Suunto VYTEC DS manual Oxygen Exposure

Page 69

Also on repetitive dives adjustment may be applied to the maximum al- lowable nitrogen overpressure in each theoretical tissue group.

Depending on circumstances Suunto RGBM will adapt the decompres- sion obligations by doing any or all of the following:

•Reducing no-decompression stop dive times

•Adding Mandatory Safety Stops

•Increasing decompression stop times

•Advising an extended surface interval (Diver Attention symbol).

Diver Attention Symbol – Advice to Extend Surface Interval. If attenuated RGBM (RGB50) has been set, the Diver Attention Symbol will also be shown to indicate it.

Some patterns of diving cumulatively add a higher risk of DCI, e.g. dives with short surface intervals, repetitive dives deeper than earlier ones, multiple ascents, substantial multiday diving. When this is detected in ad- dition to adapting the decompression algorithm the Suunto RGBM model will in some circumstances also advise, with the Diver Attention Symbol (review chapter 3.6) that the diver extend the surface interval.

6.3. OXYGEN EXPOSURE

The oxygen exposure calculations are based on currently accepted expo- sure time limit tables and principles. In addition to this the dive computer uses several methods to conservatively estimate the oxygen exposure. These include for example:

•the displayed oxygen exposure calculations are upped to the next higher percentage value

•for recreational scuba diving, the recommended upper limit of 1.4 bar PO2 is used as a default

•the CNS% limits up to 1.6 bar are based on 1991 NOAA Diving Manual limits

•the OTU monitoring is based on the long-term daily tolerance level and the recovery rate is reduced

Oxygen related information displayed by the dive computer is also de- signed to ensure all warnings and displays in the appropriate phases of a dive. E.g. the following information will be shown before and during a dive, when the computer is set in Nitrox mode:

•the selected O2%

•the color-coded OLF% bar graph for either CNS% or OTU%

•audible alarms are given and the OLF bar graph starts to blink when the 80% and 100% limits are exceeded

67

Image 69

Contents Suunto Vytec DS Guide Reference Quick COPYRIGHT, Trademark and Patent Notice Definition of WARNINGS, Cautions and NotesPrEN Page Page Page Table of Contents AIR/NITROX/GAUGE Suunto RGBM/ Deep Stop Algorithm IntroductionEmergency Ascents Safety PrecautionsDive Computer Limitations Getting AcquaintedNitrox FunctionsPush Buttons Making the Vytec personalWater Contacts Press the Smart Mode buttonInstalling the Transmitter Wireless Cylinder Pressure TransmissionPairing and Code Selection Transmission Data Setc Pressure Transmission Related DisplaysFail LobtDiving with the Vytec Before DivingActivation and Prechecks Battery Power Indicator Battery IndicationLowbat + Battery Power IndicatorWireless Transmitter Battery Indicator Dive Planning PlanDive Numbering Shown During Dive Planning User Deﬁnable Functions and Alarms Safety StopsRecommended Safety Stop Diving display. Pres- ent depth is 19.3 m Mandatory Safety StopDiving in AIR Mode Deep StopsBasic Dive Data Cylinder Pressure Data BookmarkConsumed Bottom Time CBT Ascent Rate Indicator Ascent Rate IndicatorDecompression dives Safety Stops and Deep StopsCEILING, Ceiling ZONE, Floor Decompression Range Display below the Floor Display Above the FloorDisplay AT the Ceiling Zone Display Above the Ceiling Diving in Nitrox Mode 3.4.1. Before DivingOxygen Displays Default Nitrox Settings22. Diving in Nitrox mode. The O2% is set to 32% Oxygen Limit Fraction OLFGas Change, Multiple Breathing Gas Mixes Diving in Gauge Mode AT the Surface 3.6.1. Surface Interval Separated by a colon, telling Dive NumberingFlying After Diving Three double beeps occur, when Audible and Visual AlarmsSet oxygen partial pressure limit is exceeded. The maximum Oxygen Alarms in Nitrox ModeAltitude Adjustment High Altitude Dives and Personal AdjustmentPersonal Adjustment Altitude Adjustment RangesPersonal Adjustment Ranges Error Conditions Rgbm Model SettingsOmitted Decompression USE of the Menu Based Functions Menu Based ModesList of the Menu Based Modes Exit / QuitLogbook and Dive Proﬁle Memory 1 Logbook Memories and Data Transfer 1 MemoryI, main display Fig III Fig Dive Profile Memory Prof Dive History Memory 2 HistoryData Transfer and PC-Interface 3 TR-PC Dive Simulator 1 Simdive Simulation Mode 2 SimulSET Modes 3 SET Dive Planning Simulator 2 SimplanDive Parameter Settings 1 SET Dive Dive Time Alarm Setting 2 d Alarm Maximum Depth Alarm Setting 3 MAX DpthNitrox/Oxygen Settings 4 Nitrox Adjusting Time 1 AdJ Time Setting Time 2 SET TimeAdjusting Daily Alarm 3 T Alarm Adjusting Date 2 AdJ DateSetting Preferences 3 SET Pref Backlight Setting 1 LightWireless Transmission Settings 3 HP Dive Computer Units Setting 2 UnitsProﬁle Sample Rate Setting 4 REC Dive Computer Model Setting 5 ModelImportant Information Care and MaintenanceCare of Your Dive Computer Water Contacts and Push ButtonsWater Resistance Inspection MaintenanceBattery KIT Battery Replacement 5.5.1. Computer batteryTools Required Battery ReplacementPage Opening of the securing ring Wireless Transmitter Battery ReplacementTools Required Transmitter Battery ReplacementTechnical Description Operating PrinciplesNO-DECOMPRESSION Limits Altitude Diving Surface Intervals Suunto Reduced Gradient Bubble Model RgbmOxygen Exposure Transmitter Technical SpecificationOther displays Battery Vytec Warranty System Requirements SUUNTOSPORTS.COMCommunities My SuuntoGetting Started Sport ForumsGlossary EAN EADNoaa NitroxNo DEC Time OLFPO2 RgbmSurf Time Tissue group Disposal of the Device TIME-KEEPING and STAND-BY Mode Page Page Made in Finland Suunto Oy 01 / 2004, 08