Pololu MC33926 Single DC Motor Full H-Bridge <3A Continuous (5 A peak) 5-28V Driver Carrier


The Pololu MC33926 Single DC Motor Full H-Bridge is one of our favorite light weight DC motor controllers primarily for it's high current capability, and it's built in protection circuits and features. If you have ever worked with alternative surface mount H-Bridge systems you may have already seen what can happen to a small chip that drives too much current. The built in current reduction circuitry that is automatically activated when the chip get's too hot, or drives too much current for too long may go a long way in helping to reduce this risk in your application. As with all surface mount (and generally any other) driver chip a heat sync is a great thing to add for performance and part life enhancement.

This board is designed to only run one DC motor, but can be combined with another MC33926 motor controller to control high current and voltage bipolar stepper motors with relative ease. You would primarily be concerned with the IN1 and IN2 of each board as they would be controlled by the IO's on your controller to command a stepper motor.

All in all an excellent choice for a mid-power project that still needs to take relatively small amounts of space.

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Package Contents:

Pololu MC33926 Single DC Motor Full H-Bridge <3A Continuous (5 A peak) 5-28V Driver Carrier


Motor driver: MC33926
Motor channels: 1
Minimum operating voltage: 5 V
Maximum operating voltage: 28 V
Continuous output current per channel: 2.5 A
Peak output current per channel: 5 A
Current sense: 0.525 V/A
Maximum PWM frequency: 20 kHz
Minimum logic voltage: 2.5 V
Maximum logic voltage: 5.5 V
Reverse voltage protection: Yes


MC33926 Motor Driver Schematic



 MC33926 Pinout from Pololu


PIN Default State Description
VIN HIGH This is the main 5 – 28 V motor power supply connection, which should typically be made to the larger VIN pad. Operation from 5 – 8 V reduces maximum current output; the device is also protected for transients up to 40 V. The smaller VIN pad can be used to distribute the VIN node to the rest of the application circuit; for lower-current applications, the pin can also be used to power the motor driver and motor.
GND LOW Ground connection for logic and motor power supplies.
OUT2 HIGH The motor output pin controlled by IN2.
OUT1 HIGH The motor output pin controlled by IN1.
VDD HIGH 3-5 V logic supply connection. This pin is used only for the SF pull-up and default-overriding jumpers; in the rare case where none of those features is used, VDD can be left disconnected.
IN2 HIGH The logic input control of OUT2. PWM can be applied to this pin (typically done with both disable lines inactive).
IN1 HIGH The logic input control of OUT1. PWM can be applied to this pin (typically done with both disable lines inactive).
PWM / D2 LOW Inverted disable input: when D2 is low, OUT1 and OUT2 are set to high impedance. A D2 PWM duty cycle of 70% gives a motor duty cycle of 70%. Typically, only one of the two disable pins is used, but the default is for both disable pins to be active.
PWM / D1 HIGH Disable input: when D1 is high, OUT1 and OUT2 are set to high impedance. A D1 PWM duty cycle of 70% gives a motor duty cycle of 30%. Typically, only one of the two disable pins is used, but the default is for both disable pins to be active.
SF HIGH Status flag output: an over-current (short circuit) or over-temperature event will cause SF to be latched LOW. If either of the disable pins (D1 or D2) are disabling the outputs, SF will also be LOW. Otherwise, this pin is weakly pulled high. This allows the SF pins of multiple units to connected to a single input.
FB LOW The FB output provides analog current-sense feedback of approximately 525 mV per amp.
EN LOW Enable input: when EN is LOW, the chip is in a low-current sleep mode.
SLEW LOW Output slew rate selection input. A logical LOW results in a slow output rise time (1.5 μs – 6 μs). A logical HIGH selects a fast output rise time (0.2 μs – 1.45 μs). This pin should be set HIGH for high-frequency (over 10 kHz) PWM.
INV LOW A logical high value inverts the meaning of IN1 and IN2. This allows INV to function as a direction line if IN1 and IN2 are set to different values.

Basic Application Connections

In a typical application, five I/O lines are used to connect the motor driver to a microcontroller: the two input lines, IN1 and IN2, for direction control, one of the disable lines, D1 or D2, for PWM speed control, the status flag, SF, for monitoring motor driver errors, and the current sense output, FB, for monitoring motor current draw (connected to an analog-to-digital converter input). The control lines can be reduced to two pins if PWM signals are applied directly to the two input pins with both disable pins held inactive. A two-pin interface can also be achieved using one of the disable lines for PWM speed control and the INV input for direction control with IN1 and IN2 held at different values (i.e. one set HIGH and the other set LOW). In each of these cases, the other unused lines must be set to enable proper operation. For example, if D2 is used for the PWM input (as is typically the case), D1 must be held low to prevent it from disabling the motor driver. The circuit board provides convenient jumper points for overriding the motor driver defaults without having to connect extra wires to the module.

The current sense and status flag connections are optional, though monitoring of the status flag can allow detection of latched fault conditions. The status flag is an open-drain output, so multiple units can have their status flag pins wired together for applications where I/O pins are scarce and determining which motor driver is experiencing a fault condition is not necessary.

Note that the default state of the enable pin, EN, is LOW, which holds the chip in a low-current sleep mode. You will need to hold this pin high (either with an external connection or via the default-overriding jumper next to the pin) to allow the chip to run.


The MC33926 has under-voltage, over-current, and over-temperature protection. Some protection events are indicated by the status flag pin (SF), which is an active-low pin allowing theSF pin from multiple boards to connected to a single input. If the chip detects an over-current or over-termperature event, the SF is latched LOW and OUT1 and OUT2 are set to high-impedance. To unlatch the status flag pin toggle the D1, D2 , EN or VIN lines. The carrier board has a reverse-protection MOSFET for added protection to the motor driver chip.

Real-World Power Dissipation Considerations

The MC33926 motor driver used on the carrier board has a maximum current rating of 5 A continuous. However, the chip by itself will overheat at lower currents. For example, in our tests at room temperature with no forced air flow, the chip was able to deliver 5 A for 5 s and 4 A for 18 s before the chip’s thermal protection started reducing the current. A continuous current of 3 A was right at the over-temperature threshold; in some tests the thermal protection kicked in after a minute, and in other tests the chip delivered 3 A for over five minutes without triggering thermal protection. The actual current you can deliver will depend on how well you can keep the motor driver cool. The carrier’s printed circuit board is designed to draw heat out of the motor driver chip, but performance can be improved by adding a heat sink. Our tests were conducted at 100% duty cycle; PWMing the motor will introduce additional heating proportional to the frequency.

WARNING: This product can get hot enough to burn you long before the chip overheats. Take care when handling this product and other components connected to it.

Unlike other H-Bridges, the 33926 has a feature that allows it to gracefully reduce current as the current exceeds 5 A or as the chip temperature approaches its limit. This means that if you push the chip close to its limit, you will see less power to the motor, but it might allow you to avoid a complete shutdown.



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