Part xii : using a synscan gps module, Appendix i : eliminating cone error – Sky-Watcher Synscan Hand Control User Manual

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PART XII : USING A SYNSCAN GPS MODULE

12.1 Initialization of the Hand control with a SynScan GPS Module

12.2 Checking GPS Information

3.

The hand control will then ask the user whether to use the Daylight Saving Time. Use the

scroll keys to select between “

YES

” and “

NO

” and press the

ENTER

key to confirm and pro-

ceed.

4.

The screen will now display “

GPS fixing…

”. It means that the GPS module is trying to fix to

the GPS satellites.

5.

After the SynScan GPS module fixes to the satellites, the SynScan hand control will con-

tinue the initialization process.

1.

Plug the SynScan GPS module into the multi-purpose port (the 6 pins RJ-12 port) located

at the bottom center of the SynScan hand control. Place the GPS module on a horizontal

surface.

2.

Access the menu “

UTILITY FUNCTION \ GPS

” in the menu and press the

ENTER

key.

3.

The screen will now display “

GPS fixing…

”. It means that the GPS module is trying to fix to

the GPS satellites.

4.

After the SynScan GPS module fixes to the satellites, the screen will display “

GPS Infor-

mation:

”. Use scroll keys to browse through the following information. Press the

ESC

key

to exit.

• Use the left and right direction keys to move the cursor on the screen.
• Use the scroll keys to change or switch the sign for the time zone. Use “

+

” for the time

zones in the Eastern Hemisphere, use “

-

” for the time zones in the Western Hemi-

sphere.

• Use the numeric keys to fill the time zone value in

±hh:mm

format.

• Press

ENTER

to confirm and proceed.

•

M.O.V:

Local magnetic declination

•

Lat:

Local latitude

•

Lo:

Local longitude

•

Date

: Local date

•

UT:

Greenwich Mean Time

•

LT:

Local time

•

TimeZone:

Local time zone

•

LST:

Local sidereal time

•

Elevation:

Local elevation

•

Quality:

Quality of GPS fixing

•

Number of SV:

Number of GPS satellites in view

•

SV(fix) Nr:

Number of GPS satellites fixed

The initialization process of the SynScan hand control with a SynScan GPS plug-in differs

from a regular one.

1.

Plug the SynScan GPS module into the multi-purpose port (the 6 pins RJ-12 port) located

at the bottom center of the SynScan hand control. Place the GPS module on a horizontal

surface and turn on the power of the mount.

2.

If the SynScan hand control detects the connection of a GPS module, it will ask for the

local time zone:

Users may purchase a SynScan GPS module to acquire accurate local geographical coordi-

nates and local time; it will help improve the accuracy of the mount alignment and the polar

alignment.

Testing for Cone Error

Eliminating Cone Error

APPENDIX I : ELIMINATING CONE ERROR

• If the pointing accuracy is still good, then the mount system has small or no cone error.
• If the pointing accuracy becomes poor, and most of the error is on the R.A. axis (that is,

the object can be brought back to the center of the eyepiece using the left or right di-

rection keys), it means that the cone error of the telescope-mount system is quite large.

If the telescope’s optical axis is not perpendicular to the declination axis of the equatorial

mount, then there is cone error in the telescope-mount system. The cone error might lower the

accuracy of locating an object or the accuracy of the Polar-Alignment process.

1.

Perform a precise polar alignment on the equatorial mount, and then perform a two-star

alignment. The alignment stars should be located on the same side of the meridian and

their declination deviation should be within 10 to 30 degrees.

2.

Use the SynScan hand control to locate a few objects on the same side of the meridian as

the alignment stars. The pointing accuracy should be quite good.

3.

Use the SynScan hand control to locate a few objects on the other side of the meridian as

the alignment stars.

1.

Rotate the R.A. axis to level the counterweight shaft.

2.

Center the Polaris in the polar scope.

3.

Point the telescope to the Polaris, rotate the Dec. axis to bring the Polaris as close as pos-

sible to the center of the finder scope or the telescope’s eyepiece.

4.

Fine tune the azimuth and latitude of the mount to center the Polaris in the telescope’s

eyepiece.

5.

Rotate the R.A. axis 180 degrees. (the counterweight shaft should be leveled and pointed

to the other side of the mount). If the Polaris can be put to the center of the eyepiece by

rotating the Dec. axis only, it means the cone error is small and no further adjustment is

needed; otherwise, continue to the following steps.

6.

Rotate the Dec. axis to bring the Polaris as close as possible to the center of the finder

scope or the telescope’s eyepiece.

7.

Slightly push the eyepiece end of the telescope in a HORIZONTAL direction while looking

into the eyepiece, find the direction which will bring the Polaris closer to the center of the

eyepiece. In this way, a user can determine the direction in which he/she should re-position

the telescope on the saddle or the mounting bar to reduce the cone error.

8.

Use a shim (or other method) on the proper side of the saddle or the mounting bar to raise

the telescope. Look into the eyepiece while applying the shim. Reduce the deviation be-

tween the Polaris and center of the eyepiece to HALF.

9.

Repeat

Steps 4 and 5

to check whether the cone error is acceptable, repeat

Steps 6, 7 and

8

if necessary.

Tips:

• It is recommended to use a reticle eyepiece and align the track of the Dec. movement with

one of the lines of the reticle.

• This adjustment can be done in day time by using a distant point object to replace the

Polaris.