iOptron AZ Mount Pro Instruction Manual [EN]

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iOptron® AZ Mount Pro

Instruction Manual

Product #8900 and #8920

Altazimuth Mount

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This product is a precision instrument. Please read the included QSG before assembling the

mount. Please read the entire Instruction Manual before operating the mount.

If you have any questions please contact us at support@ioptron.com

WARNING!

NEVER USE A TELESCOPE TO LOOK AT THE SUN WITHOUT A PROPER FILTER!

Looking at or near the Sun will cause instant and irreversible damage to your eye.

Children should always have adult supervision while observing.

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Table of Content

Table of Content ......................................................................................................................................... 3

1. AZ Mount ProTM Altazimuth Mount Overview ...................................................................................... 5

2. AZ Mount ProTM Mount Assembly ........................................................................................................ 6

2.1. Parts List .......................................................................................................................................... 6

2.2. Identification of Parts ....................................................................................................................... 7

2.3. Go2Nova® 8407 Hand Controller .................................................................................................... 8

2.3.1. Key Description ........................................................................................................................ 8

2.3.2. The LCD Screen ....................................................................................................................... 9

2.4. Check Hand Controller Battery ..................................................................................................... 10

3. AZ Mount ProTM Mount Assembly ...................................................................................................... 11

3.1. Un-package the Mount ................................................................................................................... 11

3.2. Tripod Setup................................................................................................................................... 11

3.3. Attach Mount ................................................................................................................................. 12

3.4. Level Mount ................................................................................................................................... 12

3.5. Lock Mount .................................................................................................................................... 12

3.6. Attach Telescope ............................................................................................................................ 12

3.7. Install Counterweight ..................................................................................................................... 13

3.8. Balance Payload ............................................................................................................................. 14

3.9. Connect Cable ................................................................................................................................ 15

3.10. Install Second Telescope .............................................................................................................. 15

4. AZ Mount ProTM Mount Operation ...................................................................................................... 16

4.1. Power the Mount and GO .............................................................................................................. 16

4.2. GOTO a Celestial Object ............................................................................................................... 16

4.3. Solar Observation........................................................................................................................... 16

4.4. Enter Initial Information ................................................................................................................ 16

4.5. Set Up the Mount Manually ........................................................................................................... 17

4.6. Manual Operation of the Mount .................................................................................................... 17

4.7. Position Memorization ................................................................................................................... 17

4.8. Star Identifying Function ............................................................................................................... 17

4.9. Turn Off the Mount ........................................................................................................................ 18

5. Complete Functions of Go2Nova® Hand Controller ............................................................................ 19

5.1. Slew to an Object ........................................................................................................................... 19

5.1.1. Solar System ........................................................................................................................... 19

5.1.2. Deep Sky Objects .................................................................................................................... 19

5.1.3. Stars......................................................................................................................................... 19

5.1.4. Comets .................................................................................................................................... 19

5.1.5. Asteroids ................................................................................................................................. 19

5.1.6. Constellations .......................................................................................................................... 19

5.1.7. Custom Objects ....................................................................................................................... 20

5.1.8. Custom R.A. DEC................................................................................................................... 20

5.2. Sync to Target ................................................................................................................................ 20

5.3. Alignment ...................................................................................................................................... 20

5.3.1. One Star Alignment ................................................................................................................ 20

5.3.2. Two Star Alignment ................................................................................................................ 20

5.3.3. Three Star Alignment .............................................................................................................. 20

5.3.4. Solar System Alignment ......................................................................................................... 21

5.3.5. Clear Alignment Data ............................................................................................................. 21

5.4. Settings ........................................................................................................................................... 21

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5.4.1. Set Time and Site .................................................................................................................... 21

5.4.2. Set Beep .................................................................................................................................. 23

5.4.3. Set Display .............................................................................................................................. 23

5.4.4. Set Tracking Rate .................................................................................................................... 23

5.4.5. Set Altitude Limit ................................................................................................................... 24

5.4.6. Set Heating OFF/ON............................................................................................................... 24

5.4.7. Wi-Fi Option ........................................................................................................................... 24

5.4.8. Language ................................................................................................................................. 24

5.5. Edit User Objects ........................................................................................................................... 24

5.5.1. Customer Comets .................................................................................................................... 25

5.5.2. Enter Other Objects or Observation List ................................................................................ 25

5.6. Firmware Information .................................................................................................................... 26

5.7. Zero Position .................................................................................................................................. 26

5.7.1. Goto Zero Position .................................................................................................................. 26

5.7.2. Set Zero Position ..................................................................................................................... 26

6. Wi-Fi Operation .................................................................................................................................... 27

6.1. Wi-Fi Connection........................................................................................................................... 27

6.1.1. For a Windows/Mac Operation System .................................................................................. 27

6.1.2. Tablet/SmartPhone with iOS .................................................................................................. 27

6.1.3. Tablet/SmartPhone with Other OS ......................................................................................... 27

6.2. Connect the Mount ......................................................................................................................... 27

6.2.1. Windows ................................................................................................................................. 27

6.2.2. Mac OS ................................................................................................................................... 28

6.2.3. Tablet/SmartPhone with Sky Safari ........................................................................................ 28

6.3. Wi-Fi Configuration....................................................................................................................... 29

7. Maintenance and Servicing ................................................................................................................... 30

7.1. Maintenance ................................................................................................................................... 30

7.2. iOptron Customer Service .............................................................................................................. 30

7.3. Product End of Life Disposal Instructions ..................................................................................... 30

7.4. Battery Replacement and Disposal Instructions ............................................................................ 30

Appendix A. Technical Specifications ..................................................................................................... 31

Appendix B. AZ Mount Pro Go2Nova® 8407 HC MENU ....................................................................... 32

Appendix C. Firmware Upgrade ............................................................................................................... 35

Appendix D. Computer Control an AZMP Mount ................................................................................... 36

Appendix E. Go2Nova® 8407 Hand Controller Star List ......................................................................... 37

IOPTRON WARRANTY ......................................................................................................................... 43

Rev. 1.2 2017.10 iOptron reserves the rights to revise this instruction without notice. Actual color/contents/design may differ from those described in this instruction.

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1. AZ Mount ProTM Altazimuth Mount Overview

Introducing the AZ Mount Pro

setup.

We call it "level and go", the term used to describe iOptron new AZ Mount Pro's simple set up routing. Using its built-in precision level indicator, the operator simply levels the mount and turns on the power; this capable computerized alt-azimuth telescope mount takes it from there. Utilizing the on board 32 channel GPS receiver and built-in position and angular detection sensors; the AZ mount Pro calculates its global position as well as the telescope orientation. Automatically the mount slews the instrument to an easily identifiable bright object in the night sky. The user need only confirm a bright object is in the center of the view, to activate tracking and GOTO functionality.

Features:

 33lb primary payload and 10lb secondary payload capacity, with a mount weighing only 13lbs  Whisper quiet low-power consumption stepper motors  Go2Nova

screen

 Zero backlash driver system  On board rechargeable lithium ion battery for up to 10 hours of use  Built-in WIFI adapter for full ASCOM, iOptron Commander  Serial port for computer control and firmware upgrades  Retractable counter weight shaft  Position memorization at power interruption  Die-cast aluminum body  3-Point easy level adjustment on tripod  6 inch dual dovetail saddle (Losmandy/Vixen styles)  Stands a mere 10 inches tall (mount head only)  Built-in 32-channel GPS receiver  Automatic position and angular detection sensors  Aluminum carrying case

8407 hand controller featuring 212K+ object library with an 8 line illuminated LCD

altazimuth mount featuring "level and go" intuitive GOTO

and Sky Safari wireless control

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2. AZ Mount ProTM Mount Assembly

2.1. Parts List1

The mount head (#8920) is shipped in an aluminum carrying case, which includes:

 iOptron AZ Mount Pro telescope mount

 6P6C RJ11 (6 pin connector, straight wired) coiled controller cables X1

 AC adapter for mount battery charging (100V~240V AC input, 12.6V/2000mA DC output)

 4P4C RJ9 (4 pin connector) to DB9 RS232 serial cable for firmware upgrade and computer

control.

