HEM44EC - Tripod iOptron - Free user manual and instructions
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| Product Type | Hybrid Strain Wave GoTo Equatorial Mount (HEM44EC) |
| Mount Weight | 13.65 lb (6.2 kg) with dovetail saddle |
| Payload without Counterweight | 44 lb (20 kg) |
| Payload with Counterweight | 55 lb (25 kg) |
| RA Gear System | StrainWave with 640:1 reduction ratio |
| DEC Gear System | Backlash-free worm/belt drive |
| Periodic Error | 270 seconds |
| Encoder | High precision encoder with Real-Time PEC (RPEC) |
| Power Requirement | DC 12V, 5A (5.5/2.5mm plug, center positive) |
| Power Consumption | 0.6A (tracking), 1.2A (GOTO) |
| Hand Controller | Go2Nova® 8409 with 212,000+ object database |
| Slew Speeds | 1X, 2X, 8X, 16X, 64X, 128X, 256X, 512X, MAX (4.5°/sec) |
| Tracking | Automatic sidereal, solar, lunar; user defined from 0.9900X to 1.0100X |
| Polar Alignment | iPolar™ electronic polar scope (included); Polar Iterate Align |
| Latitude Adjustment Range | 15° – 65° (two ranges) |
| Azimuth Adjustment Range | ±6° |
| Material | All metal, casting + CNC machined, black anodized |
| Dovetail Saddle | Vixen/Losmandy-D convertible |
| Communications | USB (firmware/computer), ST-4 autoguide port, built-in Wi-Fi (via hand controller) |
| Power-Down Memory | Yes – retains RA/DEC position for uninterrupted tracking after power loss |
| Brake | Electronic friction brake for safe stop during power interruptions |
| Warranty | Two years limited (USA/Canada) |
| Operating Temperature | -20°C to 40°C (hand controller: -10°C to 40°C) |
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USER MANUAL HEM44EC iOptron
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Close-up of a black HEMA4 telescope mounted on a tripod, showing no visible text or symbols on the device itself.iOptron® HEM44™ Hybrid Strain Wave GoTo Equatorial Mount Instruction Manual

Read the Quick Setup Guide (QSG) BEFORE setup and operate the mount! Read the full online Instruction Manual for details.
Please hold the mount/scope when disengaging the gear switch. Any worm system damage due to improper operation will not be covered by iOptron's limited warranty.
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.
Table of Content
Table of Content....3
- HEM44 Overview .... 5
- HEM44 Terms....6
2.1. Parts List....6
2.2. Identification of Parts ...... 7
2.3. HEM44 Port....7
2.4.Go2Nova® 8409 Hand Controller 8
2.4.1.Key Description....9
2.4.2. The LCD Screen....9
2.5. Install and Check the Hand Controller Battery 10
2.6.Bench Testing the Mount 11
-
HEM44 Mount Assembly....12
-
Getting Started....21
4.1. Setup the Mount and Polar Alignment 21
4.2. Manual Operation of the Mount 21
4.3. Go to an Object....21
4.4. Sync to Target....21
4.5. Star Identifying Function....22
4.6. Power-Down Memorization 22
4.7. Install iOptron iGuider 22
4.8. Turn Off the Mount 22
- Complete Functions of Go2Nova ^® 8409 Hand Controller....23
5.1. Slew to an Object....23
5.1.1. Solar System....23
5.1.2. Deep Sky Objects 23
5.1.3. Stars: 23
5.1.4. Constellations ...... 23
5.1.5. Comets....23
5.1.6. Asteroids....23
5.1.7.User Objects 24
5.1.8.Enter R.A.DEC 24
5.2. Sync to Target....24
5.3. Alignment 24
5.3.1. Pole Star Position 24
5.3.2. Polar Iterate Align 24
5.4. Settings 24
5.4.1. Set Time and Site....24
5.4.2. Set Beep....25
5.4.3. Set Display....25
5.4.4. Set Maximum Slew Rate 25
5.4.5. Set Guiding Rate....25
5.4.6. Set Parking Position 25
5.4.7. Set Tracking Rate 26
5.4.8. Meridian Treatment 26
5.4.9. Set Altitude Limit 26
5.4.10.Wi-Fi Option 26
5.4.11. Set RA Guiding (HEM44EC Only)....26
5.4.12. Language 26
5.4.13. Enable CW Up Position....26
5.5. Edit User Objects....27
5.5.1. Enter a New Comet ....27
5.5.2. Enter Other Objects or Observation List....27
5.6.Firmware Information 28
5.7. Zero Position 28
5.7.1. Goto Zero Position 28
5.7.2. Set Zero Position 28
5.7.3. Search Zero Pos....28
- Maintenance and Servicing 29
6.1. Maintenance 29
6.2.iOptron Customer Service 29
6.3. Product End of Life Disposal Instructions 29
6.4. Battery Replacement and Disposal Instructions....29
Appendix A. Technical Specifications 30
Appendix B. Go2Nova ^® 8409 HC MENU STRUCTURE ....32
Appendix C. Gear Switch Meshing Adjustment 34
Appendix D. Firmware Upgrade .... 37
Appendix E. Computer Control an HEM44 Mount 38
Appendix F. Go2Nova ^® Star List....39
IOPTRON TWO YEAR TELESCOPE, MOUNT, AND CONTROLLER WARRANTY....48
Ver. 1.0 2022.10
iOptron reserves the rights to revise this instruction without notice. Actual color/contents/design/function may differ from those described in this instruction.
1. HEM44 Overview
Introducing the HEM44 and the HEM44EC, iOptron's revolutionary hybrid strain wave drive mounts. These light weight, medium payload titans will deliver an astronomy experience like never before. Imagine a mount head weighing in at 13.65lbs with a payload capability 44lbs, without needing a cumbersome counterweight or shaft. Applying iOptron's multi decade experience creating precision mounts, the HEM44 brings this vision to reality.
Utilizing state of the art strain wave drive technology for the RA movement in tandem with backlash-free DEC worm/belt drive design, the HEM44s deliver unparalleled weight to payload efficiency. Its black anodized all metal CNC machined body is not only appealing to the eye, it's a rugged platform that will perform at the highest level for many years to come. Unique features such as an electronic friction break and power down memory allow the mount safely stop and resume a GoTo slew or continue tracking even after an abrupt power loss (No need to realign and start from the beginning).
The HEM44EC features a high precision RA axis encoder that delivers incredible tracking accuracy, enough that many will choose to image “sans” guiding.
The iOptron HEM44 mount uses the Go2Nova ^® 8409 hand controller to navigate the night sky. This incredible technology helps observers find celestial objects with the aid of the mount's 212,000+ object database!
A HEM44 mount can be controlled by a computer, either via ASCOM/Commander for a Windows PC or a third party INDI driver for MacOS software; a SmartPhone/Tablet via iOptron Commander Lite or an App like SkySafari Pro; or a Raspberry Pi device via INDI driver.
Features:
• Advanced strain wave drive technology
- Payload capacity of 20 kg (44 lbs) with the mount weight of 6.2 kg (13.655 lbs)
- CNC machined
- Unique friction brake to safely stop movement during a planned or unplanned power interruption
• 270 second gear period
• High precision encoder with real time PEC (RPEC) for HEM44EC
- Go2Nova® hand controller with \~212,000 object database
- iPolar electronic polar scope for easy and accurate polar alignment (for HEM44A and HEM44EC)
- Cable management system, no hanging exterior cables to moving parts
- Accept Vixen or Losmandy-D style dovetail bar
• Built in zero position search and locator
• Power down position and location memory
- Integrated ST-4 autoguiding port
• Built-in Wi-Fi (via hand controller)
• USB port for firmware upgrade and computer control
- Soft carrying case
- Two year warranty
- Optional carbon fiber tripod #8061
- Optional iGuider ^TM autoguiding system #3360
- Optional counterweight shaft (#8456SL) and counterweight (#3006-10)
- Optional MiniPier extension #8040 or #8040-8
2. HEM44 Terms
2.1. Parts List ^1
SHIPPING CONTENTS
Your new HEM44 mount comes in one shipping box:
- iOptron ^ HEM44 mount (#HEM44);
iOptron® HEM44 mount head with iPolar (#HEM44A); or
iOptron ^® HEM44 mount head with high precision encoder and iPolar (#HEM44EC) - Go2Nova ^ 8409 Hand Controller with USB port
- Internal iPolar ^TM electronic polar scope (HEM44A or HEM44EC)
- AC adapter 100V-240V, 12V/5A DC output, 5525 plug (for indoor use only)
- 1X coiled control Cable (6P6C RJ11 to RJ11, straight wired)
- USB cable for mount
- MiniUSB cable for iPolar
- Hardcase
OPTIONAL PARTS
• Carbon fiber tripod (#8061)
- iGuider 1 mini autoguiding system (#3360-HEM)
- MiniPier extension #8040 or #8040-8
• Counterweight shaft (#8456SL) and counterweight (#3006-10)
ONLINE RESOURCES (click on the "Support" menu at www.iOptron.com)
- Quick Start Guide
- Instructional manual
- Tips for set up
- Hand controller and mount firmware upgrades (check online for latest version)
- iOptron ASCOM driver and computer control
• Reviews and feedback from other customers - Accessories
2.2. Identification of Parts

Figure 1. HEM44 mount assembly
2.3. HEM44 Port
On the Mount:

Figure 2. Ports on a HEM44 mount
- DC 12V IN: DC power socket to power the mount (5.5mmX2.5mm/5525, center positive)
- I/O: Power switch
• iPolar: iPolar miniUSB port
• HBX (Hand Box): For connecting to an 8409 Hand Controller
• ST-4: ST-4 compatible autoguiding port. The wiring is shown in Figure 3


Figure 3. ST-4 Compatible Guiding Port Wiring
- DC 12 OUT (on top of the mount body): DC power output socket (5.5mmX2.1mm/5521, center positive). Maximum current 4A, combined with DC 12V output from dovetail saddle.
- USB INPUT: USB pass through to the USB port on dovetail saddle.
On Dovetail Saddle:

Figure 4. Port on dovetail saddle
- DC12V 3A 5521: DC power output socket (5.5mmX2.1mm/5521, center positive). Maximum current 3A
• USB: USB-A port connect to mount body.
2.4. Go2Nova ^® 8409 Hand Controller
The Go2Nova ^® 8409 hand controller (HC) shown in Figure 5 is the standard controller used on the HEM44 mount. It has a large LCD screen, function, direction, and number keys on the front; and an HBX (6-pin) and a USB port at the bottom.


