How fast does a Traxxas Mini E-Revo go?
30+mph
Some mini-models are “fast for a mini.” That’s not good enough for Traxxas. The 1/16 E-Revo VXL is just plain fast. At 30+mph with the included 6-cell NiMH battery, E-Revo VXL is nearly twice as fast as most mini models, and faster than most electric RTR trucks of any scale.
How big is the Mini E-Revo?
Traxxas sets the standard for power, performance and innovation. All the speed, quality and capability you expect from Traxxas is available in 1/16 scale with the 1/16 E-Revo VXL. At 14 inches long, E-Revo VXL is about half the size of the 1/10-scale E-Revo.
How fast is the Traxxas E Revo?
E-Revo Data
| Length: | 23.05 inches (585mm) |
|---|---|
| Steering: | Bellcrank |
| Radio System: | TQi™ 2-channel transmitter with 6533 TSM receiver |
| Servo: | Dual 2075 |
| Top Speed (optional gearing): | 70+ mph |
What kind of torque does an E Revo have?
E-Revo delivers tight, fast steering action through its unique dual-servo system. With a total of 250 oz.-in. of tire-turning torque on hand, E-Revo steers with precise authority. An updated center bellcrank provides more steering throw for even better turning response.
What kind of suspension does an off road Revo have?
Off-Road Excitement. Anytime. Anywhere The E-Revo VXL is built on the race-winning, track-proven innovation of the Revo and E-Revo models. The Revo’s rocker-actuated suspension has been expertly adapted to 1/16 scale with all its functionality and performance intact, right down to the oil-filled, threaded-body GTR shocks.
What is the Revo chassis?
The Revo chassis is a highly engineered approach that allows incredible strength and lightweight performance not possible with traditional designs. The chassis absorbs and dissipates huge impacts without bending.
What makes the new E-Revo 6-spoke black wheels so special?
New 6-spoke black wheels are engineered for maximum strength along with a rugged, menacing stance. The E-Revo ’s double wishbone design maintains proper suspension geometry throughout the entire range of travel. These high-tech suspension arms were originally developed with finite element analysis to find smarter ways to resist breakage.