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Tacx NEO 2T Smart Trainer

$1,399.99 $1,249.99

THE PINNACLE OF INDOOR TRAINING, RAISED EVEN HIGHER
With an improved design and revamped components, the NEO 2T Smart trainer provides a more immersive experience, measures total power and left/right balance and more.

SKU: T2875.60

THE SOUND OF SILENCE
Redesigned magnets have significantly reduced the internal air displacement and vibrations, resulting in a remarkably silent trainer.

A MORE COMFORTABLE RIDE
NEO 2T Smart reacts instantly to speed or incline changes and allows for movement to the left and right while cycling, following the natural course of your body.

DYNAMIC INERTIA
To simulate an outdoor ride indoors, dynamic inertia controls mass inertia and compensates for weight, speed and angle of inclination to make your ride feel more realistic.

ADD MORE REALISTIC MOTION
To complement the left-to-right movement of your NEO 2T trainer, snap on a pair of motion plates (sold separately) to allow more realistic multidirectional movement. Adopt a more natural position, and train even more effectively.

ROAD FEEL
This feature works with Tacx software or the Zwift app to make the trainer vibrate and simulate the feeling of riding on different road surfaces, such as cobblestone and gravel.

ULTIMATE IMMERSION
When connected to an external power source, descent simulation accurately simulates a downhill drive.

POWERFULLY BUILT
NEO 2T Smart features a new motor design that delivers more power at low speeds, resulting in a highly improved ride feel during a climb or acceleration.

READY TO SPRINT
32 integrated neodymium magnets allow for a high brake force and high power levels. NEO 2T Smart ensures maximum stability, even during explosive sprints, up to 2,200 watts.

CLIMB HIGHER
Get the most out of your intense workouts by training on realistically simulated inclines up to a 25% gradient.

ACCURATE AND RELIABLE
Keep track of your performance and progress with reliable, consistent measurements — no calibration needed. That includes power, speed and cadence, measured accurately within 1%.