Figure 5. Go2Nova® 8409 hand controller
2.4.1. 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 R.A. 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 (1: 1X; 2: 2X; 3: 8X; 4: 16X; 5: 64X; 6: 128X; 7: 256X; 8: 512X; 9: MAX)
• Help (?) Key: Identify and display bright stars or objects that the telescope is pointing to. - 0 Key: Stop the mount during GOTO. Also toggling between starting and stopping tracking.
- HBX (Handbox) port: connect the HC to the HEM44 mount using a 6P6C RJ11 cable.
- USB port: connect the HC to a computer for firmware upgrade and computer control.
2.4.2. The LCD Screen
The 8409 HC has a large 4-line, 21-character per line LCD screen. The user interface is simple and easy to learn. When the mount first turned on, an initial information screen will be displayed as shown in Figure 6, after company logo displayed. It displays the Zero Position, current date and time.

Figure 6. 8409 Initial Information Screen
The LCD screen will switch to the information screen, as indicated in Figure 7, with pressing any button.

Figure 7. 8409 HC LCD Information Screen
-
Target Name/Mount Position: displays the name of the target that telescope is currently pointed to or the current mount position.
-
An object name, such as "Mercury" or "Andromeda Galaxy": Name of the Star or celestial object that the mount is currently slewing to, GOTO or tracking;
- User Position: The mount is point to a user defined position, which could be a real sky object or just simply due to press an arrow key;
-
Zero Position: Mount is at Zero Position. When set the mount at Zero Position physically, the hand controller should display the same.
-
GPS Status: Indicates if there is GPS or GPS is connected to the satellite. HEM44 does not have a GPS. The GPS status will be always OFF.
- Right Ascension: Right Ascension of the telescope, or R.A.
- Declination: Declination of the telescope, or DEC.
- Azimuth: Azimuth of the telescope (north is 0^ , east 90^ , south 180^ , and west 270^ ).
- Altitude: Altitude of the telescope (degrees vertical from the local horizon - zenith is 90°).
-
Mount Status: Display current operation status of the mount.
-
Stop: mount is not moving;
- Slew: mount is moving with an arrow key is pressed;
-
GoTo: mount is slewing to a celestial object using "Select and Slew";
-
Slew speed: It has 9 speeds: 1X, 2X, 8X, 16X, 64X, 128X, 256X, 512X, MAX(1440X, or 6°/sec).
-
Current Time: display local time in a format of HH:MM:SS.
2.5. Install and Check the Hand Controller Battery
The hand controller uses a button battery to keep the Real Time Clock running. The battery is a CR2032 Lithium battery, which is not included due to shipping restrictions.
Open the HC back cover with a good, size 1 (4mm) Phillips Screw Driver. With battery + sign facing up, slide the battery under two small metal hooks on the positive side first. Then push the battery down to make a good contact. Make sure that two spring contacts on the negative side are underneath the battery. If none of the metal pins in battery holder can be seen after battery installed, the battery is not installed properly.

Figure 8. Install a CR2032 battery
If the hand controller can't display the correct date and time, most likely the battery is installed wrong, or power is low and needs be replaced.
2.6. Bench Testing the Mount
Plug in the power and hand controller and turn the power on. Now you can bench test the mount manually.
There are two stoppers to prevent the mount head slew over +/-180 in RA due to internal cable management system. Please do not try to slew pass the stopper when you hear the grinding sound. It may damage the stoppers.
3. HEM44 Mount Assembly
NOTE: The HEM44 mount is a precision astronomical instrument. It is highly recommended that you read the entire manual and become familiar with the nomenclature and function of all components before starting the assembly.
Step 1. Set up tripod
The mount has a 102mm base. Thread the Alignment Peg onto the tripod head, on top of a tripod leg, or between two legs for low latitude. Insert the Accessory Tray through the center rod and secure the setup by tightening Locking Knob from underneath. If you are using a carbon fiber tripod, please use outside 4 threaded holes.

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Two views of a mechanical component with a 103mm diameter标注 and a circular mounting base (no text or symbols on the components themselves)Figure 9. HEM44 tripod top : LiteRoc tripod (left) and Carbon fiber tripod (right)
Step 2. Attach mount head
Remove the mount from the package. Retract the 2x Azimuth (Azi) Adjustment Screws from both sides to leave ample space for the alignment peg to be fitted in between the 2x Azi Adj. Screws. Remove the 2x Azi Locking Screws from the mount base and insert them into the opening next. Secure the mount head by tightening the Azi Locking Screws into the M6 holes on the tripod. An Allen wrench is stored in the EQ base if needed.

Figure 10. Attach the mount
Level the mount by adjusting the tripod legs. Use the build-in Bubble Level Indicator or an external leveler for this purpose.
Without any payload, slightly loosen the 4x Latitude Locking Screws. Use the Latitude Adjustment Knob to set the correct latitude value, as displayed in the Latitude Mark Window. Insert the Allen wrench into the Latitude Adjustment Knob for more turning torque.

Two latitude ranges, 15\~41° and 39\~65°, can be set up for the mount head. To change the latitude range from one to the other, both the Latitude Position Bolt and the Latitude Locking Screws need to be moved to the correct locations.
- Loosen the Latitude Locking Screws just enough to adjust the latitude setting to between 39\~41°. Tighten Latitude Locking Screws.
- Unthread and pull out the Position Bolt. Remove and do not lose the two black sleaves. Insert the Position Bolt to a new latitude position with one black sleave on.
- Adjust the Latitude Adjustment Knob while holding the brass eyebolt until it lines up with the Position Bolt. Insert another black tube and secure the Latitude Position Bolt.
- Move the Latitude Locking Screws (one on each side) to the new locations revealed.

HEM44 accepts a Vixen or a Losmandy-D dovetail mounting plate. The default is Vixen-type one. Release the dovetail Saddle Locking Lever and slide the telescope dovetail plate into the saddle with Gear Switch disengaged. Make sure that the arrow sign on the saddle is pointing forward. Tighten the Saddle
Locking Levers. Pull the lever and turn it to the position that the lever is parallel to the saddle to prevent it interfering with the DEC unit during mount GOTO and tracking.

Figure 13. Dovetail saddle locking levers
If you have a scope using a Losmandy dovetail plate, please follow the following steps to convert dovetail saddle from Vixen-type to Losmandy-type.
(1) Loosen the two socket screws (red circled), move the fixed block outward. Then tighten the screws.

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Close-up of a black mechanical device with multiple screw holes and a handle, no visible text or symbols
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Close-up of a black metal bracket with four bolts and two red arrows pointing to specific points (no text or symbols visible)Figure 14. Convert dovetail saddle to accept a Losmandy-D plate (1)
(2) Remove the two blue circled screws and pull the dovetail saddle locking block from the saddle.
(3) Release the four screws (yellow circled in Figure 14) to separate the saddle from the mount. Flip the dovetail saddle locking block and secure it onto the saddle from bottom of the dovetail saddle (blue squares in Figure 15)

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Close-up of a black mechanical device with attached spring and power cord, showing internal wiring and a close-up view (no text or symbols visible)Figure 15. Convert dovetail saddle to accept a Losmandy-D plate (2)
(4) Put the dovetail saddle back and retighten the four yellow circled screws. Here is a dovetail saddle that can receive a Losmandy-D dovetail bar.

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Close-up of a black mechanical device with mounting holes and a red indicator light (no visible text or symbols)Figure 16. Dovetail saddle for Loasmandy bar
Step 5. Connect cables
Connect the Go2Nova ^® 8409 Hand Controller to the HBX port on the mount back. Plug in a 12V DC power supply to the DC12V IN socket.

Figure 17. DC power and HBX ports
Step 6. Balance payload
No RA balance is needed for a HEM44 mount.
Turn the mount power on. Press number 9 to change the slew speed to max. Press ◀ or ▶ button to slew the telescope to one side of the mount. Hold the telescope and disengage DEC Gear Switch to check the balance. Release dovetail saddle locking lever and move the scope back and forth to adjust the position. Tighten the dovetail saddle locking lever and engage the gear switch after balancing completed.

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Exterior view of a cryogenic instrument with a red double-headed arrow indicating vertical displacement (no text or symbols on the device itself)Figure 18 Balance the mount in DEC
Return the mount to Zero Position after balancing and engage DEC gear switch.

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Close-up of a black mechanical switch with a red circular arrow indicating rotation (no text or symbols visible)Figure 19 DEC gear switch
If a counterweight is needed for higher payload, please thread in the CW shaft into the CW shaft mounting hole. Slide the CW up and lock the CW. Put CW shaft safety screw on.

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Black tripod-mounted optical instrument with adjustable arm and base (no visible text or symbols)Figure 20 HEM mount with optional CW shaft and a 5kg CW
STEP 7. Set Zero Position
The Zero Position is the GOTO reference of a HEM mount. The Zero Position is defined as the telescope being on top of the mount head and pointing to the North Pole (in northern hemisphere), with CW shaft mounting hole pointing to the ground. It also need to register the Zero Position to the control software. Use MENU=>Zero Position =>Search Zero Position command to find the Zero Position of the mount. Use arrow key to find tuning the Zero Position. Press ENTER to confirm.
You can also manually registers the current position as zero position. Move the mount to Zero Position either manually or slewed by the hand controller. Press MENU=>Zero Position =>Set Zero Position to register the Zero Position.
STEP 8. Set hand controller
HEM44 mount does not equip with a GPS receiver. Hence one needs to manually enter the GPS location or sync it from the App.
To set up the controller, turn the mount power ON. Press MENU => "Settings":
Select and Slew
Sync. to Target
Alignment
Settings
Press ENTER and select "Set Time and Site"
Set Time and Site
Set Beep
Set Display
Set Guiding Rate
Press ENTER. A time and site information screen will be displayed:
2020-10-01 12:01:36
UTC -300 Minute(s)
W071d08m50s DST: N
N42d30m32s Northern
Set Local Time
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 “-”. When the time information entered is correct, 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). Instead please select "Y" for DST when daylight saving time begins.

