Trimix is a breathing gas mixture of oxygen, helium, and nitrogen used in technical scuba diving. The helium reduces narcosis at depth by displacing nitrogen and oxygen, which are the narcotic gases.

What is Equivalent Narcotic Depth (END)?

Equivalent Narcotic Depth (END) is the depth at which a diver breathing air would experience the same level of narcosis as when breathing a trimix at the actual dive depth. A lower END means less narcosis effect.

There is scientific debate about whether oxygen is narcotic. The conservative approach — used by most technical training agencies — treats oxygen as narcotic when calculating END. This calculator uses the conservative method (O2 treated as narcotic).

What depth do I need trimix?

Most technical divers begin considering trimix beyond 40m (130ft), where narcosis on air becomes significant. It becomes essential for dives beyond 60m (200ft). Your training agency and personal tolerance will guide the threshold.

What is a hypoxic trimix?

A hypoxic trimix has an FO2 below 21% (often 10–18%), which is insufficient to support consciousness at the surface. These mixes are used at depth and require a travel gas and oxygen-rich bottom gas management plan.

Can I use this calculator without training?

This calculator is a planning aid only. Trimix diving requires advanced technical training and certification. Never dive beyond your certification level, and always plan with a qualified technical dive instructor.

🧪 Technical Diving

Trimix / Narcosis Calculator

Calculate Equivalent Narcotic Depth for any trimix blend, or find the ideal mix for your target depth and narcosis limit. Uses the conservative method — O₂ treated as narcotic.

🦺 Safety Notice: This calculator is a planning aid only and is NOT a substitute for proper technical dive training, certification, and planning with qualified instructors. Trimix diving requires advanced technical training. Always verify calculations with your dive computer, buddy, and instructor before any dive. Never exceed your training level.

Units

Inputs — Mix & Depth

FO₂ — Oxygen (fraction)

FHe — Helium

Planned Depth

TMx 18/45

Inputs — Target Depth & Limits

Planned Depth

Target END (narcosis limit)

PO₂ Limit

bar

TMx 18/45

Standard Trimix Reference

Mix	FO₂	FHe	FN₂	MOD (PO₂ 1.4)	END at 60m

What is Trimix?

Trimix is a breathing gas consisting of three components: oxygen (O₂), helium (He), and nitrogen (N₂). It is the standard gas choice for technical divers venturing beyond 40–50 metres (130–165 ft), where breathing air or nitrox becomes dangerous due to nitrogen narcosis and oxygen toxicity.

The helium fraction replaces some of the nitrogen and oxygen in the mix. Because helium is essentially non-narcotic at recreational and technical diving pressures, replacing these gases reduces narcosis at depth. The result is a clearer head, better decision-making, and improved safety margins on deep technical dives.

Trimix comes in several categories:

Normoxic trimix — FO₂ of 21% or higher. Breathable at the surface, suitable as a bottom gas from recreational depths down to around 60m.
Hypoxic trimix — FO₂ below 21% (commonly 18%, 15%, or lower). These mixes have insufficient oxygen to support consciousness at the surface and are only suitable at depth. They require a travel gas and careful gas management.
Heliox — A two-component mix of helium and oxygen with no nitrogen at all, used for very deep saturation and closed-circuit rebreather diving.

Common trimix blends used in technical diving include TMx 21/35 (normoxic, suitable to ~50m), TMx 18/45 (hypoxic, typical for 60–80m dives), TMx 15/55, and TMx 10/70 for very deep dives beyond 100m.

Understanding Narcosis

Nitrogen narcosis — sometimes called "rapture of the deep" or the Martini Effect — is an altered state of consciousness caused by breathing inert gases under pressure. It is similar in effect to alcohol intoxication and affects cognitive function, reaction time, and decision-making at depth.

The exact mechanism is not fully understood, but narcosis follows the Meyer-Overton correlation: the more lipid-soluble a gas, the more narcotic it tends to be. Nitrogen is moderately narcotic; helium has essentially no narcotic effect at depths achievable by scuba divers. This is why helium is added to the mix.

Some divers notice narcosis as shallow as 20m (66ft), while others may tolerate it well to 40m (130ft) on air. Individual variation is large, and narcosis can be unpredictable — cold, stress, fatigue, and CO₂ build-up can all worsen the effect. The accepted rule of thumb is that the effects of narcosis roughly double with every additional 10m of depth.

Is oxygen narcotic?

This is a debated topic. Some agencies (such as NOAA) historically treated only nitrogen as narcotic. However, a growing body of evidence and the conservative approach adopted by most modern technical agencies — including PADI TecRec, SSI, IANTD, and GUE — treats oxygen as narcotic for END calculations. This calculator uses the conservative (O₂-narcotic) method, which most professional dive planners and computers use.

Equivalent Narcotic Depth (END) Explained

Equivalent Narcotic Depth (END) is the hypothetical depth at which a diver breathing air would experience the same narcotic load as the diver breathing the trimix at the actual depth. It provides a simple way to quantify and compare the narcosis effect of different gas mixes.

