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Arduino Compatible L298N Dual H-Bridge Motor Controller

Old Price: $4.06

Special Price: $2.03

Part Number: HP-AMO-L298N

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L298N H-bridge   Dual Motor Controller Module 2A with Arduino. This allows you to control the speed and direction of two DC motors, or control one bipolar stepper motor with ease. The L298N H-bridge module can be used with motors that have a voltage of between 5 and 35V DC.  H-Bridge's are typically used in controlling motors speed and direction, but can be used for other projects such as driving the brightness of certain lighting projects such as high powered LED arrays. There is also an onboard 5V regulator, so if your supply voltage is up to 12V you can also source 5V from the board.

Included in the package:

  • Arduino Compatible L298N Dual H-Bridge Motor Controller x 1

Module pinouts

  • Out 1: Motor A lead out
  • Out 3: Motor B lead out
  • Out 4: Mo (Can actually be from 5v-35v, just marked as 12v)
  • GND: Ground
  • 5v: 5v input (unnecessary if your power source is 7v-35v, if the power source is 7v-35v then it can act as a 5v out)
  • EnA: Enables PWM signal for Motor A (Please see the "Arduino Sketch Considerations" section)
  • In1: Enable Motor A
  • In2: Enable Motor A
  • In3: Enable Motor B
  • In4: Enable Motor B
  • EnB: Enables PWM signal for Motor B (Please see the "Arduino Sketch Considerations" section)

Specifications:

  • Double H bridge Drive Chip: L298N
  • Logical voltage: 5V Drive voltage: 5V-35V
  • Logical current: 0-36mA Drive current: 2A (MAX single bridge)
  • Max power: 25W
  • Dimensions: 43 x 43 x 26mm
  • Weight: 26g

Note: *Built-in 5v power supply, when the driving voltage is 7v-35v

How it works: An H-Bridge is a circuit that can drive a current in either polarity and be controlled by *Pulse Width Modulation (PWM).

* Pulse Width Modulation is a means in controlling the duration of an electronic pulse. In motors try to imagine the brush as a water wheel and electrons as a the flowing droplets of water. The voltage would be the water flowing over the wheel at a constant rate, the more water flowing the higher the voltage. Motors are rated at certain voltages and can be damaged if the voltage is applied to heavily or if it is dropped quickly to slow the motor down. Thus PWM. Take the water wheel analogy and think of the water hitting it in pulses but at a constant flow. The longer the pulses the faster the wheel will turn, the shorter the pulses, the slower the water wheel will turn. Motors will last much longer and be more reliable if controlled through PWM.

*This product is not produced or endorsed by Arduino.