LX200GPS should never be commercially shipped without the red
bolt in place. This is essential during commercial transport, where rough
handling may occur. Your transport and storage of the telescope never
requires this bolt.
Fig. 56: 14" model auxiliary focus
and reticle jacks are located on the
left fork arm.
Auxiliary Jacks
The 14" model provides auxiliary focus and reticle jacks on the left fork arm (Fig. 56)
for your convenience. Use of the auxiliary jacks eliminates the cord tangle which
sometimes occurs when using the jacks located on the control panel
Collimation
The 14" LX200GPS can be collimated using the procedure described in the Collimation
section, pages 44 - 46, with one exception: When tightening a collimation screw, it is
not necessary to loosen the other two collimation screws, or vice versa. In other
words, the screws may be tightened or loosened independently of each other.
Fig. 57: Insert the included hex
wrench into the slots in the plate of
secondary mirror housing to access
the collimation screws (14" model
only).
A hex wrench is included in the accessory kit for collimation (use the smaller of the
two included hex wrenches; the smaller wrench is only included with the 14" model).
Insert the hex wrench into the slots in the plate of the secondary mirror housing to
access the collimation screws which are housed below the plate. See Fig. 57 for the
position of the slots.
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A P P E N D IX H :
D E -R O T A T E R A N D
M IC R O F O C U S E R A S S E M B LY
When using a de-rotater, it is important to attach the microfocuser so that it is backed
off slightly from the de-rotater. If the microfocuser is flush against the de-rotater, the
assembly will not work properly. This is true also with other accessories that may
attach up flush against the de-rotater housing. The diagonal mirror (if used without the
microfocuser) may be attached tightly as it does not rub up against the de-rotater
housing.
To attach the microfocuser to the de-rotater:
Refer to Fig. 6, page 13, for an exploded view of the microfocuser assembly. Perform
this assembly on a flat surface (such as a desk or a table) before you attach the de-
rotater and microfocuser to the telescope.
Fig. 58: Back off the adapter ring one
full revolution.
1. With the de-rotater on a flat surface, thread on the adapter ring (B, Fig. 6) until it
just touches the housing; then back off the adapter ring (i.e., turn it counter-clock-
wise) one full revolution as shown in Fig. 58.
12:00 position
2. Place the microfocuser over the ring with the "hump" of the microfocuser in the
12:00 position as shown in Fig. 59.
3. Using the provided hex key, tighten to a firm feel one of the three microfocuser hex
screws (K, Fig. 6) up against the adapter ring as shown in Fig. 60. Take care not
to tighten or loosen the adapter ring as you position and tighten the microfocuser
in place.
4. Tighten to a firm feel the other two microfocuser hex screws.
5. Attach the de-rotater to the rear cell of the telescope.
Fig. 59: Place the microfocuser over
the adapter ring. Notice the orienta-
tion of the microfocuser.
Fig. 60: Tighten the three microfo-
cuser hex screws to a firm feel.
67
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A P P E N D IX I:
S m a r t M o u n t
Introduction
Smart Mount improves the pointing accuracy of your LX200GPS telescope's "Go to"
system. Despite careful efforts to calibrate and align telescopes, they may fail to
precisely center objects. Smart Mount allows your telescope to learn about, and then
correct for, any systematic pointing errors, regardless of the cause.
Because training your mount takes some time, we recommend that it be primarily
used on permanently mounted instruments or when imaging requires very accurate
pointing. Once Smart Mount training has been performed, the scope will benefit from
it so long as you carefully park the telescope at the end of each session and do not
modify the mounting.
For portable instruments, we recommend training Smart Mount each time you set up
your telescope to insure best results.
We recommend that you use an illuminated reticle during the training procedure. An
illuminated reticle allows you to precisely center celestial objects in a telescope’s
eyepiece. The more precisely you center objects during Smart Mount training, the
more pointing precision your telescope will be able to achieve. If you do not have an
illuminated reticle, see OPTIONAL ACCESSORIES, page 42 for more information.
Operation
The Smart Mount feature is located in the Autostar II Setup menu.