If you are ordering a AZMP mount system (#8900), there will be another package with:

 2” stainless steel tripod (#8121ACC)

 4.5kg counterweight X1(#3006-10)

 Level adjustment screw X3 (#8340)

OPTIONAL PARTS

 #8953 Secondary Vixen-style dovetail saddle

 #3006-10 4.5kg counterweight

 #3006-05 2kg counterweigh

 #8321ACC MiniTower 1.5” tripod

 #8034 Tri-Pier

 #8034-RC Tri-Pier with rolling case

 #8032 MiniPier

 #8340-Pier Level adjustment screw with center post (for using with Pier and Tri-Pier)

 #8345 USB to RS232 Converter with FTDI chipset

ONLINE RESOURCES (click on the “Support” menu at www.iOptron.com)

 Quick Start Guide

 This instruction manual

 Tips for set up

 Hand controller and mount firmware upgrades (check online for latest version)

 ASCOM and Commander

 Reviews and feedback from other customers

 Accessories

US market only. Actual contents may vary.

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2.2. Identification of Parts

1. Altitude Lock 2. Counterweight Shaft

3. Counterweight Shaft Lock 4. AZMP Mount Body

5. Tripod Bolt 6. Tripod Support Spreader

7. Tripod Lock 8. Dovetail Saddle Lock Screw

9. Level Adjustment Screw 10. Tripod Knob

11. Bubble Level 12. Hand Controller hanger

13. Vixen/Losmandy Dual Saddle 14. Hand Controller Socket (HBX)

15. RS232 Socket 16. Battery Status LED

17. Power Switch 18. Battery Charging Socket

Figure 1. AZMP mount assembly

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2.3. Go2Nova® 8407 Hand Controller

DEC+

RA+

RA-

DEC-

HBX Port

Serial Port

Figure 2. Go2Nova® 8407 hand controller

The Go2Nova® 8407 hand controller (HC) shown in Figure 2 is the standard controllers that used for the AZMP mount. It has an integrated temperature controller that ensures it can be operated as low as -20ºC (-4ºF). It has a large LCD screen, function, direction and number keys on the front; a red LED reading light on the back; and a HBX port (6-pin) and a RS232 serial port (4-pin) at the bottom.

2.3.1. Key Description

 MENU Key: Press “MENU” to enter the Main Menu.  BACK Key: Move back to the previous screen, or end/cancel current operation, such as

slewing.

 ENTER Key: Confirm an input, go to the next menu, select a choice, or slew the telescope to

a selected object.

 Arrow (▲▼◄►) Keys: The arrow keys are used to control the movement of DEC and R.A.

axes. Press and hold ▲(DEC+),▼(DEC-) buttons to move a telescope along the DEC direction, ◄(R.A.+), ►(R.A.-) to move a telescope along the RA direction. They are also used to browse the menu or move the cursor while in the menu. Press and holding an arrow key for a fast scrolling.

 Number Keys: Input numerical values. Also used to adjust speeds. The speed selections are

1: 1X; 2: 2X; 3: 8X; 4: 16X; 5: 64X; 6: 128X; 7: 256X; 8: 512X; 9: MAX(~10°/sec, 2400X)

 Light Key(☼): Turns on/off the red LED reading light on the back of the controller.  Help (?) Key: Identify and display bright stars or objects where the telescope points to.  STOP/0 Key: Stop the mount during GOTO. Also toggling between start and stop tracking.  HBX (Handbox) port: connect the HC to the AZMP mount using a 6P6C RJ11 cable.

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Serial port (i.e., RS232 port): connect the HC to a Computer for HC firmware upgrade via a



RS232-RJ9 cable.

2.3.2. The LCD Screen

The 8407 HC has a large 8-line, 21-character per line LCD screen, which displays all the information as shown in Figure 3. The user interface is simple and easy to operate.

Figure 3. 8407+ HC LCD Information Screen

1. Target Name/Mount Position: displays the name of the target that telescope is currently pointed to or the current mount position.

 Zero Position: The reference position for the mount. It will be displayed when moved to Zero

Position using “Goto Zero Position”;

 User Position: The mount is point to a user defined position, which could be a particular

celestial object or simply a position determined by pressing an arrow key;

 An object name, such as “Mercury” or “Andromeda Galaxy”: Name of the star or celestial

object that the mount is currently slewing to or tracking.

2. Target R.A.: Right Ascension (R.A.) of the target object.

3. Target Declination: Declination (DEC) of the target object.

4. Right Ascension: Current R.A. of the telescope.

5. Declination: Current DEC of the telescope.

6. Altitude: Altitude of the telescope (degrees vertical from the local horizon - zenith is 90º).

7. Azimuth: Azimuth of the telescope (north is 0º, east 90º, south 180º, and west 270º).

8. Local Date and Time: display local time in a format of YYYY-MM-DD HH:MM:SS.

9. Mount Status: Display current operation status of the mount.

 Stop: mount is not moving;

 Slew: mount is moving with an arrow key is pressed or a GOTO command, such as “Select

and Slew” or “Goto Zero Position”;

 Tracking: mount is at a tracking status.

10. GPS status: When the power is turned on, the initial GPS status will be “GPS ON”, which means that the mount is connected to its GPS receiver and is seeking a satellite signal. When the GPS receiver finds the satellites and receives the GPS signal, the status will change to “GPS OK”.

11. Tracking speed: Display current tracking rates of the mount

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 SDRL: mount is tracking at a sidereal speed;  Solar: mount is tracking at a solar speed;  Lunar: mount is tracking at a lunar speed;  King: mount is tracking at a King speed;  CSTM: mount us tracking at a customer defined speed.

12. Slew speed: It has 9 speeds: 1X, 2X, 8X, 16X, 64X, 128X, 256X, 512X, MAX (2400X,~10º/sec).

13. Operation Mode: AA is for alt-azimuth mode.

2.4. Check Hand Controller Battery

The hand controller has a real time clock (RTC) which should display the correct time every time the mount is turned on. If the time is incorrect, please check the battery inside the hand controller and replace it if needed. The battery is a 3V, CR1220 button battery.

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3. AZ Mount ProTM Mount Assembly

3.1. Un-package the Mount

Remove the AZ Mount ProTM (AZMP) mount from the aluminum carrying case. Make sure that the Altitude Lock is fully tightened. Charge the mount using the included AC battery charging to fully charge the mount, until the LED indicator on the AC adapter changed to green.

Warning: Make sure use the included battery charger to charge the mount. DO NOT plug in

any standard AC/DC adapter. NEVER charge the battery when it is below 0°C.

A slowly flashing battery status LED indicates the battery is low, which you still have about 30

minutes of operation time. You may keep using the mount by plugging in the battery charger. NEVER use the mount this way when it is below 0°C. iOptron is NOT responsible for any damages and consequences caused by misuse.

If you are running out of the battery during an observation session, you may also plug in a 12V DC power source, such as iOptron PowerWeight temperature is above 0°C.

Full charge the battery every 6 month if the mount is not used.

battery counterweight, for temporary use if the

3.2. Tripod Setup

Evenly extend tripod legs to a desired length. Then lock legs using the locking knobs on sides. Set the tripod upward. If set a tripod on an uneven surface, make sure the tripod head is leveled.

5mm.

Figure 4 Set up tripod

Install three star-shaped adjustment screws onto the tripod head. Raise the screws up about

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3.3. Attach Mount

Carefully position telescope mount onto the tripod by aligning the three holes on the bottom of the mount base to the three level adjustment screws on the top of the tripod.

Figure 5 Attach mount

Thread the tripod bolt into the bottom of the mount while holding the mount with your hand. Slightly tighten the tripod bolt by turning the tripod bolt lock knob.

3.4. Level Mount

Adjust level adjustment screws to level the mount using the bubble level on the base. You may use a torpedo level on the opposite side of the bubble level to assist the leveling.

Figure 6 Level mount

3.5. Lock Mount

Tighten the bolt lock knob to secure the mount. Slide tripod support spreader onto the bottom of bolt. Position the three edges to fit against the three tripod legs. Then hand tighten tripod lock knob to secure the tripod support spread in place.

3.6. Attach Telescope

Attach a telescope to dual dovetail saddle. Make sure that the telescope objective end is pointing to the direction as the arrow mark on the dovetail pointed to. The dovetail saddle can be

Figure 7 Lock mount

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rotated freely when the altitude lock knob is released. Fully tighten the altitude lock knob afterwards. Tighten two dovetail saddle lock screws to secure the telescope.

