REGULATOR MK2 EVO DIN 300 S270 SCUBAPRO Performance and robustness come together with the new MK2 EVO S270 SCUBAPRO regulator. The perfect marriage between the comfort of an S270 balanced second stage and the legendary reliability of the MK2 EVO SCUBAPRO, the only truly "cold water" compatible piston first stage on the market. Recreational divers looking for a SCUBAPRO regulator with branded performance and ready to trade in their entry - level model for a higher model will be won over by the MK2 EVO S270 SCUBAPRO. The S270 second stage features a balanced design whose compact case and internal aerodynamics ensure extremely low inspiratory effort. Featuring SCUBAPRO's acclaimed MK2 EVO first stage, the only downstream valve first stage whose internal components have been specifically designed to resist icing in extremely cold waters, this complete regulator is affordable and durable, but also offers excellent performance breathing and high reliability. - Total weight: 1.4 kg - Inlet tube material (MP hose): Technopolymer - Water temperature: Cold Temperate - Material 1st stage: Chrome plated brass - Type of 1st stage: Piston - Design of the 2nd stage: Compensated Series - 2nd floor: S series - Adjustable inspiratory effort: No - Type of connectivity: DIN - Loudspeaker output: 1 - MP output: 4 Features - The lightweight S270 second stage housing, with its fiberglass reinforced nylon core and special PU outer coating, is extremely durable and reduces jaw fatigue for greater diving comfort. - Its intake tube (flexible MP) is made of technopolymer and has a metal thread and a compensated valve for reduced weight. In addition, ice crystals will not be able to attach to its surface when diving in extremely cold water. - In diving, a compensated valve facilitates inspiration at different depths, for different supply pressures. This regulator has been manufactured in accordance with the requirements of the EC 2016/425 regulation for PPE (category 3) according to standard NF EN 250.
Products specifications
Equipement type | Regulators and octopus |