In order to use Smart Mount, create a model that allows Smart Mount to improve your
telescope's accuracy. This is normally done by training Smart Mount. Once training
has been completed, you will save your model. Autostar II allows you to save
several models under different names. This allows you to, for example, save one
model for a heavy imaging camera configuration on a permanently aligned scope, and
another when you have a lighter load on the mount.
Want to learn more
about Alignment?
See pages 18 - 20.
Training
In order to obtain solid, repeatable results, perform the following procedures before
you create a model:
Want to learn more
about training your
drive? See page 60.
•
•
Setup and align your telescope.
Perform both RA/Az and Dec/Alt drive training calibration.
Once you have calibrated and aligned your telescope, if you wish to start a new
model, go to the Smart Mount main menu. Locate and select "Erase" to clear the
current model. Next, proceed with the steps below:
Note: If you do not erase the current model, the training session will refine
the current model.
•
•
•
Locate “Train” in the Smart Mount Configuration menu and press enter.
The telescope will select and slew to several (over 40) stars.
When requested to do so, carefully center each star and then press ENTER.
If you find that you cannot see a star because there is an obstruction blocking your
view:
•
Press MODE briefly to skip this star. Another star will be chosen.
To exit the training sequence before it is completed:
Press and hold MODE for about two seconds and then release it.
When you have completed training:
•
•
Save your model, using a good, descriptive name, using the “Save As” menu.
Upon completion of the training, Smart Mount is enabled and remains on until
you choose “Off” from the Smart Mount Configuration menu.
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Permanently Mounted Scopes
For permanently mounted telescopes, it is not necessary to have more than one
model unless the weight and balance of auxiliary equipment introduces balance or
flexure changes that significantly affect pointing. The best practice is to train the Smart
Mount and then run a couple of sessions with Update enabled. Thereafter, simply
leave Smart Mount On as the installation default.
Other Menus Options
Save As and Load
The Smart Mount system allows you to save several models you have created (see
TRAINING on the previous page) using the Save As command. Choose which model
will be the "Current Model” using the Load command.
Update
The Update mode allows you to update training for the current model you have
enabled. You will sync on several stars as previously described, which will further
refine the pointing of your telescope. Save your model after running in update mode,
otherwise the update will be lost when the telescope is powered off.
On
Load a model from memory (see SAVE AS AND LOAD above) and then Select Smart On.
When Smart Mount is "On," the telescope will use the currently loaded model to refine
you telescope's pointing, but will not update the model (see SMART MOUNT UPDATE
above). If Smart Mount was "On" when you last powered off your telescope, it will be
"On" when you start the next session.
Off
When Smart Mount is "Off," the telescope will not use any model you have created to
refine pointing accuracy.
Erase
The Erase command clears the Current Smart Mount table values to allow a new
model to be created.
Delete
The Delete command allows you to delete any model from memory. To delete a
model, just scroll through the names and select the model to you wish to delete and
press ENTER. You will be asked to confirm your choice. Press ENTER again and it
will be removed from memory.
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B A S IC A S T R O N O M Y
In the early 17th century Italian Scientist Galileo, using a telescope smaller than your
LX200GPS, turned it skyward instead of looking at the distant trees and mountains.
What he saw, and what he realized about what he saw, has forever changed the way
mankind thinks about the universe. Imagine what it must have been like being the first
human to see moons revolve around the planet Jupiter or to see the changing phas-
es of Venus! Because of his observations, Galileo correctly realized Earth's move-
ment and position around the Sun, and in doing so, gave birth to modern astronomy.
Yet Galileo's telescope was so crude, he could not clearly make out the rings of
Saturn.
Galileo's discoveries laid the foundation for understanding the motion and nature of
the planets, stars, and galaxies. Building on his foundation, Henrietta Leavitt deter-
mined how to measure the distance to stars, Edwin Hubble gave us a glimpse into the
possible origin of the universe, Albert Einstein unraveled the crucial relationship of
time and light, and 21st-century astronomers are currently discovering planets around
stars outside our solar system. Almost daily, using sophisticated successors to
Galileo's telescope, such as the Hubble Space Telescope and the Chandra X-Ray
Telescope, more and more mysteries of the universe are being probed and under-
stood. We are living in the golden age of astronomy.
