24 servos robot controller ROHS
This RoHS-compliant 24-servo controller delivers stable, high-precision control for up to 24 servos simultaneously. Featuring easy integration with Arduino/STM32, multi-modes control, and reliable safety standards, it is ideal for humanoid robots, robotic arms, and STEM teaching projects.
$65.00
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+8615019528638
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Specifications
Code
:
DG028-c
Brand
:
DAGU
Detail
24-
Servo Robot Controller (RoHS Compliant
) - Detailed Product Introduction
The 24-Servo Robot Controller (RoHS Compliant) is a professional, high-performance control module specifically developed for campus STEM education, exclusively tailored for primary and secondary school teachers, students, and campus maker spaces. Carefully optimized to align with the practical needs of classroom teaching, student experiments, and after-school maker activities, it serves as a practical, reliable core component for robotics teaching and DIY projects. Fully compliant with RoHS environmental and safety standards, it strictly restricts harmful substances such as lead, mercury, cadmium, and hexavalent chromium, adopting non-toxic, odorless, and eco-friendly materials. This design fully meets the strict safety requirements of campus classrooms, ensuring students can operate it safely for extended periods and teachers can use it with complete peace of mind, free from concerns about safety hazards caused by harmful substances. As a key teaching tool, it seamlessly fits the campus education scenario, providing a safe and secure operating environment for both teachers and students.
Optimized for campus teaching scenarios, this 24-servo controller supports the simultaneous, precise control of up to 24 servos—fully meeting the needs of multi-joint humanoid robots, robotic arms, and complex intelligent models commonly used in STEM courses. It adopts high-precision signal transmission technology, ensuring stable operation, low power consumption, and no jitter or signal loss during use. Even when multiple servos run simultaneously, it guarantees smooth, accurate movement of each joint, allowing students to clearly observe the connection between programming instructions and mechanical movements. This helps teachers intuitively demonstrate the principles of servo control and robotic kinematics in class, while enabling students to deeply grasp the core logic of motion control through hands-on operation. Utilizing PWM (Pulse Width Modulation) technology, the controller can precisely adjust the angle of each servo (supporting 0-180° precise angle control), with a response speed tailored to students’ learning rhythm—avoiding overly complex operations and helping students gradually master relevant skills[5].
Designed with simplicity and ease of use at its core, the controller is highly convenient for both teachers and students. It is fully compatible with mainstream teaching control boards (Arduino, STM32, Raspberry Pi) commonly used in campus STEM courses, and supports both wired and optional wireless control modes. Its wiring method is simple and clear, with clearly labeled interfaces, and it comes with a dedicated wiring diagram suitable for students. Even students without professional programming experience can complete wiring and connections under teachers’ guidance. Additionally, it supports mainstream teaching programming platforms such as Scratch and Python: primary and junior high school students can use graphical programming to control servos, making it easy to get started and quickly sparking their interest in programming; senior high school students can use code programming for in-depth exploration, fostering their logical thinking and programming abilities. It also supports sensor expansion (e.g., ultrasonic sensors, temperature and humidity sensors), enabling functions like obstacle avoidance and fall recovery—enriching classroom teaching content and meeting the needs of different learning stages[6].
To adapt to the high-frequency use in campus classrooms, the controller is equipped with multiple protection functions, including over-current, over-voltage, and anti-reverse connection protection. These functions effectively prevent equipment damage caused by students’ incorrect operations (e.g., wrong wiring, excessive voltage), greatly extending the controller’s service life and reducing the cost of campus teaching equipment procurement. Moreover, the controller is small in size and lightweight, making it easy to store and carry—convenient for teachers to conduct classroom demonstrations and for students to carry out group experiments and after-school DIY projects. It is widely applicable in campus STEM courses, robotics interest groups, after-school maker activities, and robotics competitions, helping teachers carry out diverse teaching activities and guiding students to transform theoretical knowledge into practical abilities through hands-on operation.
For teachers, this controller helps optimize teaching efficiency: it can be used to demonstrate servo control and robotic motion principles in class, making abstract knowledge more intuitive and understandable while reducing teaching difficulty. It also supports batch control, making it suitable for large-class teaching and group experiments, allowing multiple groups of students to operate simultaneously. For students, it provides a practical hands-on platform: they can use the controller to assemble and control robots, independently design motion programs, and even carry out innovative DIY projects (e.g., face-tracking platforms, small robotic arms). This not only cultivates their hands-on ability and innovative thinking but also lays a solid foundation for their future exploration in robotics and artificial intelligence. As an ideal teaching auxiliary tool for campus STEM education, it integrates safety, practicality, and teaching adaptability, perfectly meeting the needs of teachers and students in campus teaching and learning activities[4][6].
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