For other parts of the world you can find your “time zone” information from 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 satellite signals. "W/E" means western/eastern hemisphere; "N/S" means northern/southern hemisphere; "d" means degree; "m" means minute; and "s" means second.
Press ◀ or ▶ key to move the cursor and using ▲ or ▼ key to toggle between "W" and "E", "N" and "S", using number key to change the numbers. It is always a good idea to do your home work to get the GPS 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 N47°31'48": 47.53° = 47° +0.53°, 0.53°=0.53x60'=31.8', 0.8'=0.8x60"=48". Therefore, 47.53°=47°31'48" or 47d31m48s.
Enter Time and Site Info by Sync with your SmartPhone
When iOptron Commander Lite is in action (WiFi version ASCOM, or iOS/Android App), one may easily import the GPS info from a smartphone to the mount/hand controller. There is no worry about lacking internet, WiFi, and cell phone signals in rural areas; Commander Lite can always get GPS info from a smartphone to the HEM mount/hand controller, no dead corner. Please refer to iOptron Commander Lite for more details (https://www.ioptron.com/v/ASCOM/iOptronCommanderLiteAppNote.pdf).

Select N/S Hemisphere
The northern/southern hemisphere will be determined by your latitude coordinate, with one exception. If you are near the equator (within +/- 10°), you can choose your own N/S setting.
If the 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. Press the ◀ or ▶ key to move the cursor and use the ▲ or ▼ key to toggle between “Northern Hemisphere” and “Southern Hemisphere”.
The site information is 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 the Hand Controller Battery
There is a real time clock in hand controller. If hand controller lost its date and time, please check the battery.
STEP 9. Perform polar alignment
BrightStar Polar Alignment
If you mount does not have an iPolar installed, or the pole star is not in sight, you may use two bright stars with Polar Iterate Align to perform a coarse polar alignment.
(1) Level the mount and set it to the Zero Position. Align the telescope to the R.A. axis of the mount. If a finder scope is used, adjust it to be parallel to the telescope optical axis.
(2) Use the HC (MENU => "Alignment" => "Polar Iterate Align") to display the azimuth and altitude position of several bright stars near the meridian. Select one that is visible at a high altitude as Alignment Star A. Follow the HC instruction to move Alignment Star A to the center of the eyepiece using a combination of the Latitude Adjustment Knob and the “◀” or “▶” buttons. Press ENTER to confirm when the star is centered. Next, select a bright star that is close to the horizon as Alignment Star B. Center it using the Azimuth Adjustment Knob and the “◀” or “▶” button (the “▲” and “▼” buttons are not used here). Press ENTER to confirm the settings.
(3) The telescope will now slew back to Alignment Star A. Repeat the steps above. The iteration can be stopped when it is determined that the alignment error has been minimized. Press the BACK button to exit the alignment procedure.
NOTE: It is highly recommended to use an eyepiece with an illuminated crosshair for accurate centering.
NOTE: The movement of the alignment star in your eyepiece may not be perpendicular depending on its location in the sky.
iPolar Polar Alignment
For a HEM44 with an iPolar, refer to iPolar Operation Manual from iOptron's website to perform the polar alignment: https://www.ioptron.com/v/manuals/3339_iPolarOperationManual.pdf.
The steps are briefly outlined below:
- Download and install iPolar Software (first time use)
https://www.ioptron.com/v/firmware/3339_iOptron_iPolar.exe; - Connect a miniUSB cable between the iPolar and a computer USB port;
- Click Connect and start polar alignment by following on screen instructions.

Figure 21. USB port on an iPolar electronic polar scope
4. Getting Started
In order to experience the full GOTO capability of GOTONOVA ^® technology it is very important to set up the mount correctly before observation.
4.1. Setup the Mount and Polar Alignment
Assemble your HEM44 mount according to Section 3. Mount an OTA and accessories, and balance the mount in DEC. Turn the mount power switch on. Check the date and site info. Perform polar alignment.
Always check if the mount is at the Zero Position when the mount is powered on. This include the following two parts
- The mount is physically at Zero Position, i.e., the counterweight shaft mounting hole or CW shaft pointing to ground, OTA at the highest position with its axis parallel to the RA axis and the telescope pointing to the Celestial Pole, AND
- The hand controller displays Zero Position.
If not, press MENU => "Zero Position" => "Search Zero Position" to find and register the Zero position. Or manually slew/adjust the mount to Zero Position, then use "Set Zero Position" to register it.
4.2. Manual Operation of the Mount
You may observe astronomical objects using the arrow keys of a Go2Nova ^® hand controller.
Flip the I/O switch on the telescope mount to turn on the mount. Use ▶,◀,▼ or ▲ buttons to point the telescope to the desired object. Use the number keys to change the slewing speed. Then press 0 button to start tracking. Press 0 button again to stop the tracking.
4.3. Go to an Object
After performing these set-ups the mount is ready to GOTO and track objects. One of the most common objects is the Moon.
To slew to an Object, such as Moon, press MENU => "Select and Slew => "Solar System => Moon => ENTER. The telescope will automatically slew to the Moon and lock on it. It will automatically begin to track once it locks on. If the Moon is not centered in your eyepiece, use the arrow keys to center the Moon.
You may also select other bright celestial objects to start with.
4.4. Sync to Target
Use this function to correct the Zero Position discrepancy and to improve the GOTO accuracy.
Press MENU => "Select and Slew" => ENTER. Browse over the catalogs and select an object. Press ENTER. After the mount slews to the star, press MENU => "Sync. To Target", follow the on-screen instruction to center the star and press ENTER. You may need to use the number keys to change the slewing speed to make the centering procedure easier.
4.5. Star Identifying Function
The 8409 hand controller has a star identifying function. After Polar Alignment and Set Up Time and Site, slew the telescope to an bright star, manually or using GOTO. Press ? button to identify the star name telescope is pointing to, as well as nearby bright stars if there are any.
4.6. Power-Down Memorization
The HEM44 mount can memorize its R.A. and DEC positions if the mount power is lost during operation, even during high speed slewing. After the power is back, just do a Select and Slew to the same star when the power is lost. The mount will continue to track the star.
4.7. Install iOptron iGuider
There are two M3 threaded holes on the side of the dovetail saddle for mounting an iOptron mini autoguiding system, iGuider. Refer to iOptron website for more information on #3360.