Figure 8 Install the telescope along the arrow direction on dovetail saddle

NOTE:PushtheCWshaftoutfirstifacounterweightisneeded.

3.7. Install Counterweight

Make sure the altitude lock knob is tightened. Back out CW shaft lock screw slightly. Push the CW shaft out of the mount from the center of the dovetail saddle. Retighten the CW shaft lock screw.

Figure 9 Push the counterweight shaft out from the mount

Slide the counterweight onto the CW shaft, with large opening hole facing inward, if the CW has a stepped CW shaft hole. Insert the brass pin into the hole on the CW. Secure the CW by tightening the CW lock knob. (The groove on the CW shaft is designed for secondary dovetail saddle use.)

Groove

Figure 10 Install CW and CW lock

Warning: Counterweight is heavy. Please handle with care to avoid injury.

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3.8. Balance Payload

After attaching scope and accessories, the mount needs to be balanced. To balance in altitude direction, release the altitude lock knob, rotate the scope to horizontal position. Move the telescope back and forth to find the balance point and lock the altitude lock knob.

CAUTION: The telescope may swing freely when the altitude lock knob is released.

Add one (1) 4.5kg CW if the scope at the primary side is over 5kg, and add two (2) 4.5kg CWs if the payload is over 10kg.

Note: This number is estimated and telescope size dependent. Note: if you have a light scope less than 10 lb, attach a CW is optional. However, a CW is always

helpful to balance the OTA in order to have smooth and accurate GOTO and tracking.

Figure 11 Heavy/large scope with two CWs

A simple and safe method to estimate the CW and its position is by calculating the torques

(weight times the distance to the center) of the payload and CW, and making them equal or close.

NOTE: Please re-check leveling before operation the mount.

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3.9. Connect Cable

Connect the Go2Nova® 8407 Hand Controller to the HBX port on the mount panel using the supplied coiled control cable. Put the hand controller onto the hand controller hanger.

3.10. Install Second Telescope

An optional secondary saddle (#8953) is available for dual balanced OTAs. To install a secondary dovetail saddle, loose the CW shaft lock and push the CW shaft out to a desired length. Lock the CW shaft lock. Slide the secondary CW onto the CW shaft and tighten the secondary dovetail saddle lock.

After you mount a secondary OTA onto the secondary dovetail holder, make sure you align it with the primary OTA. This alignment is easier to be done during the daytime. Point the primary telescope to a target at a remote building or flagpole and center the target in the eyepiece. Loosen the secondary dovetail saddle lock. Rotate the secondary OTA around the counterweight shaft. Center the object in the eyepiece of the secondary OTA. If the secondary OTA is tilted, it can be adjusted by adjusting two tilting adjustment screws as shown in Figure 12 (M6 x 12mm Allen set screws). The maximum payload on secondary side is 5kg (11lbs).

M6 set screws

Figure 12. Secondary dovetail saddle and set screws

A combination of a light OTA and a CW can be used to balance a heavier primary OTA.

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4. AZ Mount ProTM Mount Operation

4.1. Power the Mount and GO

Assemble your mount. Make sure the mount is leveled.

Just flip the power switch ON and wait! The mount will first perform an Assistant Alignment Wizard which will determine the Zero Position, i.e. the South and Zenith. Then the mount will pick up

GPS signal. Lastly the mount will GOTO a bright star for a Star Calibration. Follow the instruction on the hand controller screen to center the bright star. If the star displayed is blocked by a tree or building, just press the BACK button to go to next one.

Now you can use “Select and Slew” to go to any objects!

Note: The date and time displayed on the hand controller may differ from your local time. Just ignore it. You can change it later.

4.2. GOTO a Celestial Object

Press MENU on the hand controller and select “Select and Slew”. Select a category, such as “Named Star”, and then select a star of interest, and press ENTER. The telescope will slew to the

object and automatically start tracking. If the target is not centered in your eyepiece, use “Sync to

Target” to improve the performance. Press MENU => “Sync to Target” and enter the star you are

observing. Use the arrow keys (►, ◄, ▼, and ▲) to center it, press a number key to change the star moving speed.

4.3. Solar Observation

Press MENU => “Sync to Target” on the hand controller, then follow the instruction on the hand controller screen to select a catalog, here is “Solar System”, and then select “Sun” and use the arrow keys to center it and press ENTER.

Change the tracking rate to Solar by press MENU => “Settings” => “Set Tracking Rate” => “Solar”

4.4. Enter Initial Information

After turn on the mount power, the mount will ask if you want to run the “assist alignment wizard,” as shown in LEFT screen in Figure 13. Press ENTER or do nothing to start the wizard. Or

press BACK to cancel.

Figure 13 Initial hand controller screen

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The mount will start to perform self calibration by rotating in both altitude and azimuth directions to find the Zero Position, i.e., the mount’s “S” (bubble level) facing south and the telescope

tube pointing up at the zenith.

When it stops, the hand controller will display your current time and site info (RIGHT screen of Figure 13).

If all the information is correct, you may press ENTER to confirm and skip waiting for GPS

signal. Or if the mount could not pick up the GPS signal (the mount won’t advance to next step to start slewing), you can manually change it by setting Daylight Saving Time (DST) to Y(es) or N(o); adjusting the date and time; inputting your location coordinates; entering the time zone offset to the UTC.

Warning: If you enter your data, make sure they are complete and correct. Or just let the mount computer and GPS do the job for you.

4.5. Set Up the Mount Manually

In the event that the mount does not perform well for assistant align wizard and/or star calibration, or you would like to set up the mount quickly as a MiniTower mount, you may do the following:

1. Assemble the tripod and install the mount onto the tripod;

2. Level the mount;

3. Attach OTA, accessories and CW(s), balance the mount;

4. Turn on the mount. Press BACK button to skip the Alignment Wizard when the HC asks;

5. Press number 9 button to change the slew speed to MAX;

6. Slew the mount in azimuth to double check the leveling;

7. Slew the bubble level side facing south. Slew the telescope to point to Zenith;

8. Press MENU=> “Zero Position”=> “Set Zero Position”=>ENTER to set the current

position as zero Position;

9. Press MENU=”Settings”=>”Set Time and Site” to set the Daylight Saving Time (Y/N), UTC, as well as current time and location info. The press ENTER.

10. Do a Star Alignment, or “Select and Slew” followed by “Sync to Target” to align the mount.

11. Now happy GOTO!

4.6. Manual Operation of the Mount

The mount can now be used to observe astronomical objects using the HC. Use the arrow keys to point the telescope to the desired part of the sky. Use the number keys to change the slewing speed. Press the STOP/0 button to start tracking.

4.7. Position Memorization

The AZMP mount can memorize its current position if the power is interrupted, either during

tracking or slewing. You only need to use “Select and Slew” to go to the same object after power is

restored if the mount Is not physically moved. No alignment is needed.

4.8. Star Identifying Function

The 8407+ hand controller has a star identification function. After setting the correct local time and location and completing polar alignment, slew the telescope to a bright star manually or using the GOTO function. Press the ? key to identify the star that the telescope is pointing to, as well as nearby bright stars if there is any.

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4.9. Turn Off the Mount

When you have finished your observation, simply turn the mount power off and disassemble the mount and tripod.

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5. Complete Functions of Go2Nova® Hand Controller

5.1. Slew to an Object

Press MENU => “Select and Slew.” Select an object that you would like to observe and press

the ENTER key.

The Go2Nova database of over 212,000 objects. Use the ► or ◄ button to move the cursor. Use the number buttons to enter the number, or the ▼ or ▲ button to change a number. Hold a button to fast scroll through the list. The “ below the horizon. In some catalogs the stars below the horizon will not be displayed on the hand controller.

” symbol indicates that the object is above the horizon, and the “ ” symbol means it is

5.1.1. Solar System

There are 9 objects in the Solar System catalog.

5.1.2. Deep Sky Objects

This menu includes objects outside our Solar System such as galaxies, star clusters, quasars, and nebulae.

 Named Objects: consists of 60 popular deep sky objects with their common names. A list of

named deep sky objects is included in Appendix E.

8407 hand controller (HC V2 with 150429 Catalog) for an AZMP mount has a

 Messier Catalog: consists of all 110 Messier objects.

