Smooth, flowing lines and elegant finishing details complement the Compass' low profile ultra-light inmold construction. Combining AirEvac™ ventilation and soft women's XT2® lining beneath a refined collection of designs, the Compass is the ideal helmet for women of discriminating tastes.Read more
The performance standard for many years, In-Mold construction creates a PC shell helmet with and EPS liner to maximize weight reduction. Lightweight, comfortable and offering value for every ounce, In-Mold construction is the flyweight winner.
MIPS: Multi-Directional Impact System
MIPS is used to reduce the rotational forces to the brain in the case of an oblique impact. Smith helmets are created to absorb direct impacts very efficiently and when combined with MIPS, Smith helmets absorb oblique forces better by allowing a small rotation of the outer shell relative to the liner. When you fall to the ground at an angle rotational forces are generated. A helmet integrating MIPS technology creates a sliding layer between the outer shell and the head. This allows the helmet's outer shell to slide relative to the head when hitting the ground, so the rotational force is decreased, reducing the potential to damage your brain.
At Smith, they design helmets and goggles to work together as a fully integrated system. For the helmet line, the most important factor in integration is the AirEvac ventilation system. This is the bridge that allows goggles and helmets to function as one system, venting warm moist air away from the goggles, through the helmet climate control system and ultimately away from the head. Ultimate integration starts with the precise fit of the Smith goggle and helmet. Smith helmets are designed to match the curvature of the goggle frame, eliminating "gaper gap" and allowing precise alignment between the helmet AirEvac and the goggle venting systems.