Fig. 61: The Moon. Note the deep
shadows in the craters.
Unlike other sciences, astronomy welcomes contributions from amateurs. Much of the
knowledge we have on subjects such as comets, meteor showers, double and vari-
able stars, the Moon, and our solar system comes from observations made by ama-
teur astronomers. So as you look through your Meade LX200GPS telescope, keep in
mind Galileo. To him, a telescope was not merely a machine made of glass and metal,
but something far more—a window of incredible discovery.
Autostar II Glossary
Be sure to make use of Autostar II’s Glossary feature. The Glossary menu provides
an alphabetical listing of definitions and descriptions of common astronomical terms.
Access directly through the Glossary menu or through hypertext words embedded in
Autostar II. See GLOSSARY MENU, page 27, for more information.
Objects in Space
Listed below are some of the many astronomical objects that can be seen with your
LX200GPS:
Fig. 62: The planet Jupiter. Jupiter's
four largest moons can be observed
in a different position every night.
The Moon
The Moon is, on average, a distance of 239,000 miles (380,000km) from Earth and is
best observed during its crescent or half phase when Sunlight strikes the Moon’s sur-
face at an angle. It casts shadows and adds a sense of depth to the view (Fig. 61).
No shadows are seen during a full Moon, causing the overly bright Moon to appear
flat and rather uninteresting through the telescope. Be sure to use a neutral Moon fil-
ter when observing the Moon. Not only does it protect your eyes from the bright glare
of the Moon, but it also helps enhance contrast, providing a more dramatic image.
Using your LX200GPS, brilliant detail can be observed on the Moon, including hun-
dreds of lunar craters and maria, described below.
Craters are round meteor impact sites covering most of the Moon’s surface. With no
atmosphere on the Moon, no weather conditions exist, so the only erosive force is
meteor strikes. Under these conditions, lunar craters can last for millions of years.
Maria (plural for mare) are smooth, dark areas scattered across the lunar surface.
These dark areas are large ancient impact basins that were filled with lava from the
interior of the Moon by the depth and force of a meteor or comet impact.
Fig. 63: Saturn has the most exten-
sive ring structure in our Solar
System.
Twelve Apollo astronauts left their bootprints on the Moon in the late 1960's and early
1970's. However, no telescope on Earth is able to see these footprints or any other
artifacts. In fact, the smallest lunar features that may be seen with the largest tele-
scope on Earth are about one-half mile across.
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Planets
Planets change positions in the sky as they orbit around the Sun. To locate the plan-
ets on a given day or month, consult a monthly astronomy magazine, such as Sky
and Telescope or Astronomy. You can also consult Autostar II for information about
planets. Scroll to the "Object: Solar System" menu and scroll through the lists of plan-
ets. When a planet you are interested in displays, press ENTER. Use the Scroll keys
to display information about the planet, such as the planet's coordinates, and the rise
and set times. Listed below are the best planets for viewing through the LX200GPS.
Tip:
Enter a date in the Date
menu and you can deter-
mine if a planet(s) will be
visible during the night of
the entered date by check-
ing its rise and set times.
Venus is about nine-tenths the diameter of Earth. As Venus orbits the Sun, observers
can see it go through phases (crescent, half, and full) much like those of the Moon.
The disk of Venus appears white as Sunlight is reflected off the thick cloud cover that
completely obscures any surface detail.
Mars is about half the diameter of Earth, and appears through the telescope as a tiny
reddish-orange disk. It may be possible to see a hint of white at one of the planet’s
polar ice caps. Approximately every two years, when Mars is closest to Earth in its
orbit, additional detail and coloring on the planet's surface may be visible.
Jupiter is the largest planet in our solar system and is 11 times the diameter of Earth.
Jupiter (Fig. 62) appears as a disk with dark lines stretching across the surface.
These lines are cloud bands in the atmosphere. Four of Jupiter’s moons (Io, Europa,
Ganymede, and Callisto) can be seen as “star-like” points of light when using even
the lowest magnification. These moons orbit Jupiter so that the number of moons vis-
ible on any given night changes as they circle around the giant planet.
