Skip to content

    Your cart is empty

    Time to spark some excitement 🛒⚡

Taxes and shipping calculated at checkout
Subtotal €0,00

Arduino MKR Motor Carrier

Sold out
SKU ASX00003 Barcode 7630049200203 Show more
Original price €0
Original price €71,70 - Original price €71,70
Original price
Current price €71,70
€71,70 - €71,70
Current price €71,70
VAT included

Want to connect several motors and sensors to your mechatronic project? The Arduino MKR Motor Carrier is the perfect companion for Arduino MKR boards as it will allow you to rapidly prototyping and build your projects.

Overview

The MKR Motor Carrier is an MKR add-on board designed to control servo, DC, and stepper motors. The Carrier can also be used to connect other actuators and sensors via a series of 3-pin male headers.

The summary of features is shown below:

  • Compatible with all the boards in the MKR family
  • Four servo motor outputs
  • Four DC motor outputs (two high performance + two standard performance)
  • Sensing of current feedback for the high-performance motors
  • Two inputs for encoder sensors
  • Four inputs for analog sensors (3-pin compatible)
  • Possibility to read the status of the batteries
  • ON-OFF switch with Power ON LED
  • LiPo battery connector (2S or 3S compatible) and power terminal block for alternative power source
  • LEDs to visually indicate the direction of the rotation of the DC motors
  • On-board processor for automated control of some of the outputs
  • I2C connector as a 4-pin male header

 


Tech specs

Microcontroller

ATSAMD11 ( Arm Cortex-M0+ processor)

Max current (MC33926)

5 Amps Peak, RMS current depending on the degree of heat sink provided

Max current (DRV8871)

3 Amps peak, current limited by current sense resistor.

Rated voltage

6.5 to 11.1V

Reverse current protection 

Yes

Over Temperature shutdown protection (for DC motor drivers)

Yes

Clock speed

48 Mhz

On board voltage regulator

5V

Interface

Terminal block and 3 pin/4 pin header connector

Compatibility 

MKR Family

 

The MKR Motor Carrier features two MC33926 motor drivers for high-performance DC motor control with direct connection to the MKR1000, current feedback, and capacity for up to 5 Amps (peak). In addition, there are two DRV8871 drivers that are controlled from a SAMD11 microcontroller that communicates with the MKR1000 via I2C (SPI optional). The SAMD11 is also used to control the servos, read the encoders, and read the battery voltage. There is an interrupt line connecting the SAMD11 (on PA27) and the MKR board.

Note that for extended use or high-current motors, an extra heatsink (and eventually a fan) might be required for the drivers.

When plugging the MKR1000 and the Motor Carrier, some of the pins will stop being available for you to use in your code, as they will be needed to control some of the features of the Carrier. For example, the current feedback from the two MC33926 drivers is connected directly to some of the analog pins on the MKR1000. The following list explains which pins of the MKR1000 are used to control the Carrier:

  • Analog pin A3 for current feedback from Motor3
  • Analog pin A4 for current feedback from Motor4
  • Digital pin D2 for IN2 signal for Motor3
  • Digital pin D3 for IN1 signal for Motor3
  • Digital pin D4 for IN2 signal for Motor4
  • Digital pin D5 for IN1 signal for Motor4
  • Digital pin D6 for Interrupt signal from the SAMD11 to the MKR1000
  • Digital pin D11 for the SDA signal (I2C)
  • Digital pin D12 for the SCL signal (I2C)

Also, some pins can optionally be connected via a soldering jumper or a 0 Ohm resistor. These pins are:

  • Digital pin D1 for the SF signal from the MC33926 drivers (optional)
  • Digital pin D7 for the SPI SS signal (optional)
  • Digital pin D8 for the SPI MOSI signal (optional)
  • Digital pin D9 for the SPI SCK signal (optional)
  • Digital pin D10 for the SPI MISO signal (optional)
To use the Carrier, you will need to plug an MKR board (the MKR1000, MKR Zero, or other) on the headers at the center of the board. Make sure the MKR board is connected in the proper direction. You can do this by making sure the info printed on the side of the headers are matching for both the MKR board and the Motor Carrier.
 
