2021 Hyperlite VeniceWakeboard + Jinx Boots
  • Venice
    Shaun Murray inspired model

    The Venice sets the tone for a solid Wakeboard foundation with a women's specific twist. Shaun Murray and Greg Nelson agree that a solid foundation greatly increases a rider's learning curve. Hyperlite introduces the Venice, shaped specifically for creating that base and solid foundation. The Venice has a wider overall profile built atop a continuous rocker, delivering a smooth carving board that gets more pop off the wake due to its increased surface area. The variable edge design is forgiving between the inserts but then sharpens towards the tip and tail, providing the strong edge hold necessary for generating speed into the wake. The Venice is simple and both Murray and Nelson believe that "Less is More" in shaping philosophy. The center of the base is clean, clean water flow creates a smooth ride and softer landings, the dual tunnels easily allow water to enter and exit at the Venice's tip and tail. Hyperlite's Satin Flex ensures the board responds quickly and lands softly, and we guarantee you'll feel at ease on the Venice.

     

    Jinx Binding
    Comfort for feet, value for all

    Plush and pretty, the Jinx delivers a comfy connection for all ride styles and ability levels. The Jinx is a supportive and easy to get into adjustable wakeboard binding. It features Dual Lace Zones like much more expensive boots, plus the plushness you come to expect from an open toe binding. The 3D molded tongue provides maximum comfort with no sacrificed board control. The Jinx is an excellent choice for beginner to intermediate riders looking for a comfortable, user-friendly option.

    2021 Hyperlite VeniceWakeboard + Jinx Boots

    $500.00 Regular Price
    $439.99Sale Price
    Wakeboard Size
    Boot Size
      • Layered glass
      • Monocoque construction
      • Satin flex
      • Continuous rocker
      • M6 inserts
      • Single tunnel with complete exit
      • Wider profile
      • Reduced tip & tail thickness
      • Dual fin positioning
      • Variable edge design