natural_image
Close-up of a black mechanical component with two red arrows pointing to features (no text or symbols visible)
natural_image
Mechanical assembly diagram showing a bracket with mounting holes and a handle (no text or symbols visible)
natural_image
Close-up of a mechanical device with black components and a red cylindrical component (no visible text or symbols)Figure 22. iGuider mini-autoguiding system
4.8. Turn Off the Mount
When you have finished your observation, simply turn the mount power off and disassemble the mount and tripod.
If the mount is set up on a pier or inside an observatory, it is recommended that you return the mount to the Zero Position or park the telescope. This will ensure that there is no need for you to perform the initial setup again when you power on the mount subsequently so long as the mount has not been moved from the parked position.
5. Complete Functions of Go2Nova ^® 8409 Hand Controller
NOTE: Not all functions from the 8409 hand controller are available for a HEM44 mount.
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 ^® 8409 hand controller for HEM44 mount has a database of over 212,000 objects. Use the ▶ or ◀ buttons to move the cursor. Use the number buttons to enter the number, or the ▼ or ▲ buttons to change the individual number. Hold on a button to fast scroll through the list. The “◇” indicates the object is above the horizon, and a cross mark “◇” means it is below the horizon. In some catalogs those stars below the horizon will not display on the hand controller.
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 deep sky objects with their common names. A list of named deep sky objects is included in Appendix.
- Messier Catalog: consists of all 110 Messier objects.
- NGC Catalog: consists of 7,840 objects in NGC catalog.
- IC Catalog: consists of 5,386 objects in IC catalog.
• UGC Catalog: consists of 12,921 objects. - Caldwell Catalog: consists of 109 objects.
- Abell Catalog: consists of 4076 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.
- Binary Stars: consists of 208 binary stars. A list is attached in Appendix.
- Hipparcos Catalog: the new HIP catalog consists of 120,404 records (2008).
5.1.4. Constellations
This catalog consists of 88 modern constellations with their names. They are listed alphabetically.
5.1.5. Comets
This catalog contains 15 comets.
5.1.6. Asteroids
This catalog contains 116 asteroids.
5.1.7. User Objects
It can store up to 60 used entered objects, including comets.
5.1.8. Enter R.A. DEC
Here you can go to a target by entering its R.A. and DEC numbers.
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.
"Sync to Target" will only work after "Select and Slew" is performed. You can change the slewing speed to make the centering procedure easier. Simply press a number (1 through 9) to change the speed. The default slew speed is 64X.
"Sync to Target" will improve the local goto accuracy around the synced star.
5.3. Alignment
5.3.1. Pole Star Position
This function displays the position of the Pole Star for Quick Polar Alignment using the iOptron® AccuAlign™ polar scope. In the Northern Hemisphere the position of Polaris is displayed, while in the Southern Hemisphere the position of Sigma Octantis is shown.
5.3.2. Polar Iterate Align
This alignment method allows you to polar align the mount even if you cannot view the Celestial Pole. Press the MENU => "Alignment" => "Polar Iterate Align". The HC will display a list of bright alignment stars near the meridian as Alignment Star A. Follow the HC instructions to move Alignment Star A to the center of the eyepiece using a combination of the Latitude Adjustment Knob and the “◀” and “▶” buttons. Press ENTER to confirm the settings. Next, select a bright star that is close to the horizon as Alignment Star B. Center it using the Azimuth Adjustment Knobs and the “◀” and “▶” buttons (the “▲” and “▼” buttons will not function). Press ENTER to confirm the settings.
The telescope will now slew back to Alignment Star A to repeat the above steps. The iteration can be stopped when it is determined that the alignment error has been minimized. Press the BACK button to exit the alignment procedure.
NOTE: It is highly recommended to use an eyepiece with illuminated crosshairs for accurate centering.
NOTE: The movement of the alignment star in your eyepiece may not be perpendicular depending on its location in the sky.
5.4. Settings
5.4.1. Set Time and Site
Refer to STEP 8 in Section 3.
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 Up Time and Site
Set Beep
Set Display
Set Guiding Rate
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 Up Time and Site
Set Beep
Set Display
Set Guiding Rate
Use the arrow keys to adjust LCD display contrast (LCD contrast), LCD backlight intensity (LCD light), and keypad's backlight intensity (Key light).
5.4.4. Set Maximum Slew Rate
This function will help the mount to slew properly under low temperature or extreme payload condition (extra long or large diameter scope). Press MENU => "Settings" => "Set Maximum Slew Rate," You can select one of three slew rates. The default is MAX.
5.4.5. Set Guiding Rate
This is an advanced function for autoguiding when a guiding camera is utilized either via a Guide Port or using the ASCOM protocol. Before autoguiding, align the polar axis carefully. Select an appropriate guiding speed. The latest firmware allows you to set the R.A. and DEC guiding speed differently. The R.A. guiding speed can be set between ±0.01X to ±0.90X sidereal rate. The DEC guiding speed can be set between ±0.10X to ±0.99X sidereal rate. Follow the instructions of your autoguiding software for detailed guiding operation. The default number is 0.5X.
The guide port wiring is shown in Figure 3, which has the same pin-out as that from Celestron / Starlight Xpress / Orion Mount / Orion/ QHY/ZWO autoguider camera.
If you have an autoguider which has a pin-out the same as the ST-I from SBIG, such as Meade/Losmandy/Takahashi/Vixen, make sure a proper guiding cable is used. Refer to your guiding camera and guiding software for detailed operation.
WARNING: DO NOT plug your ST-4 guiding camera cable into the HBX port. It will damage the mount or guiding camera electronics.
5.4.6. Set Parking Position
You may park the telescope before powering off the mount. This is very useful if the mount is on a permanent pier or the mount will not be moved in between observation sessions. The mount will keep all the alignment info and reference points.
There are five parking positions. Two positions that park the scope horizontally (Horizon Position). Two positions that park the scope vertically (Zenith Position). "Current Position" will park the scope at its current position. When the mount is turned on, it will use the last parking position setting as the default setting.
5.4.7. Set Tracking Rate
You can set up the mount tracking rate by selecting "Set Tracking Rate". Then the user can select "Automatic Rate" to let the mount choose a proper Solar/Luna/Sidereal tracking rate based on the goto target. The "User defined speed" can be adjusted from 0.9900X to 1.0100X of sidereal.
5.4.8. Meridian Treatment
This function tells the mount what to do when it tracks past the meridian. You can tell the mount if it needs a meridian flip and when to do it.
- "Set Position Limit" will tell the mount when to stop tracking or to do a meridian flip. The limit can be set at from 0^ to 15^ (60 minutes) pass meridian.
- "Set Behavior" will determine if the mount will stop tracking or perform a meridian flip at the set position limit.
5.4.9. Set Altitude Limit
This function allows the mount to keep tracking an object even if it is below the horizon but can still be seen, for example from an elevated observation site, such as a hill. The range can be set from -89^ to +89^ . The default limit is 00^ . Be careful when setting this limit. It may cause mount goto problems.
5.4.10. Wi-Fi Option
This function will display WI-FI module functions. It is useful when connect the mount via wireless connection.
Wireless Status
Restart
Restore to factory
Click on Wireless Status: displays will show:
- SSID: HBX8409_XXXXXX
• IP: 010.010.100.254 - Port: 08899
• MAC: XX-XX-XX-XX-XX-XX
Click on Restart will restart the Wi-Fi adapter and Restore to Factory to restore the factory settings.
5.4.11. Set RA Guiding (HEM44EC Only)
You can turn off R.A. guiding by selecting "Filter R.A. Guiding" to allow the high precision encoder to correct the tracking error, or turn the R.A. guiding on by selecting "Allow RA Guiding" to allow the mount to receive guiding corrections from the autoguiding software.
5.4.12. Language
Select one of supported menu languages. Currently it has English and Chinese.
5.4.13. Enable CW Up Position
This setting will allow the CW moving to an up position. The upward angle limit is same as the meridian flipping setting, or 20 degree at maximum. When this set is enabled, the mount will goto pass the
meridian if an object is close to the meridian, within the angle limit. There will be no meridian flip when pass the meridian.
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.
5.5.1. Enter a New Comet
Press MENU => "Edit User Objects" to set user objects.
User Defined Comet
Other Objects
Select "User Defined Comet" 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
Clear All Comets
The hand controller will display the parameter entry screen:
Date: 2000-01-00.0000
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.
User Defined Comet Other Objects
Select "Other Objects" to enter you own object:
Add a New Object
Browse Objects
Delete an Object
Clear All Objects
Select "Add a New Object". A screen will be displayed asking you to Enter R.A. and DEC coordinates:
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), R.A. board (RA), and DEC board (DEC).
5.7. Zero Position
5.7.1. Goto Zero Position
This moves your telescope to its Zero Position what hand controller thinks it should be. At the end of move, the mount needs be adjusted if the mount is not at Zero Position physically.
5.7.2. Set Zero Position
This set the Zero Position for the firmware.
The Zero Position reference may be an undefined value before the first time power on the mount, 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 either manually or with the hand controller.
5.7.3. Search Zero Pos.
Select “Search Zero Pos.” and the mount will start to slew slowly and find the R.A. and DEC position to set the mount to the Zero Position. When the mount has found the Zero Position, the HC will ask if you want to calibrate the Zero Position. Press ENTER to confirm. Use the arrow button to adjust the mount in RA and DEC to correct the obvious discrepancy in the Zero Position. Alternatively, press BACK to cancel.
6. Maintenance and Servicing
6.1. Maintenance
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.
The mount worm/gear meshing can be adjusted to accommodate payload or temperature changing. Please refer to the instruction in Appendix.
The real time clock battery in the hand controller needs be replaced if it can't keep the time after power off the mount.
If your mount is not to be used for an extended period, dismount the OTAs and counterweight(s).
6.2. iOptron Customer Service
If you have any question concerning your mount, please contact iOptron Customer Service Department. It is strongly suggested to send technical questions to support@ioptron.com for prompt response during off hour. Customer Service hours are 9:00 AM to 5:00 PM, Eastern Time, Monday through Friday. Call in the U.S. 1.781.569.0200.
In the unlikely event that the mount requires factory servicing or repairing, write or call iOptron Customer Service Department first to receive a 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 info 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.
6.3. 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.
6.4. 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.
Appendix A. Technical Specifications
| Mount | Hybrid Equatorial Mount (HEM) |
| RA gear system | StrainWave |
| DEC gear system | Backlash-free worm/belt system |
| RA reduction ratio | 640:1 |
| Payload w/o CW* | 44 lbs (20kg) |
| Mount weight | 13 lbs (5.9kg) w/o dovetail saddle13.65 lbs (6.2kg) with dovetail saddle |
| Payload/Mount weight | 3.23 |
| Payload with CW | 55 lbs (25kg) |
| Structure Material | All metal, Casting + CNC machined |
| Periodic | 270 second |
| PEC | Permanent PEC/Real-time PEC |
| Drive motor | Stepper motor |
| Latitude adjustment range | 15^ 65^ |
| Azimuth adjustment range | ± 6^ |
| Polar Scope | iPolarTM electronic polar scope (for A version) |
| Level indicator | Level bubble |
| Hand Controller | Go2Nova® 8409 with 212,000 objects database |
| Tracking | Automatic |
| Speed | 1×,2×,8×,16×,64×,128×,256×,512×,MAX(4.5°/sec) |
| Power consumption | 0.6A(Tracking), 1.2A(GOTO) |
| Power requirement | DC 12V, 5A (5.5/2.5mm DC plug) |
| AC adapter | 100V ~ 240V (included, indoor use only) |
| Power off brake | Electronic friction brake |
| Power-down memory | Yes |
| Wi-Fi | Built-in |
| Communication port | Yes (USB and Wi-Fi) |
| Autoguide port | Yes (ST-4 compatible) |
| Firmware upgrade | Yes |
| Computer control | Yes |
| Dovetail saddle | Vixen/Losmandy convertible |
| Counterweight shaft | SS Φ20mmX200mm, M16 threaded (optional) |
| Counterweight | 10 lb (4.5kg) (optional) |
| Tripod | Optional |
| Autoguider | Optional external iGuider |
| Operation temperature | -20°C ~ 40°C (hand controller -10°C ~ 40°C) |
| Warranty | Two year limited |
* Payload calculated with payload center of gravity to the RA rotation axis is 200mm.

