Dual G2 High-Power 24v14 - two-channel motor driver 36V/14A - HAT shield for Raspberry Pi - assembled - Pololu 3753

Index: PLL-10590 EAN: 5904422339210

Shield with dual-channel driver pf motors operating with voltages from 6.5 V up to 36 V and current up to 14 A per channel (max 40 A). The system can be connected directly with GPIO connectors of minicomputer Raspberry Pi GPIO 3, 2, B+ and A+.

Dual G2 High-Power 24v14 - two-channel motor driver 36V/14A - HAT shield for Raspberry Pi -...
€70.50
€57.32 tax excl.
Waiting time: 4-6 weeks
Only on request
PayPal payment
Manufacturer: Pololu
Compatibility: Raspberry Pi

Description

Shield with dual-channel driver pf motors operating with voltages from 6.5 V up to 36 V and current up to 14 A per channel (max 40 A). The system can be connected directly with GPIO connectors of minicomputer Raspberry Pi GPIO 3, 2, B+ and A+. The rotation speed can be controlled by the signal PWM.

In combination with the Raspberry Pi, when using a specially prepared library you can easily control the speed and direction of rotation of two DC motors. Form and pins of the board to allow direct connection to minicomputer. The system uses a 40-pin GPIO connector.

The subject of sale is the shield with the driver of motors, minicomputer Raspberry Pi can be purchased separately.

The product is compatible with Raspberry Pi

The manufacturer provides a library of Python for users of the Raspberry Pi.

Modes of operation

The power supply of the motors was separated from the Raspberry Pi. Voltage from a range of 6.5 V to 30 V should be connected to pins VIN and GND. Power supply of the logic part 3.3 V is consumed from minicomputer.

Connection

The following table shows which pins of the Raspberry Pi are used by driver of motors:

 

Pin RPi

GPIO

Pin of

driver

Description
5 Motor 1 FLT

Status pin. By default, in the high state. When an error of driver is detected, the driver switches to a low state.

6 Motor 2 FLT

Status pin. By default, in the high state. When an error of driver is detected, the driver switches to a low state.

12 Motor 1 PWM

The PWM inputs to control the rotation speed of the motor.

The maximum PWM frequency is 100 kHz.

13 Motor 2 PWM

The PWM inputs to control the rotation speed of the motor.

The maximum PWM frequency is 100 kHz.

22 Motor 1 SLP

By default, in the low state, it indicates the disabled outputs of the motors. To run the driver, you must specify the high status.

23 Motor 2 SLP By default, in the low state, it indicates the disabled outputs of the motors. To run the driver, you must specify the high status.
24 Motor 1 DIR

Pin to choose the direction of rotation. In the low state, the current flows from output A to B. In high state - from B to A.

25 Motor 2 DIR Pin to choose the direction of rotation. In the low state, the current flows from output A to B. In high state - from B to A.

 

Modes of operation

The table shows the operation modes depending on the inputs:

 

SLP DIR PWM MxA MxB Operation mode
1 0 PWM PWM (H/L) L Forward rotation at a certain speed PWM %.
1 1 PWM L PWM (H/L) Back rotation at a certain speed PWM %.
1 x 0 L

L

Braking (outputs connected to ground).
0 x x Z Z Disabled output.

 

Key features

  • The LEDs indicate the operation when the motor is not connected
  • Built-in regulator step-down switching voltages 5 V / 2.5 A Raspberry Pi for the same power
  • Python library to help you get started with the mototr's control unit
  • Protection against reverse power connection
  • The short-circuit protection
  • Undervoltage shutdown
  • Working voltage: 6,5 V to 36 V
  • Output current:
    • continous: 14 A
    • temporary: 40 A
  • Number of channels: 2
  • The maximum PWM resolution: 100 kHz
  • Dimensions: 65 x 56 mm
  • Weight: 30 g

The driver does not have auto off function when exceeding the permissible temperature.

Voltage to 6.5 V
Voltage from 36 V
Channels 2
Package width 0 cm
Package weight 0.034 kg

Be the first to ask a question about this product!

Customers who bought this product also bought:

Products from the same category: