Robot Power MegaMoto Dual Channel H-Bridge Motor Controller for Arduino 13A, 5-28V
Description
- MegaMoto Dual Channel H-Bridge Motor Controller for Arduino 13A, 5-28V
- Note: Arduino board in the image is not included.
- Handles up to 30A current at 28V
- Controls powerful motors efficiently
- Offers dual half-bridge circuit setup
- Stacks for multiple motor control
- Manages other DC loads seamlessly
The MegaMoto Dual Channel H-Bridge Motor Controller for Arduino 13A, 5-28V is a versatile and robust motor control shield designed for use with Arduino-compatible base units. It allows users to manage high-current, high-power motors efficiently, making it ideal for applications in robotics, scooters, industrial controls, and more. The MegaMoto can handle up to 30A of current at voltages up to 28V, providing over 800W of power. This capability enables Arduino users to control powerful motors without the need for complex and unreliable connections.
The MegaMoto features a dual half-bridge circuit configuration, which can be set up as a full H-bridge for controlling a single motor with variable speed in both forward and reverse directions. Alternatively, it can control two independent motors in a uni-directional manner. The flexibility of the MegaMoto is further enhanced by its ability to stack multiple units on a single Arduino base, allowing for the control of multiple motors simultaneously. This is achieved through the use of jumpers to select the appropriate Arduino signals for the Enable and PWM inputs.
In addition to motor control, the MegaMoto can manage other DC loads such as lights, solenoids, relays, and valves, provided they fall within the specified voltage and current range. This makes it a highly adaptable component for various electronic projects and applications.
- 1x MegaMoto Dual Channel H-Bridge Motor Controller for Arduino 13A, 5-28V
- Supply voltage: 5V to 28V (maximum battery rating of 24V)
- Continuous output current: 13A
- Surge output current: 30A for 5 seconds
- Power chips: 2 BTN7960B
- On resistance: 0.016 ohm maximum at 25°C
- PWM frequency: DC to 20kHz
- Logic interface: 3V - 5V, minimum of 1 pin required
- Logic inputs: Jumper selectable for enable and PWM source
- Current sense outputs: 0.0745V per Amp, 2.98V at 40A
- Current sense pins: Jumper selectable for the connected analog input
- Current and temperature limiting: Integrated into power chips
- Power connectors: 2 screw terminals (14AWG wire) and solder pads for power wires
- Enclosure: None
Semble fonctionner comme annoncé! Vous n'avez pas encore eu l'occasion de l'exécuter sous charge? Et même alors, il ne verra que des sommets d'environ 60 W. ils vous poussent toujours à passer en revue les produits avant que vous ayez l'occasion de les exécuter à leur rythme ...
Stacked two of these on the Arduino to drive two Treadmill motors (each rated for 130VDC and 18A). The motors are mounted beneath a piece of plywood and along with a front caster we have created a nice little Arduino controlled 2WD cart. My students are learning how to program this "RoboCart". Using two UPS batteries (12V DC for each motor) we are able to drive the cart around. We are using one shield per motor so we can forward or reverse the motors to drive the cart forward, backward, and do circles. We have not started testing with braking code yet but the H bridges have yet to get warm during our routine testing and at only 12V DC we got more than enough speed out of the motors without pushing the shield too hard. The real test will come when we brake the cart to a stop rather than coast. The downloaded documents are excellent and made connecting and using these shields very easy.
Appears to work as advertised! Have not had an opportunity to run with it under load yet? And even then it will only see about 60W tops. they're always pushing you to review products before you have an opportunity to run them through their paces...
Deux de ceux-ci ont été empilés sur l'Arduino pour entraîner deux moteurs de tapis de course (chacun évalué à 130VDC et 18A). Les moteurs sont montés sous un morceau de contreplaqué et, avec une roulette avant, nous avons créé un joli petit chariot à 2 roues motrices contrôlé par Arduino. Mes étudiants apprennent à programmer ce "RoboCart". En utilisant deux batteries UPS (12V CC pour chaque moteur), nous pouvons conduire le chariot. Nous utilisons un bouclier par moteur afin de pouvoir avancer ou inverser les moteurs pour faire avancer le chariot, reculer et faire des cercles. Nous n'avons pas encore commencé les tests avec le code de freinage, mais les ponts en H n'ont pas encore chauffé au cours de nos tests de routine et avec seulement 12 V CC, nous avons obtenu une vitesse de sortie des moteurs plus grande que suffisante sans pousser le bouclier trop fort. Le véritable test viendra lorsque nous freinerons notre chariot plutôt que de descendre. Les documents téléchargés sont excellents et facilitent la connexion et l’utilisation de ces boucliers.
Robust, reliable and easy use shield. Comes with a user manual which is very helpful. The speed and direction of each shield is easily controlled by two digital pins of the arduino board.
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