Motoron M2S18v20 Dual High-Power Motor Controller Shield for Arduino (No Connectors)

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Pololu item #: 5044
Brand: Pololu
Status: Rationed (Active and Preferred) 
RoHS 3 compliant


The Motoron M2S18v20 Dual High-Power Motor Controller Shield for Arduino makes it easy to control two high-power DC motors from an Arduino or Arduino-compatible board through an I²C interface. The M2S18v20 supports motor supply voltages from 6.5 V to 30 V and can deliver continuous output currents up to 20 A per motor. This version is just the motor controller by itself, without any header pins or terminal blocks included.

Pictures

Motoron M2S18v20 Dual High-Power Motor Controller Shield for Arduino (No Connectors).

Motoron M2S18v20 Dual High-Power Motor Controller Shield for Arduino, top view.

Motoron M2S18v20 or M2S24v16 Dual High-Power Motor Controller Shield for Arduino, bottom view with dimensions.

Motoron M2S shield being controlled by an Arduino Leonardo.

Three Motoron M2S dual high-power motor controller shields being controlled by an Arduino Leonardo.

An Arduino Leonardo using a Motoron M2S Dual High-Power Motor Controller Shield to control a pair of high-power motors.

A Raspberry Pi Pico on a breadboard using a Motoron M2S shield to control motors. A voltage regulator soldered to the Motoron powers the Pico.

Using a Motoron M2S Dual High-Power Motor Controller Shield with an Arduino.

Motoron M2S Dual High-Power Motor Controller Shield pinout.




Overview

The Motoron M2S family of dual high-power motor controller shields makes it easy to independently control two bidirectional, brushed DC motors with an Arduino or compatible board, such as the A-Star 32U4 Prime. Unlike most of our motor drivers and motor driver shields, the Motoron does not require any PWM outputs or timers on your Arduino. Instead, the Arduino communicates with the Motoron using I²C, so only two I/O lines are needed. Four types are available so you can pick the one with the appropriate operating voltage range and output current capabilities for your project:


Motoron M2S18v20
Dual High-Power
Motor Controller
Shield for Arduino

Motoron M2S18v18
Dual High-Power
Motor Controller
Shield for Arduino

Motoron M2S24v16
Dual High-Power
Motor Controller
Shield for Arduino

Motoron M2S24v14
Dual High-Power
Motor Controller
Shield for Arduino
Absolute max motor
supply voltage:
30 V 40 V
Recommended max
nominal battery voltage:
18 V 28 V
Max continuous
current per channel:
20 A 18 A 16 A 14 A
Available versions:

Each of the four types above is available in three versions to provide different options for the through-hole connectors: they can be purchased as an assembled product with stackable headers and terminal blocks soldered in, as a kit with connectors included but not soldered in, or as a standalone board without connectors.

For a lower-power, lower-cost alternative Arduino shield, please consider the Motoron M3S256 Triple Motor Controller Shield for Arduino.

Details for item #5044

Motoron M2S18v20 Dual High-Power Motor Controller Shield for Arduino, top view.

The M2S18v20 shield supports motor supply voltages from 6.5 V to 30 V (absolute maximum, not intended for use with 24 V batteries) and can deliver continuous output currents up to 20 A per motor. The M2S18v20 can be distinguished from other types of M2S shields by its larger discrete MOSFETs and the number 150 on top of the tall silver electrolytic capacitors.

This version is just the assembled PCB module as shown above, with no connectors included. It is also available with connectors soldered or as a kit with connectors included but not soldered in.

Motoron M2S Dual High-Power Motor Controller Shield pinout.

Features and specifications

Real-world power dissipation consideration

The MOSFETs can handle large current spikes for short durations (e.g. 100 A for a few milliseconds), and the driver’s current chopping will keep the average current under the set limit. The peak ratings are for quick transients (e.g. when a motor is first turned on), and the continuous rating is dependent on various conditions, such as the ambient temperature. PWMing the motor will introduce additional heating proportional to the frequency. The actual current you can deliver will depend on how well you can keep the motor driver cool. The driver’s printed circuit board is designed to draw heat out of the MOSFETs, but performance can be improved by adding a heat sink or air flow. For high-current installations, the motor and power supply wires should also be soldered directly instead of going through the 5mm blue terminal blocks, which are rated for up to 16 A.

