Hw 130 Motor Control Shield For Arduino Datasheet [extra Quality] Free Jun 2026
However, the hardware design is standardized. Below is a compiled for the HW-130 Motor Control Shield.
The HW‑130 is designed to be “stacked” directly on top of an Arduino board. The pin alignment follows the standard Arduino Uno layout, so you can simply press the shield onto the Arduino without any additional wiring for the basic motor connections.
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Built-in thermal shutdown and internal ESD protection. Reset Button: Onboard button for Arduino system reset. Pinout and Hardware Configuration hw 130 motor control shield for arduino datasheet free
The (also known as the L293D Motor Shield ) is a versatile driver board based on dual L293D H-bridge chips, allowing you to control multiple motors from an Arduino. Key Technical Specifications Driver Chips : Two L293D ICs and one 74HC595 shift register.
If you run this test and the motors do not spin, stop immediately and verify your power wiring.
Up to 2 stepper motors (unipolar or bipolar) with single coil, double coil, or interleaved stepping. However, the hardware design is standardized
0.6A per channel continuous current (1.2A peak current) with thermal shutdown protection.
The L298P is a "low efficiency" driver compared to modern MOSFET drivers. It dissipates heat to control speed. If you require higher efficiency or are using 3.3V logic boards (like the ESP32), this shield may not
The HW-130 motor control shield is a popular, budget-friendly expansion board designed for Arduino Uno and Mega microcontrollers. Based on the classic L293D dual H-bridge driver design, this shield allows hobbyists and engineers to drive multiple DC motors, stepper motors, and servo motors simultaneously. The pin alignment follows the standard Arduino Uno
The HW-130 shield offers a simple, inexpensive solution for driving small DC motors (e.g., toy motors, mini fans, small robots) from an Arduino Uno. While lacking advanced features like current sensing or external flyback diodes, it is suitable for educational projects and low-power applications. Users must respect the 1.2A peak limit and provide an appropriate external motor power supply for reliable operation.
Always remove this jumper if your motor voltage exceeds 9V. 5. Arduino Pin Usage and Resource Conflicts