 NGC Catalog: consists of 7,840 objects

 IC Catalog: consists of 5,386 objects.

 PGC Catalog: consists of 73,197 objects.

 Caldwell Catalog: consists of 109 objects.

 Abell Catalog: consists of 4,076 objects.

 Herschel Catalog: consists of 400 objects.

5.1.3. Stars

 Named Stars: consists of 259 stars with their common names. They are listed alphabetically;

a list is included in Appendix E.

 Double/Multi Stars: consists of 208 binary stars; a list is attached in Appendix E.

 Hipparcos (HIP) Catalog: consists of 120,404 records.

5.1.4. Comets

This catalog contains 15 comets.

5.1.5. Asteroids

This catalog contains 116 asteroids.

5.1.6. Constellations

This catalog consists of 88 modern constellations with their names. They are listed alphabetically; a list is attached in Appendix E.

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5.1.7. Custom Objects

This allows the storage of up to 60 user-defined objects, including comets.

5.1.8. Custom R.A. DEC

Here you can go to a target by entering its R.A. and DEC coordinates.

5.2. Sync to Target

This operation will match the telescope's current coordinates to Target Right Ascension and

Declination. After slewing to an object, press MENU => “Sync to Target” => ENTER. Follow the screen

to perform the sync. Using this function will re-calibrate the computer to the selected object. Multiple syncs can be performed if needed. This operation is most useful to find a faint star or nebula near a bright star.

You can change the slew rate to make the centering procedure easier. Simply press a number (1 through 9) key to change the speed. The default slew rate is 64x.

“Sync to Target” will improve the local GOTO accuracy near by the synced star, which is useful for finding a faint object nearby.

5.3. Alignment

This function is used to align the telescope mount. Please keep in mind that LEVELING is the most critical part of goto and tracking accuracy.

5.3.1. One Star Alignment

Press MENU => “Alignment” => “One Star Align”. A list of alignment stars that are above the

horizon is computed based on your local time and location. With the mount in the Zero Position, use the▲ and ▼ buttons to select a star and press ENTER. Center the target in your eyepiece using the arrow keys. Press ENTER when finished. If your mount is well leveled, one star alignment should be sufficient for good GoTo accuracy. To increase the pointing accuracy over the sky, you may choose to do a two star and three star alignment.

5.3.2. Two Star Alignment

Two Star Align can improve the mount’s average goto pointing accuracy. Two star alignment

requires a wider view of the sky, since the two align stars need to be far apart. Press MENU =>

“Alignment” => “Two Star Polar Align.” A list of alignment stars that are above the horizon is

computed based on your local time and location. With the mount at the Zero Position, use the ▲ and ▼ buttons to select the first alignment star and press ENTER. Center the target in your eyepiece using the arrow keys after the mount slews to it. Press ENTER when finished. The hand controller will prompt you to choose a second star. After selecting and centering the second star, the two-star alignment is finished.

5.3.3. Three Star Alignment

The three-star alignment will further improve the average pointing accuracy based on 3-point sky model.

Press MENU => “Alignment” => “Three Star Align.” A list of alignment stars that are above the

horizon is computed based on your local time and location. With the mount at the Zero Position, use the▲ and ▼ buttons to select the first alignment star and press ENTER. Center the target in your eyepiece using the arrow keys. Press ENTER when finished. The hand controller will prompt you to choose a second star. Select third star after the mount aligned to the second star.

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5.3.4. Solar System Alignment

This function uses a planet or the moon as an alignment object. Press MENU => “Alignment” => “Solar System Align” for a list of available alignment objects.

5.3.5. Clear Alignment Data

The alignment data will be kept for your next observation session. This function will clear all alignment data created during one star, two star or three star alignment process.

5.4. Settings

5.4.1. Set Time and Site

The AZ Mount Pro mount is equipped with a GPS receiver which will receive the time, longitude and latitude information for your current location from satellites after a link is established. However, there are still some parameters which need to be entered to reflect your location, such as time zone information and whether daylight saving time is currently in effect. This information will be stored in the hand controller memory along with longitude and latitude coordinates until they need to be updated.

NOTE: you don’t need to do anything if the mount is in an automatic mode, even the time zone is wrong.

A clear sky and open space outside is needed for the GPS to establish a link with the satellites. The GPS is installed on the top of the main board under main control board cover. If the GPS module has difficulty receiving the satellite signal, you may rotate the R.A. axis to one side to exposure the GPS module.

To set up the controller, press MENU =>“Settings”

Select and Slew Sync. to Target Alignment Settings Edit User Objects Firmware Information Zero Position

Press ENTER and select “Set Time and Site”

Set Time and Site Set Beep Set Display Set Tracking Rate HBX Heating ON/OFF Wi-Fi Option Language

Press ENTER. A time and site information screen will be displayed:

Daylight Saving Time Y UTC +480 Minute(s) 2016-03-09 10:19:18

Longitude:W071d08m50s Latitude: N42d30m32s

Northern Hemisphere

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Set Local Time

The time will be updated automatically when the GPS receiver has established its link with the GPS satellites. In the event that the GPS module is unable to establish a link to the satellites, local time can be entered manually. Use the ◄ or ► key to move the cursor _ and use the number keys to change the numbers. Use the ▲ or ▼ button to toggle between “Y” and “N” for Daylight Saving Time, or “+” and “-“ for UTC (Coordinated Universal Time) setting. Hold the arrow key to fast forward or rewind the cursor.

In order to make the Hand Controller reflect your correct local time, time zone information has to be entered. Press the ◄ or ► key, move the cursor to the third line “UTC -300 Minute(s)” to set the time zone information (add or subtract 60 minutes per time zone). For example:

 Boston is “UTC -300 minutes”  Los Angeles is “UTC -480 minutes”  Rome is “UTC +60 minutes”  Beijing is “UTC +480 minutes”  Sydney is “UTC +600 minutes”

All the time zones in North America are “UTC –“, as shown in the following table, so ensure the display shows “UTC -” instead of “UTC +” if in North or South America.

Time Zone Hawaii Alaska Pacific Mountain Central Eastern

Hour behind UT -10 -9 -8 -7 -6 -5

Enter UTC -600 -540 -480 -420 -360 -300

To adjust minutes, move the cursor to each digit and use the number keys to input the number directly. Use ▲ or ▼ key to toggle between “+” and “-”. After the time zone information is entered, press ENTER and go back to the previous screen. Note that fractional time zones can be entered.

Do not manually add or subtract an hour from displayed time to reflect Daylight Saving Time (DST). Only select “Y” after DST begins.

For other parts of the world you can find your “time zone” information from the internet.

Set Observation Site Coordinate

The third and fourth lines display the longitude and latitude coordinates respectively. The longitude and latitude coordinates will be automatically updated when the GPS picks up a satellite signal. “W/E” means Western/Eastern Hemisphere; “N/S” means Northern/Southern Hemisphere; “d” means degree; “m” means minute; and “s” means second.

If, for any reason, your GPS does not pick up the satellite signal, you can manually enter your longitude and latitude coordinates. Press the ◄ or ► key to move the cursor, use the ▲ or ▼ key to toggle between “W” and “E”, and “N” and “S”, and use the number keys to change the numbers. It is always a good idea to do your homework and get longitude and latitude coordinates before traveling to a new observation site.

The site coordinates information can be found from your smart phone, GPS receiver or via the internet. Site information in decimal format can be converted into d:m:s format by multiplying the decimal numbers by 60. For example, N47.53 can be changed to N47º31'48”: 47.53º = 47º +0.53º,

0.53º=0.53x60'=31.8', 0.8'=0.8x60"=48". Therefore, 47.53º=47º31'48" or 47d31m48s.

Select N/S Hemisphere

This option is active only if the latitude of observation site is below 10°. If polar axis is aligned to the North Celestial Pole, then set the mount to Northern Hemisphere. If the polar axis is pointing to the South Celestial Pole, set the mount to Southern Hemisphere. Use the ▲ or ▼ key to toggle between “Northern Hemisphere” and “Southern Hemisphere”.

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The time and site information will be stored inside the hand controller’s memory chip. If you are not traveling to another observation site, they do not need to be changed.