For example: a diver breathing TMx 18/45 at 60m has an END of approximately 28m. That means the narcotic experience at 60m on that mix feels the same as diving to 28m on air — a much more comfortable and manageable state.

The Formula

Using the conservative O₂-narcotic method:

Narcotic fraction = FO₂ + FN₂ = 1 − FHe (as decimals)
ATA at depth = (depth_m / 10) + 1
END (m) = (narcotic_fraction × ATA − 1) × 10

A lower END means less narcosis. The practical target for most technical divers is an END of 30m (100ft) or less at the planned bottom depth. Some divers are comfortable to 40m (130ft) END; very conservative divers target 25m (82ft).

How to Pick the Right Trimix

Choosing the right trimix blend requires balancing three constraints: narcosis limits, oxygen toxicity limits, and the practicalities of gas blending and decompression.

Step 1 — Set your END target

Most technical training agencies recommend an END of no more than 30m (100ft) for bottom gas. Some divers use 35m (115ft) as a limit if they have significant deep air experience. For very deep dives (80m+), 25m END or lower may be appropriate.

Step 2 — Set your PO₂ limit

For bottom gas, a PO₂ of 1.4 bar is the standard limit used during the working portion of a dive. 1.6 bar is the absolute ceiling and is sometimes used for decompression stops. This calculator defaults to 1.4 bar — the widely recommended standard.

Step 3 — Use Mode 2 of this calculator

Enter your planned depth, target END, and PO₂ limit. The calculator will output the recommended FO₂ and FHe percentages, the FN₂, and the MOD for both common PO₂ limits. You can then confirm the mix with your gas blender and technical instructor.

Step 4 — Consider decompression gas

Trimix bottom gases require careful decompression planning. You will typically need one or more decompression gases (e.g., 50% nitrox at 21m, 100% O₂ at 6m) planned in advance. Gas blending calculations for these can be done with the Gas Blending Calculator.

Trimix Training Path

Trimix diving requires formal technical training and certification. The typical progression is:

Open Water + Advanced Open Water

Foundation recreational certifications. Introduces controlled ascents, dive planning, and basic buoyancy.

Advanced Nitrox (AN)

Covers EANx theory, oxygen toxicity management, MOD calculations, and limited decompression using nitrox gases. Required prerequisite for most trimix courses.

Decompression Procedures (DP)

Systematic decompression diving with multiple gas switches. Introduces decompression theory, dive planning software, and multi-stop decompression.

Trimix (normoxic)

Introduces helium-based gases, END calculations, narcosis management, and normoxic trimix planning. Dives typically to 60–75m with normoxic blends (FO₂ ≥ 21%).

Advanced / Hypoxic Trimix

Full hypoxic trimix diving, complex decompression, multiple gas switches, and dives to 100m+. Requires significant logged technical dive experience and excellent buoyancy.

Major agencies offering trimix courses include PADI TecRec, SSI Xtend, IANTD, TDI, and GUE. Always complete your training with an experienced and active technical instructor.

Frequently Asked Questions

Most technical divers begin considering trimix beyond 40m (130ft), where narcosis on air becomes significant for many individuals. Trimix is strongly recommended beyond 60m (200ft) and is effectively essential for dives deeper than 80m (260ft). However, individual narcosis tolerance varies — some divers benefit from trimix at shallower depths. Your training agency, instructor, and personal experience should guide the decision.

A hypoxic trimix has an FO₂ below 21% — insufficient oxygen to support life at the surface. It is used because deep dives require a PO₂ limit of 1.4 bar, which at 80m+ means FO₂ below 16–18%. Hypoxic mixes allow you to reduce narcosis (with more He) while keeping PO₂ within safe limits. These mixes require a breathable travel gas from the surface to the point where the bottom gas becomes safe to breathe (typically around 20–30m descent depth).

The conservative approach — used by PADI TecRec, TDI, GUE, IANTD, and most modern technical agencies — treats oxygen as narcotic because experimental evidence suggests it does contribute to narcosis. Since the cost of the conservative approach is simply adding a little more helium, it is widely considered best practice for safety. This calculator uses this method exclusively.

The Martini Effect is a rule of thumb suggesting that every 10m of depth on air is equivalent to drinking one dry martini on an empty stomach. While useful as a conceptual illustration, it is not a precise physiological measurement — narcosis varies significantly between individuals, dive conditions, stress levels, and experience. Never rely on this rule for serious dive planning.

Divers can develop a degree of acclimatisation to narcosis through regular deep air diving experience, but this is not reliable and should not be used as a safety margin. Narcosis can be unpredictable — a diver who handled 40m air comfortably last week may be significantly impaired this week due to fatigue, cold, CO₂ build-up, or stress. Trimix provides a more reliable and predictable solution for deep technical diving.

The mathematical formulas used here are standard industry calculations used by major technical training agencies and dive planning software. However, these are theoretical values based on ideal gas behaviour. Always cross-check with your dive computer, planning software (such as V-Planner, GAP, or MultiDeco), your gas blender, and your technical instructor before any dive.