Figure 23 Distance between HEM44 RA axis and base of dovetail saddle
Appendix B. Go2Nova® 8409 HC MENU STRUCTURE

flowchart
graph TD
A["MENU"] --> B["Select and Slew"]
B --> C["Solar System"]
C --> D["Mercury"]
C --> E["Venus"]
C --> F["Mars"]
C --> G["Jupiter"]
C --> H["Saturn"]
C --> I["Uranus"]
C --> J["Neptune"]
C --> K["Sun"]
C --> L["Moon"]
B --> M["Deep Sky Objects"]
M --> N["Named Object"]
M --> O["Messier Catalog"]
M --> P["NGC"]
M --> Q["IC"]
M --> R["PGC"]
M --> S["Caldwell Catalog"]
M --> T["Abell Catalog"]
M --> U["Herschel Catalog"]
B --> V["Stars"]
V --> W["Named Stars"]
V --> X["Double/Multi Stars"]
V --> Y["Hipparcors Catalog"]
V --> Z["Comets"]
Z --> AA["Asteroids"]
Z --> AB["Constellations"]
Z --> AC["Custom Objects"]
AC --> AD["User Defined Comets"]
AC --> AE["Other Objects"]
B --> AF["Custom R.A. and DEC"]
AF --> AG["Sync. To Target"]
AF --> AH["Alignment"]
AH --> AI["Position of Pole Star"]
AH --> AJ["Polar Interate Align"]

flowchart
graph TD
A["Settings"] --> B["Set Time and Site"]
A --> C["Set Beep"]
A --> D["Set Display"]
A --> E["Set Maximum Slew Rate"]
A --> F["Set Guiding Rate"]
A --> G["Set Parking Position"]
A --> H["Set Tracking Rate"]
H --> I["Automatic Rate"]
H --> J["User Defined Speed"]
A --> K["Meridian Treatment"]
K --> L["Set Position Limit"]
K --> M["Set Behavior"]
A --> N["Set Altitude Limit"]
A --> O["Wi-Fi Option"]
A --> P["GPS Status"]
A --> Q["Set RA Guiding"]
A --> R["Language"]
A --> S["Enable CW Up Pos."]
A --> T["Park Telescope"]
A --> U["Edit User Objects"]
U --> V["User Defined Comet"]
U --> W["Other Objects"]
A --> X["Firmware Information"]
A --> Y["Zero Position"]
Y --> Z["Goto Zero Position"]
Y --> AA["Set Zero Position"]
Y --> AB["Search Zero Position"]
Some functions are mount dependent.
Appendix C. Gear Switch Meshing Adjustment
One may adjust a HEM44 DEC gear meshing, although it may not be necessary in most of the cases. If you experienced DEC motor stall occasionally, or there is a small free play between the worm and gear, follow this instruction to adjust the gear meshing.
Tool needed: 2mm and 3mm hex keys.
1. Gear Switch
iOptron Gear Switch uses a spring plunger to apply the force for gear meshing. It has a tuning knob, body, threaded spring plunger, positioning spring and ball bearing.

2. Spring plunger position related to meshing result

flowchart
graph TD
A["0 Disengaged position"] --> B["1 Not touched. There will be free play"]
B --> C["2 Just touched. Minimum meshing force. No free play"]
C --> D["3 Engaged position. Normal operation position"]
D --> E["4 Plunger adjusted too much. Ball had been pushed all the way in and no spring loading power"]
The gear switch should be adjusted to a position that between 2 and 4.
3. To Adjust DEC Gear
Disengage DEC gear switch. Rotate DEC saddle to exposure the small hole (3mm in diameter) that is blocked by the dovetail saddle. Another larger hole (5mm) is located on the side of the DEC gear housing. There is a set screw inside the 3mm hole to lock the gear meshing adjustment plunger, which is inside the larger hole.

Engage the worm/gear by turn the gear switch to locking position.

natural_image
Close-up of a black mechanical component with a curved knob and mounting holes (no visible text or symbols)Insert the 2mm hex key into the small hole on the top. Gently turn the hex key until you feel it is engaged to the set screw inside. You may turn the gear switch further in the lock position if the wrench can't engage the set screw. Turn the set screw half a turn counterclockwise to release it.

natural_image
Close-up of a mechanical component with a yellow arrow indicating rotation or movement (no visible text or symbols)Adjust the gear meshing adjustment plunger on the side inside the large hole by using the 3mm hex key. Turn counterclockwise to loosen the meshing or turn clockwise to tighten the meshing.

natural_image
Close-up of a black electronic device with a yellow arrow pointing to a screwdriver inserted into a slot (no visible text or symbols)If the motor stalls or the mount does not tracking smoothly, most likely the meshing is too tight. You may loosen it by about 1/8 turn (or less for tracking).
Tighten the set screw in the small hole to LOCK the gear screw (important) before test the mount.
Adjust again if needed, but no more than 14 turn in total.
If you feel there is free play between the worm and gear, you may tighten the meshing adjustment plunger to see if it can be eliminated. If not, contact iOptron for service.
NEVER turn the plunger all the way in. It may get gear switch stuck or damage the worm assembly.
Appendix D. Firmware Upgrade
The firmware in the 8409 hand controller and motor control boards can be upgraded by the customer. Please check iOptron's website, www.iOptron.com, under the product page or Support Directory.
Appendix E. Computer Control an HEM44 Mount
The HEM44 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 USB port on hand controller. 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 wireless connection. The mount can be controlled via ASCOM protocol (Windows OS), SmartPhone/Tablet and MacOS wirelessly.
To control the mount via ASCOM protocol, you need:
- Download and install the latest ASCOM Platform from http://www.ascom-standards.org/. Make sure your PC meets the software requirement.
- Download and install the latest iOptron Commander/ASCOM drive for HEM44 from iOptron website. The HEM44 uses Commander V8.0 or later.
- Planetarium software that supports ASCOM protocol. Follow software instructions to select the iOptron Telescope.
Please refer to iOptron website, www.iOptron.com, under the product page, or Support Directory, iOptron ASCOM Driver for more detail.
iOptron Commander 8.0 for Windows

iOptron Commander Lite for iOS

Appendix F. Go2Nova ^® Star List
Named Deep Sky Object
| ID No. | OBJECT ID No. | OBJECT | |||
| 1 | Andromeda Galaxy 31 | Hind's Variable | Nebula | ||
| 2 | Barrards Galaxy 32 | Hubble's Variable | Nebula | ||
| 3 | Beehive Cluster 33 | Integral Sign Galaxy | |||
| 4 | Blackeye Galaxy 34 | Jewel Box Cluster | |||
| 5 | Blinking Planetary Nebula 35 | Keyhole Nebula | |||
| 6 | Blue Flash Nebula | 36 Lagoon Nebula | |||
| 7 | Blue Planetary | 37 | Little Gem | ||
| 8 | Blue Snowball Nebula | 38 | Little Gem Nebula | ||
| 9 | Box Nebula | 39 | Little Ghost Nebula | ||
| 10 | Bubble Nebula | 40 | North American Nebula | ||
| 11 | Bipolar Nebula | 41 | Omega Nebula | ||
| 12 | Butterfly Cluster | 42 | Orion Nebula | ||
| 13 | California Nebula 43 Owl Nebula | ||||
| 14 | Cat's Eye Nebula 44 Pelican Nebula | ||||
| 15 | Cocoon Nebula | 45 | Phantom Streak Nebula | ||
| 16 | Cone Nebula 46 Pinwheel Galaxy | ||||
| 17 | Cork Nebula | 47 | Pleiades | ||
| 18 | Crab Nebula | 48 | Ring Nebula | ||
| 19 | Crescent Nebula | 49 | Ring Tail Galaxy | ||
| 20 | Draco Dwarf | 50 | Rosette Nebula | ||
| 21 | Duck Nebula | 51 | Saturn Nebula | ||
| 22 | Dumbbell Nebula | 52 | Sextans B Dwarf | ||
| 23 | Eagle Nebula | 53 | Small Magellanic Cloud | ||
| 24 | Eight-Burst Nebula | 54 | Sombrero Galaxy | ||
| 25 | Eskimo Nebula | 55 Spindle Galaxy | |||
| 26 | Flaming Star Nebula | 56 | Tank Track Nebula | ||
| 27 | Ghost of Jupiter | 57 | Trifid Nebula | ||
| 28 | Great Cluster | 58 | Ursa Minor Dwarf | ||
| 29 | Helix Nebula | 59 | Whirlpool Galaxy | ||
| 30 | Hercules Galaxy Cluster | 60 | Wild Duck Cluster |
Messier Catalog