Check Hand Controller Battery

5.4.2. Set Beep

The Hand Controller allows a user to turn off the beep partially, or even go to a silent mode. To

change this setting press MENU => “Settings” => “Set Beep”,

Set Time and Site Set Beep Set Display Set Tracking Rate HBX Heating ON/OFF Wi-Fi Option Language

Select one of three available modes:

"Always On” – a beep will be heard on each button operation or mount movement;

“On but Keyboard” – a beep will be heard only when the mount is slewing to the object or there is a warning message;

“Always Off” – all sounds will be turned off, including the SUN warning message.

5.4.3. Set Display

Press MENU => “Settings” => “Set Display”,

Set Time and Site Set Beep Set Display Set Tracking Rate HBX Heating ON/OFF Wi-Fi Option Language

Use the arrow keys to adjust LCD display contrast, LCD backlight intensity, and keypad’s backlight intensity.

5.4.4. Set Tracking Rate

You can set up the mount tracking rate by selecting “Set Tracking Rate”.

Set Time and Site Set Beep Set Display Set Tracking Rate HBX Heating ON/OFF Wi-Fi Option Language

Page 24

Then the user can select “Sidereal Rate”, “Lunar Rate”, “Solar Rate”, “King Rate”, and “User Defined Speed”. The “User defined speed” can be adjusted from 0.9900X to 1.0100X of sidereal.

When use “Select and Slew” to Moon or Sun, “Lunar Rate” or “Solar Rate” will be used automatically. “Sidereal Rate” will be used for other object tracking.

The “King Rate”, developed by Edward S. King, corrects the tracking rate of a telescope to account for atmospheric refraction. This is more useful for unguided tracking.

5.4.5. Set Altitude Limit

Set the tracking limit in altitude, a useful function for tracking an object all the way to below the horizon when set it at a minus number (degree). The default setting is 0. The mount will stop tracking

when the telescope is point to horizon. Use this function at your own risk.

5.4.6. Set Heating OFF/ON

Turn on/off the controller LCD back heater. When “Heating” is set to ON, the heater will automatically be turned on when the ambient temperature reaches 0°C (32°F) and shut off at 10°C.

5.4.7. Wi-Fi Option

AZ Mount Pro mount has a built-in Wi-Fi adapter that allows a user to wirelessly control the mount via SmartPhone/Tablet/Computer.

Set Time and Site Set Beep Set Display Set Tracking Rate HBX Heating ON/OFF Wi-Fi Option Language

 Wi-Fi Status: indicates if the Wi-Fi is turned on and password pretected. Password can be

set after internet login

 IP Addess & Socket: the parameters needed for settiing up a manual WI-Fi access, such as

SkySafari

 SSID: Wi-Fi broadcast ID, which can be changed.

 Wi-Fi ON/OFF: turn ON/OFF Wi-Fi connection

 Restart: restart the Wi-Fi adapter

 Restore to Factory: restore the Wi-Fi factory setting

5.4.8. Language

Select one of supported menu languages.

5.5. Edit User Objects

Besides various star lists available in the hand controller, you can add, edit or delete your own user-defined objects. This is especially useful for newly found comets. You can also add your favorite observation object into the user object list for easy sky surfing. Up to 60 comets and other user objects can be stored.

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5.5.1. Customer Comets

Press MENU => “Edit User Objects” to set user objects.

Custom Comets Other Objects

Select “Custom Comets” to add/browse/delete the user-defined comet list. Find the orbit

parameters of a comet in the SkyMap format. For example, the C/2012 ISON has an orbit parameter:

No. Name Year M Day q e ω Ω I H G

C/2012 S1 ISON 2013 11 28.7960 0.0125050 1.0000030 345.5088 295.7379 61.8570 6.0 4.0

Select “Add a New Comet” to add a new one:

Add a New Comet Browse Comets Delete a Comet Delete All Comets

The hand controller will display the parameter entry screen:

Enter Comet Parameter Date: 0000-00-00.0000 q: 0.000000 e: 0.000000

ω: 000.0000 Ω: 000.0000

i: 000.0000

Enter the parameters using the arrow buttons and number keys. Press ENTER and a confirmation screen will be displayed. Press ENTER again to store the object under the assigned user object number, or press BACK button to cancel.

5.5.2. Enter Other Objects or Observation List

Press MENU => “Edit User Objects” to set user objects.

Custom Comets Other Objects

Select “Other Objects” to enter you own object:

Add a New Object Browse Objects Delete One Object Delete All Objects

Select “Add a New Object”. A screen will be displayed asking you to Enter R.A. and DEC

coordinates:

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Enter R.A. and DEC

R.A.: 00h00m00s DEC: +00d00m00s

You may enter the R.A. and DEC coordinates of the object you want to store, and press ENTER to confirm.

A more useful application of this function is to store your favorite viewing objects before heading

to the field. When the “Enter R.A. and DEC” screen appears, press the MENU button. It brings up the

catalogs that you can select the object from. Follow the screen instructions to add your favorite objects. Press BACK button to go back one level.

Press the BACK button to go back to the object entry submenu. You may review the records or delete those that are no longer wanted. Press the BACK button to finish the operation. Now you can

slew to your favorite stars from “Custom Objects” catalog using “Select and Slew.”

5.6. Firmware Information

This option will display the mount type, firmware version information for the hand controller (HC), Main board (Main), Azimuth motor board (Azi), and Altitude motor board (Alt).

5.7. Zero Position

5.7.1. Goto Zero Position

This moves your telescope to its Zero Position. The mount memorizes its Zero Position. The power on position is not necessary the zero position.

5.7.2. Set Zero Position

This set the Zero Position for the firmware.

The Zero Position reference will be an undefined value after firmware upgrade or HC battery replacement. You can use this function to set the zero position reference.

Press the ENTER after moving the mount to Zero Position with the hand controller.

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6. Wi-Fi Operation

6.1. Wi-Fi Connection

6.1.1. For a Windows/Mac Operation System

Open the Wi-Fi connection panel on your device, Find a Wi-Fi SSID called “AZMP_XXXXXX”, as shown in Figure 14(a), then connect.

(a) (b)

Figure 14. Wi-Fi connection panel (a) PC and Mac, (b) iOS

6.1.2. Tablet/SmartPhone with iOS

Connect the iOS Tablet/SmartPhone to the AZMP_XXXXXX wireless network, as shown in Figure 14(b).

6.1.3. Tablet/SmartPhone with Other OS

Open the Wi-Fi connection panel on your device, Find a Wi-Fi SSID called “AZMP_XXXXXX”, then connect.

6.2. Connect the Mount

6.2.1. Windows

After connecting a computer to AZMP Wi-Fi network, launch the iOptron Commander. Select

iOptron StarFi/Built-in Wi-Fi to connect the mount to your computer via Wi-Fi/Ethernet connection (Figure 15). Check the Mount Panel, as shown in Figure 15, to open iOptron Commander Mount Panel

(Figure 16).

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Figure 15 iOptron Commander Connection

Figure 16 iOptron Commander Mount Panel

Now you can use iOptron Commander to direct control the AZMP mount, or use your favorite ASCOM compatible software to control the mount.

6.2.2. Mac OS

You need planetarium software that runs on Mac OS and has an embedded AZMP mount drive, such as Sky Safari. Check the software for support information.

6.2.3. Tablet/SmartPhone with Sky Safari

The App needs be configured first.

 Click on Settings.

 Click on Setup.

 Select Scope Type as iOptron CEM/iEQPro & 8407+ and Mount Type should be Alt-Az.

GoTo.

 Turn off Auto-Detect SkyFi. Change the IP Address to 10.10.100.254 and Port Number to

8899. Click Done.

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Figure 17 Using Sky Safari on a SmartPhone/Tablet

This procedure only needs to be performed once unless you have changed your AZMP Wi-Fi settings.

Then click on the Scope icon and tap on Connect to connect the mount. Now you can perform

GOTO and Slew from your SmartPhone/Tablet.

6.3. Wi-Fi Configuration

The AZMP Wi-Fi is shipped with no password protection. You can change the SSID and enable password protection so only you can make the connection.

To change the Wi-Fi settings:

 Connect the computer/tablet/SmartPhone to AZMP Wi-Fi;

 Open the internet browser and type in http://10.10.100.254

 A login window will open. Enter “admin” as both User Name and Password;

 Go to AP Settings;

 Now you can change the SSID name from AZMP_XXXXXX to Your Name, enable WPA2

encryption, etc.;

 You may also go to account to change login name and password;

 Restart the mount.

