Suunto 23821 Dive computer User Manual Suunto EON Core
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Contents
- 1. User guide
- 2. Users guide
User guide
SUUNTO EON CORE
USER GUIDE
2017-06-12
1. Safety................................................................................................................................................................4
2. Getting started...............................................................................................................................................7
2.1. Display states and views................................................................................................................. 7
2.2. Icons.....................................................................................................................................................7
2.3. Set up.................................................................................................................................................. 8
3. Features..........................................................................................................................................................9
3.1. Alarms, warnings and notifications...............................................................................................9
3.2. Ascent rate....................................................................................................................................... 10
3.3. Algorithm lock...................................................................................................................................11
3.4. Battery.................................................................................................................................................11
3.5. Bookmark..........................................................................................................................................12
3.6. Calendar clock.................................................................................................................................12
3.7. Compass............................................................................................................................................13
3.7.1. Calibrating compass............................................................................................................13
3.7.2. Setting declination.............................................................................................................. 13
3.7.3. Setting bearing lock............................................................................................................14
3.8. Customization..................................................................................................................................14
3.9. Decompression dives....................................................................................................................16
3.10. Display brightness.........................................................................................................................18
3.11. Dive history...................................................................................................................................... 18
3.12. Dive modes.....................................................................................................................................19
3.13. Dive planner....................................................................................................................................19
3.14. Flip display.....................................................................................................................................20
3.15. Gas consumption......................................................................................................................... 20
3.16. Gas time...........................................................................................................................................21
3.17. Gas mixtures....................................................................................................................................21
3.18. Language and unit system.........................................................................................................22
3.19. Logbook..........................................................................................................................................22
3.20. Multi-gas diving............................................................................................................................23
3.21. Movescount mobile app.............................................................................................................23
3.22. Personal and altitude adjustments.........................................................................................24
3.23. Oxygen calculations...................................................................................................................25
3.24. Rebreather diving........................................................................................................................25
3.24.1. Closed-circuit gases........................................................................................................25
3.24.2. Open-circuit gases..........................................................................................................26
3.24.3. Setpoints........................................................................................................................... 26
3.24.4. Bailouts...............................................................................................................................27
3.25. Safety stops and deepstops.................................................................................................... 28
3.26. Sample rate...................................................................................................................................28
3.27. Standby and deep sleep............................................................................................................28
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3.28. Surface and no-fly time..............................................................................................................29
3.29. Suunto DM5 and Movescount.................................................................................................29
3.30. Suunto Fused RGBM..................................................................................................................29
3.31. Tank pressure................................................................................................................................30
3.32. Timer................................................................................................................................................31
3.33. Water contacts..............................................................................................................................32
4. Care and support....................................................................................................................................... 33
4.1. Handling guidelines....................................................................................................................... 33
4.2. Water resistance.............................................................................................................................33
4.3. Installing scratch guard................................................................................................................ 33
4.4. Charging battery............................................................................................................................ 34
4.5. Changing strap to bungee.......................................................................................................... 34
4.6. Getting support.............................................................................................................................. 35
5. Reference.....................................................................................................................................................36
5.1. Technical specifications................................................................................................................ 36
5.2. Compliance..................................................................................................................................... 38
5.2.1. CE........................................................................................................................................... 38
5.2.2. EN 13319...............................................................................................................................38
5.2.3. EN 250 and FIOH..............................................................................................................38
5.2.4. FCC compliance.................................................................................................................38
5.2.5. ISED............................................................................................................................................39
5.5. International Limited Warranty................................................................................................... 39
5.6. Copyright......................................................................................................................................... 40
5.7. Dive terms......................................................................................................................................... 41
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1. Safety
Types of safety precautions
WARNING: - is used in connection with a procedure or situation that may result in
serious injury or death.
CAUTION: - is used in connection with a procedure or situation that will result in
damage to the product.
NOTE: - is used to emphasize important information.
TIP: - is used for extra tips on how to utilize the features and functions of the device.
Before you dive
Make sure that you fully understand the use, displays and limitations of your dive instruments.
If you have any questions about this manual or the dive computer, contact your Suunto dealer
before diving with the dive computer. Always remember that YOU ARE RESPONSIBLE FOR
YOUR OWN SAFETY!
Safety precautions
WARNING: ONLY TRAINED DIVERS SHOULD USE A DIVE COMPUTER! Insucient
training for any kind of diving, including freediving, may cause a diver to commit errors, such
as incorrect use of gas mixtures or improper decompression, that may lead to serious injury
or death.
WARNING: You must read the printed quick guide and online user guide for your dive
computer. Failure to do so may lead to improper use, serious injury or death.
WARNING: THERE IS ALWAYS A RISK OF DECOMPRESSION SICKNESS (DCS) FOR ANY
DIVE PROFILE EVEN IF YOU FOLLOW THE DIVE PLAN PRESCRIBED BY DIVE TABLES OR A
DIVE COMPUTER. NO PROCEDURE, DIVE COMPUTER OR DIVE TABLE WILL PREVENT THE
POSSIBILITY OF DCS OR OXYGEN TOXICITY! An individual’s physiological make up can vary
from day to day. The dive computer cannot account for these variations. You are strongly
advised to remain well within the exposure limits provided by the instrument to minimize the
risk of DCS. As an added measure of safety, you should consult a physician regarding your
fitness before diving.
WARNING: If you have a pacemaker, we recommend you do not scuba dive. Scuba
diving creates physical stresses on the body which may not be suitable for pacemakers.
WARNING: If you have a pacemaker, consult a doctor before using this device. The
inductive frequency used by the device may interfere with pacemakers.
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WARNING: Allergic reactions or skin irritations may occur when product is in contact with
skin, even though our products comply with industry standards. In such event, stop use
immediately and consult a doctor.
WARNING: Not for professional use! Suunto dive computers are intended for recreational
use only. The demands of commercial or professional diving may expose the diver to depths
and conditions that tend to increase the risk of decompression sickness (DCS). Therefore,
Suunto strongly recommends that the device not be used for any commercial or professional
diving activities.
WARNING: USE BACKUP INSTRUMENTS! Ensure that you use backup instrumentation,
including a depth gauge, submersible pressure gauge, timer or watch, and have access to
decompression tables whenever diving with a dive computer.
WARNING: For safety reasons, you should never dive alone. Dive with a designated
buddy. You should also stay with others for an extended time after a dive as the onset of
possible DCS may be delayed or triggered by surface activities.
WARNING: PERFORM PRE-CHECKS! Always check that your dive computer is functioning
properly and has the correct settings before diving. Check that the display is working, the
battery level is OK, tank pressure is correct, and so forth.
WARNING: Check your dive computer regularly during a dive. If there is any apparent
malfunction, abort the dive immediately and safely return to the surface.
WARNING: THE DIVE COMPUTER SHOULD NEVER BE TRADED OR SHARED BETWEEN
USERS WHILE IT IS IN OPERATION! Its information will not apply to someone who has not
been wearing it throughout a dive, or sequence of repetitive dives. Its dive profiles must
match that of the user. If it is left on the surface during any dive, the dive computer will give
inaccurate information for subsequent dives. No dive computer can take into account dives
made without the computer. Thus, any diving activity up to four days prior to initial use of the
computer may cause misleading information and must be avoided.
WARNING: DO NOT EXPOSE ANY PART OF YOUR DIVE COMPUTER TO ANY GAS MIX
CONTAINING MORE THAN 40% OXYGEN! Enriched air with greater oxygen content presents
a risk of fire or explosion and serious injury or death.
WARNING: DO NOT DIVE WITH A GAS IF YOU HAVE NOT PERSONALLY VERIFIED ITS
CONTENTS AND ENTERED THE ANALYZED VALUE INTO YOUR DIVE COMPUTER! Failure to
verify tank contents and enter the appropriate gas values where applicable into your dive
computer will result in incorrect dive planning information.
WARNING: Using a dive planner software such as in Suunto DM5 is not a substitute for
proper dive training. Diving with mixed gases has dangers that are not familiar to divers
diving with air. To dive with Trimix, Triox, Heliox and Nitrox or all of them, divers must have
specialized training for the type of diving they are doing.
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WARNING: Do not use Suunto USB Cable in areas where flammable gases are present.
Doing so may cause an explosion.
WARNING: Do not disassemble or remodel Suunto USB Cable in any way. Doing so may
cause an electric shock or fire.
WARNING: Do not use Suunto USB cable if cable or parts are damaged.
CAUTION: DO NOT allow the connector pins of the USB cable to touch any conductive
surface. This may short circuit the cable, making it unusable.
Emergency ascents
In the unlikely event that the dive computer malfunctions during a dive, follow the emergency
procedures provided by your certified dive training agency to immediately and safely ascend.
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2. Getting started
2.1. Display states and views
Suunto EON Core has two main views in surface and dive states: time/no deco and compass.