natural_image
Grid of 30 astronomical images showing various types of galaxies and star fields in deep space (no text or symbols)This table is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article List of Messier objects
Named Star
| 1 | Acamar | 50 | Alrescha | 99 | Deneb el Okab | 148 | Lalande 21185 |
| 2 | Achernar | 51 | Alshain | 100 | Deneb Kaitos | 149 | Lesath |
| 3 | Achird 52 Altair 101 Denebakrab 150 Mahasim | ||||||
| 4 | Acrab | 53 | Altais | 102 | Denebola | 151 | Maia |
| 5 | Acrux A | 54 | Alterf | 103 | Dschubba | 152 | Marfik |
| 6 | Acrux B | 55 | Aludra | 104 | Dubhe | 153 | Marfikent |
| 7 | Acubens | 56 | Alula Australis | 105 | Edasich | 154 | Markab |
| 8 | Adhafera | 57 | Alula Borealis | 106 | El Rehla | 155 | Markeb |
| 9 | Adhara | 58 | Alya | 107 | Electra | 156 | Matar |
| 10 | Adid Australis | 59 | Ancha | 108 | Elnath | 157 | Mebsuta |
| 11 | Ahadi | 60 | Ankaa | 109 | Eltanin | 158 | Megrez |
| 12 | Al Dhanab | 61 | Antares | 110 | Enif | 159 | Meissa |
| 13 | Al Dhibain Prior | 62 | Apollyon | 111 | Errai | 160 | Mekbuda |
| 14 | Al Kab | 63 | Arcturus | 112 | Fomalhaut | 161 | Menkalinan |
| 15 | Al Nair | 64 | Arkab Prior | 113 | Furud | 162 | Menkar |
| 16 | Al Nair al Baten | 65 | Arneb | 114 | Gacrux | 163 | Menkent |
| 17 | Al Niyat(Sigma) | 66 | Ascella | 115 | Gatria | 164 | Menkib |
| 18 Al | Niyat(Tau) 67 | Asellus Austral | 116 | Giausar | 165 | Merak | |
| 19 | Albaldah | 68 | Asellus Boreali | 117 | Gienah Corvi | 166 | Merope |
| 20 | Albali | 69 | Aspidiske | 118 | Gienah Cygni | 167 | Mesartim |
| 21 | Albireo | 70 | Atik | 119 | Girtab | 168 | Miaplacidus |
| 22 | Alchiba | 71 | Atlas | 120 | Gliese 1 | 169 | Mimosa |
| 23 | Alcor | 72 | Atria | 121 | Gomeisa | 170 | Mintaka |
| 24 | Alcyone | 73 | Avior | 122 | Graffias(Zeta) | 171 | Mira |
| 25 | Aldebaran | 74 | Azha | 123 | Groombridge 1830 | 172 | Mirach |
| 26 | Alderamin | 75 | Barnard's Star | 124 | Gruid | 173 | Mirfak |
| 27 | Alfirk | 76 | Baten Kaitos | 125 | Grumium | 174 | Mirzam |
| 28 | Algenib | 77 | Beid | 126 | Hadar | 175 | Mizar |
| 29 | Algenubi | 78 | Bellatrix | 127 | Hamal | 176 | Mu Velorum |
| 30 | Algieba | 79 | Beta Hydri | 128 | Han | 177 | Muhlifain |
| 31 | Algiedi Secunda | 80 | Betelgeuse | 129 | Hatsya | 178 | Muphrid |
| 32 | Algol | 81 | Betria | 130 | Head of Hydrus | 179 | Muscida |
| 33 | Algorab | 82 | Biham | 131 | Homam | 180 | Naos |
| 34 | Alhakim | 83 | Birdun | 132 | Iritjinga(Cen) | 181 | Nashira |
| 35 | Alhena | 84 | Canopus | 133 | Izar | 182 | Navi |
| 36 | Alioth | 85 | Capella | 134 | Kakkab Su-gub Gud-Elim | 183 | Nekkar |
| 37 | Alkaid | 86 | Caph | 135 | Kapteyn's Star | 184 | Nihal |
| 38 | Alkalurops | 87 | Castor A | 136 | Kaus Australis | 185 | Nunki |
| 39 | Alkes | 88 | Castor B | 137 | Kaus Borealis | 186 | Nusakan |
| 40 | Almaaz | 89 | Cebalrai | 138 | Kaus Media | 187 | Palida |
| 41 | Almach | 90 | Chara | 139 | Keid | 188 | Peacock |
| 42 | Alnasl | 91 | Chertan | 140 | Kekouan | 189 | Phact |
| 43 | Alnilam | 92 | Choo | 141 | Kitalpha | 190 | Phecda |
| 44 | Alnitak | 93 | Cor Caroli | 142 | Kochab | 191 | Pherkad |
| 45 | Alpha Muscae | 94 | Cursa | 143 | Koo She | 192 | Polaris |
| 46 | Alpha Tucanae | 95 | Dabih | 144 | Kornephoros | 193 | Pollux |
| 47 | Alphard | 96 | Deltotum | 145 | Kraz | 194 | Porrima |
| 48 | Alphecca | 97 | Deneb | 146 | Kurhah | 195 | Procyon |
| 49 | Alpheratz | 98 | Deneb Algedi | 147 | Lacaille 9352 | 196 | Propus |
| 197 | Proxima Centauri | 213 | Sadalbari | 229 | Sulafat | 245 | Vindemiatrix |
| 198 | Rasalas | 214 | Sadalmelik | 230 | Syrma | 246 | Vrischika |
| 199 | Rasalgethi | 215 | Sadalsuud | 231 | Talitha | 247 | Wasat |
| 200 | Rasalhague | 216 | Sadr | 232 | Tania Australis | 248 | Wazn |
| 201 | Rastaban | 217 | Saiph | 233 | Tania Borealis | 249 | Wei |
| 202 | Regor | 218 | Sargas | 234 | Tarazed | 250 | Wezen |
| 203 | Regulus | 219 | Scheat | 235 | Taygeta | 251 | Yed Posterior |
| 204 | Rigel | 220 | Schedar | 236 | Tejat Posterior | 252 | Yed Prior |
| 205 | Rigel Kentaurus A | 221 | Seginus | 237 | Thuban | 253 | Zaniah |
| 206 | Rigel Kentaurus B | 222 | Shaula | 238 | Thusia | 254 | Zaurak |
| 207 | Ruchbah | 223 | Sheliak | 239 | Tien Kwan | 255 | Zavijava |
| 208 | Rukbat | 224 | Sheratan | 240 | Turais | 256 | Zeta Persei |
| 209 | Rukh | 225 | Sirius | 241 | Unukalhai | 257 | Zosma |
| 210 | Rutilicus | 226 | Skat | 242 | Vasat-ul-cemre | 258 | Zubenelgenubi |
| 211 | Sabik | 227 | Spica | 243 | Vathorz Posterior | 259 | Zubeneschamali |
| 212 | Sadachbia | 228 | Suhail | 244 | Vega | ||
Modern Constellations
| No. | Constellation Abbreviation | |
| 1 | Andromeda And | |
| 2 | Antlia Ant | |
| 3 | Apus Aps | |
| 4 | Aquarius Aqr | |
| 5 | Aquila Aql | |
| 6 | Ara Ara | |
| 7 | Aries Ari | |
| 8 | Auriga Aur | |
| 9 | Boötes Boo | |
| 10 | Caelum Cae | |
| 11 | Camelopardalis | Cam |
| 12 | Cancer | Cnc |
| 13 | Canes Venatici | CVn |
| 14 | Canis Major | CMa |
| 15 | Canis Minor | CMi |
| 16 | Capricornus | Cap |
| 17 | Carina | Car |
| 18 | Cassiopeia | Cas |
| 19 | Centaurus | Cen |
| 20 | Cepheus | Cep |
| 21 | Cetus | Cet |
| 22 | Chamaeleon | Cha |
| 23 | Circinus Cir | |
| 24 | Columba Col | |
| 25 | Coma Berenices | Com |
| 26 | Corona Australis | CrA |
| 27 | Corona Borealis | CrB |
| 28 | Corvus | Crv |
| 29 | Crater | Crt |
| 30 | Crux | Cru |
| 31 | Cygnus Cyg | |
| 32 | Delphinus | Del |
| 33 | Dorado Dor | |
| 34 | Draco | Dra |
| 35 | Equuleus | Equ |
| 36 | Eridanus Eri | |
| 37 | Fornax For | |
| 38 | Gemini | Gem |
| 39 | Grus Gru | |
| 40 | Hercules | Her |
| 41 | Horologium | Hor |
| 42 | Hydra Hya | |
| 43 | Hydrus Hyi | |
| 44 | Indus Ind | |
| No. | Constellation Abbreviation | |
| 45 | Lacerta Lac | |
| 46 | Leo Leo | |
| 47 | Leo Minor LMi | |
| 48 | Lepus Lep | |
| 49 | Libra Lib | |
| 50 | Lupus Lup | |
| 51 | Lynx Lyn | |
| 52 | Lyra Lyr | |
| 53 | Mensa Men | |
| 54 | Microscopium | Mic |
| 55 | Monoceros | Mon |
| 56 | Musca | Mus |
| 57 | Norma Nor | |
| 58 | Octans | Oct |
| 59 | Ophiuchus Oph | |
| 60 | Orion Ori | |
| 61 | Pavo Pav | |
| 62 | Pegasus | Peg |
| 63 | Perseus | Per |
| 64 | Phoenix | Phe |
| 65 | Pictor Pic | |
| 66 | Pisces Psc | |
| 67 | Piscis Austrinus | PsA |
| 68 | Puppis | Pup |
| 69 | Pyxis | Pyx |
| 70 | Reticulum | Ret |
| 71 | Sagitta Sge | |
| 72 | Sagittarius | Sgr |
| 73 | Scorpius | Sco |
| 74 | Sculptor Scl | |
| 75 | Scutum | Sct |
| 76 | Serpens Ser | |
| 77 | Sextans | Sex |
| 78 | Taurus | Tau |
| 79 | Telescopium | Tel |
| 80 | Triangulum | Tri |
| 81 | Triangulum Australe | TrA |
| 82 | Tucana Tuc | |
| 83 | Ursa Major | UMa |
| 84 | Ursa Minor UMi | |
| 85 | Vela | Vel |
| 86 | Virgo Vir | |
| 87 | Volans | Vol |
| 88 | Vulpecula | Vul |
Double/Multi Stars
| No. HC Item Constellation Name HIP WDS SAO | |||||||
| 1 Rigel Kentaurus A Alpha Centauri Centaurus 7 | 1683 14396-6050 | 252838 | |||||
| 2 | Rigel | Beta Orionis | Orion | 24436 | 05145-0812 | 131907 | |
| 3 | Gacrux | Gamma Crucls | Crux | 61084 | 12312-5707 | 240019 | |
| 4 | Sargas | Theta Scorpii | Scorpius | 86228 | 17373-4300 | 228201 | |
| 5 | Castor A | Alpha Geminorum | Gemini | 36850 | 07346+3153 | 60198 | |
| 6 | Mizar | Zeta Ursae Majoris | Ursa Major | 65378 | 13239+5456 | 28737 | |
