Uwatec aladin pro nitrox manual

Serial Number With all tank pressure features. Currently set to display Imperial units ft But Metric units m can be requested to be set before shipment. Please ask any questions before bidding. Your bottom times are simply recalculated whenever you change the Nitrox mixture.

The Aladin Pro Ultra is only recommended for divers who are qualified to dive with Nitrox. Now, divers can enjoy the extended bottom times of Nitrox diving, without all the complicated calculations. It has the ability to predict micro bubble formation making this a very safe and conservative unit. This is a full decompression computer which is very simple to read. Large digits, and understand, and the Uwatec quality speaks for itself.

Please ask any questions before bidding, This is a really high end computer which is simple and safe to use. Manual is available to download from Scubapro website. Good working condition. Nitrox compatible. Includes computer and manuals, soft case. No dive transmitter is included. Scubapro Transmitter for Air integrated versions of the Aladin Series of computers.

Tested and works perfectly. Please examine the pics carefully. If something is not clear. Please email and I'll do my best to get you an accurate answer. Interactive dive computer with a remote tank mounted transmitter. Until the application of this model in the Aladin Air-Z. Many of the divers physiological processes hadnt been considered by dive computers.

Now it has become possible to specify a decompression parameter based on behavioral and environmental conditions of the diver. For normal dives without high risk situations The decompression data is no more conservative than conventional dive computers.

With the Aladin Air-Z. If a diver gets into a high risk situation, then an update of the decompression model may be necessary. Perhaps giving the diver a brief decompression stop. In order to do this the Aladin Air-Z constantly monitors environmental conditions. Like water temperature. It also monitors behavior, such as actual ascent rates, repetitive dives. Computer is not working and needs a battery replacement. Sold as is. All packages are registered Air Mail with a Tracking number!

Express shipping is available! Duties or other importation issues. Problems, concerns or other issues about the product before or after purchased, Please contact us and we will help you with the best solution. On Jun at PDT. Seller added the following information:. The computer has been used for a several dive trips and has normal wear but I just had a brand new battery for this sale and it is in a perfect working condition. The transmitter is brand new model which was tested by Scuba Pro.

It comes with a water proof porch which can store both the computer and the transmitter. Wrist mounted. Where they inspected the unit. It has had light use less than 20 dives The screen is in perfect state. Though the replaceable screen guard has slight scratches. Comes with the high-port transmitter and a protective case. Everything sold as is. The transmitted has never been used.

Although it was certified and inspected by a Scubapro dealer in For that reason, no returns will be accepted on the basis of transmitter performance. Read the manual at: http:www. We do not declare items as gifts. Shipments may experience delays due to customs.

This listing was proudly created by jg Good working condition until battery died. Was showing"bat" on the screen but now that has gone off. Includes transmitter, I am unable to check to see if the battery on the transmitter is good due to the computer battery being dead.

They both worked the last time I used them but that was several years back. Because I am unable to check them I must sell them as-is. SN Original Box. Tank Pressure Transmitter and User Manual included. Very good cosmetic condition. Has stick-on screen protector. It needs batteries. Not included Please ask any questions before bidding. Do you live in Europe? Contact me for shipping costs. The Aladin Air monitors gas saturation in your body based on your personal behavior and diving environment.

The Aladin Air considers your actual diving behavior and if necessary. Recommends that you complete a short decompression stop. It will tell you exactly what depth and length of time to stop, having already predicted the amount of air that you need to complete the stop.

The Aladin Air includes other features such as a dive planner which allows you to preplan your next dive and a surface interval.

The Aladin Air is downloadable to DataTrak. The Aladin Air console has an ingenious quick disconnect system making it effortless to remove from This allows the diver to remove the computer from the regulator for easy downloading to a laptop, palmtop or PC.

This also makes it much more convenient to secure and care for your dive computer. Allarmi sonori. Retroilluminazione, algoritmo autoadattante, riserva programmabile, batteria a lunga durata. Con il suo trasmettitore wireless che permette di gestire la pressione della miscela di respirazione. La temperatura Le offerte di feedback 0 verranno annullate se non previo contatto. Instruction Manual Engish. Metric Ship world wide Payment Please pay through Paypal. Fast and convenient. Within 5 days of the end of the auction Shipping Dispatched within 24 hours.

