Celestron 11055, 91525, 11065 instruction manual BC Backlash Correction, Periodic Error Correc- tion

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BC — Backlash

Correction

Figure 5-4—The guide rate and tracking rate lights are used to

indicate the amount of backlash correction.

Periodic Error Correc- tion

(PEC)

The BC (Backlash Correction) function allows you to eliminate the backlash in the DEC motor when changing directions (i.e., from north to south or vice versa). Here’s how it works. Each time you change the direction of the telescope in declination, the motor speeds up momentarily to take up any slack. The Tracking Rate and Guide Speed displays are used to regulate the "aggressiveness" of the backlash compensation. The best setting is deter- mined by looking through the eyepiece while changing the direction of the DEC motor and then moving through the BC button settings until the backlash has been eliminated.

To activate this function, press the BC button. Once activated, the .3x guide speed and sidereal tracking LED will flash rapidly. Use the east and west (left and right) buttons on the hand control to change the backlash compensation speed. Press the right hand control button and the next guide speed light (.5x) will illuminate. When the hand control button is pressed four times, the next

tracking rate light () will illuminate. Continue pressing the hand control buttons until the desired compensation speed is reached or until you reach the

highest setting (16x and ). Once the desired level is set, press the BC button again to activate backlash correction. The BC must be reset each time you power up the drive.

Periodic Error Correction, or PEC for short, is a system that improves the tracking accuracy of the drive. PEC is designed to improve photographic quality by reducing the amplitude of the worm errors. Using the PEC function is a two-step process. First, you must guide for at least eight minutes — keeping the guide star centered on the cross hairs of your optional guiding eyepiece — during which time the system records the corrections you make. (It takes the worm gear eight minutes to make one complete revolution, hence the need to guide for eight minutes). The second step is to play back the corrections you made during the recording phase. The microcomputer inside the electronic console does this automatically after one revolution of the worm gear.

Definition:

Periodic error is a slight oscillation in right ascension caused by imperfections in all drive gears. The cycle of the periodic error is equal to the rotation of the [worm] gear, in this case eight minutes. All telescope drives with gears have some periodic error. The periodic error of your Celestron CM-1100 is very slight to begin with.

Keep in mind, this feature is for advanced astrophotographers and requires careful guiding. Here’s how to use the PEC function most effectively.

1.Find a bright star relatively close to the object you want to photograph.

2.Insert a high power eyepiece with illuminated cross hairs into your tele- scope. Orient the guiding eyepiece cross hairs so that one is parallel to the declination axis while the other is parallel to the R.A. axis.

3.Center the guide star on the illuminated cross hairs, focus the telescope, and study the periodic movement.

4.Take a few minutes to practice guiding. This will help you familiarize yourself with the periodic error of the drive and the operation of the hand control box.

Using the Drive • 39

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Contents Page E C e l e s t r o n C M- 11 00/1400 B L E O F C O N T E N T S Iv Table of Contents T R O D U C T I O N How to Use This Manual Word of Caution Schmidt-Cassegrain Optical System Unpacking Your Celestron CM-1100 S E M B L I N G Y O U R C M 1 1 0CM-1100 Setting Up the Tripod Central Column Electronics Console Center Leg Brace Attaching the Center Leg Brace Attaching the Central ColumnAttaching the Equatorial Mount Installing Counterweight Installing Counterweight BarAttaching the Optical Tube to the Mount Attaching the Visual Back Installing the Star Diagonal Assembling Your CM-1100 Installing the Finder Installing the Polar Finder Moving the Telescope in R.A. and DEC Adjusting the Mount Balancing the Mount in R.A Balancing the Mount in DEC Assembling Your CM-1100 Technical Specifications Tripod Image Orientation L E S C O P E B a S I C SFocusing General Photography Hints Aligning the Finder Daytime Observing Your First LookNighttime Observing Calculating Magnification Determining Field of View Celestial Coordinate System T R O N O M Y B a S I C SMotion of the Stars Definition Polar AlignmentFinding the Pole Latitude Scales Pointing at Polaris Polar Axis Finder Declination Drift Aligning the R.A. Setting Circle Setting the DEC Circle I N G T H E D R I V E Powering Up the DriveGuide Speed BC Backlash Correction Periodic Error Correc- tionHC/CCD Hand Controller Northern/Southern Hemisphere OperationAutoguiding DEC ReverseObserving the Moon L E S T I a L O B S E R V I N GObserving the Sun Observing Deep-Sky Objects Using Your Setting CirclesStar Hopping Celestial Observing Seeing Conditions Viewing ConditionsTransparency Sky IlluminationCelestial Observing L E S T I a L P H O T O G R a P H Y Short Exposure Prime Focus Lunar Phase ISO Crescent QuarterFull Celestial Photography Piggyback Celestial Photography Eyepiece Projection Planet ISO Moon Mercury Venus Mars Jupiter Saturn Long Exposure Prime Focus Celestial Photography CCD Imaging Description of F-numbers Fastar ConfigurationMedium size to small galaxies Imaging at f/7 Imaging at f/11Lunar or small planetary nebulae Planetary or Lunar Imaging at f/22L E S C O P E M a I N T E N a N C E Care and Cleaning of the Optics CollimationTelescope Maintenance Telescope Maintenance T I O N a L a C C E S S O R I E S Optional Accessories Optional Accessories Optional Accessories Mag Type Proper Name ConstNGC# Spiral Galaxy Magnitude Epoch Star Name ConstellationVisual Observation Astronomy TextsAtlases General Observational AstronomyCelestron ONE Year Warranty