Change the view by pressing the middle button.
NOTE: Main views can be customized. See Customization.
Suunto EON Core automatically switches between surface and dive state. If you are more
than 1.2 m (4 ft) below the water level, the dive state is activated.
The following display shows Suunto EON Core when tank pressure screen is in use:
•Present depth is 19.0 m
•Active gas is Nitrox 32%
•Dive time is 22 minutes
•Tank pressure left is 120 bar
•No decompression time is 50 minutes
•Safety stop is ahead at 3.0 meters
•21 hours of diving time left before need to recharge
2.2. Icons
Suunto EON Core uses the following icons:
No-fly time
Surface (interval) time
Battery status (for device: charging, ok, low; for Tank POD: ok, low)
Battery level - number indicates remaining diving time before need to
recharge
Tank / gas pressure information
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Tank POD alert (device is not receiving signal from Tank POD)
2.3. Set up
To get the most out of your Suunto EON Core, use some time to customize features and
displays. Make absolutely sure that you know your computer and have it set up as you want
before getting into the water.
To get started
1. Wake up the device by connecting the USB cable to PC/Mac (or USB power source if
available).
2. Follow the startup wizard to set up the device. When ready, the device goes to surface
state.
3. Fully charge before first dive.
The startup wizard guides you through:
•Language
•Units
•Time format (12h/24h)
•Date format (dd.mm / mm.dd)
•Connecting with DM5 (optional)
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3. Features
3.1. Alarms, warnings and notifications
Suunto EON Core has color-coded alarms, warnings and notifications. They are shown
prominently on the display with an audible alarm (if tones are on). Alarms are always red.
Warnings may be red or yellow. Notifications are always yellow.
When an alarm, warning, or notification occurs, a message is displayed as a pop-up. Pop-up
messages can be acknowledged by pressing any button. The information needing attention
remains on screen or as a scrollable element in the bottom field until the situation is back to
normal.
Alarms are critical events that always require immediate action. When an alarm situation
comes back to normal, the alarm will stop automatically.
Alarm Explanation
Ascent speed exceeds safe speed of 10 m (33 ft) per
minute for five seconds or more.
Decompression ceiling broken by more than 0.6 m (2 ft)
on a decompression dive. Immediately descend back
below ceiling depth and continue to ascend normally.
Partial pressure of oxygen exceeds safe level (>1.6).
Immediately ascend or change to a gas with lower
oxygen percentage.
Partial pressure of oxygen below safe level (<0.18).
Immediately descend or change to a gas with higher
oxygen percentage.
Warnings alert you to events that can impact your health and safety if you do not take action.
Acknowledge the warning by pressing any button.
Warning Explanation
CNS100% Central nervous system toxicity level at 100% limit
OTU300 Recommended daily limit for Oxygen tolerance unit
reached
Depth Depth exceeds your depth alarm limit
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Warning Explanation
Dive time Dive time exceeds your dive time alarm limit
Diluent high PO2 Diluent partial pressure of oxygen exceeds safe level
(>1.6); no immediate danger unless diluent is used, e.g.
for bailout
Diluent low PO2 Diluent partial pressure of oxygen below safe level
(<0.18); no immediate danger unless diluent is used,e.g.
for bailout
Gas time Gas time exceeds your gas time alarm limit, or tank
pressure is below 35 bar (~510psi), in which case gas
time is zero
Safety stop broken Safety stop ceiling broken by more than 0.6 m (2 ft)
Tank pressure Tank pressure is below your tank pressure alarm limit
Notifications indicate events that require preventive actions. Acknowledge the notification by
pressing any button.
Notification Explanation
CNS80% Central nervous system toxicity level at 80% limit
OTU250 Approximately 80% of recommended daily limit for OTU
reached
Change gas On multi-gas dive when ascending, it is safe to switch to
next available gas for optimum decompression profile
Low battery Approximately three hours of dive time left
Re-charge needed Approximately two hours of battery time left; re-charging
required before next dive
Setpoint switched Setpoint switched automatically on rebreather dive. See
3.24.3. Setpoints
Tank POD low battery Tank POD battery life low; battery change required
3.2. Ascent rate
During a dive, the bar on the left indicates ascent rate. One bar step corresponds to 2 m (6.6
ft) per minute.
The bar is also color coded:
•Green indicates ascent rate is ok, less than 8 m (26.2 ft) per minute
•Yellow indicates ascent rate is moderately high, 8-10 m (26-33 ft) per minute
•Red indicates ascent rate is too high, over 10 m (33 ft) per minute
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When maximum allowed ascent rate is exceeded for five seconds, an alarm is generated.
Ascent rate violations result in longer safety stop times.
WARNING: DO NOT EXCEED THE MAXIMUM ASCENT RATE! Rapid ascents increase the
risk of injury. You should always make the mandatory and recommended safety stops after
you have exceeded the maximum recommended ascent rate. If this mandatory safety stop is
not completed the decompression model will penalize your next dive(s).
3.3. Algorithm lock
Suunto Fused™ RGBM algorithm is locked for 48 hours if you omit decompression stops for
longer than three (3) minutes. When the algorithm is locked, no algorithm information is
available and LOCKED is shown instead. Locking the algorithm is a safety feature, highlighting
that the algorithm information is no longer valid.
When you ascend above the decompression ceiling by more than 0.6 m (2 ft), the ceiling
parameter turns red with an arrow pointing down appears, and an audio alarm is generated.
In such a condition, you should descend back below the ceiling level to continue the
decompression. If you fail to do so within three (3) minutes, Suunto EON Core locks the
algorithm calculation and displays LOCKED instead, as shown below. Note that the ceiling
value is no longer present.
In this state, you significantly increase your risk of decompression sickness (DCS).
Decompression information is not available for the next 48 hours after surfacing.
It is possible to dive with the device when the algorithm is locked, but instead of the
decompression information, LOCKED is shown. Going to dive mode when algorithm is locked
resets the algorithm lock time back to 48 hours when you surface.
3.4. Battery
Suunto EON Core has a rechargeable lithium-ion battery. Charge the battery by connecting
Suunto EON Core to a power source with the included USB cable. As a power source use
either your computer USB port or wall charger.
The battery icon in the upper-left corner of the display shows the battery status. To the right of
the battery icon is the estimated remaining dive time in hours.
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Icon Explanation
Estimated remaining dive time is 27 hours; no immediate need to recharge
Estimated remaining dive time is three (3) hours or less; recharge needed
Estimated remaining dive time is less than one (1) hour; recharge
immediately
Battery is charging, showing current charge level as remaining dive time
When the charge level drops below 2 (two) hours, you cannot start a dive with Suunto EON
Core. A pop-up message indicates recharge is needed.
3.5. Bookmark
Keep the lower button pressed to add a bookmark (timestamp) to the active log for later
reference.
If you save a bookmark while the compass view is active, the bookmark includes both a
timestamp and the current compass heading.
3.6. Calendar clock
Time and date settings are found under General / Device settings / Time & date.
Time and date formats are found under General / Device settings / Units and formats.
To change time and date
1. Keep the middle button pressed to enter menu.
2. Browse to General / Device settings / Time & date.
3. Scroll to Set time or Set date with the upper or lower button.
4. Press the middle button to enter the setting.
5. Adjust the setting with the upper or lower button.
6. Press the middle button to move to the next setting.
7. Press again the middle button when last value is set to save and go back to Time & date
menu.
8. Keep middle button pressed to exit when done.
To change time and date formats
1. Keep the middle button pressed to enter menu.
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2. Browse to General / Device settings / Units and formats.
3. Scroll to Time format or Date format with the upper or lower button.
4. Follow steps 5-8 as above to change and save formats.
3.7. Compass
Suunto EON Core includes a tilt-compensated digital compass, available as a main view.
3.7.1. Calibrating compass
When you first start using Suunto EON Core, the compass needs to be calibrated. Suunto
EON Core displays the calibration icon when you enter the compass view. Calibrate the
compass by slowly rotating the unit in your hand in large figure-8 loops.
Watch the video on YouTube.
During the calibration process, the compass adjusts itself to the surrounding magnetic field.
Because of changes in the surrounding magnetic field, it is recommended to re-calibrate the
compass before each dive.
To manually start calibration:
1. Keep the middle button pressed to enter the menu.
2. Browse to General / Compass.
3. Press the middle button to enter Compass.
4. Scroll up or down to select Calibrate.
5. Start calibration by moving the device around in a 3D figure-8 as the image suggests.
6. A sound indicates the calibration succeeded, and the screen goes back to Compass
menu.
NOTE: If the calibration fails several times in a row, you may be in an area with strong
sources of magnetism, such as large metal objects. Move to another location and try to
calibrate the compass again.
3.7.2. Setting declination
You should always adjust your compass declination for the area where you are diving to get
accurate heading readings. Check the local declination from a trusted source and set the
value in Suunto EON Core.
