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FingerTech tinyESC v2 1.5 to 3A Antweight Motor Controller

FingerTech tinyESC v2 1.5 to 3A Antweight Motor Controller

 
£29.57 incl VAT
(£24.64 exc. tax)
Price in points: 4928 points
1506-200
4.50 g.
In stock
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These are the smallest and lightest motor controllers currently manufactured for RC hobby robotics. They take up very little space but can handle more than enough motor current for your robots.
Version 2.4 now includes backwards-polarity protection - plugging a battery in backwards will not destroy a tinyESC! There is also now protection on the 5V receiver line so that other BECs will not affect the tinyESC - no need to disconnect the red wire anymore!

Features:
- Bi-directional brushed motor controller.
- Ultra-compact and lightweight.
- Undervoltage, overcurrent, overtemp reverse-polarity, and BEC protection.
- Internal BEC (battery eliminator circuit) provides 5V to receiver - no extra receiver battery required!
- Calibrate function allows precision driving.
- Status LEDs for both directions and calibration.

*The tinyESC includes a Battery Eliminator Circuit. If there is no 5V supply present on the robot, this will power the radio receiver from the main battery.  (There is a blocking diode in v2.4, so multiple tinyESC BECs can be run at once, along with one non-tinyESC BEC.  It is still not recommend to run multiple unprotected BECs together.)
*If you are controlling the tinyESC from a powered device (like Arduino, etc), there is now (v2.4) no worry about damaging the tinyESC from higher voltages.

Specifications:
Battery Voltage: 6.5V - 36V
Motor Current: 1.5A continuous (forever).  For robots, usable continuous current is 2.0A.
Max Current: 3A.  For robots though, 5A-stall motors are easily handled by tinyESCs (see Videos tab).
BEC Output: 5V, 100mA (can run other electronics like receivers and other ESCs, but not motors or servos.)
BEC current is reduced for voltage above 8V - see graph above.

Dimensions:
Circuit board size: 1.27x1.27x0.41cm (0.5x0.5x0.16”)
Outer heatshrink size: 1.35x1.85x0.48cm (0.53x0.73x0.19”) - calibration pins have been changed from male to female (v2.4) to reduce length and fragility
Weight with wires: 4.5grams (0.16oz)

*Includes 0.01uF capacitor.  Solder between motor leads to filter motor noise and voltage spikes.  (Not required for FingerTech Spark motors - they are high quality and do not generate dangerous voltage spikes.)

Currently there are three two known ways to destroy a tinyESC. (So avoid them!) 
  1) Reverse battery voltage.  Not anymore!
  2) Applying battery voltage to the motor outputs. 
  3) Voltage spikes from noisy motors (not using the included capacitor).

SERVO Magazine Review: See under 'Downloads'  

 

Calibration - The tinyESC comes pre-calibrated with defaults, but if you wish to change the limits or center position:
-Plug tinyESC into unpowered radio receiver
-Jumper the two tinyESC Calibrate pins with any piece of wire (see iamge above)
-Power up tinyESC
-Move transmitter stick to high and low limits
-Return transmitter stick to center
-Remove the jumper
The center position is now “motor off” with full forward and full reverse speeds at the upper and lower limits.
*You may calibrate multiple tinyESCs at once (as in channel mixing).
*To revert to default calibration, do the above steps without moving the transmitter stick at all.

Note for Spektrum users: The Spektrum transmitters do an odd thing with their mixing.  If your motors only run full speed when the stick is in a corner (meaning going straight ahead/reverse is *not* full speed), then you will want to calibrate the tinyESC just like the directions above, but make sure you only move the stick straight up and straight down, not moving the stick sideways at all.  This will give you full speed for forward and reverse!

Is one motor faster than the other?: When calibrating the faster motor, also move the trim on the transmitter up (when you move the stick to the maximum) and down (when you move the stick to the minimum). Recenter the trim lever, center the stick and remove the calibrate jumper. This will limit the top speed of that motor. You may have to try different amounts of trim to get the motors to behave exactly the same.

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Thanks - I'll keep looking, there must be one out there - DCC decoders are now silent drive so it can be done!

Asked by Neil | 15/02/2015, 19:24 | 0 answer(s)

Is this a 'silent' speed controller? I want to use it to control a garden railway locomotive, 14.4v max, about an amp or maybe 1.5A, but it must not 'sing' like an Mtronics Viper controller!! Cheers.

Asked by Neil Hay | 12/02/2015, 16:15 | 2 answer(s)

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