600mA continuous per channel (1.2A peak) with thermal shutdown protection. Speed Control: 8-bit speed selection (approx. 0.5% resolution). 5.imimg.com Pinout & Connectivity
The key to success with the HW-130 is . The motors must be powered separately from the Arduino's logic.
motor1.run(RELEASE); delay(500);
AF_DCMotor motor1(1); AF_DCMotor motor2(2);
AF_DCMotor motor1(1); AF_DCMotor motor2(2); SoftwareSerial BT(10, 11); // RX, TX char command;
Ultimately, the "better" shield is the one that best fits your immediate needs. We hope this guide has provided the missing datasheet and the practical advice to confidently make that decision. Happy building!
This article provides a comprehensive guide and a "better," more actionable datasheet for the HW-130 motor shield, helping you get your motors running faster. 1. What is the HW-130 Motor Shield?
Connect your motor power supply (5V–25V) to the 2-pin terminal block. PWR Jumper: Jumper ON: Powers the Arduino from the motor power supply.
However, many generic datasheets lack clear pin maps, specific math calculations, and critical power handling instructions. This comprehensive guide serves as an upgraded datasheet to help you maximize the performance of your HW-130 shield. Technical Specifications & Core Architecture HW-130 shield
A better datasheet would begin with a — not a logo-cluttered title, but a concise block diagram showing the relationship between the Arduino’s digital pins (D3, D4, D5, D6, D11, D12 on typical clones) and the motor driver’s inputs. It would label each terminal block: Motor A, Motor B, external power (7–12V), and ground. The existing practice of scattering this information across six different eBay listings is unacceptable. Better means one authoritative source .
The HW-130 Motor Control Shield is a compact and lightweight shield that can be easily mounted on top of an Arduino board. It is designed to provide a simple and intuitive way to control motors and other loads, making it an ideal solution for a wide range of applications, including robotics, automation, and IoT projects.
Offers 8-bit speed selection for DC motors. 2. HW-130 Enhanced Datasheet & Pinout
4 DC motor channels (M1, M2, M3, M4) OR 2 Stepper motors.
(unipolar or bipolar) with single, double, interleaved, or micro-stepping. Servo Motors 2 dedicated headers
The HW-130 Motor Control Shield boasts an impressive array of features that make it an attractive option for motor control applications. Some of its key features include:
The shield uses a shift register (74HCT595) to save Arduino pins, requiring only 3 digital pins to control 4 DC motors. Arduino Pin(s) Used Digital Pin 9 Uses Timer 1 (Uno) or Timer 2 (Mega) Servo 2 Digital Pin 10 Uses Timer 1 DC Motor 1 / Stepper 1 Digital Pin 11 PWM for speed control DC Motor 2 / Stepper 1 Digital Pin 3 PWM for speed control DC Motor 3 / Stepper 2 Digital Pin 5 PWM for speed control DC Motor 4 / Stepper 2 Digital Pin 6 PWM for speed control Shift Register Control Digital Pins 4, 7, 8, 12 Used for direction control of all motors Powering Your Motors The HW-130 features a PWR Jumper . L293D Based Arduino Motor Shield
The use of our chat room do not require any download or registration/sign up, and can be accessed directly from the site.
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Registered member is the recommended way to access the chat room as you get reserved user name, and don't need to enter details each time.
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Guest visitors don't get reserved names but are a good way to test the chat room or if you can't be bothered to create an account with us.
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Both of the old chat room sofwares where 3rd party and making changes to them were both hard and time consuming, so we now have created a
custom chat software of our own to overcome those problems.
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Our chat software is still in beta phase and this is a bug, of which we are aware of and will be fixed in the next coming updates.
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600mA continuous per channel (1.2A peak) with thermal shutdown protection. Speed Control: 8-bit speed selection (approx. 0.5% resolution). 5.imimg.com Pinout & Connectivity
The key to success with the HW-130 is . The motors must be powered separately from the Arduino's logic.
motor1.run(RELEASE); delay(500);
AF_DCMotor motor1(1); AF_DCMotor motor2(2);
AF_DCMotor motor1(1); AF_DCMotor motor2(2); SoftwareSerial BT(10, 11); // RX, TX char command; hw 130 motor control shield for arduino datasheet better
Ultimately, the "better" shield is the one that best fits your immediate needs. We hope this guide has provided the missing datasheet and the practical advice to confidently make that decision. Happy building!
This article provides a comprehensive guide and a "better," more actionable datasheet for the HW-130 motor shield, helping you get your motors running faster. 1. What is the HW-130 Motor Shield?
Connect your motor power supply (5V–25V) to the 2-pin terminal block. PWR Jumper: Jumper ON: Powers the Arduino from the motor power supply.
However, many generic datasheets lack clear pin maps, specific math calculations, and critical power handling instructions. This comprehensive guide serves as an upgraded datasheet to help you maximize the performance of your HW-130 shield. Technical Specifications & Core Architecture HW-130 shield 600mA continuous per channel (1
A better datasheet would begin with a — not a logo-cluttered title, but a concise block diagram showing the relationship between the Arduino’s digital pins (D3, D4, D5, D6, D11, D12 on typical clones) and the motor driver’s inputs. It would label each terminal block: Motor A, Motor B, external power (7–12V), and ground. The existing practice of scattering this information across six different eBay listings is unacceptable. Better means one authoritative source .
The HW-130 Motor Control Shield is a compact and lightweight shield that can be easily mounted on top of an Arduino board. It is designed to provide a simple and intuitive way to control motors and other loads, making it an ideal solution for a wide range of applications, including robotics, automation, and IoT projects.
Offers 8-bit speed selection for DC motors. 2. HW-130 Enhanced Datasheet & Pinout
4 DC motor channels (M1, M2, M3, M4) OR 2 Stepper motors. We hope this guide has provided the missing
(unipolar or bipolar) with single, double, interleaved, or micro-stepping. Servo Motors 2 dedicated headers
The HW-130 Motor Control Shield boasts an impressive array of features that make it an attractive option for motor control applications. Some of its key features include:
The shield uses a shift register (74HCT595) to save Arduino pins, requiring only 3 digital pins to control 4 DC motors. Arduino Pin(s) Used Digital Pin 9 Uses Timer 1 (Uno) or Timer 2 (Mega) Servo 2 Digital Pin 10 Uses Timer 1 DC Motor 1 / Stepper 1 Digital Pin 11 PWM for speed control DC Motor 2 / Stepper 1 Digital Pin 3 PWM for speed control DC Motor 3 / Stepper 2 Digital Pin 5 PWM for speed control DC Motor 4 / Stepper 2 Digital Pin 6 PWM for speed control Shift Register Control Digital Pins 4, 7, 8, 12 Used for direction control of all motors Powering Your Motors The HW-130 features a PWR Jumper . L293D Based Arduino Motor Shield