| 7 | Almach | Gamma Andromedae | Andromeda | 9640 | 02039+4220 | 37735 | |
| 8 | Algieba | Gamma Leonis | Leo | 50583 | 10200+1950 | 81298 | |
| 9 | Aludra | Eta Canis Majoris | Canis Major | 35904 | 07241-2918 | 173651 | |
| 10 | Iritjinga (Cen) | Gamma Centauri | Centaurus | Muhlifain | 61932 | 12415-4858 | 223603 |
| 11 | Zubenelgenubi | Alpha Librae | Libra | 72603 | 14509-1603 | 158836 | |
| 12 | Alcyone | Eta Tauri | Taurus | 17702 | 03475+2406 | 76199 | |
| 13 Cor Caroli | Alpha Canum Venatico | Canes Venatici | 63125 | 12560+3819 | 63257 | ||
| 14 | Acamar | Theta Eridani | Eridanus | 13847 | 02583-4018 | 216113 | |
| 15 | Adhafera | Zeta Leonis | Leo | 50335 | 10167+2325 | 81265 | |
| 16 | Rasalgethi | Alpha Herculis | Hercules | 84345 | 17146+1423 | 102680 | |
| 17 | Meissa | Lambda Orionis | Orion | 26207 | 05351+0956 | 112921 | |
| 18 | Graffias | Beta1 Scorpii | Scorpius | 78820 | 16054-1948 | 159682 | |
| 19 | Alya | Theta Serpentis | Serpens | 92946 | 18562+0412 | 124068 | |
| 20 | HIP 48002 | Upsilon Carinae | Carina | Vathorz Prior | 09471-6504 | 250695 | |
| 21 | HIP 95947 | Beta1 Cygni | Cygnus | Albireo | 19307+2758 | 87301 | |
| 22 | HIP 20894 | Theta2 Tauri | Taurus | 04287+1552 | 93957 | ||
| 23 | HIP 74395 | Zeta Lupi | Lupus | 15123-5206 | 242304 | ||
| 24 | HIP 27072 | Gamma Leporis | Lupus | 05445-2227 | 170759 | ||
| 25 | HIP 26549 | Sigma Orionis | Orion | 05387-0236 | 132406 | ||
| 26 | HIP 85667 | HD 158614 | Ophiuchus | 17304-0104 | 141702 | ||
| 27 | HIP 74376 | Kappa1 Lupi | Lupus | 15119-4844 | 225525 | ||
| 28 | HIP 34481 | Gamma2 Volantis | Carina | 07087-7030 | 256374 | ||
| 29 | HIP 53253 | u Carinae | Carina | 10535-5851 | 238574 | ||
| 30 | HIP 99675 | Omicron1 Cygni | Cygnus | 31 Cyg | 20136+4644 | 49337 | |
| 31 | HIP 63003 | Mu1 Crucis | Crux | 12546-5711 | 240366 | ||
| 32 | HIP 43103 | Iota Cancri | Cancer | 48 Cnc | 08467+2846 | 80416 | |
| 33 | HIP 110991 | Delta Cephei | Cepheus | 27 Cep | 22292+5825 | 34508 | |
| 34 | HIP 20635 | Kappa1 Tauri | Taurus | 65 Tau | 04254+2218 | 76601 | |
| 35 | HIP 88601 | 70 Ophiuchi | Orion | 18055+0230 | 123107 | ||
| 36 | HIP 2484 | Beta1 Tucanae | Horologium | 00315-6257 | 248201 | ||
| 37 | HIP 91971 | Zeta1 Lyrae | Cygnus | 6 Lyr | 18448+3736 | 67321 | |
| 38 | HIP 79374 | Nu Scorpii | Scorpius | Jabbah | 16120-1928 | 159764 | |
| 39 | HIP 102532 | Gamma2 Delphini | Pegasus | 12 Del | 20467+1607 | 106476 | |
| 40 | HIP 52154 | x Velorum | Vela | 10393-5536 | 238309 | ||
| 41 | HIP 37229 | HD 61555 | Canis Major | 07388-2648 | 174198 | ||
| 42 | HIP 30419 | Epsilon Monocerotis | Orion | 8 Mon | 06238+0436 | 113810 | |
| 43 | HIP 108917 | Xi Cephei | Cepheus. | Al kurhah | 22038+6438 | 19827 | |
| 44 | HIP 53417 | 54 Leonis | Leo | 10556+2445 | 81584 | ||
| 45 | HIP 65271 | J Centauri | Centaurus | 13226-6059 | 252284 | ||
| 46 | HIP 67669 | 3 Centauri | Centaurus | 13518-3300 | 204916 | ||
| 47 | HIP 105319 | Theta Indl | Indus | 21199-5327 | 246965 | ||
| 48 | HIP 80582 | Epsilon Normae | Norma | 16272-4733 | 226773 | ||
| 49 | HIP 8832 | Gamma Arietis | Aries | 01535+1918 | 92680 | ||
| 50 | HIP 69483 | Kappa Boöts | Boötes | Asellus Tertius | 14135+5147 | 29045 | |
| 51 | HIP 92946 | Theta Serpentis | Serpens | 18562+0412 | 124068 | ||
| 52 | HIP 86614 | Psi1 Draconis | Draco | 31 Draconis | 17419+7209 | 8890 | |
No. HC Item Constellation Name HIP WDS SAO
| 53 H | P 95771 Alpha Vulpeculae Vulpecula Anser | 19287+2440 87261 | |||||
| 54 | HIP 30867 | Beta Monocerotis | Monoceros | 06288-0702 | 133316 | ||
| 55 | HIP 35363 | NV Puppis | Puppis | 07183-3644 | 197824 | ||
| 56 | HIP 94761 | Gliese 752 | Aquila | Wolf 1055, Ross 652 | 19169+0510 | ||
| 57 H | P 21683 Sigma2 Tauri Taurus | 04393+ | 1555 94054 | ||||
| 58 | HIP 8497 | Chi Ceti | Cetus | 53 Cet | 01496-1041 | 148036 | |
| 59 | HIP 26199 | HD 36960 | Orion | 05350-0600 | 132301 | ||
| 60 | HIP 104521 | Gamma Equulei | Equuleus | 5 Equ | 21103+1008 | 126593 | |
| 61 | HIP 116389 | Iota Phoenicis | Phoenix | 23351-4237 | 231675 | ||
| 62 | HIP 17797 | HD 24071 | Eridanus | 03486-3737 | 194550 | ||
| 63 | HIP 21036 | 83 Tauri | Taurus | 04306+1343 | 93979 | ||
| 64 | HIP 107310 | Mu1 Cygni | Cygnus | 78 Cyg | 21441+2845 | 89940 | |
| 65 | HIP 72659 | Xi Boötis | Boötes | 37 Boo | 14514+1906 | 101250 | |
| 66 | HIP 21029 | HD 28527 | Taurus | 04306+1612 | 93975 | ||
| 67 | HIP 42726 | HY Velorum | Vela | 08424-5307 | 236205 | ||
| 68 | HIP 18255 | 32 Eridani | Eridanus | 03543-0257 | 130806 | ||
| 69 | HIP 9153 | Lambda Arietis | Aries | 01580+2336 | 75051 | ||
| 70 | HIP 88267 | 95 Herculis | Hercules | 18015+2136 | 85648 | ||
| 71 | HIP 85829 | Nu2 Draconis | Draco | 25 Dra | 17322+5511 | 30450 | |
| 72 | HIP 43937 | V376 Carinae | Carina | b1 Carinae | 08570-5914 | 236436 | |
| 73 | HIP 71762 | Pi2 Boötis | Boötes | 29 Boo | 14407+1625 | 101139 | |
| 74 | HIP 80047 | Delta1 Apodis | Apus | 16203-7842 | 257380 | ||
| 75 H | P 58484 | Epsilon Chamaeleontis | Chamaeleon | 11596-7813 | 256894 | ||
| 76 | HIP 25142 | 23 Orionis | Orion | 05228+0333 | 112697 | ||
| 77 | HIP 54204 | Chi1 Hydrae | Hydra | 11053-2718 | 179514 | ||
| 78 | HIP 76669 | Zeta Coronae Borealis | Corona Borealis | 7 CrB | 15394+3638 | 64833 | |
| 79 | HIP 99770 | b3 Cygni | Cygnus | 29 Cyg | 20145+3648 | 69678 | |
| 80 | HIP 101027 | Rho Capricorni | Capricornus | 11 Cap | 20289-1749 | 163614 | |
| 81 | HIP 74911 | Nu Lupi | Lupus | 15185-4753 | 225638 | ||
| 82 | HIP 35210 | HD 56577 | Canis Major | 07166-2319 | 173349 | ||
| 83 | HIP 26235 | Theta2 Orionis | Orion | 43 Ori | 05354-0525 | 132321 | |
| 84 | HIP 40321 | OS Puppis | Puppis | 08140-3619 | 198969 | ||
| 85 | HIP 70327 | HD 126129 | Boötes | 14234+0827 | 120426 | ||
| 86 | HIP 26221 | Theta1 Orionis | Orion | Trapezium | 05353-0523 | 132314 | |
| 87 | HIP 80473 | Rho Ophiuchi | Ophiuchus | 5 Oph | 16256-2327 | 184381 | |
| 88 | HIP 78105 | Xi1 Lupi | Lupus | 15569-3358 | 207144 | ||
| 89 | HIP 79043 | Kappa Herculis | Hercules | 7 Her | 16081+1703 | 101951 | |
| 90 | HIP 61418 | 24 Comae Berenices | Coma Berenices | 12351+1823 | 100160 | ||
| 91 | HIP 91919 | Epsilon Lyrae | Lyra | 4 Lyr | 18443+3940 | 67309 | |
| 92 | HIP 41639 | HD 72127 | Vela | 08295-4443 | 219996 | ||
| 93 | HIP 104214 | 61 Cygni | Cygnus | 21069+3845 | 70919 | ||
| 94 | HIP 23734 | 11 Camelopardalis | Camelopardalis | 05061+5858 | 25001 | ||
| 95 | HIP 60189 | Zeta Corvi | Corvus | 5 Crv | 12206-2213 | 180700 | |
| 96 | HIP 66821 | Q Centauri | Centaurus | 13417-5434 | 241076 | ||
| 97 | HIP 14043 | HD 18537 | Perseus | 03009+5221 | 23763 | ||
| 98 | HIP 5737 | Zeta Piscium | Pisces | 86 Psc | 01137+0735 | 109739 | |
| 99 | HIP 84626 | Omicron Ophiuchi | Ophiuchus | 39 Oph | 17180-2417 | 185238 | |
| 100 | HIP 60904 | 17 Comae Berenices | Coma Berenices | 12289+2555 | 82330 | ||
| 101 | HIP 58684 | 67 Ursae Majoris | Ursa Major | 12021+4303 | 44002 | ||
| 102 | HIP 5131 | Psi1 Piscium | Pisecs | 74 Psc | 01057+2128 | 74482 | |
| 103 | HIP 115126 | 94 Aquarii | Aquarius | 23191-1328 | 165625 | ||
| 104 | HIP 62572 | HD 112028 | Camelopardalis | 12492+8325 | 2102 | ||
| No. HC Item Constellation Name HIP WDS SAO | |||||||
| 105 H | HIP 40167 Zeta1 Candri Cancer Tegmen 08122+1739 97645 | ||||||