Warning: This motor driver has no over-temperature shut-off. An over-temperature or over-current condition can cause permanent damage to the motor driver. You might consider using either the shield’s current sense or an external current sensor to monitor your current draw.

This product can get hot enough to burn under normal operating conditions. Take care when handling this product and other components connected to it.

The Motoron family

The tables below list the members of the Motoron family and show the key differences among them. Each type is available in several versions to provide different options for the through-hole connectors: they can be purchased as an assembled product with connectors soldered in, as a kit with connectors included but not soldered in, or (for Arduino and Raspberry Pi expansions) as a standalone board without connectors.

Motoron motor controllers
micro versions

M1T550



M1U550

M2T550



M2U550

M1T256



M1U256

M2T256



M2U256
Control interface: I²C or UART serial
Motor channels: 1 (single) 2 (dual) 1 (single) 2 (dual)
Minimum motor
supply voltage:
1.8 V 4.5 V
Absolute max motor
supply voltage:
22 V 48 V
Recommended max
nominal battery voltage:
16 V 36 V
Max continuous
current per channel:
1.8 A 1.6 A 2.2 A 1.8 A
Logic voltage range: 3.0 V to 4.9 V(1) 3.0 V to 5.5 V
Current sensing/limiting:
Available versions
with I²C:
Available verions
with UART serial:
Price: $12.49$14.49 $15.95$17.95 $16.95$18.95 $23.95$25.95
1 The M1x550 and M2x550 are not recommended for use with 5V nominal logic.
Motoron motor controllers
Arduino and Raspberry Pi form factor versions

M3S550



M3H550

M3S256



M3H256

M2S24v14



M2H24v14

M2S24v16



M2H24v16

M2S18v18



M2H18v18

M2S18v20



M2H18v20
Control interface: I²C
Motor channels: 3 (triple) 2 (dual)
Minimum motor
supply voltage:
1.8 V 4.5 V 6.5 V
Absolute max motor
supply voltage:
22 V 48 V 40 V 30 V
Recommended max
nominal battery voltage:
16 V 36 V 28 V 18 V
Max continuous
current per channel:
1.7 A 2 A 14 A 16 A 18 A 20 A
Logic voltage range: M3S550
3.1 V to 5.5 V
3.0 V to 5.5 V 3.0 V to 5.5 V
M3H550
3.0 V to 4.9 V(1)
Current sensing/limiting:
Available versions
for Arduino:
M3S550 M3S256 M2S24v14 M2S24v16 M2S18v18 M2S18v20
Available versions
for Raspberry Pi:
M3H550 M3H256 M2H24v14 M2H24v16 M2H18v18 M2H18v20
Price: $20.95$30.95 $34.95$44.95 $59.95$69.95 $79.95$89.95 $59.95$69.95 $95.95$104.95
1 The M3H550 is not recommended for use with 5V nominal logic.

Dimensions

Size: 2.56″ × 2.02″
Weight: 16 g

General specifications

Channels: 2
Model: Motoron M2S18v20
Control interface: I²C
Minimum operating voltage: 6.5 V
Maximum operating voltage: 30 V1
Continuous output current per channel: 20 A2
Minimum logic voltage: 3.0 V
Maximum logic voltage: 5.5 V
Reverse voltage protection?: Y
Connectors soldered?: N

Identifying markings

PCB dev codes: mc2s31b
Other PCB markings: 0J13655

Notes:

1
Absolute maximum; higher voltages can permanently destroy the motor drivers. Recommended maximum is approximately 24 V, which leaves a safety margin for ripple voltage on the supply line. Not recommended for use with 24V batteries.
2
Typical results at room temperature with both channels running at 90% duty cycle.

Documentation and other information

File downloads

Recommended links

Frequently-asked questions

No FAQs available.

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