To manually start calibration:
1. Keep the middle button pressed to enter the menu.
2. Browse to General / Compass.
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3. Press the middle button to enter Compass.
4. Press the middle button again to enter Declination.
5. Scroll up/down to set the angle of declination: Starting from 0.0º scroll up towards East or
down towards West declination. To turn declination o, set declination angle to 0.0º.
6. Press middle button to save changes and go back to the Compass menu.
7. Keep the middle button pressed to exit.
3.7.3. Setting bearing lock
A bearing is the angle between north and your target. In simple terms, it is the direction you
want to travel. Your heading, on the other hand, is your actual direction of travel.
You can set a bearing lock to help you orientate yourself underwater and ensure you maintain
your direction of travel. For example, you can set a bearing lock for the direction to the reef
before leaving the boat.
You can reset the bearing lock at any time, but you can only clear a bearing lock while at the
surface.
To set a bearing lock:
1. Press the middle button to change to the compass view.
2. Hold your Suunto EON Core in level in front of you, with the top pointing in the direction to
your target.
3. Keep the lower button pressed until you see the Bearing locked notification.
Once you have a bearing locked, the lock position is indicated on the compass rose, as
shown below.
Below your heading (large number in center of compass), you also see the relative dierence
between your bearing and your heading. So, for instance, when you want to travel in the
exact direction of your bearing, the lower number should be 0°.
If you want to set a new bearing lock, just repeat the same procedure above. Each bearing
lock is recorded in your dive log with a time stamp.
To clear the bearing lock from your compass view, you need to return to the surface.
To clear a bearing lock:
1. While in surface state, keep the middle button pressed to enter the main menu.
2. Scroll to GENERAL with the upper or lower buttons and press the middle button.
3. Press the middle button to enter Compass.
4. Select Clear bearing with the middle button.
5. Keep the middle button pressed to exit.
3.8. Customization
You can customize Suunto EON Core views and features with Suunto DM5. Create up to 10
dierent dive modes with up to four custom views each.
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Watch the video on YouTube.
To customize Suunto EON Core:
1. Download and install Suunto DM5 from http://www.suunto.com/DM5.
2. Connect your Suunto EON Coreto the computer with the USB cable.
3. In the devices window, select Suunto EON Core.
4. Select the Customization tab. You can create new dive modes and modify existing ones.
NOTE: When creating or modifying dive modes, you need to synchronize the changes
with your Suunto EON Core before disconnecting the USB cable to save the changes to your
device.
Customization is divided into four categories:
•Dive mode name
•Dive algorithm
•Gas settings
•Customize views
Dive mode (name)
Maximum length of the name is 15 characters. Use something short and simple that helps you
identify easily the features and information that you have customized on this mode.
Dive algorithm
You can select to use Suunto Fused™ RGBM or no algorithm (see 3.30. Suunto Fused RGBM).
If you select no algorithm, Suunto EON Core functions as a gauge (bottom timer) in that mode.
If you select Suunto Fused RGBM, you have two additional options: personal setting
(algorithm conservatism) and altitude setting.
Gas settings
Here you configure what you see under the Gas(es) menu in Suunto EON Core. The multiple
gases option can be turned on or o. Turn it on to be able to dive with multiple gases. When
turned o, the gas menu is simplified and easier to use with only one gas.
Helium can also be turned on or o. If you turn this o, you cannot see the helium component
for any gases.
The gas max pO2 setting can be set to manual or fixed. The fixed option means that the
selected value is used for all gases and the option to manually edit them in the Gas(es) menu
is disabled. When manual is selected, you can edit the gas max pO2 for each gas individually
in the Gas(es) menu.
Customize views
For each dive mode, you can create up to four custom views. For each view, there are two
areas of view customization: style and content.
The style of the mode can be graphical or classic. Graphical style presents information with
additional visual elements:
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With classic, information is presented in the traditional manner using numbers:
Within each view of the mode, you can define what information is shown in customizable
fields. When editing the view in DM5, you get a preview of how it will look on your Suunto
EON Core.
In each view, you can define multiple custom field pairs for the values shown in the lower left
and right corners. When you use the view in Suunto EON Core, you can cycle through these
field pairs by pushing the lower button.
3.9. Decompression dives
If you exceed the no-decompression limit on a dive, Suunto EON Core provides the
decompression information required for ascent. Ascent information is always presented with
two values:
•ceiling: depth that you should not go above
•asc. time: optimum ascent time in minutes to surface with given gases
WARNING: NEVER ASCEND ABOVE THE CEILING! You must not ascend above the
ceiling during your decompression. In order to avoid doing so by accident, you should stay
somewhat below the ceiling.
On a decompression dive, there could be three kinds of stops:
•Safety stop
•Deep stop
•Decompression stop
You can turn deep stops on or o under Dive settings / Parameters. In addition, you can
adjust the safety stop time to be 3, 4 or 5 minutes.
The illustration below presents how decompression is displayed on Suunto EON Core. When
you ascend close to the ceiling depth and enter the deco window area, two arrows appear in
front of the ceiling number.
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The deco window area is ceiling depth + 3.0 meters (9 ft). This is the area where
decompression takes place.The closer to the ceiling you stay, the more optimal the
decompression time is.
If you ascend above the ceiling depth, there is still a safe margin area, equal to ceiling depth
– 0.6 meters (2 ft). In this safe margin area, decompression calculation still continues, but you
are advised to go down below ceiling depth. This is indicated by the ceiling depth number
turning yellow with a downward pointing arrow in front of it.
If go above the safe margin area, the decompression calculation is paused until you go back
down below this limit. An audible alarm and a downward arrow in front of a red ceiling
number indicate unsafe decompression.
If you ignore the alarm and stay above the safe margin for three minutes, Suunto EON Core
locks the algorithm calculation, and decompression information will not be available anymore
on the dive. See 3.3. Algorithm lock.
Below is a typical decompression dive view showing ascent time and the first required deep
stop at 20.3 meters:
Suunto EON Core shows the ceiling value always from the deepest of these stops. deep stop
and safety stop ceilings are always at constant depth when you are at the stop. Stop time is
counted down in minutes and seconds.
Below is an example of what Suunto EON Core displays during deep stop:
Below is an example of what Suunto EON Core displays during safety stop:
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With decompression stops, the ceiling is always decreasing while you are near the ceiling
depth, providing continuous decompression with optimum ascent time.
Below is an example of what Suunto EON Core looks like on decompression stop:
NOTE: It is always recommended to keep close to the decompression ceiling when
ascending.
Ascent time is always the minimum time needed to reach the surface. It includes:
•Time required for deep stops
•Ascent time from depth at 10 m (33 ft) per minute
•Time needed for decompression
WARNING: YOUR ACTUAL ASCENT TIME MAY BE LONGER THAN DISPLAYED BY THE
DIVE COMPUTER! The ascent time will increase if you: (1) remain at depth, (2) ascend slower
than 10 m/min (33 ft/ min), (3) make your decompression stop deeper than at the ceiling,
and/or (4) forget to change the used gas mixture. These factors might also increase the
amount of breathing gas required to reach the surface.
3.10. Display brightness
The brightness of the display can be adjusted under General / Device settings / Brightness.
The default value is 50%. Adjusting this value has direct impact on battery life.
TIP: You can significantly extend battery life by turning down the display brightness.
3.11. Dive history
Dive history is a summary of all the dives done with your Suunto EON Core. The history is
divided by the type of dive: Air, Nitrox, Trimix, Gauge, CCR Air/Nitrox and CCR Trimix. CCR
dives are categorized by the diluent content used on the dive.
The history is divided by the type of dive: Air, Nitrox, Trimix and Gauge dives are logged
separately. Each type summary includes the number of dives, cumulative dive hours and
maximum depth.
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NOTE: If there is more history information available than can be shown in a single
screen, you can scroll through the additional information with the upper and lower buttons.
3.12. Dive modes
By default Suunto EON Core has four dierent dive modes: Air/Nitrox, Trimix, CCR, and Gauge
(bottom timer). Select the appropriate mode for your dive under Dive settings / Mode.
NOTE: Air/Nitrox dive mode is a single gas mode. The Gas(es) menu under this mode
will not allow you to add more than one gas. However, this can be changed through
customization. See Customization.
NOTE: Air/Nitrox mode is by default in graphical style and all the others in classical
visual style. You can change this and other settings, as well as create additional dive modes
using Suunto DM5. See Customization.
Air/Nitrox, Trimix and CCR modes are intended for diving with decompression information, like
no decompression stop time or decompression ceiling/ascent time.
By default the decompression algorithm used in Suunto EON Core is Suunto Fused™ RGBM.
For more information about the algorithm, see 3.30. Suunto Fused RGBM.
Gauge is a bottom timer mode and thus has no decompression information or calculation
included.
