Getting Acquainted, Dive Computer Limitations | Suunto VYTEC DS

1.1.2. Dive Computer Limitations

While the dive computer is based on current decompression research and technology, you must realize that the computer cannot monitor the actual physiological functions of an individual diver. All decompression schedules currently known to the authors, including the U.S. Navy Tables, are based on theoretical mathematical models, which are intended to serve as a guide to reduce the probability of decompression illness.

1.1.3. Nitrox

Diving with nitrox provides the diver with an opportunity to increase bot- tom times or reduce the risk of decompression illness by reducing the nitrogen content in the breathing gas mix.

However, when the gas mix is altered, the oxygen content of the mix is generally increased. This increase exposes the diver to an oxygen toxicity risk not usually considered in recreational diving. In order to manage this risk, the dive computer tracks the time and intensity of the oxygen exposure and provides the diver with information to adjust the dive plan in order to maintain oxygen exposure within reasonably safe limits.

In addition to the physiological effects of enriched air on the body there are operational considerations to be addressed when handling altered breathing mixes. Elevated concentrations of oxygen present a ﬁre or explosion hazard. Consult with the manufacturer of your equipment in regards to its compatibility with nitrox.

2. GETTING ACQUAINTED

2.1. FUNCTIONS

The Suunto VYTEC can be set to function as a regular air dive computer, a nitrox dive computer or as a depth gauge with timer mode.

The VYTEC multipurpose dive computer is an air integrated computer featuring three dive computer modes (AIR, NITROX, GAUGE), three main operating modes (TIME/STAND-BY, SURFACE, DIVING), three menu based main modes (MEMORY, SIMULATION, SET) and 18 menu based submodes (review separate Quick Reference Guide). You can scroll through the modes using the push buttons. The mode indicator at the left side and the mode text at the bottom of the display indicate the selected mode.

10

Image 12

Suunto VYTEC DS manual Getting Acquainted, Dive Computer Limitations, Nitrox, Functions

Contents

Suunto Vytec DS Guide Reference Quick Definition of WARNINGS, Cautions and Notes COPYRIGHT, Trademark and Patent Notice PrEN Page Page Page Table of Contents AIR/NITROX/GAUGE Introduction Suunto RGBM/ Deep Stop Algorithm Safety Precautions Emergency Ascents Getting Acquainted Dive Computer LimitationsNitrox Functions Making the Vytec personal Push Buttons Press the Smart Mode button Water Contacts Wireless Cylinder Pressure Transmission Installing the Transmitter Pairing and Code Selection Transmission Data Pressure Transmission Related Displays SetcFail Lobt Diving with the Vytec Before DivingActivation and Prechecks Battery Indication Battery Power Indicator Battery Power Indicator Lowbat + Wireless Transmitter Battery Indicator Dive Planning PlanDive Numbering Shown During Dive Planning User Deﬁnable Functions and Alarms Safety StopsRecommended Safety Stop Mandatory Safety Stop Diving display. Pres- ent depth is 19.3 m Diving in AIR Mode Deep StopsBasic Dive Data Bookmark Cylinder Pressure Data Consumed Bottom Time CBT Ascent Rate Indicator Ascent Rate Indicator Safety Stops and Deep Stops Decompression dives CEILING, Ceiling ZONE, Floor Decompression Range Display below the Floor Display Above the FloorDisplay AT the Ceiling Zone Diving in Nitrox Mode 3.4.1. Before Diving Display Above the Ceiling Default Nitrox Settings Oxygen Displays 22. 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 Dive Numbering Separated by a colon, telling Flying After Diving Audible and Visual Alarms Three double beeps occur, when Oxygen Alarms in Nitrox Mode Set oxygen partial pressure limit is exceeded. The maximum High Altitude Dives and Personal Adjustment Altitude AdjustmentPersonal Adjustment Altitude Adjustment Ranges Personal Adjustment Ranges Error Conditions Rgbm Model SettingsOmitted Decompression Menu Based Modes USE of the Menu Based Functions Exit / Quit List of the Menu Based Modes Memories and Data Transfer 1 Memory Logbook and Dive Proﬁle Memory 1 Logbook I, main display Fig III Fig Dive History Memory 2 History Dive Profile Memory Prof Data Transfer and PC-Interface 3 TR-PC Simulation Mode 2 Simul Dive Simulator 1 Simdive Dive Planning Simulator 2 Simplan SET Modes 3 SET Dive Parameter Settings 1 SET Dive Dive Time Alarm Setting 2 d Alarm Maximum Depth Alarm Setting 3 MAX DpthNitrox/Oxygen Settings 4 Nitrox Setting Time 2 SET Time Adjusting Time 1 AdJ Time Adjusting Date 2 AdJ Date Adjusting Daily Alarm 3 T AlarmSetting Preferences 3 SET Pref Backlight Setting 1 Light Dive Computer Units Setting 2 Units Wireless Transmission Settings 3 HPProﬁle Sample Rate Setting 4 REC Dive Computer Model Setting 5 Model Care and Maintenance Important InformationCare of Your Dive Computer Water Contacts and Push Buttons Maintenance Water Resistance Inspection Battery Replacement 5.5.1. Computer battery Battery KIT Battery Replacement Tools RequiredPage Wireless Transmitter Battery Replacement Opening of the securing ring Transmitter Battery Replacement Tools Required Technical Description Operating PrinciplesNO-DECOMPRESSION Limits Altitude Diving Suunto Reduced Gradient Bubble Model Rgbm Surface Intervals Oxygen Exposure Technical Specification Transmitter Other displays Battery Vytec Warranty SUUNTOSPORTS.COM System Requirements My Suunto Communities Sport Forums Getting Started Glossary EAD EAN Nitrox NoaaNo DEC Time OLF PO2 RgbmSurf Time Tissue group Disposal of the Device TIME-KEEPING and STAND-BY Mode Page Page Made in Finland Suunto Oy 01 / 2004, 08