Description
Product Description – Salomon S/Lab Shift² 13 MN
The Salomon S/Lab Shift² 13 MN is a premium hybrid ski binding designed to blend the uphill efficiency of a tech binding with the downhill power and reliability of an alpine binding. Made for advanced to expert skiers, it excels in backcountry touring, freeride terrain, and resort laps. With a tech-pin toe for touring and a full alpine toe and heel for the descent, the Shift² 13 MN provides strong energy transfer, dependable retention, and versatile multi-norm boot compatibility. Its updated construction improves stiffness, precision, and overall downhill performance while maintaining a reasonable weight for touring missions.
Key Product Features
Hybrid Toe + Heel System
Combines a tech-pin toe for efficient uphill travel with an alpine-style toe and heel for powerful, secure downhill performance.
Power Block AFD with Aluminum Insert
Improves lateral stiffness and precision for better edge control and responsiveness.
Toe Wings for Added Stability
Oversized toe wings wrap the boot for increased power transfer and stability during aggressive skiing.
Low-Profile Chassis and Wide Platform
Enhances terrain feel and improves energy transmission, especially on modern, wider freeride skis.
Elastic Travel in Toe
Provides shock absorption and reduces the chance of pre-release in rough terrain or hard landings.
DIN Range: 6–13
Suitable for advanced to expert skiers who need a secure binding capable of handling high-speed and big-mountain lines.
Multi-Norm (MN) Boot Compatibility
Works with Alpine, Touring, GripWalk, and WTR soles.
Hike-and-Ride Switch and Climbing Aids
Allows quick transitions between uphill and downhill modes, with climbing aids for improved touring efficiency.
Crampon Compatibility
Accepts ski crampons for challenging ascents and variable snow conditions.
Durable Construction
Built with carbon-infused polyamide, aluminum, and steel for a balance of strength, precision, and weight savings.
TÜV-Certified Safety
Independent certification for release performance and reliability.