Once the board is properly connected to the Motor Carrier, you can start programming the board. To control the motors, you will need to import the MKR Motor Carrier library. You can find more information about the library here. If you want to read more about how to install a library then you follow this link.
When working with motors, you will need an external source to feed the motor drivers and power up the motors. You can do this by connecting a LiPo Battery to the battery connector or using an external power source and connecting it to the VIN input on the terminal block. It is recommended to do these operations with the power switch at the OFF position. Once the external power is connected to the board, the power switch can be turned on.

Libraries

MKR Motor carrier library

Conformities

The following Declarations of Conformities have been granted for this board:
CE
UKCA
REACH
For any further information about our certifications please visit docs.arduino.cc/certifications

Resources for Safety and Products

Manufacturer Information

The production information includes the address and related details of the product manufacturer.

Arduino S.r.l.
Via Andrea Appiani, 25
Monza, MB, IT, 20900
https://www.arduino.cc/ 

Responsible Person in the EU

An EU-based economic operator who ensures the product's compliance with the required regulations.

Arduino S.r.l.
Via Andrea Appiani, 25
Monza, MB, IT, 20900
Phone: +39 0113157477
Email: support@arduino.cc

 

Documentation

OSH: Schematics

The Arduino MKR Motor carrier is open-source hardware! You can build your own board using the following files:

EAGLE FILES IN .ZIP SCHEMATICS IN .PDF
 

Get Inspired

PROJECT HUB
CapibaraZero: A multifunctional security and hacking tool
CapibaraZero: A multifunctional security and hacking tool
Project Tutorial by andreockx

CapibaraZero: A multifunctional security and hacking tool designed to be an alternative of FlipperZero™

read more
BLOG
Logo and Remote control your Arduino Robot - Video  tutorial
Logo and Remote control your Arduino Robot - Video tutorial
October 18, 2013

RS Components released the second video focused on the first steps with the Arduino Robot with Massimo Banzi, David Cuartielles and Xun Yang: In this video you will see where to find code examples on the IDE. The robot library comes with two folders named “learn” and “explore” with examples on how to use the software to program the top board – this is the board you will mainly interact with while the motor board runs its original firmware. One of the first examples of coding on the Arduino Robot is called “LOGO” which is very similar to an early educational programming language that controlled a virtual turtle moving across the screen with simple instructions. This time however, instead of having a small virtual turtle running on a screen, we have a robot that can respond to commands demonstrating a basic example of movement. “LOGO” invites users to interact with the robot using the keypad to tell the robot whether to move forwards/backwards or to turn left/right. The program can store a series of commands that will then be executed one at a time. Xun and David show users where to find the LOGO example and how to upload it to the robot's control board. You will notice that the robot's motors are disengaged when the USB cable is connected. The Arduino Robot can be pretty powerful and this feature prevents it from running away with your laptop! Since all motors are slightly different, users will have to configure the robot's movement using a different example called “Calibration”. Using a screwdriver on the trimmer on the bottom board, it is possible to balance the strength applied by each one of the wheels so that the robot moves straight when asked to. The video closes with an example of how to use a simple IR-receiver connected to one of the sensor inputs on the robot to control it using a small universal TV-remote. This program is also part of the basic list of examples in the library. Go and run with the first Arduino on wheels!

read more

Inspired by your shopping trends

  • Arduino Nano Motor Carrier

    Nano Motor Carrier is the perfect add-on for the Nano 33 IoT board as it works to extend and power up its functionality. Designed to facilitate motor control, Nano Motor Carrier takes care of the ...

  • Arduino MKR Connector Carrier (Grove compatible)

    Do you have several components to connect to your project and would rather use connectors instead of soldering? The Arduino MKR CONNECTOR CARRIER provides Seeed Studio's Grove connectors to your ...

  • MKR2UNO Adapter

    The MKR2UNO Adapter allows you to turn your Arduino UNO form factor based project into a MKR based one without too much effort! You can so upgrade your project with a powerful board with integrated...

  • Arduino MKR IoT Carrier Rev2

    With this carrier in combination with any board from the MKR family, you can quickly create your next IoT project without any extra components. This carrier has all you need in sensors and actuator...

Compare products

0 of 3 items selected

Select first item to compare

Select second item to compare

Select third item to compare

Compare
Your Cart


Continue shopping