Note:

1. Please keep the Wi-Fi at AP (access point) mode, unless you know how to setup the ST

mode.

2. If ever you forgot your password, use the hand controller “Restore to Factory” to reset the

WI-FI adapter to factory default settings.

;

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7. Maintenance and Servicing

7.1. Maintenance

The AZ Mount Pro mount is designed to be maintenance free. Do not overload the mount. Do not drop the mount as this will damage the mount and / or permanently degrade GOTO performance and tracking accuracy. Use a wet cloth to clean the mount and hand controller. Do not use solvent.

If your mount is not to be used for an extended period, dismount the OTAs and counterweight(s).

7.2. iOptron Customer Service

If you have any question concerning your mount contact iOptron Customer Service Department. Customer Service hours are 9:00 AM to 5:00 PM, Eastern Time, Monday through Friday. In the unlikely event that the mount requires factory servicing or repairing, write or call iOptron Customer Service Department first to receive an Return Merchandise Authorization Number (RMA#) before returning the mount to the factory. Please provide details as to the nature of the problem as well as your name, address, e-mail address, purchase information and daytime telephone number. We have found that most problems can be resolved by e-mails or telephone calls. So please contact iOptron first to avoid returning the mount for repair.

It is strongly suggested that to send technical questions to support@ioptron.com U.S. 1.781.569.0200.

7.3. Product End of Life Disposal Instructions

This electronic product is subject to disposal and recycling regulations that vary by country and region. It is your responsibility to recycle your electronic equipment per your local environmental laws and regulations to ensure that it will be recycled in a manner that protects human health and the environment. To find out where you can drop off your waste equipment for recycling, please contact your local waste recycle/disposal service or the product representative.

7.4. Battery Replacement and Disposal Instructions

Battery Disposal: Batteries contain chemicals that, if released, may affect the environment and human health. Batteries should be collected separately for recycling, and recycled at a local hazardous material disposal location adhering to your country and local government regulations. To find out where you can drop off your waste battery for recycling, please contact your local waste disposal service or the product representative.

. Call in the

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Appendix A. Technical Specifications

Mount Altazimuth Mount

Body material Die-cast aluminum

System GOTONOVA®

Primary payload 33 lb

Secondary payload 10 lb

Mount weight 13 lb (including CW shaft and battery)

Gear Aluminum worm wheel/Brass worm gear

Motor 128X microstep stepper motor

Resolution 0.1 arc seconds

Transmission Synchronous belt

Tracking Automatic

Tracking rate sidereal, solar, lunar, King and user defined

Hand Controller Go2Nova® 8407 with 212,000+ object database

Slew speed 1×,2×,8×,16×,64×,128×,256×,512×,MAX(~10 º /sec, 1400X)

GPS Built-in 32-channel GPS

Sensors Position and angular detection

Level indicator Precision bubble

Dovetail saddle

Battery Built-in rechargeable Li-ion battery (11.1V, 4.4AH)

Battery running time 10 hour at 20ºC

Battery charger 100-240V AC input /12.6V DC 2000mA output (Included)

Wireless control Yes, full control via built-in WIFI adapter

Firmware upgrade Yes, via serial (RS232) port on mount and hand controller

Computer control Yes. PC (ASCOM) and Mac/Tablet/SmartPhone

Counterweight 10 lb (optional for #8900)

Tripod/Pier/Tri-Pier Optional for #8900

Operation temperature -10ºC ~ 40ºC

Warranty

6" VIXEN/LOSMANDY-D dual saddle

Optional secondary Vixen saddle

Two year limited for mount

90 day limited for battery

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Appendix B. AZ Mount Pro Go2Nova® 8407 HC MENU

Select and Slew

Solar System

Mercury

Venus

Mars

Jupiter

Saturn

Uranus

Neptune

Sun

Moon

Deep Sky Ob jects

Named Objects

Stars

Comets

Asteroids

Constellations

Custom Objects

Messier Catalog

NGC Catalog

IC Cat alog

PGC Catalog

Cald well Catalog

Abell Catalog

Herschel Catalog

Named Stars

Double/Multi Stars

Hipparcos Catalog

User D ef ined Comets

Other Objects

Custom R.A. and DEC

Page 33

Sync. To Target

Alignment

One Star Alignment

Two S tar Alig nent

Three Star Alignment

Solar System Align

Clear Alignment Data

Settings

Set Time and Site

Set Beep

Always On.

On b ut Keyboard .

Always Off .

Set Display

Set Tracking Rate

Set Altitude Limit

Set Heating OFF/ON

Wi-Fi Op tions

Sid ereal Rate

Lunar Rate

SolarRate

King Rate

User D ef ined Speed

Wi-Fi Status

IP A d d res s & So cket

SSID

WI-Fi ON/OFF

Restart

Restore to Factory

Languag e

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Edit User Objects

Custom Comets

Ad d a New Comet

Browse Comets

Delete a Comet

Clear All Comets

Other Objects

Ad d a New Object

Browse Objects

Delete an Object

Clear All Objects

Firmware Inf ormation

Zero Position

Goto Zero Position

Set Zero Position

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Appendix C. Firmware Upgrade

The firmware in the 8407 Hand Controller and control board can be upgraded by the customer.

Please check iOptron’s website, http://www.iOptron.com, under Support > Firmware/Software for

details.

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Appendix D. Computer Control an AZMP Mount

The AZ Mount Pro mount can be controlled by a SmartPhone, a tablet or a computer. It is supported by two types of computer connections:

 Connect to a computer via RS232 serial port. An optional RS232 to USB adapter (iOptron

part #8435) is needed if your computer does not have a serial port, like most of the laptops on the market today. Follow the adapter instructions to install the adapter driver. The mount can be controlled via ASCOM protocol (Windows OS), or directly by some software, such as Sky Safari (Mac OS)

 Connect wirelessly via built-in Wi-Fi connection. The mount can be controlled via ASCOM

protocol (Windows OS), SmartPhone/tablet and Mac OS wirelessly (with supported software, such as Sky Safari.

To control the mount via ASCOM protocol, you need:

1. Download and install the latest ASCOM Platform, currently 6.1 SP1, from http://www.ascom-

standards.org/. Make sure your PC meets the software requirement. For 6.1 SP1, Windows

XP users should install .NET Framework 4 (not the Client Profile). Windows Vista and Windows 7 users should install .NET Framework 4.5.2. Windows 8 and 8.1 users do not need install any additional components.

2. Download and install the latest iOptron ASCOM drive for AZMP from iOptron website.

3. Planetarium software that supports ASCOM protocol. Follow software instructions to select the iOptron Telescope.

Please refer to iOptron website, www.iOptron.com detail.

, under Support > iOptron ASCOM Driver for more

Page 37

Appendix E. Go2Nova® 8407 Hand Controller Star List

Messier Catalog

This table is licensed under the GNU Free Documentation License. It uses material from the Wikipedia