NOTE: After diving in gauge mode, decompression calculation is locked for 48 hours. If
during this time you dive with Air/Nitrox, Trimix or CCR mode, there is no decompression
calculation available and ERROR is shown in decompression information fields.
3.13. Dive planner
The dive planner in Suunto EON Core helps you to quickly plan your next dive. The planner
displays available no decompression time and gas times for your dive based on depth and
gas mixture.
The dive planner can also help you plan dives in series, taking into account the residual
nitrogen from your previous dive(s) based on the planned surface time you enter.
Before planning your first dive, make sure you have gone through the planner settings and
configured them according to your personal preference. You can view the planner and adjust
settings under the Dive planner menu.
These settings include tank size and pressure at the start of the dive as well as personal gas
consumption (surface gas consumption). If you are not sure what your personal gas
consumption is, we recommend using the default value of 25 L/min (0.90 cubic ft/min).
NOTE: Estimated gas time is calculated based on tank pressure at start minus 35 bar
(510 psi).
The calculated no decompression time is based on dive depth and gas mixture. Any residual
nitrogen from previous dives, as well as surface time, is taken into consideration. GAS TIME is
dependent on the dive depth, personal consumption and tank size/pressure.
In the dive planner display, you can edit depth and mixture.
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For example, for the first dive in a series, if you enter 18 meters and use a mixture of 21%
oxygen, you see the following:
In this example, the calculated values are:
•Dive number in the dive series: 1
•Available no decompression time: 51 minutes
•Remaining gas time: 41 minutes
When planning additional dives in series, the dive planner allows you to adjust surface time. In
the example below, the surface time before the second dive is 1:37 minutes. Adjust surface
time to see how it impacts no decompression time.
3.14. Flip display
You can flip the display of Suunto EON Core to have the buttons on either the left or right side
of the dive computer, making it easier to wear on either arm.
Change the button orientation under General / Device settings / Flip display. Select Buttons
right to have the buttons on the right-hand side or Buttons left to have them on the left-hand
side.
3.15. Gas consumption
Gas consumption refers to your real-time consumption rate of gas during a dive. In other
words, it is the amount of gas a diver would use in one minute on the surface. This is
commonly known as your surface air consumption or SAC rate.
Gas consumption rate is measured in liters per minute (cubic feet per minute). This is an
optional field and needs to be added to your custom dive mode views in DM5. In the classic
view below, gas consumption rate is in the lower right-hand corner.
To enable gas consumption
1. Add the gas consumption filed to your custom dive mode in DM5. See Customization.
2. Install and pair a Suunto Tank POD. See 3.31. Tank pressure.
3. After you have selected the correct gas and returned to the main time view, keep the
middle button pressed to enter menu.
4. Scroll to Gases with the lower button and select with the middle button.
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5. Scroll to the gas you just selected from your Tank POD and select with the middle button.
6. Scroll to Tank size and select with the middle button.
7. Check the tank size and change the size with the upper or lower button as needed.
Confirm change with the middle button.
8. Keep the middle button pressed to exit the menu.
NOTE: For accurate gas consumption, you must define the tank size. Not defining the
tank size leads to incorrect gas consumption readings.
3.16. Gas time
Gas time refers to remaining air (gas) left with current gas mixture, measured in minutes. The
time is based on tank pressure value and your current breathing rate.
Gas time is also highly dependent on your current depth. For example, all other factors being
the same, including breathing rate, tank pressure and tank size, depth aects gas time as
follows:
•At 10 m (33 ft, surrounding pressure 2 bar), gas time is 40 minutes.
•At 30 m (99 ft, surrounding pressure 4 bar), gas time is 20 minutes.
•At 70 m (230ft, surrounding pressure 8 bar), gas time is 10 minutes.
Gas time is a default field in the lower right-hand corner of default dive modes. If you have not
paired a Suunto Tank POD, the gas time field shows n/a. If you have paired a POD but there is
no data being received, the field shows –. This may be because the POD is not in range, the
tank is closed, or the POD battery is low.
3.17. Gas mixtures
If Nitrox or Trimix dive mode is selected, you need to define the gas(es) for the
decompression algorithm to work properly. You define the gases under Gas(es). In Nitrox
mode, gas will have only oxygen (O2%). Trimix mode has helium (He%) available, and there is
also the possibility to choose multiple gases.
NOTE: When you have analyzed your gas, you should round the result down when
entering it for EON Steel. For example, if the analyzed gas is 31.8% oxygen, then define the
gas as 31%. This makes the decompression calculations safer. Oxygen calculations (pO2,
OTU, CNS%) are also kept conservative, since the oxygen percent used for those are O2% + 1.
WARNING: THE DIVE COMPUTER WILL NOT ACCEPT FRACTIONAL PERCENTAGE
VALUES OF OXYGEN CONCENTRATION. DO NOT ROUND UP FRACTIONAL PERCENTAGES!
Rounding up will cause nitrogen percentages to be understated and will aect
decompression calculations.
NOTE: You can customize what you see in the Gas(es) menu. See Customization.
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It is important to understand how the Gas(es) menu works on Trimix mode, where you can
make use of multiple gases. In the example below, the menu has three gases and tx18/45 is
selected as the active gas. Even though only one gas is active, the decompression algorithm
calculates ascent time (during dive) using all these three gases.
To select another active gas:
1. While in the Gas(es) menu, press the middle button to see gas options.
2. Scroll with upper or lower buttons to highlight Select.
3. Press the middle button again to confirm.
If you are diving with only one gas, ensure you have only that one gas in the Gas(es) menu.
Otherwise, Suunto EON Core expects you to use all gases in the list and notifies you to
change gases during the dive.
NOTE: When you select CCR mode, gas mixtures are divided to open-circuit and closed-
circuit gases. See Rebreather diving.
3.18. Language and unit system
You can change the device language and unit system from the settings under General »
Device settings.
You can change these settings at any time. Suunto EON Core refreshes immediately to reflect
the changes.
Under the unit settings, you have the option of selecting metric or Imperial as a global setting,
meaning the aect all measurements. Alternative, you can choose Advanced which allows
you to set the unit system for specific measurements. For example, you could use metric for
depth, and Imperial for tank pressure.
3.19. Logbook
Dive logs can be found under Logs. By default, they are listed by date and time, and each
entry listing shows the max. depth and dive time of the log.
Dive log details and profile can be browsed by scrolling through the log with upper or lower
button and selecting it with the middle button.
Each dive log contains data samples with fixed 10-second intervals. The dive profile includes a
cursor for browsing the logged data, scrollable with upper and lower buttons. For more
detailed log analyses, upload the dive(s) to Suunto DM5 (see 3.29. Suunto DM5 and
Movescount).
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When the logbook memory gets full, the oldest dives are deleted to make space for new
ones.
NOTE: If you surface and then dive again within five minutes, Suunto EON Core counts
this as one dive.
3.20. Multi-gas diving
Suunto EON Core allows gas changes during a dive between the gases defined in the
Gas(es) menu. When ascending, you are always notified to change gases when a better gas
is available.
For example, you may have the following gases when diving to 55 m (180.5 ft):
•tx18/45, MOD 58m
•tx50/10, MOD 21m
•oxygen, MOD 6m
While ascending, you are notified to change gas at 21 m (70 ft) and 6 m (19.7 ft) according to
the maximum operating depth (MOD) of the gas.
A pop-up notifies you when to change gases, as shown below:
WARNING: When diving with multiple gases, remember that the ascent time is always
calculated with the assumption that you use all the gases found in the Gas(es) menu. Always
check that you have only the gases for your current planned dive defined before you dive.
Remove the gases that are not available for the dive.
3.21. Movescount mobile app
With the Suunto Movescount App, you can easily transfer your dive logs to Movescount
where you can follow and share your diving adventures.
To pair with Suunto Movescount App on iOS:
1. Download and install Suunto Movescount App on your compatible Apple device from the
iTunes App Store. The app description includes the latest compatibility information.
2. Start Suunto Movescount App and turn on Bluetooth if it is not on already. Leave the app
running in the foreground.
3. If you have not yet set up your Suunto EON Core, do so now (see Getting started).
4. Tap the settings icon in the upper right and tap on the ' + ' icon to add a new device.
5. Tap on your dive computer from the list of found devices and enter the passkey shown on
the Suunto EON Core display.
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To pair with Suunto Movescount App on Android:
1. Download and install Suunto Movescount App on your compatible Android device from
Google Play. The app description includes the latest compatibility information.
2. Start Suunto Movescount App and turn on Bluetooth if it is not on already. Leave the app
running in the foreground.
3. If you have not yet set up your Suunto EON Core, do so now (see Getting started).
4. A pop-up screen opens on your Android device. Select [Pair] .
5. Enter the passkey shown on your dive computer display into the paring request field on
your mobile device and tap [OK] .
