The world benchmark for underwater breathing.
Official CE-EN250 and US. NAVY certifications as well as accreditation by the ISO 9002 quality system, further confirm the Mares commitment to excellence.

All Titanium Technology - Ti Planet.
The "all Titanium" Ti-Planet technology offers maximum performance coupled with exceptional ruggedness, weight, and resistance to corrosion.

All Metal Technology - Ruby - Abyss - V16 Orbiter.
'All metal’ construction for the second stage as well as the first. The body is made of a special high-strength chrome and nickel-plated brass that is resistant to corrosion. Metal second stages offer superior performance during cold water dives, by virtue of their high thermal conductivity. This not only makes it possible to utilize the heat of the air exhaled by the diver, but also, more importantly, keeps the temperature inside the second stage very close to ambient temperature (i.e. several degrees above freezing point).

 

Ultralight Technopolymer Technology - MR12 Axis- R2 Axis
These second stages are constructed from exclusive, high-tech polymers. Exceptionally rugged and lightweight, they afford maximum comfort during use.

Ultralight two-component technopolymer technology (patented) - Proton XL- V16 Proton - MR12 Proton
The ruggedness and light weight of the most advanced technopolymers, coupled with the wear resistance and “soft-touch” of next-generation elastomers, offer superior performance and innovative styling.
 
"All titanium" technology for divers who want the best.
Primary properties of Titanium
Ti-Planet. The state-of-the-art regulator whose every component is constructed from the "noblest" of metals: titanium.
In the aerospace industry, with its demand for top-performing materials, titanium and its alloys have long played a central role by virtue of their light weight and excellent mechanical properties.
These characteristics, together with many other chemical and structural properties, make titanium the metal of the future - for those whose primary objective is a quality product.

Ti-Planet first stage
A new design, conceived to make the most of the noble material from which it is constructed. The hose ports are ergonomically positioned around the first stage block. The all metal construction and the heat transfer fins ensure maximum thermal exchange, for improved performance at low temperatures. SCS valve - with titanium construction, of course.

Ti-Planet second stage
Designed for optimal light weight and mechanical resistance.
The reinforced technopolymer construction with titanium inserts facilitates thermal exchange, for improved diving performance, even in particularly cold water.
All the functional metal components, including the front coverplate, are constructed from titanium.
Optimal breathing performance and comfort are assured by the V.A.D. and "pivoting deflector" systems.

Warning
Titanium is not suitable for use in oxygen-rich environments, and, therefore, the Ti-Planet regulator should not be used with Nitrox breathing mixes.
 
 
TiPlanet
Technical specifications 		first stage second stage
operation balanced diaphragm
DFC system, SCS titan		 V.A.D. system
materials
metal parts:
non metal parts:
seals and diaphragms:
Titanium
high-resistance technopolymers
nitryl rubber - silicone rubber
flow rate (air supply 180 bar) 4600 l/min 2500 l/min
intermediate pressure
air supply 200 bar
air supply 30 bar
from 9,8 to 10,2 bar
from 9,8 to 10,2 bar
first stage ports
high pressure
intermediate pressure

hose type
standard length
octopus length
n°2 7/16” UNF
n°1 3/8” UNF DFC (principal)
n°3 3/8” UNF
super flow 3/8”
80 cm
100 cm
weight 580 g 195 g
results - TiPlanet
ss
inhale pressure = 6,24 m bar (limit = 25 m bar)
inhale pos pressure = 2,14 m bar (limit = 5 m bar)
exale pressure = 11,50 m bar (limit = 25 m bar)
 
ext work of breathing = 1,01 J/l (limit = 3,0 Joules/liters)
inhale work = 0,24 J/l
pos inhale work = 0,02 J/l (limit = 0,3 Joules/liters)
 
exhale work = 0,77 J/l (limit = 3,0 Joules/liters)
 
ss
pressure - volume diagram at depth of: 49,9 msw (164 fsw)