article List of Messier objects

Page 38

Named Star List

001 Acamar 050 Alrescha 099 Deneb el Okab 148 Lesath 002 Achernar 051 Alshain 100 Deneb Kaitos 149 Mahasim 003 Achird 052 Altair 101 Denebakrab 150 Maia 004 Acrab 053 Altais 102 Denebola 151 Marfik 005 Acrux A 054 Alterf 103 Dschubba 152 Marfikent 006 Acrux B 055 Aludra 104 Dubhe 153 Markab 007 Acubens 056 Alula Australis 105 Edasich 154 Markeb 008 Adhafera 057 Alula Borealis 106 Electra 155 Matar 009 Adhara 058 Alya 107 Elnath 156 Mebsuta 010 Al Dhanab 059 Ancha 108 Eltanin 157 Megrez 011 Al Dhibain Prior 060 Ankaa 109 Enif 158 Meissa 012 Al Kab 061 Antares 110 Epsilon Persei 159 Mekbuda 013 Al Mizan 062 Apollyon 111 Errai 160 Menkalinan 014 Al Nair 063 Arcturus 112 Fomalhaut 161 Menkar 015 Al Niyat 064 Arkab 113 Furud 162 Menkent 016 Albaldah 065 Arneb 114 Gacrux 163 Menkib 017 Albali 066 Ascella 115 Gamma Lupi 164 Merak 018 Albireo 067 Asellus Australis 116 Gatria 165 Merope 019 Alchiba 068 Asellus Borealis 117 Giausar 166 Mesartim 020 Alcor 069 Aspidiske 118 Gienah 167 Miaplacidus 021 Alcyone 070 Atik 119 Gienah Cygni 168 Mimosa 022 Aldebaran 071 Atlas 120 Girtab 169 Mintaka 023 Alderamin 072 Atria 121 Gliese 1 170 Mira 024 Alfirk 073 Avior 122 Gomeisa 171 Mirach 025 Algenib 074 Azha 123 Graffias 172 Mirfak 026 Algenubi 075 Barnard's Star 124 Groombridge 1830 173 Mirzam 027 Algieba 076 Baten Kaitos 125 Grumium 174 Mizar 028 Algiedi Secunda 077 Beid 126 Hadar 175 Mu Leporis 029 Algol 078 Bellatrix 127 Hamal 176 Mu Velorum 030 Algorab 079 Beta Gruis 128 Hatsya 177 Muphrid 031 Alhakim 080 Beta Hydri 129 Head of Hydrus 178 Muscida 032 Alhena 081 Betelgeuse 130 Homam 179 Naos 033 Alioth 082 Betria 131 Iritjinga 180 Nasak Yamani 034 Alkaid 083 Biham 132 Iritjinga 181 Nashira 035 Alkalurops 084 Birdun 133 Izar 182 Navi 036 Alkes 085 Canopus 134 Kapteyn's Star 183 Nekkar 037 Almaaz 086 Capella 135 Kaus Australis 184 Nihal 038 Almach 087 Caph 136 Kaus Borealis 185 Nunki 039 Alnair 088 Castor A 137 Kaus Media 186 Nusakan 040 Alnasl 089 Castor B 138 Keid 187 Peacock 041 Alnilam 090 Cebalrai 139 Kekouan 188 Phact 042 Alnitak 091 Chara 140 Kitalpha 189 Phecda 043 Alniyat 092 Chertan 141 Kochab 190 Pherkad 044 Alpha Lupi 093 Choo 142 Koo She 191 Pi Puppis 045 Alpha Muscae 094 Cor Caroli 143 Kornephoros 192 Pi Scorpii 046 Alpha Tucanae 095 Cursa 144 Kraz 193 Polaris 047 Alphard 096 Dabih 145 Kurhah 194 Pollux 048 Alphecca 097 Deneb 146 Lacaille 9352 195 Porrima 049 Alpheratz 098 Deneb Algedi 147 Lalande 21185 196 Procyon

Page 39

197 Propus 213 Sadachbia 229 Suhail 245 Vindemiatrix 198 Proxima Centauri 214 Sadalbari 230 Sulafat 246 Wasat 199 Rasalas 215 Sadalmelik 231 Syrma 247 W azn 200 Rasalgethi 216 Sadals uud 232 Talitha 238 Wei 201 Rasalhague 217 Sadr 233 Tania Australis 249 Wezen 202 Rastaban 218 Saiph 234 Tania Borealis 250 Yed Posterior 203 Regor 219 Sargas 235 Tarazed 251 Yed Prior 204 Regulus 220 Scheat 236 Tau Puppis 253Zaniah 205 Rigel 221 Schedar 237 Taygeta 253 Zaurak 206 Rigel Kentaurus B 222 Seginus 238 Tejat Posterior 254 Zavijava 207 Rigil Kentaurus A 223 Shaula 239 Theta Carinae 255 Zeta Persei 208 Ruchbah 224 Sheliak 240 Thuban 256 Zeta Tauri 209 Rukbat 225 Sheratan 241 Turais 257 Zosma 210 Rukh 226 Sirius 242 Unukalhai 258 Zubenelgenubi 211 Rutilicus 227 Skat 243 Vasat-ul-cemre 259 Zubeneschamali 212 Sabik 228 Spica 244 Vega

Page 40

AraA

Modern Constellations

No.

1 2 3 4 5 6 7 8

9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44

Constellation Abbreviation

ndromeda

ntlia

pus

quarius

quila

ries

uriga

Boötes Boo

Caelum Cae

Camelopardalis Cam

Cancer Cnc

Canes Venatici CVn

Canis Major CMa Canis Minor CMi

Capricornus Cap

Carina Car

Cassiopeia Cas

Centaurus Cen

Cepheus Cep

Cetus Cet

Chamaeleon Cha

Circinus Cir

Columba Col Coma Berenices Com Corona Australis Cr Corona Borealis CrB

Corvus Crv

Crater Crt

Crux Cru

Cygnus Cyg

Delphinus Del

Dorado Dor

Draco Dra

Equuleus Equ

Eridanus Eri

Fornax For

Gemini Gem

Grus Gru

Hercules Her

Horologium Hor

Hydra Hya

Hydrus Hyi

Indus Ind

qr ql ra

No.

45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88

Constellation Abbreviation

Lacerta Lac

Leo Leo

Leo Minor LMi

Lepus Lep

Libra Lib

Lupus Lup

Lynx Lyn

Lyra Lyr

Mensa Men

Microscopium Mic

Monoceros Mon

Musca Mus Norma Nor

Octans Oct

Ophiuchus Oph

Orion Ori

Pavo Pav

Pegasus Peg

Perseus Per Phoenix Phe

Pictor Pic

Pisces Psc

Piscis Austrinus Ps

Puppis Pup

Pyxis Pyx

Reticulum Ret

Sagitta Sge

Sagittarius Sgr

Scorpius Sco

Sculptor Scl

Scutum Sct Serpens Ser Sextans Sex

Taurus Tau

Telescopium Tel

Triangulum Tri

Triangulum Australe Tr

Tucana Tuc

Ursa Major UMa Ursa Minor UMi

Vela Vel

Virgo Vir

Volans Vol

Vulpecula Vul

Page 41

Double/Multi Stars

1 RigelKentaurus A 53 HIP 95771 105 HIP 40167 157 HIP 28790 2 Rigel 54 HIP 30867 106 HIP 40817 158 HIP 4675 3 Gacrux 55 HIP 35363 107 HIP 81292 159 HIP 31676 4 Sargas 56 HIP 94761 108 HIP 80197 160 HIP 10176 5 Castor A 57 HIP 21683 109 HIP 88060 161 HIP 25950 6 Mizar 58 HIP 8497 110 HIP 42637 162 HIP 117931 7 Almach 59 HIP 26199 111 HIP 21039 163 HIP 81914 8 Algieba 60 HIP 104521 112 HIP 100965 164 HIP 21242