3.22. Personal and altitude adjustments
There are several factors that can aect your susceptibility to DCS. Such factors vary between
divers, as well as from one day to another.
The personal factors which tend to increase the possibility of DCS include:
•exposure to low temperature – water temperature less than 20 °C (68 °F)
•below average physical fitness level
•fatigue
•dehydration
•stress
•obesity
•patent foramen ovale (PFO)
•exercise before or after dive
WARNING: SET THE CORRECT PERSONAL SETTING! Whenever it is believed that factors
that tend to increase the possibility of DCS exist, it is recommended that you use this option
to make the calculations more conservative. Failure to select the correct personal setting will
result in erroneous dive and planning data.
The five-step personal setting can be used to adjust the algorithm conservatism to fit your
DCS susceptibility. You can find the setting under Dive settings / Parameters / Personal.
Personal level Explanation
More aggressive (-2) Ideal conditions, excellent physical fitness, highly
experienced with a lot of dives in the near past
Aggressive (-1) Ideal conditions, good physical fitness, well experienced
with dives in the near past
Default (0) Ideal conditions (default value)
Conservative (+1) Some risk factors or conditions exist
More conservative (+2) Several risk factors or conditions exist
WARNING: Personal adjustment setting 0, -1 or -2 causes a high risk of DCS, or other
personal injury, and death.
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In addition to the personal setting, Suunto EON Core can be adjusted for diving at dierent
altitudes. This setting automatically adjusts the decompression calculation according to the
given altitude range. You can find the setting under Dive settings / Parameters / Altitude and
select from three ranges:
•0 – 300 m (0 – 980 ft) (default)
•300 – 1500 m (980 – 4900 ft)
•1500 – 3000 m (4900 – 9800 ft)
WARNING: Traveling to a higher elevation can temporarily cause a change in the
equilibrium of dissolved nitrogen in the body. It is recommended that you acclimatize to the
new altitude before diving.
3.23. Oxygen calculations
During a dive, Suunto EON Core calculates partial pressure of oxygen (pO2), central nervous
system toxicity (CNS%) and pulmonary oxygen toxicity, tracked by OTU (oxygen toxicity units).
The oxygen calculations are based on currently accepted exposure time limit tables and
principles.
By default in Air/Nitrox dive mode, CNS% and OTU values are not displayed until they reach
80% of their recommended limits. When either value reaches 80%, EON Steel notifies you and
the value stays in the view. In default Trimix mode, CNS% and OTU values are displayed in the
bottom-right corner field as scrollable info.
NOTE: You can customize views to always show CNS% and OTU.
3.24. Rebreather diving
By default Suunto EON Core has one mode dedicated to rebreather diving, CCR mode. This
mode uses fixed high/low setpoint values which you can modify in the dive computer or
through DM5.
Fixed setpoint calculation enables Suunto EON Core to be used as a backup dive computer
on rebreather dives. It does not control or monitor the rebreather unit in any way.
When you select CCR mode (see Dive modes), the gases menu is split into two: CC gases
(closed-circuit gases) and OC gases (open-circuit gases).
NOTE: For rebreather dives, Suunto EON Core should be used as a backup device only.
The primary control and monitoring of your gases should be done through the rebreather
itself.
3.24.1. Closed-circuit gases
On a rebreather dive, you need at minimum two closed-circuit gases: one is your pure oxygen
tank, and the other is a diluent. You can define additional diluents as needed.
The correct oxygen and helium percentages of the diluent gas(es) in your diluent cylinder(s)
must always be entered into the dive computer (or through DM5) to ensure correct tissue and
oxygen calculation. Diluent gas(es) used on a rebreather dive are found under CC gases in
the main menu.
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3.24.2. Open-circuit gases
As with closed-circuit gases, you must alway define the correct oxygen and helium
percentages of open-circuit gases (bailout gases) to ensure correct tissue and oxygen
calculation.
Follow the same procedure as the CC gases to define your open-circuit gases under the OC
Gases settings.
After entering values for Mix1, you can create additional mixes,Mix2 to Mix8. Each additional
mix can be primary, secondary, or o. Mix1 is always set as a primary gas.
To minimize the risk of error during a dive, it is highly recommended that the mixes are set in
the proper order. This means that as the mix number rises, so does oxygen content. This is
the order they are usually used during the dive. Before a dive, only enable the mixes you
actually have available and remember to check the set values to ensure they are correct.
The ascent time is calculated based on the assumption that you start the ascent profile
immediately and all the primary gases are changed as soon as their maximum operating
depth allows it. That is, using the gases that are set as primary, the most optimal ascent
schedule for the moment is calculated.
To see the most pessimistic ascent schedule, that is, a schedule for the situation when gases
are not changed at all, you can set the gases as secondary and the time it takes to finish the
decompression using the current breathing gas is shown as the ascent time.
Showing the most pessimistic ascent schedule during a long dive may result in the ascent
time no longer fitting the reserved field, and the dive watch displays '––'.
NOTE: While setting the gases, notice that the calculated maximum operating depth is
displayed in the upper field. You cannot change to this gas before you have ascended above
this depth.
3.24.3. Setpoints
CCR mode has two setpoint values, low and high. Both are configurable:
•Low setpoint: 0.4 – 0.9 (default: 0.7)
•High setpoint: 1.0 – 1.6 (default: 1.3)
Typically you do not need to modify the default setpoint values. However, you can change
them as needed either in DM5 or under the main menu.
To change setpoint values in Suunto EON Core:
1. While in surface state, keep middle button pressed to enter main menu.
2. Scroll to Setpoint with the upper button and select with the middle button.
3. Scroll to Low setpoint or High setpoint and select with the middle button.
4. Adjust the setpoint value with the lower or upper button and accept with the middle
button.
5. Keep middle button pressed to exit menu.
Setpoint switching
Setpoints can be switched automatically according to depth. By default the low setpoint
switch depth is 4.5 m (15 ft), and the high setpoint switch depth is 21 m (70 ft).
The auto setpoint switching is o by default for the low setpoint and on for the high setpoint.
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To change auto setpoint switching in Suunto EON Core:
1. While in surface state, keep middle button pressed to enter main menu.
2. Scroll to Setpoint with the upper button and select with the middle button.
3. Scroll to Switch low or Switch high and select with the middle button.
4. Adjust the depth value for the setpoint switch with the lower or upper button and accept
with the middle button.
5. Keep middle button pressed to exit menu.
Popup notifications indicate when the setpoint is switched.
During a rebreather dive, you can also switch to a custom setpoint at any time.
To change to a custom setpoint:
1. While diving in CCR mode, keep middle button pressed to enter main menu.
2. Scroll to Custom setpoint and select with the middle button.
3. Adjust the setpoint value as needed with the lower or upper button and accept with the
middle button.
A popup notification confirms the custom setpoint switch.
3.24.4. Bailouts
If at any point during a rebreather dive you suspect a malfunction of any sort, you should
switch to a bailout gas and abort the dive.
To change to a bailout gas:
1. Keep the middle button pressed to enter main menu.
2. Scroll to OC gases and select with middle button.
3. Scroll to the desired bailout gas and select with the middle button.
After a bailout gas is selected, the setpoint field is replaced with the pO2 value of the selected
open-circuit gas.
If the malfunction is rectified or the dive situation otherwise normalizes, you can switch back
to a diluent using the same procedure as below, but selecting from CC gases.
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3.25. Safety stops and deepstops
A three (3) minute safety stop is always recommended for every dive over 10 meters (19.7 ft).
The time for a safety stop is calculated when you are between 2.4 and 6 m (7.9 and 19.7 ft).
This is presented with up/down arrows in front of the stop depth. The safety stop time is
shown in minutes and seconds. The time may exceed three (3) minutes if you ascend too fast
during dive.
Deepstops activate when you dive deeper than 20 m (65.6 ft). Deepstops are presented like
safety stops. You are in the deepstop area when the deepstop depth has up/down arrows in
front of it and deepstop time is running.
NOTE: For safety reasons, you cannot switch o deepstops if helium (trimix gas
mixtures) is enabled for the dive mode in use.
3.26. Sample rate
Suunto EON Core uses a fixed sample rate of 10 seconds for all log recordings.
3.27. Standby and deep sleep
Standby and deep sleep are two functions that are designed to prolong battery life. Standby
is an adjustable mode that turns o the screen after a set amount of time if Suunto EON Core
is not used.
To adjust the standby time:
1. Keep the middle button pressed to enter the menu.
2. Browse to General / Device settings / Standby.
3. Press the middle button to enter Standby.
4. Scroll up/down to select the desired standby time in minutes.
5. Press the middle button to save changes and return to the Device settings menu.
6. Keep the middle button pressed to exit.
Deep sleep
Deep sleep is a function that prolongs battery life when Suunto EON Core has not been used
for some time. Deep sleep is activated when two days have passed since:
•No buttons have been pressed
•Suunto EON Core has been attached to PC/charger
•Dive calculation has ended
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Suunto EON Core wakes up when it is connected to a PC/charger, when a button is pressed,
or when the water contact gets wet.
