allow-activity
- Intelligent Bus Servo: xArm 1S with position feedback, voltage feedback functions and high torque and convenient wiring. So that it can grab heavier object and has better performance.
- Multiple Control Methods: xArm 1S supports wireless handle control, smart phone APP and mouse control.
- Three Programming Methods: PC software/Smart phone APP/Offline manual action programming.
- Powerful Control System: with ARM core CPU, built-in 4.0 Bluetooth module and 16M storage memory, robotic arm can save 1020 actions for each action group!
- Quick Wiring: connect to the 7.5V 6A DC power supply directly without any voltage regulator module. The handle control receiver adopts USB design, which is easy to insert and greatly reduces the difficulty of wiring.
【ROS Robotic Arm with Raspberry Pi】 ArmPi FPV is an open-source AI robot arm based on Robot Operating System and powered by Raspberry Pi. Loaded with high-performance intelligent servos and AI camera, and programmable using Python, it is capable of vision recognition and gripping.
【Abundant AI Applications】 Guided by artificial intelligence vision, ArmPi FPV excels in executing functions such as stocking in, stocking out, and stock transfer, realizing integration into Industry 4.0 environments.
【Inverse Kinematics Algorithm】 ArmPi FPV employs an inverse kinematics algorithm, enabling precise target tracking and gripping within. It also provides detailed analysis on inverse kinematics, DH model, and offers the source code for the inverse kinematics function.
【Robot Control Across Platforms】 ArmPi FPV provides multiple control methods, like WonderPi app (compatible with iOS and Android system), wireless handle, mouse, PC software and Robot Operating System, allowing you to control the robot at will.
【Abundant AI Applications】 Guided by intelligent vision, ArmPi FPV excels in executing functions such as stocking in, stocking out, and stock transfer, realizing integration into Industry 4.0 environments.
Hiwonder
Hiwonder JetAuto Pro AI Robot Car with 6DOF Vision Robotic Arm, Support ROS1 ROS2, with Large AI Model (ChatGPT), SLAM Mapping/Navigation, AI Voice Interaction, Intelligent Sorting
【Smart ROS Robots Driven by AI】 JetAuto Pro is a professional robotic platform for ROS learning and development, powered by NVIDIA Jetson / Raspberry Pi 5, and supports Robot Operating System (ROS2 & ROS1). It leverages mainstream deep learning frameworks, incorporates MediaPipe development, and enables YOLO model training.
【SLAM Development and Diverse Configuration】 JetAuto Pro is equipped with a powerful combination of a 3D depth camera and Lidar. It utilizes a wide range of advanced algorithms, including gmapping, Hector, Karto, and Cartographer, enabling precise multi-point navigation, TEB path planning, and dynamic obstacle avoidance.
【 High-Performance Vision Robot Arm】 JetAuto Pro features a 6DOF vision robot arm, equipped with intelligent serial bus servos that deliver a torque of 35 kg. An HD camera is positioned at the end of robot arm, which provides a first-person perspective for object gripping tasks.
【Far-field Voice Interaction】 JetAuto Pro advanced kit incorporates a 6-microphone array and speaker allowing for man-robot interaction applications, including Text to Speech conversion, 360° sound source localization, voice-controlled mapping navigation, etc. Integrated with vision robot arm, JetAuto Pro can implement voice-controlled gripping and transporting.
【Robot Control Across Platforms】 JetAuto Pro provides multiple control methods, like WonderAi app (compatible with iOS and Android systems), wireless controller, Robot Operating System (ROS) and keyboard, allowing you to control the robot at will.
【Empowered by Large Al Model, Human-Robot Interaction Redefined】 JetAuto Pro deploys AI multimodal models with ChatGPT at its core, integrating 3D vision and a 6-microphone array. This synergy enhances its perception, reasoning, and actuation capabilities, enabling advanced embodied AI applications and delivering natural, context-aware human-robot interaction.