9 Aludra 61 HIP 116389 113 HIP 25768 165 HIP 86831 10 Iritjinga(Cen) 62 HIP 17797 114 HIP 93717 166 HIP 115272 11 Zubenelgenubi 63 HIP 21036 115 HIP 79980 167 HIP 46657 12 Alcyone 64 HIP 107310 116 HIP 12086 168 HIP 41404 13 Cor Caroli 65 HIP 72659 117 HIP 90968 169 HIP 29388 14 Acamar 66 HIP 21029 118 HIP 22531 170 HIP 49321 15 Adhafera 67 HIP 42726 119 HIP 34065 171 HIP 84054 16 Rasalgethi 68 HIP 18255 120 HIP 79607 172 HIP 39035 17 Meissa 69 HIP 9153 121 HIP 109786 173 HIP 25303 18 Graffias(Zeta) 70 HIP 88267 122 HIP 56280 174 HIP 52520 19 Alya 71 HIP 85829 123 HIP 51561 175 HIP 95398 20 HIP 48002 72 HIP 43937 124 HIP 107930 176 UCAC4 277-135548 21 HIP 95947 73 HIP 71762 125 HIP 97966 177 HIP 32609 22 HIP 20894 74 HIP 80047 126 HIP 117218 178 HIP 101765 23 HIP 74395 75 HIP 58484 127 HIP 82676 179 HIP 24825 24 HIP 27072 76 HIP 25142 128 HIP 111546 180 HIP 31158 25 HIP 26549 77 HIP 54204 129 HIP 29151 181 HIP 3885 26 HIP 85667 78 HIP 76669 130 HIP 107253 182 HIP 93371 27 HIP 74376 79 HIP 99770 131 HIP 88136 183 HIP 36345 28 HIP 34481 80 HIP 101027 132 HIP 81702 184 HIP 108364 29 HIP 53253 81 HIP 74911 133 HIP 97423 185 HIP 50939 30 HIP 99675 82 HIP 35210 134 HIP 30444 186 HIP 76603 31 HIP 63003 83 HIP 26235 135 HIP 66400 187 HIP 32269 32 HIP 43103 84 HIP 40321 136 HIP 17579 188 HIP 42516 33 HIP 110991 85 HIP 70327 137 HIP 35785 189 HIP 62807 34 HIP 20635 86 HIP 26221 138 HIP 81641 190 UCAC4 226-128246 35 HIP 88601 87 HIP 80473 139 HIP 7751 191 HIP 94913 36 HIP 2484 88 HIP 78105 140 HIP 21148 192 HIP 94336 37 HIP 91971 89 HIP 79043 141 HIP 9021 193 HIP 107299 38 HIP 79374 90 HIP 61418 142 HIP 97816 194 HIP 59984 39 HIP 102532 91 HIP 91919 143 HIP 88818 195 HIP 16411 40 HIP 52154 92 HIP 41639 144 HIP 36817 196 HIP 23287 41 HIP 37229 93 HIP 104214 145 HIP 25695 197 HIP 105637 42 HIP 30419 94 HIP 23734 146 HIP 98819 198 HIP 108925 43 HIP 108917 95 HIP 60189 147 HIP 61910 199 HIP 103814 44 HIP 53417 96 HIP 66821 148 HIP 111643 200 HIP 58112 45 HIP 65271 97 HIP 14043 149 HIP 80399 201 HIP 109354 46 HIP 67669 98 HIP 5737 150 HIP 83478 202 HIP 43822 47 HIP 105319 99 HIP 84626 151 HIP 101123 203 HIP 21986 48 HIP 80582 100 HIP 60904 152 HIP 28271 204 HIP 17470 49 HIP 8832 101 HIP 58684 153 HIP 64246 205 HIP 35960 50 HIP 69483 102 HIP 5131 154 HIP 96895 206 HIP 42936 51 HIP 92946 103 HIP 115126 155 HIP 35564 207 HIP 19272 52 HIP 86614 104 HIP 62572 156 HIP 37843 208 HIP 76143

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Deep Sky Object

ID No. OBJ ECT NGC # Mes sier # IC# A(Abe ll) U(UGC)

1 Andromeda Galaxy 224 31 2 Barnards Galaxy 6822 3 Beehive Cluster 2632 44 4 Blackeye Galaxy 4926 64 5 Blinking Planetary Nebula 6826 6 Blue Flash Nebula 6905 7 Blue Planetary 3918 8 Blue Snowball Nebula 7662

9 Box Nebula 6309 10 Bubble Nebula 7635 11 Bipolar Nebula 6302 12 Butterfly Cluster 6405 6 13 California Nebula 1499 14 Cat's Eye Nebula 6543 15 Cocoon Nebula 5146 16 Cone Nebula 2264 17 Cork Nebula 650-51 76 18 Crab Nebula 1952 1 19 Crescent Nebula 6888 20 Draco Dwarf 10822 21 Duck Nebula 2359 22 Dumbbell Nebula 6853 27 23 Eagle Nebula 16 24 Eight-Burst Nebula 3132 25 Eskimo Nebula 2392 26 Flaming Star Nebula 405 27 Ghost of Jupiter 3242 28 Great Cluster 6205 13 29 Helix Nebula 7293 30 Hercules Galaxy Cluster 2151 31 Hind's Variable Nebula 1555 32 Hubble's Variable Nebula 2261 33 Integral Sign Galaxy 3697 34 Jewel Box Cluster 4755 35 Keyhole Nebula 3372 36 Lagoon Nebula 6523 8 37 Little Gem 6445 38 Little Gem Nebula 6818 39 Little Ghost Nebula 6369 40 North American Nebula 7000 41 Omega Nebula 6618 17 42 Orion Nebula 1976 42 43 Owl Nebula 3587 97 44 Pelican Nebula 5070 45 Phantom Streak Nebula 6741 46 Pinwheel Galaxy 598 33 47 Pleiades 45 48 Ring Nebula 6720 57 49 Ring Tail Galaxy 4038

50 Rosette Nebula 2237 51 Saturn Nebula 7009 52 Sextans B Dwarf 5373 53 Small Magellanic Cloud 292 54 Sombrero Galaxy 4594 104 55 Spindle Galaxy 3115 56 Tank Track Nebula 2024 57 Trifid Nebula 6514 20 58 Ursa Minor Dwarf 9749 59 Whirlpool Galaxy 5194 51 60 Wild Duck Cluster 6705 11

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IOPTRON WARRANTY

1. iOptron battery has 90 day limited warranty

2. iOptron mount has two (2) year limited warranty

A. iOptron warrants your telescope, mount, or controller to be free from defects in materials and workmanship for two years. iOptron will repair or replace such product or part which, upon inspection by iOptron, is found to be defective in materials or workmanship. As a condition to the obligation of iOptron to repair or replace such product, the product must be returned to iOptron together with proof-ofpurchase satisfactory to iOptron.

B. The Proper Return Merchant Authorization Number must be obtained from iOptron in advance of return. Call iOptron at

1.781.569.0200 to receive the RMA number to be displayed on the outside of your shipping container. All returns must be accompanied by a written statement stating the name, address, and daytime telephone number of the owner, together with a brief description of any claimed defects. Parts or product for which replacement is made shall become the property of iOptron.

The customer shall be responsible for all costs of transportation and insurance, both to and from the factory of iOptron, and shall be required to prepay such costs.

iOptron shall use reasonable efforts to repair or replace any telescope, mount, or controller covered by this warranty within thirty days of receipt. In the event repair or replacement shall require more than thirty days, iOptron shall notify the customer accordingly. iOptron reserves the right to replace any product which has been discontinued from its product line with a new product of comparable value and function.

This warranty shall be void and of no force of effect in the event a covered product has been modified in design or function, or subjected

to abuse, misuse, mishandling or unauthorized repair. Further, product malfunction or deterioration due to normal wear is not covered by

this warranty.

IOPTRON DISCLAIMS ANY WARRANTIES, EXPRESS OR IMPLIED, WHETHER OF MERCHANTABILITY OF FITNESS FOR A PARTICULAR USE, EXCEPT AS EXPRESSLY SET FORTH HERE. THE SOLE OBLIGATION OF IOPTRON UNDER THIS LIMITED WARRANTY SHALL BE TO REPAIR OR REPLACE THE COVERED PRODUCT, IN ACCORDANCE WITH THE TERMS SET FORTH HERE. IOPTRON EXPRESSLY DISCLAIMS ANY LOST PROFITS, GENERAL, SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES WHICH MAY RESULT FROM BREACH OF ANY WARRANTY, OR ARISING OUT OF THE USE OR INABILITY TO USE ANY IOPTRON PRODUCT. ANY WARRANTIES WHICH ARE IMPLIED AND WHICH CANNOT BE DISCLAIMED SHALL BE LIMITED IN DURATION TO A TERM OF TWO YEARS FROM THE DATE OF ORIGINAL RETAIL PURCHASE.

Some states do not allow the exclusion or limitation of incidental or consequential damages or limitation on how long an implied warranty lasts, so the above limitations and exclusions may not apply to you.

This warranty gives you specific legal rights, and you may also have other rights which vary from state to state.

iOptron reserves the right to modify or discontinue, without prior notice to you, any model or style telescope.

If warranty problems arise, or if you need assistance in using your telescope, mount, or controller contact:

NOTE: This warranty is valid to U.S.A. and Canadian customers who have purchased this product from an authorized iOptron dealer in the U.S.A. or Canada or directly from iOptron. Warranty outside the U.S.A. and Canada is valid only to customers who purchased from an iOptron Distributor or Authorized iOptron Dealer in the specific country. Please contact them for any warranty.

iOptron Corporation

Customer Service Department

6E Gill Street

Woburn, MA 01801

www.ioptron.com

support@ioptron.com

Tel. (781)569-0200

Fax. (781)935-2860

Monday-Friday 9AM-5PM EST