3.28. Surface and no-fly time
After a dive, Suunto EON Core displays surface time since the previous dive and a countdown
time for recommended no-fly time. During the no-fly time, flying or traveling to higher altitude
should be avoided.
No-fly time is always at least 12 hours and equals desaturation time when it is more than 12
hours. For desaturation times shorter than 70 minutes, no no-fly time is displayed.
If decompression is omitted during a dive so that Suunto EON Core enters permanent error
mode (see 3.3. Algorithm lock), the no-fly time is always 48 hours. Similarly, if dive is done in
gauge mode (bottom timer), the no-fly time is 48 hours.
WARNING: YOU ARE ADVISED TO AVOID FLYING ANY TIME THE COMPUTER COUNTS
DOWN THE NO-FLY TIME. ALWAYS ACTIVATE THE COMPUTER TO CHECK THE REMAINING
NO-FLY TIME PRIOR TO FLYING! Flying or traveling to a higher altitude within the no-fly time
can greatly increase the risk of DCS. Review the recommendations given by Divers Alert
Network (DAN). There can never be a flying-after-diving rule that is guaranteed to completely
prevent decompression sickness!
3.29. Suunto DM5 and Movescount
The Suunto DM5 software program allows you to track and analyze all of your dive logs and
plan your future dives. With DM5 you can customize your Suunto EON Core and update the
device firmware. Download Suunto DM5 from www.suunto.com/dm5.
NOTE: Mono framework is required when using DM5 on a Mac.
Movescount is an online sports community that integrates with Suunto DM5. Through
Movescount your can share your dives with others.
3.30. Suunto Fused RGBM
Suunto's decompression model development originates from the 1980s when Suunto
implemented Bühlmann's model based on M-values in Suunto SME. Since then research and
development has been ongoing with the help of both external and internal experts.
In the late 1990s, Suunto implemented Dr. Bruce Wienke's RGBM (Reduced Gradient Bubble
Model) bubble model to work with the earlier M-value based model. The first commercial
products with the feature were the iconic Suunto Vyper and Suunto Stinger. With these
products the improvement of diver safety was significant as they addressed a number of
diving circumstances outside the range of dissolved-gas-only models by:
•Monitoring continuous multiday diving
•Computing closely spaced repetitive diving
•Reacting to a dive deeper than the previous dive
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•Adapting to rapid ascents which produce high microbubble (silent-bubble) build-up
•Incorporating consistency with real physical laws for gas kinetics
In Suunto Fused™ RGBM the tissue half-times are derived from Wienke’s FullRGBM where
human body is modeled by fifteen dierent tissue groups. FullRGBM can utilize these
additional tissues and model the on-gassing and o-gassing more accurately. The amounts of
nitrogen and helium on-gassing and o-gassing in the tissues are calculated independently
from each other.
The advantage of Suunto Fused RGBM is additional safety through its ability to adapt to a
wide variety of situations. For recreational divers it may oer slightly longer no- deco times,
depending on the chosen personal setting. For open-circuit technical divers it allows use of
gas mixes with helium - on deeper and longer dives helium based gas mixes provide shorter
ascent times. And finally, for rebreather divers the Suunto Fused RGBM algorithm gives the
perfect tool to be used as a non-monitoring, set point dive computer.
3.31. Tank pressure
Your Suunto EON Core can be used with multiple Suunto Tank PODs for wireless tank
pressure transmission.
To install and pair a Suunto Tank POD:
1. Install the Tank POD and open the valve.
2. Wait for green LED on Tank POD to flash.
3. If your Suunto EON Core has a blank screen, press any key to activate it.
4. Hold your Suunto EON Core close to the Tank POD as shown.
5. After a few seconds, a menu pops up on the screen showing the Tank POD serial number,
battery status and the tank pressure. From the menu, select the correct gas for that Tank
POD.
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Air
128999459
OK
180
POD
bar
WARNING: The battery level indication shown when pairing the Tank POD is an
approximation only. The POD battery may deplete faster than the indication suggests.
NOTE: We recommend changing the Tank POD battery after completing 200 dives or 2
years.
Repeat the procedure above for additional Tank PODs and select dierent gases for each
POD.
NOTE: You cannot pair another Tank POD unless you have a second gas defined in
Suunto EON Core.
Alternatively, you can select which Tank POD to use with each gas by selecting a Tank POD
for the gas in question in the Gas(es) menu. When using this method, ensure the Tank POD
has been activated by ensuring there is tank pressure reading in screen and that it is within
range. In the menu, the Tank POD is identified by the serial number printed on the Tank POD.
In the dive main views, only one tank pressure is shown and corresponds to the active gas.
When the gas is changed, the displayed tank pressure is also changed accordingly.
WARNING: If there are several divers using Tank PODs, always check before you dive
that the POD number of your selected gas corresponds to the serial number on your POD.
123456789
CAUTION: Never lift or carry your tank by holding the wireless tank pressure transmitter
as this may break the cover and cause flooding of the unit. If your tank falls down with the
transmitter attached to the regulator first stage, ensure that the transmitter has not been
damaged before diving with it.
TIP: Remove pressure from the Tank Pod when not diving to save battery life.
3.32. Timer
Suunto EON Core has a timer that can be used for timing specific actions during surface or
dive. The timer is shown in bottom-right corner as scrollable item.
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NOTE: The timer can also be customized to be in graphical style as an analog watch in
the center of the display.
To use the timer:
1. While diving, press upper button to start the timer.
2. Press again the upper button to pause the timer.
3. Keep the upper button pressed to reset the timer.
Timer start and stop actions are saved to the dive log.
3.33. Water contacts
The water contact is located on the side of the case near the USB cable port. When
submerged, the water contact poles are connected by the conductivity of the water. Suunto
EON Core switches to dive state when water is detected and the depth gauge senses water
pressure at 1.2 m (4 ft).
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4. Care and support
4.1. Handling guidelines
Handle Suunto EON Core with care. The sensitive internal electronic components may be
damaged if the device is dropped or otherwise mishandled.
Do not try to open or repair Suunto EON Core by yourself. If you are experiencing problems
with the device, please contact your nearest authorized Suunto Service Center.
WARNING: ENSURE THE WATER RESISTANCE OF THE DEVICE! Moisture inside the
device and/or battery compartment may seriously damage the unit. Only an authorized
Suunto Service Center should do service activities.
Wash and dry the dive computer after use. Rinse very carefully after any salt-water dive.
Pay special attention to the pressure sensor area, water contacts, pushers, and USB cable
port. If you use the USB cable before washing the dive computer, the cable (device end)
should be rinsed as well.
After use, rinse it with fresh water, mild soap, and carefully clean the housing with a moist soft
cloth or chamois.
NOTE: Do not leave your Suunto EON Corein a bucket of water (for rinsing). The display
stays on under water and consumes battery life.
Use only original Suunto accessories - damage caused by non-original accessories is not
covered by warranty.
TIP: Remember to register your Suunto EON Core at www.suunto.com/support to get
personalized support.
4.2. Water resistance
Suunto EON Core is water resistant to 80 meters (262 ft) in compliance with the dive watch
standard ISO 6425.
WARNING: Water resistance is not equivalent to maximum operating depth. The
maximum operating depth of this dive computer is 150 meters (592 ft).
To maintain water resistance, it is recommended to:
•never use the device for other than intended use.
•contact an authorized Suunto service center, distributor or retailer for any repairs.
•keep the device clean from dirt and sand.
•never attempt to open the case yourself.
•avoid subjecting the device to rapid air and water temperature changes.
•always clean your device with fresh water if subjected to salt water.
•never knock or drop the device.
4.3. Installing scratch guard
Use the provided scratch guard to help protect your Suunto EON Core from scratches.
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To install the scratch guard:
1. Ensure the display glass is clean and dry.
2. Peel back the protective layer from one end of the scratch guard.
3. Place exposed adhesive side down squarely on one end of the display.
4. Pull back the protective layer from the scratch guard.
5. Press out any air bubbles with a soft, straight edge tool.
Watch the video on : YouTube.
4.4. Charging battery
Fully charged, Suunto EON Core provides min. 20 hours of dive time. The expected lifetime of
the rechargeable lithium-ion battery is 500 cycles.
Charge Suunto EON Core with the supplied USB cable. Connect the cable to a USB wall
charger or a computer USB port. If the battery is very low, the display remains dark while
charging until the battery has reached an adequate charge level.
CAUTION: DO NOT use the USB cable when Suunto EON Core is wet. This may cause
an electrical failure. Ensure the cable connector and connector pin area on the device are
both dry. If you are using a protective boot, remove the boot from the connector pin area to
clear any residual water droplets.
