Shipping Estimate
USA
- USA
- CAN
- USA
- CAN
Ships within 48 hours · Estimated delivery Jul 9 - Jul 14
For Your Every Summer RSVP, with Code: SUMMER15
Description
JR Motor Driver Board L293DThis motor driver board is compact, cost effective, and perfect for beginner level robotics and DIY projects Manufactured and tested by us. Built to last. Specifications: Motor Driver IC: L293D Dual H Bridge motor driver capable of driving 2 motors simultaneously. Operates in both forward and reverse directions. Power Supply: Supports Li ion battery packs or external power inputs. Voltage Range: Typically 4. 5V to 12V for motors. Motor Terminals: O1
This motor driver board is compact, cost-effective, and perfect for beginner-level robotics and DIY projects
Manufactured and tested by us.
Built to last.
Specifications:
-
Motor Driver IC: L293D
- Dual H-Bridge motor driver capable of driving 2 motors simultaneously.
- Operates in both forward and reverse directions.
-
Power Supply:
- Supports Li-ion battery packs or external power inputs.
- Voltage Range: Typically 4.5V to 12V for motors.
-
Motor Terminals:
- O1 and O2: Output terminals for Motor 1.
- O3 and O4: Output terminals for Motor 2.
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Control Pins:
-
i1, i2, i3, i4: Input pins to control motor movement.
- Connect these to Arduino/ESP32 GPIO pins or sensors.
-
Enable Pins (EN1, EN2):
- Used to enable/disable motors and control PWM for speed.
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i1, i2, i3, i4: Input pins to control motor movement.
-
Current Rating:
- Output Current: 600mA per channel.
- Peak Current: 1.2A (non-repetitive).
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Supported Motors:
- Up to 2 BO motors (one motor on each side).
Key Features:
- Supports bidirectional control (forward and reverse) for two motors.
- ON/OFF switch for easy power control.
- Dedicated 5V and GND pins for external components like sensors.
- Compatible with Arduino, ESP32, and similar microcontrollers.
- Ideal for small robots, car projects, and simple motor control applications.
How to Use:
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Power the Board:
- Connect a Li-ion battery pack or external power supply to the PWR terminals.
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Connect Motors:
- Connect the two motors to the respective O1/O2 and O3/O4 motor terminals.
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Control Input Pins:
- Connect i1, i2, i3, and i4 to the digital pins of a microcontroller (Arduino/ESP32).
- Use the following logic for motor control:
- i1=HIGH, i2=LOW → Motor 1 Forward.
- i1=LOW, i2=HIGH → Motor 1 Reverse.
- i1=LOW, i2=LOW → Motor 1 Stop.
-
Enable Pins:
- Connect EN1/EN2 to 5V or use PWM to control motor speed.
-
Ground and Logic Pins:
- Ensure GND pins of the motor driver and microcontroller are connected.
Shipping Notes
- Free Standard Shipping on $100+ Orders to the USA.
- Except Preorder products are shipped in 48 hours.
- Delivery to the USA:
- Standard Shipping : 3-10 business days
- If time is of the essence, please consider selecting expedited delivery for faster service.
Exchange/Return Notes
- We offer a 30-day return/exchange service after receiving.
- Final sale items are not eligible for returns or exchanges.
- To process your return/exchange, please contact us at [email protected]
- Please click here for more details>>> Return & Exchange Policy