Saturn is nine times the diameter of Earth and appears as a small, round disk with
rings extending out from either side (Fig. 63). In 1610, Galileo, the first person to
observe Saturn through a telescope, did not understand that what he was seeing
were rings. Instead, he believed that Saturn had “ears.” Saturn’s rings are composed
of billions of ice particles ranging in size from a speck of dust to the size of a house.
The major division in Saturn's rings, called the Cassini Division, is occasionally visi-
ble through the LX200GPS. Titan, the largest of Saturn’s moons can also be seen as
a bright, star-like object near the planet.
Fig. 64: A favorite winter sight—the
great nebula in Orion.
Deep-Sky Objects
Star charts can be used to locate constellations, individual stars and deep-sky
objects. Examples of just some of the deep-sky objects you'll be able to observe with
your LX200GPS are given below:
Stars are large gaseous objects that are self-illuminated by nuclear fusion in their
core. Because of their vast distances from our solar system, all stars appear as pin-
points of light, irrespective of the size of the telescope used.
Fig. 65: The Pleiades is one of the
most beautiful open clusters.
Nebulae are vast interstellar clouds of gas and dust where stars are formed. Most
impressive of these is the Great Nebula in Orion (M42) (Fig. 64), a diffuse nebula that
appears as a faint wispy gray cloud. M42 is 1600 light years from Earth.
Open Clusters are loose groupings of young stars, all recently formed from the same
diffuse nebula. The Pleiades is an open cluster 410 light years away (Fig. 65).
Through the LX200GPS, numerous stars are visible.
Constellations are large, imaginary patterns of stars believed by ancient civilizations
to be the celestial equivalent of objects, animals, people, or gods. These patterns are
too large to be seen through a telescope. To learn the constellations, start with an
easy grouping of stars, such as the Big Dipper in Ursa Major. Then, use a star chart
to explore across the sky.
Galaxies are large assemblies of stars, nebulae, and star clusters that are bound by
gravity. The most common shape is spiral (such as our own Milky Way), but galaxies
can also be elliptical, or even irregular blobs. The Andromeda Galaxy (M31) (Fig. 66)
is the closest spiral-type galaxy to our own. This galaxy appears fuzzy and cigar-
shaped. It is 2.2 million light years away in the constellation Andromeda, located
between the large “W” of Cassiopeia and the great square of Pegasus.
Fig. 66: The Andromeda Galaxy, the
largest galaxy of our local group.
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MEADE LIMITED WARRANTY
Every Meade telescope, spotting scope, and telescope accessory is warranted by Meade Instruments Corporation (“Meade”)
to be free of defects in materials and workmanship for a period of ONE YEAR from the date of original purchase in the U.S.A.
and Canada. Meade will repair or replace a product, or part thereof, found by Meade to be defective, provided the defective
part is returned to Meade, freight-prepaid, with proof of purchase. This warranty applies to the original purchaser only and is
non-transferable. Meade products purchased outside North America are not included in this warranty, but are covered under
separate warranties issued by Meade international distributors.
RGA Number Required: Prior to the return of any product or part, a Return Goods Authorization (RGA) number must be
obtained from Meade by writing, or calling (949) 451-1450. Each returned part or product must include a written statement
detailing the nature of the claimed defect, as well as the owner’s name, address, and phone number.
This warranty is not valid in cases where the product has been abused or mishandled, where unauthorized repairs have been
attempted or performed, or where depreciation of the product is due to normal wear-and-tear. Meade specifically disclaims
special, indirect, or consequential damages or lost profit which may result from a breach of this warranty. Any implied warranties
which cannot be disclaimed are hereby limited to a term of one year from the date of original retail purchase.
This warranty gives you specific rights. You may have other rights which vary from state to state.
Meade reserves the right to change product specifications or to discontinue products without notice.
P R O D U C T S D I V I S I O N
AMDeVaA dN CeE IDnstruments Corporation
World’s Leading Manufacturer of Astronomical Telescopes for the Serious Amateur
6001 Oak Canyon, Irvine, California 92618 I (949) 451-1450
© 2003
14-7200-01 10/03 F
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