NOTE: When connected, you may experience a tingling sensation when touching a
metallic computer housing and Suunto EON Core. This is caused by a minor electrical current
created when the wall plug to the computer is not grounded.
CAUTION: DO NOT allow the connector pins of the USB cable to touch any conductive
surface. This may short circuit the cable, making it unusable.
The charging AC/DC mains supply shall meet the clause 2.5 of the standard for limited power supply of IEC
60950-1. Rechargeable batteries have a limited number of charge cycles and may eventually need to be
replaced. The battery should be replaced only by authorized Suunto Service Centers.
4.5. Changing strap to bungee
You can change between the wrist strap and bungee as needed. The bungee is provided as
an option.
To install the bungee:
1. Remove both strap ends using a TORX T7 (non-IP) screwdriver.
2. Attach the bungee adapters.
3. Thread the cord through both adapters.
4. Securely tie the ends of the bungee cord and cut o excess cord.
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4.6. Getting support
To get additional support, visit www.suunto.com/support. There you will find a comprehensive
range of support materials, including Questions and Answers and instruction videos. You can
also post questions directly to Suunto or email/call Suunto support professionals.
There are also many how-to videos on the Suunto YouTube channel at www.youtube.com/
user/MovesCountbySuunto.
We recommend registering your product at www.suunto.com/support/ to get the best
personalized support from Suunto.
To get support from Suunto:
1. First visit Suunto.com (www.suunto.com/support) to see if you question has been asked/
answered already.
2. If you cannot find an answer to your question online, submit a question using the form
available at suunto.com/support.
3. Call Suunto. See the latest list of numbers on the last page of this guide or at
www.suunto.com/support. Suunto’s qualified customer support sta will help you and, if
needed, troubleshoot your product during the call.
Suunto EON Core
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5. Reference
5.1. Technical specifications
Dimensions and weight:
•Length: 80 mm / 3.15 in
•Width: 55 mm / 2.17 in
•Height: 21 mm / 0.83 in
•Weight: 154 g / 5.43 oz
Operating conditions
•Normal altitude range: 0 to 3,000 m / 10,000 ft above sea level
•Operating temperature: 0°C to 40°C / 32°F to 104°F
•Storage temperature: -20°C to +50°C / -4°F to +122°F
•Maintenance cycle: 500 hours of diving or two years, whichever comes first
NOTE: Do not leave the dive computer in direct sunlight!
Depth gauge
•Temperature compensated pressure sensor
•Maximum depth of operation: 150 m / 492 ft (complying with EN 13319)
•Maximum static pressure: 15 bar (complying with EN 13319 and ISO 6425)
•Accuracy: ± 1% of full scale or better from 0 to 150 m / 492 ft at 20°C / 68°F (complying with
EN 13319)
•Depth display range: 0 to 300 m / 984 ft
•Resolution: 0.1 m from 0 to 100 m / 1 ft from 0 to 328 ft; 1 m from 100 to 150 m / 1 ft from
328 to 392 ft
Temperature display
•Resolution: 1°C / 1.5 °F
•Display range: -20 to +50°C/-4 to +122°F
•Accuracy: ± 2°C/± 3.6°F within 20 minutes of temperature change
Displays in mixed gas dive mode
•Helium %: 0–95
•Oxygen %: 5–99
•Oxygen partial pressure display: 0.0–3.0 bar
•CNS%: 0–500% with 1% resolution
•OTU: 0-500
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Other displays
•Dive time: 0 to 999 min
•Surface time: 0 to 99 h 59 min
•Dive counter: 0 to 99 for repetitive dives
•No-decompression time: 0 to 99 min (>99 above 99)
•Ascent time: 0 to 999 min (- - after 999)
•Ceiling depths: 3.0 to 150 m / 10 to 492 ft
Calendar clock
•Accuracy: ± 25 s/month (at 20°C/68°F)
•12/24 h display
Compass
•Accuracy: +/- 15°
•Resolution: 1°
•Max. tilt: 45 degrees
•Balance: global
Timer
•Accuracy: 1 second
•Display range: 0’00 – 99’59
•Resolution: 1 second
Logbook
•Sample rate. 10 seconds
•Memory capacity: approximately 200 hours of diving
Tissue calculation model
•Suunto Fused™ RGBM algorithm (developed by Suunto and Bruce R. Wienke, BSc, MSc,
PhD)
•15 tissue compartments
•Tissue compartment halftimes for nitrogen: 1, 2, 5, 10, 20, 40, 80, 120, 160, 240, 320, 400,
480, 560 and 720 min. The on-gassing and o-gassing halftimes are the same.
•Tissue compartment halftimes are divided by a constant factor to obtain helium halftimes.
•Reduced gradient (variable) M-values based on diving habit and dive violations. The M-
values are tracked up to 100 hours after a dive
•The exposure calculations (CNS% and OTU) are based on recommendations by R.W.
Hamilton, PhD and currently accepted exposure time limit tables and principles.
Battery
•Type: rechargeable lithium-ion
•Battery life: fully charged, min. 20h dive time
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The following conditions have an eect on the expected battery lifetime:
•The conditions in which the unit is operated and stored (for example, temperature/cold
conditions). Below 10°C/50°F the expected battery lifetime is about 50- 75% of that at
20°C/68°F.
•The quality of the battery. Some lithium batteries may exhaust unexpectedly, which cannot
be tested in advance.
NOTE: Low temperature or an internal oxidation of the battery may activate the battery
warning even though the battery has enough capacity. In this case, the warning usually
disappears when the dive mode is activated again.
Radio receiver
•Bluetooth® Smart compatible
•communication frequency: 2.4 GHz
•range: ~3 m/9.8 ft
5.2. Compliance
5.2.1. CE
Hereby, Suunto Oy, declares that this radio equipment type DW171 is in compliance with Directive 2014/53/EU. The
full text of the EU declaration of conformity is available at the following internet address: www.suunto.com/
EUconformity.
The radio equipment operates at 2.4 GHz ISM frequency band(s) and 1 mW maximum power.
5.2.2. EN 13319
EN 13319 is a European diving depth gauge standard. Suunto dive computers are designed to comply with this
standard.
5.2.3. EN 250 and FIOH
The tank pressure gauge and dive instrument parts used in measuring the tank pressure meet the requirements
set in the section of the European Standard EN 250 that concern tank pressure measurements. FIOH, notified
body no.0430, has EC type-examined this type of personal protective equipment.
5.2.4. FCC compliance
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) this device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired
operation. This product has been tested to comply with FCC standards and is intended for home or office use.
Changes or modifications not expressly approved by Suunto could void your authority to operate this device
under FCC regulations.
Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to
part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a
residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed
and used in accordance with the instructions, may cause harmful interference to radio communications. However,
there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful
interference to radio or television reception, which can be determined by turning the equipment off and on, the user is
encouraged to try to correct the interference by one or more of the following measures:
—Reorient or relocate the receiving antenna.
—Increase the separation between the equipment and receiver.
—Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
—Consult the dealer or an experienced radio/TV technician for help.
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5.2.5. ISED
This device complies with Industry Canada licence-exempt RSS standard(s). Operation is
subject to the following two conditions:
(1) this device may not cause interference, and
(2) this device must accept any interference, including interference that may cause undesired
operation of the device.
Suunto OY, has not approved any changes or modifications to this device by the user. Any changes
or modifications could void the user’s authority to operate the equipment.
Suunto Oy, n’approuve aucune modification apportée à l’appareil par l’utilisateur, quelle qu’en soit
la nature. Tout changement ou modification peuvent annuler le droit d’utilisation de l’appareil par
l’utilisateur.
t applications and their corresponding national
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio
exempts de licence. L'exploitation est autorisée aux deux conditions suivantes : (1) l'appareil ne doit
pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage
radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement.
5.5. International Limited Warranty
Suunto warrants that during the Warranty Period Suunto or a Suunto Authorized Service
Center (hereinafter Service Center) will, at its sole discretion, remedy defects in materials or
workmanship free of charge either by a) repairing, or b) replacing, or c) refunding, subject to
the terms and conditions of this International Limited Warranty. This International Limited
Warranty is valid and enforceable regardless of the country of purchase. The International
Limited Warranty does not aect your legal rights, granted under mandatory national law
applicable to the sale of consumer goods.
Warranty Period
The International Limited Warranty Period starts at the date of original retail purchase.
The Warranty Period is two (2) years for Products and Dive wireless transmitters unless
otherwise specified.
The Warranty Period is one (1) year for accessories including but not limited to wireless
sensors and transmitters, chargers, cables, rechargeable batteries, straps, bracelets and
hoses.