Proof of postage is always obtained. Terms of Sale Dispatched only after full payment. Returns only by arrangement and at the buyers expence Contact Us Any problems or Questions. Please Contact through E bay mail.

Battery went dead. So it will need a new one; I think you can do it yourself, but Uwatec suggests you send it to them. If you know these computers, then you know they have always been the best! Simple and neither too conservative nor liberal. Uwatec Aladin Air Z dive wrist Computer with transmitter - needs battery. This is my wife's old dive computer. She used it for years while we were both dive instructors in Thailand. The battery died and there was no where near our island to get it fixed quickly.

Working as a dive instructor. Sending it off for repair for a month was not an option, so she bought a new one. I have since found some instructions and videos on the web for changing the battery, but it's not a typical user replaceable battery.

It's hard wired in there. If it is, the battery is pretty cheap. This is a good computer and had a lot of good use.

We no longer work in diving and wonder why with every shovel of snow so this needs to find a new home. Comes with original bag, but no manual. Stock photo shown so you can see the display. And is black in color as shown.

It shows maximum depth, dive time, preceding interval, altitude sections and possible alarms. Page 37 2. Attention Messages and Alarms 2.

Dive time: Time of the dive below depth of 4 ft. Page Display During Decompression Phase 1. Do not use the Aladin Pro Nitrox for intentional decompression diving. Decompression time: Prescribed duration of the decompression stop at the displayed decompression stage. Page Nitrox Information 1. Page 42 1. Page Attention Messages 2. Attention messages and alarms are always optical and acoustic under water, only optical at the surface except the decompression alarm. The acoustic attention messages but not the alarms can be switched off see chapter VII Interface page Page 44 2.

Attention Messages and Alarms 4 sec Partial pressure of oxygen reaches limit The partial pressure of oxygen reaches the set value setting not higher than 1. Page 45 2. See pages 54 and Page Alarms 2. In addition, an depth dive time Excessive ascent rate. Page 47 2. Start ascent at once! Page Alarm Low Battery 2. Page Switching On 3. Preparation for the Dive 3. Check test display: are all displays lit?

Page Setting Gas Mixture 3. Page Dive Time 4. Functions during the Dive 4. While the dive time is running, the colon on the right of the figures is flashing in one second intervals. Maximum dive time displayed is minutes. Page Maximum Depth 4. To prevent the display changing very frequently when diving in the vicinity of maximum depth, it is only displayed if it exceeds the current depth by more than three feet.

Page Ascent Rate 4. It is displayed in percent of the reference variable. Page 54 4. Page Partial Pressure Of Oxygen 4. The set value or the information about the actual ppO are not displayed. Page Oxygen Toxicity 4. Page Decompression Information 4. The figures indicate no-stop time in minutes. Page 58 4. Right beside the arrow, the deepest decompression depth dive time stage in feet is displayed. Page 59 4. The time of ascent to the first decompression stage and all decompression stops are included.

Page End Of A Dive 5. Functions at the Surface 5. This is the time span necessary to recognize the end of the dive. Page Desaturation Time 5. Page No Fly Time 5. Page Warning Of Bubbles 5. Page Diving In Mountain Lakes 6. Page 65 6. Diving in Mountain Lakes In order to assure optimal decompression even at higher altitudes, the 10 ft decompression stage is divided into a 13 ft stage and a 7 ft stage the pescribed decompression depths are, in sequence, 7 ft, 13 ft, 20 ft, 30 ft.

Page 67 1. A squar e dive is performed for its duration at a uniform depth. Ther e is a dir ect cor relation between the ef ficacy of tr eatment and the delay between the onset of symptoms and the tr Diving at Reduced Risk with Aladin Situation: The diver ascends too rapidly: Reaction of computer: The model calculates the formation of bubbles due to the excessively rapid ascent.