| 106 | HIP 40817 | Kappa Volantis | Volans | 08198-7131 | 256497 | ||
| 107 | HIP 81292 | 17 Draconis | Draco | 16362+5255 | 30013 | ||
| 108 | HIP 80197 | Nu1 Coronae Borealis | Corona Borealis | 16224+3348 | 65257 | ||
| 109 | HIP 88060 | HD 163756 | Sagittarius | 17591-3015 | 209553 | ||
| 110 | HIP 42637 | Eta Chamaeleontis | Chamaeleon | 08413-7858 | 256543 | ||
| 111 | HIP 21039 | 81 Tauri | Taurus | 04306+1542 | 93978 | ||
| 112 | HIP 100965 | 75 Draconis | Draco | 20282+8125 | 3408 | ||
| 113 | HIP 25768 | HD 36553 | Pictor | 05302-4705 | 217368 | ||
| 114 | HIP 93717 | 15 Aquilae | Aquila | 19050-0402 | 142996 | ||
| 115 | HIP 79980 | HD 148836 | Scorpius | 16195-3054 | 207558 | ||
| 116 | HIP 12086 | 15 Trianguli | Triangulum | 02358+3441 | 55687 | ||
| 117 H | HIP 90968 | Kappa2 Coronae Austra | Corona Australis | 18334-3844 | 21029 | ||
| 118 | HIP 22531 | Iota Pictoris | Pictor | 04509-5328 | 233709 | ||
| 119 | HIP 34065 | HD 53705 | Puppis | 07040-4337 | 218421 | ||
| 120 H | HIP 79607 | Sigma Coronae Boreali | Corona Borealis | 16147+3352 | 65165 | ||
| 121 | HIP 109786 | 41 Aquarii | Aquarius | 22143-2104 | 190986 | ||
| 122 | HIP 56280 | 17 Crateris | Hydra | 11323-2916 | 179968 | ||
| 123 | HIP 51561 | HD 91355 | Vela | 10320-4504 | 222126 | ||
| 124 | HIP 107930 | HD 208095 | Cepheus | 21520+5548 | 33819 | ||
| 125 | HIP 97966 | 57 Aquilae | Aquila | 19546-0814 | 143898 | ||
| 126 | HIP 117218 | 107 Aquarii | Aquarius. | 23460-1841 | 165867 | ||
| 127 | HIP 82676 | HD 152234 | Scorpius | 16540-4148 | 227377 | ||
| 128 | HIP 111546 | 8 Lacertae | Lacerta | 22359+3938 | 72509 | ||
| 129 | HIP 29151 | HD 42111 | Orion | 06090+0230 | 113507 | ||
| 130 | HIP 107253 | 79 Cygni | Cygnus | 21434+3817 | 71643 | ||
| 131 | HIP 88136 | 41 Draconis | Draco | 18002+8000 | 8996 | ||
| 132 | HIP 81702 | HD 150136 | Ara | 16413-4846 | 227049 | ||
| 133 | HIP 97423 | HD 186984 | Sagittarius | 19480-1342 | 162998 | ||
| 134 | HIP 30444 | HD 45145 | Columba | 06240-3642 | 196774 | ||
| 135 | HIP 66400 | HD 118349 | Hydra | 13368-2630 | 181790 | ||
| 136 | HIP 17579 | 21 Tauri | Taurus | Asterope | 03459+2433 | 76159 | |
| 137 | HIP 35785 | 19 Lyncis | Lynx | 07229+5517 | 26312 | ||
| 138 | HIP 81641 | 37 Herculis | Hercules | 16406+0413 | 121776 | ||
| 139 | HIP 7751 | p Eridani | Eridanus | 01398-5612 | 232490 | ||
| 140 H | HIP 21148 1 Camelopardalis Camelopardalis | 04320+5355 24672 | |||||
| 141 | HIP 9021 | 56 Andromedae | Andromeda | 01562+3715 | 55107 | ||
| 142 | HIP 97816 | HD 187420 | Telescopium | 19526-5458 | 246311 | ||
| 143 | HIP 88818 | 100 Herculis | Hercules | 18078+2606 | 85753 | ||
| 144 | HIP 36817 | HD 60584 | Puppis | 07343-2328 | 174019 | ||
| 145 | HIP 25695 | HD 35943 | Taurus | 05293+2509 | 77200 | ||
| 146 | HIP 98819 | 15 Sagittae | Sagitta | 20041+1704 | 105635 | ||
| 147 | HIP 61910 | VV Corvi | Corvus | 12413-1301 | 157447 | ||
| 148 | HIP 111643 | Sigma2 Gruis | Grus | 22370-4035 | 231217 | ||
| 149 | HIP 80399 | HD 147722 | Scorpius | 16247-2942 | 184368 | ||
| 150 | HIP 83478 | HD 154228 | Hercules | 17037+1336 | 102564 | ||
| 151 | HIP 101123 | Omicron Capricomi | Capricornus | 20299-1835 | 163626 | ||
| 152 | HIP 28271 | 59 Orionis | Orion | 05584+0150 | 113315 | ||
| 153 H | HIP 64246 | 17 Canum Venaticicoru | Canes Venatici | 13101+3830 | 63380 | ||
| 154 | HIP 96895 | 16 Cygni | Cygnus | 19418+5032 | 31898 | ||
| 155 | HIP 35564 | HD 57852 | Carina | 07204-5219 | 235110 | ||
| 156 | HIP 37843 | 2 Puppis | Puppis | 07455-1441 | 153363 | ||
No. HC Item Constellation Name HIP WDS SAO
| 157 | HIP 28790 HD 41742 | Puppis 06047-4505 217 | 706 | ||||
| 158 | HIP 4675 | HD 5788 | Andromeda | 01001+4443 | 36832 | ||
| 159 | HIP 31676 | 8 Lyncis | Lynx | 06377+6129 | 13897 | ||
| 160 | HIP 10176 | 59 Andromedae | Andromeda | 02109+3902 | 55330 | ||
| 161 | HIP 25950 | HD 36408 | Taurus | 05322+1703 | 94630 | ||
| 162 | HIP 117931 | AL Sculptoris | Sculptor | 23553-3155 | 214860 | ||
| 163 | HIP 81914 | HD 150591 | Scorpius | 16439-4107 | 227123 | ||
| 164 | HIP 21242 | m Persei | Perseus | 04334+4304 | 39604 | ||
| 165 | HIP 86831 | 61 Ophiuchi | Ophiuchus | 17446+0235 | 122690 | ||
| 166 | HIP 115272 | HD 220003 | Grus | 23208-5018 | 247838 | ||
| 167 | HIP 46657 | Zeta1 Antliae | Antlia | 09308-3153 | 200444 | ||
| 168 | HIP 41404 | Phi2 Cancri | Cancer | 08268+2656 | 80188 | ||
| 169 | HIP 29388 | 41 Aurigae | Auriga | 06116+4843 | 40925 | ||
| 170 | HIP 49321 HD 87344 | Hydra | 10040-1806 | 155704 | |||
| 171 | HIP 84054 | 63 Herculis | Hercules | 17111+2414 | 84896 | ||
| 172 | HIP 39035 HD 66005 | Puppis 07592-4959 219 | 249 | ||||
| 173 | HIP 25303 | Theta Pictoris | Pictor | 05248-5219 | 233965 | ||
| 174 | HIP 52520 HD 93344 | Carina | 10443-7052 | 256750 | |||
| 175 | HIP 95398 | 2 Sagittae | Sagitta | 19244+1656 | 104797 | ||
| 176 | UCAC4 277-135548 | ||||||
| 177 | HIP 32609 | HD 48766 | Lynx | 06482+5542 | 25963 | ||
| 178 | HIP 101765 | 48 Cygni | Cygnus | 20375+3134 | 70287 | ||
| 179 | HIP 24825 | YZ Leporis | Lepus | 05193-1831 | 150335 | ||
| 180 | HIP 31158 | 21 Geminorum | Gemini | 06323+1747 | 95795 | ||
| 181 | HIP 3885 | 65 Piscium | Pisces | 00499+2743 | 74295 | ||
| 182 | HIP 93371 | HD 176270 | Australis | 19011-3704 | 210816 | ||
| 183 | HIP 36345 HD 59499 | Puppis 07289-3151 198 | 038 | ||||
| 184 | HIP 108364 | HD 208947 | Cepheus | 21572+6609 | 19760 | ||
| 185 | HIP 50939 | HD 90125 | Sextans | 10242+0222 | 118278 | ||
| 186 | HIP 76603 | HD 139461 | Libra | 15387-0847 | 140672 | ||
| 187 | HIP 32269 HD 49219 | Carina | 06442-5442 | 234683 | |||
| 188 | HIP 42516 | 39 Cancri | Cancer | 08401+2000 | 80333 | ||
| 189 | HIP 62807 | 32 Comae Berenices | Coma Berenices | 12522+1704 | 100309 | ||
| 190 | UCAC4 226-128246 | ||||||
| 191 | HIP 94913 | 24 Aquilae | Aquila | 19188+0020 | 124492 | ||
| 192 | HIP 94336 | HD 179958 | Cygnus | 19121+4951 | 48193 | ||
| 193 | HIP 107299 | HD 206429 | Indus | 21440-5720 | 247151 | ||
| 194 | HIP 59984 | HD 106976 | Virgo | 12182-0357 | 138704 | ||
| 195 | HIP 16411 | HD 21743 | Taurus | 03313+2734 | 75970 | ||
| 196 | HIP 23287 HD 32040 | Orion | 05006+0337 | 112305 | |||
| 197 | HIP 105637 | HD 203857 | Cygnus | 21238+3721 | 71280 | ||
| 198 | HIP 108925 | HD 209744 | Cepheus | 22039+5949 | 34016 | ||
| 199 | HIP 103814 | HD 200011 | Microscopium | 21022-4300 | 230492 | ||
| 200 | HIP 58112 | 65 Ursae Majoris | Ursa Major | 11551+4629 | 43945 | ||
| 201 | HIP 109354 | V402 Lacertae | Lacerta | 22093+4451 | 51698 | ||
| 202 | HIP 43822 | 17 Hydrae | Hydra | 08555-0758 | 136409 | ||
| 203 | HIP 21986 | 55 Eridani | Eridanus | 04436-0848 | 131442 | ||
| 204 | HIP 17470 | HD 23245 | Taurus | 03446+2754 | 76122 | ||
| 205 | HIP 35960 V368 Puppis | Puppis 07248-3717 197974 | |||||
| 206 | HIP 42936 | HD75086 | Carina | 08451-5843 | 236241 | ||
| 207 | HIP 19272 | SZ Camelopardalis | Camelopardalis | 04078+6220 | 13031 | ||
| 208 | HIP 76143 | HD 138488 | Libra | 15332-2429 | 183565 |
IOPTRON TWO YEAR TELESCOPE, MOUNT, AND CONTROLLER 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-of-purchase 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:
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
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.