Exclusions and Limitations
This International Limited Warranty does not cover:
1. a. normal wear and tear such as scratches, abrasions, or alteration of the color and/or
material of non-metallic straps, b) defects caused by rough handling, or c) defects or
damage resulting from use contrary to intended or recommended use, improper care,
negligence, and accidents such as dropping or crushing;
2. printed materials and packaging;
3. defects or alleged defects caused by use with any product, accessory, software and/or
service not manufactured or supplied by Suunto;
Suunto EON Core
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XXXX&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&SSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSssssssssssssssssssssssssXXXXXXXXXXXXXXXXXX
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
mmmm
XWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWW
4. non-rechargeable batteries.
Suunto does not warrant that the operation of the Product or accessory will be uninterrupted
or error free, or that the Product or accessory will work with any hardware or software
provided by a third party.
This International Limited Warranty is not enforceable if the Product or accessory:
1. has been opened beyond intended use;
2. has been repaired using unauthorized spare parts; modified or repaired by unauthorized
Service Center;
3. serial number has been removed, altered or made illegible in any way, as determined at
the sole discretion of Suunto; or
4. has been exposed to chemicals including but not limited to sunscreen and mosquito
repellents.
Access to Suunto warranty service
You must provide proof of purchase to access Suunto warranty service. You must also register
your product online at www.suunto.com/mysuunto to receive international warranty services
globally. For instructions how to obtain warranty service, visit www.suunto.com/warranty,
contact your local authorized Suunto retailer, or call Suunto Contact Center.
Limitation of Liability
To the maximum extent permitted by applicable mandatory laws, this International Limited
Warranty is your sole and exclusive remedy and is in lieu of all other warranties, expressed or
implied. Suunto shall not be liable for special, incidental, punitive or consequential damages,
including but not limited to loss of anticipated benefits, loss of data, loss of use, cost of
capital, cost of any substitute equipment or facilities, claims of third parties, damage to
property resulting from the purchase or use of the item or arising from breach of the warranty,
breach of contract, negligence, strict tort, or any legal or equitable theory, even if Suunto
knew of the likelihood of such damages. Suunto shall not be liable for delay in rendering
warranty service.
5.6. Copyright
Copyright © Suunto Oy. All rights reserved. Suunto, Suunto product names, their logos and
other Suunto brand trademarks and names are registered or unregistered trademarks of
Suunto Oy. This document and its contents are proprietary to Suunto Oy and are intended
solely for the use of clients to obtain knowledge and information regarding the operation of
Suunto products. Its contents shall not be used or distributed for any other purpose and/or
otherwise communicated, disclosed or reproduced without the prior written consent of
Suunto Oy. While we have taken great care to ensure that information contained in this
documentation is both comprehensive and accurate, no warranty of accuracy is expressed or
implied. This document content is subject to change at any time without notice. The latest
version of this documentation can be downloaded at www.suunto.com.
Suunto EON Core
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5.7. Dive terms
Term Explanation
Altitude dive A dive made at an elevation greater than 300 m (1000
ft) above sea level.
Ascent rate The speed at which the diver ascends toward the
surface.
Ascent time The minimum amount of time needed to reach the
surface on a decompression stop dive.
CCR Closed-Circuit Rebreather. Scuba that recycles all
exhaled gas.
Ceiling On a decompression stop dive, the shallowest depth to
which a diver may ascend based on computed inert gas
load.
CNS Central nervous system toxicity. Toxicity is caused by
oxygen. Can cause a variety of neurological symptoms.
The most important of which is an epileptic-like
convulsion which can cause a diver to drown.
CNS% Central nervous system toxicity limit fraction.
Compartment See Tissue group
DCS Decompression sickness/illness. Any of a variety of
maladies resulting either directly or indirectly from the
formation of nitrogen bubbles in tissues or body fluids,
as a result of inadequately controlled decompression.
Decompression Time spent at a decompression stop, or range, before
surfacing, to allow absorbed nitrogen to escape
naturally from tissues.
Decompression range On a decompression stop dive, the depth range
between the floor and the ceiling within which a diver
must stop for some time during ascent.
Dive series A group of repetitive dives between which the dive
computer indicates some nitrogen loading is present.
When nitrogen loading reaches zero the dive computer
deactivates.
Dive time Elapsed time between leaving the surface to descend,
and returning to the surface at the end of a dive.
Floor The deepest depth during a decompression stop dive at
which decompression takes place.
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Term Explanation
He% Helium percentage or helium fraction in the breathing
gas.
MOD Maximum operating depth of a breathing gas is the
depth at which the partial pressure of oxygen (pO2) of
the gas mix exceeds a safe limit.
Multi level dive A single or repetitive dive that includes time spent at
various depths and therefore has no decompression
limits that are not determined solely by the maximum
depth reached.
Nitrox (Nx) In sports diving, refers to any mix with a higher fraction
of oxygen than standard air.
No deco No decompression stop time. The maximum amount of
time a diver may remain at a particular depth without
having to make decompression stops during the
subsequent ascent.
No decompression dive Any dive which permits a direct, uninterrupted ascent to
the surface at any time.
No dec time Abbreviation for no decompression time limit.
OC Open-circuit. Scuba that exhausts all exhaled gas.
OTU Oxygen tolerance unit. Used to measure the whole-
body-toxicity, caused by prolonged exposure to high
oxygen partial pressures. The most common symptoms
are irritation in the lungs, a burning sensation in the
chest, coughing and reduction of the vital capacity.
O2% Oxygen percentage or oxygen fraction in the breathing
gas. Standard air has 21% oxygen.
pO2Partial pressure of oxygen. Limits the maximum depth to
which the nitrox mixture can be safely used. The
maximum partial pressure limit for enriched air diving is
1.4 bar. The contingency partial pressure limit is 1.6 bar.
Dives beyond this limit risk immediate oxygen toxicity.
Repetitive dive Any dive whose decompression time limits are aected
by residual nitrogen absorbed during previous dives.
Residual nitrogen The amount of excess nitrogen remaining in a diver
after one or more dives.
RGBM Reduced gradient bubble model. Modern algorithm for
tracking both dissolved and free gas in divers.
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Term Explanation
SCR Semi-closed rebreather. Scuba that recycles a portion of
exhaled gas.
Scuba Self-contained underwater breathing apparatus.
Surface time Elapsed time between surfacing from a dive and
beginning a descent for the subsequent dive.
Tissue group Theoretical concept used to model bodily tissues for the
construction of decompression tables or calculations.
Trimix A breathing gas mix of helium, oxygen and nitrogen.
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Index
active gas..................................................... 21
Air/Nitrox....................................................... 19
alarms............................................................. 9
algorithm lock............................................... 11
altitude adjustment................................... 24
ascent rate................................................... 10
ascent time.................................................. 16
battery................................................ 7 , 11, 34
battery icon................................................... 11
battery level................................................... 7
battery status................................................ 7
bearing lock................................................. 14
bookmark..................................................... 12
bungee......................................................... 34
calendar clock............................................. 12
calibrating compass................................... 13
care............................................................... 33
CCR................................................................ 19
change gas................................................. 23
charging......................................................... 11
charging battery........................................ 34
closed-circuit gases.................................. 25
compass................................................. 13, 14
customization.............................................. 14
customozation............................................. 14
date................................................................ 12
declination.................................................... 13
decompression dive.................................. 16
decompression stop.................................. 16
deep stop..................................................... 16
deepstop..................................................... 28
display..................................................... 7 , 18
display brightness...................................... 18
dive history.................................................. 18
dive mode.................................................... 19
dive modes.................................................. 14
dive profile.................................................. 22
dive time........................................................ 11
DM5..................................... 8 , 14, 19, 22, 29
error condition............................................. 11
Fused RGBM.................................. 11 , 19, 29
gas consumption....................................... 20
gas mixtures................................................ 21
gas time........................................................ 21
gases..................................................... 21 , 23
Gauge............................................................ 19
handling....................................................... 33
icons................................................................ 7
installing bungee....................................... 34
logbook............................................... 22 , 28
Movescount......................................... 14 , 29
multi-gas diving.......................................... 23
Nitrox............................................................. 21
no-fly time.............................................. 7 , 29
notifications................................................... 9
open-circuit gases.................................... 26
oxygen calculations.................................. 25
pairing.......................................................... 30
personal adjustment................................. 24
rebreather diving........................ 25, 26, 27
safety stop........................................... 16 , 28
sample rate................................................. 28
scratch guard.............................................. 33
setpoints...................................................... 26
setting declination...................................... 13
startup wizard............................................... 8
state................................................................. 7
strap.............................................................. 34
support......................................................... 35
surface time.......................................... 7 , 29
Tank POD............................................... 7 , 30
tank pressure............................................. 30
time................................................................ 12
timer............................................................... 31
Trimix...................................................... 19 , 21
USB cable......................................... 8 , 11, 34
view................................................................. 7
views.............................................................. 14
warnings......................................................... 9
wash.............................................................. 33
water contacts............................................ 32
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SUUNTO CUSTOMER SUPPORT
1. www.suunto.com/support
www.suunto.com/mysuunto
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