No-stop time is shor tened or a longer and eventually at gr eater depth decompr ession pr escription is displayed in or der to assur e incr eased decompr ession. Diving at Reduced Risk with Aladin Situation: The diver disregards the prescribed decompression depth. Reaction of computer: The model calculates the for mation of bubbles due to ignoring decompr ession.

A longer and eventually at gr eater depth decompr ession is displayed in or der to assur e suf ficient time for desaturation. If the tank is changed in this phase, you must make sure that the mixture is exactly the same as the one previously used.

Then the setting of the mixture must be adjusted to the new mixture. This can lead to injury or death. Desaturation time in hours and minutes, the set mixture percentage of oxygen and, if available, oxygen toxicity is displayed next to it.

Desaturation time is continually indicated until the next dive or until it reaches zero. The display is switched off to save energy three minutes after the last manipulation is made surface-sleep-mode. This is because the calculation model assumes reduced physical activity at the surface therefore less nitrogen off gassing and uses longer half-times.

Page 50 5 Functions at the Surface 5. Ignoring decompression stops or an excessive depth dive time ascent rate can also lead to bubbles in tissues. In order to reduce the risk of h decompression sickness for future repetitive dives, the surface interval should be planned long enough to reduce the risk of decompression sickness. If the max. Through the extension of the interval the diver may prevent a high concentration of bubbles in the lungs during the planned dive and avoid a higher risk situation.

If the computer detects a higher altitude, it switches into surface-mode automatically. Desaturation time indicated at this moment refers to adaptation time at this altitude. The entire altitude range is divided into four sections which are influenced by barometric pressure. That is why the defined altitude sections overlap on their fringes.

The altitude section is indicated at the surface, in the logbook and in the dive planner by stylised mountains, if a mountain lake altitude is reached. Sea level to an altitude of approximately metres is not indicated. In the following, you can see the approximate altitude ranges of the four sections: m switching at approx. If atmospheric pressure is below mbar altitude higher than m above sea level , no decompression information is displayed. Dive-plan-mode can no longer be started, since no decompression information is available.

Oxygen-toxicity is still calculated. Very small differences in the pressure sensors can cause an indication of different altitude sections of two dive computers at the same altitude on the fringes of the altitude ranges. But if an altitude section is displayed at sea level or the altitude readouts of two computers differ by more than one altitude section e. In this case, send your computer back to your retailer for testing.

Diving while at altitude can considerably increase the risk of decompression sickness. Do not undertake high altitude diving without being specifically trained in the special techniques of such diving. If a decompression accident does occur, the optional MemoMouse and DataTrak software allows the analysis of the dive profile and certain risk parameters to provide for more complete information for treatment purposes.

Analysis of the most recent results of decompression research and statistical analysis of diving accidents involving decompression sickness supports the following guidelines for diving with a reduced risk of decompression sickness. The following suggestions are highly recommended: 1. Always make the deepest descent of each given dive on a particular day at the beginning of that dive. Avoid repeated ascents and descents yo-yo diving.

Avoid repeated heavy workload whilst at depth. Plan the dives shorter if they are made in cold water. After finishing the decompression or at the end of a no-stop dive, the final stage of the ascent should be as slow as possible. Comply with the ascent rate and carry out any decompression stop required. Depending on the length of the surface interval, there could even be gaseous nitrogen microbubbles in your body.

This accumulation of both absorbed as well as gaseous nitrogen in the body can greatly increase the risk of decompression sickness on subsequent dives. That risk can be minimized. Match gas mixture to the intended dive. Respect the rules for the first dives. Descend less deep for the repetitive dive than for the previous dive. Plan for a minimum surface interval of three to four hours. Take a day off from diving every week. Repetitive dives after exchanging the dive computer: Wait at least 24 hour before you start with the repetitive dive.

A change of decompression may be indicated to minimize the risk. The diver can further reduce the risk by following conservative diving practices on the next dive and at the same time avoiding long decompression stops.

A few examples are on the following pages: Situation 1: The diver ascends too rapidly: Reaction of computer: The model calculates the formation of bubbles due to the excessively rapid ascent.

