Hobbywing XeRun v2.0 120A Sensored Brushless Power System w/ 6.5T Motor
Brand:
Hobbywing
Code:
HWX65T12
Name:
Hobbywing XeRun v2.0 120A Sensored Brushless Power System w/ 6.5T Motor
Description:
The combo includes the following items:
a) XERUN-120A (Version2.0) brushless ESC with cooling fan
b) 6.5T sensored brushless motor
c) 3 digital LEDs program card
Specification Of The ESC Output: Continuous current 120A, burst current 760A.
Input: 4-9 cells NiMH/NiCd or 2-3 cells LiPo. Note1
BEC Output: 5.75V@3A linear mode built-in BEC.
Resistance: 0.0003 Ohm.
Motor Supported: Sensored brushless / Sensorless Brushless.
Suitable Brushless Motor:
With 2 cells Lipo or 4-6 cells NiMH, 1/10 on-road: >=3.5T, 1/10 off-road: >=5.5T
With 3 cells Lipo or 7-9 cells NiMH, 1/10 on-road: >=5.5T, 1/10 off-road: >=8.5T
Suitable Car:
1/10, 1/12 on-road or off-road cars / trucks for competition race.
1/10, 1/8 rock crawler.
Size: 43mm(L) * 36mm(W) * 33mm(H).
Weight: 65g(Without wires)
Note1: For brushless motor, the ESC supports up to 9 cells NiMH or 3 cells Lipo battery.
For 4-6 cells NiMH or 2 cells Lipo: You need not change the cooling fan coming with the ESC;
For 7-9 cells NiMH or 3 cells Lipo: You must change the standard cooling fan because it cannot work with such a high voltage, so please choose a high voltage fan or supply the fan from the receiver (+6V)
Features Compatible with all sonsorless brushless motors and most of sensored brushless motors such as LRP, Novak, Orion, Feigao, etc.
Seamlessly change to sensorless working mode when the sensor cable is broken.
Lithium battery and NiMH battery supported.
Excellent start-up, acceleration and linearity features.
Firmware can be upgraded through an USB adapter on the Advanced Professional LCD Program Box (Optional equipment).
User programmable. Easily programmed with only one button on the ESC and compatible with the 3 Digital LEDs Program Card and the Advanced Professional LCD Program Box.
To calculate the equivalent number of toothes in a 64 Pitch gear to 48 Pitch or vice versa. Simply divide the number of toothes by its pitch then multiply by the target pitch to obtain the equivalent number of toothes.
