COMFORT & SUPPORT FOR ALL ABILITY LEVELS WITH THREE POINT VELCRO CLOSURE
Hyperlite introduces the blueprint for all day wakeboarding and happy feet with the Formula Binding. Hyperlite's three-part Velcro closure system makes the Formula easy to step into while delivering a snug and comfortable fit for multiple size feet. Adjust on the fly and enjoy the cozy feel of the Formula, with the 6” Universal Mounting System this binding mounts on any wakeboard. Dial the boot in for yourself or share with friends and family on your next wakeboard adventure.
FEATURES
+ Easy on Fit
Binding opens wide easing entry to begin your session.
+ Support Level - Mid
Material selection engineering to offer a softer more flexible feel.
+ Velcro Closure - Full
Easy to customize beefy Velcro security for upper and lower sections.
+ Adjustable Sizing
Adjustable toe design & floating tongue offer different shoe sizes a secure fit. Share your bindings and #PassTheHandle.
+ Low Pro Plate System
The Low Pro Plate system takes much of what HL learned from the System binding and incorporates it into a more traditional design. They began by reducing the overall volume by nearly 16%, which translates into a much lighter boot. The drop-through footbed keeps a rider closer to the deck for maximum control and response. To ensure the baseless design did not produce unwanted plate twist Hyperlite connected the sidewalls to the chassis, creating a stronger foundation.
+ Range of Motion - Max
Designed for those seeking a softer more flexible boot - tweaking to the Max.
+ Aluminum Mounting System
Reinforced stability plates with a raised teeth interlocking design reducing heel lift solidifying your connection.
+ Universal 6" Mounting Spread
Industry standard insert pattern - mates with every wakeboard on the market today.
+ Molded EVA Footbed
Ergonomically molded EVA provides comfort and support for ability levels, impact protection and arch support included on all Hyperlite footbeds.
+ Articulating Cuff
Pivot point allowing lower foot & upper ankle sections to flex independently.