The no-stop time is shortened or a longer and eventually at greater depth decompression prescription is displayed in order to assure increased decompression. See pages 37, 42 and An exessive ascent rate can lead to serious injury or death from decompression sickness. The model calculates the formation of bubbles due to ignoring decompression.

A longer and eventually at greater depth decompression is displayed in order to assure sufficient time for desaturation. See page 37, There is a risk of decompression sickness on every dive even if all precautions described in this manual are taken. This previous buildup of nitrogen must be taken into consideration for the next dive.

See page 36 and Recommended response of the diver: During the dive: Dive conservatively on all repetitive dives. Limit your maximum depth to no more than 25 metres at the very beginning of the dive, and make a very slow ascent. Reaction of computer: An acoustic and visual alarm is given. See also page 37, Recommended response of the diver: During the dive: Ascend immediately until ppO2 is less then 0. Situation 5: ppO2 reaches the set value.

Reaction of computer: An acoustic warning is given, depth indication is flashing attention message. See page 36, The last 19 dives can be displayed directly on the dive computer.

A dive is only entered in the logbook if the dive time is longer than 2 minutes. You go back into ready- or surface-mode by B and —. English depth max. In order to activate the logbook, bridge contacts B and E. The most recent dive is displayed. On constant bridging of the contacts all dives are displayed successively. Bridging contacts B and — allows switching back from older dives to more recent ones.

This also happens 3 minutes after activating logbook-mode. This information can be downloaded into a Memo Mouse optional , which stores up to approximately 66 dive hours. Time and date of the dive are entered automatically, based on the clock of the PC-system when the data are transferred via interface. The possibilities and the procedure of this data transfer are described in a separate manual.

The water temperature of the most recent dive and eventual altitude sections are incorporated in the calculation. Planned decompression dives are not to be attempted by recreational scuba divers. Only divers with extensive experience, training and the appropriate equipment for decompression diving should attempt to plan a decompression dive!

From ready-mode, you switch into the diveplan input stage by twice bridging contacts B and —. Contacts B and E afterwards activate the planning mode. The display shows no-stop times for increasing depths scrolling no-stop times, see page 69, planning of a no-stop dive.

From surface-mode, you switch into the diveplan input stage by twice bridging B and —. B and — shorten the interval. You confirm the new surface interval and get into no-stop planning depth dive time After confirming the surface interval if possible , no-stop times are displayed in 3 metre-increments. The process starts with 9 metres.

The nostop time for every 3 metre-increment is displayed for about 3 seconds scrolling no-stop times. This will reduce the risk of micro bubble production in the pulmonary system. In order to plan a dive that requires decompression, wait until the scrolling no-stop time shows the desired depth.

By means of contacts B and E you can switch into decompression planning. Dive time is now one minute longer than no-stop time, and the decompression information appears.

This calculation takes some time. If you wish to plan a dive requiring decompression at another depth, switch from decompression planning to no-stop planning by means of B and E.

Now you can switch between no-stop planning and decompression planning at will with contacts B and E. Operation Depth to be reached with the selected mixture.

The oxygen toxicity is not taken in consideration for the calculation of the dive planner. Set the desired percentage of oxygen. Activate the dive planner as described before. Observe the depth indications and memorize the greatest depth displayed. This is also maximum depth for a dive with the set mixture and the set maximum partial pressure of oxygen.

Activate the dive-planner and observe the maximum depth displayed. If the desired depth is reached or exceeded, leave the dive-planner, alter the percentage of oxygen and return to the scrolling no-stop times. Repeat this procedure until the desired depth occurs as the maximum depth.

In ready-mode, the ideal percentage of oxygen for this depth is indicated. This also occurs three minutes after the activation of the diveplan-mode.

In order to completely leave the diveplan-mode, B and E must be continually bridged until two acoustic bleeps have occured. Failure to do this may lead to serious injury or death from decompression sickness. The connection is established by contact sensors and the MemoMouse. The actual attention message displays are not affected by the acoustic signal being switched off.