Hiwonder
Hiwonder HX-35H Serial Bus High Voltage Servo with Double Shaft, 35KG Strong Torque and Data Feedback Function
- User-friendly ports
- High precision and strong torque
- Support temperature, voltage and position feedback
- Support two working modes: servo mode and gear motor mode
- Provide 51, Arduino, STM32, Raspberry Pi source code
Bus Servo
Hiwonder LX-16A Full Metal Gear Serial Bus Servo with Real-Time Feedback Function for RC Robot( Control Angle 240)
- 17kg large torque. 15 kg/cm (208 oz/in) 6.6V; 17 kg/cm (236 oz/in) 7.4V. We provide communication protocol and detailed video tutorials
- Real-time feedback of position, temperature, voltage. The top of the servo has a warning light, and the indicator will flash if the internal of servo is abnormal
- Full metal gear. it's better for accuracy, service life has been greatly increased. Dual ball bearing: one is the driving ball bearing, one is the assistant ball bearing(support role)
- Using high-precision potentiometer with new design. Accuracy and linearity have been greatly improved! Accurate movement can satisfy the needs of making robots
- The control board use a I/O port to connect the serial servo, servos are connected in series through a dual interface, which reduce the use of serial ports. Simple wiring make product more simple, Exquisite, attractive
Bus Servo
Hiwonder LX-15D Intelligent Serial Bus Servo with RGB Indicator for Displaying Robot Status
- Torque for LX-15D servo: 15 kg/cm (208 oz/in) 6V; 17 kg/cm (236 oz/in) 7.4V
- TTL / USB tester board is a servo debugger, which is able to connect the servo to the PC software or other devices and use them to adjust the parameter of servos
- Bus servo controller can be used in serial servo control and it can combine with PS2 wireless handle to realize servo remote control
- Details Tutorial: Provide bus servo communication protocol, 51 Arduino and STM32 source code
Hiwonder
IMU Inertial Navigation Module ROS1/ROS2 Robot MEMS USB Magnetometer 10-axis ARHS Posture Sensor
- 【High-performance three-dimensional motion and posture measurement system】The IM10A inertial navigation module includes a 3-axis electronic gyroscope + 3-axis accelerometer + 3-axis magnetometer + barometer (angle + altitude), combined with a high-dynamic Kalman filter fusion algorithm to provide users with high-precision, high-dynamic, real-time compensation 3-axis posture angle data.
- 【Rich data output】The IM10A inertial navigation module can output Euler angles (Roll, Pitch, Yaw), quaternions, position, speed, acceleration, angular velocity, and magnetic field vectors. It can provide output frequency up to 200Hz in real time, thus greatly reducing the research and development time for various needs.
- 【Supports multiple communication methods】 Supports USB/UART/I2C communication methods, is more efficient and compatible with Raspberry Pi, STM32, and Jetson series development boards, providing more development possibilities for DIY makers.
- 【Provide rich tutorial materials】 Hiwonder provides a wealth of tutorial materials, such as PC software, operating instructions, development manuals, development codes, source codes, etc.
- Powerful PS2 signal receiver
- Simply designed button and remoter
- Support robotic arm and humanoid robot control
- Only compatible with Hiwonder Serial Bus Servo Controller
- Weight: 14g
- No-load current: 100mA
- Operating Voltage: 4.8V-6V
- Torque: 1.5kg.cm(4.8v)1.8kg.cm(6v)
- Speed: 0.12sec/60° (4.8v) 0.10sec/60°(6V)
Hiwonder
Raspberry Pi 5 Expansion Board, Servo Motor Driver, ROS Robot Manipulator Arm Smart Car Controller
- Compatible with both the latest Raspberry Pi 5 models, featuring identical interfaces. No external flat cables are required, and supports peripherals such as active heat sinks.
- Leveraging a Cortex-M3 32-bit high-performance ARM chip, it communicates via the MCU serial port to independently drive peripherals such as servos and motors. This alleviates the workload of Raspberry Pi 5, significantly enhancing the processing efficiency and speed for Raspberry Pi robots.
- Featuring a 6-axis attitude sensor MPU6050, it facilitates the initialization of IMU registers and printing of raw 6-axis IMU data, encompassing 3-axis accelerator and 3-axis gyroscope. The model A expansion board exclusively supports motors. Both model A and B accommodate PWM and bus servos. The Model C is tailored solely for PWM servo compatibility.
- Upgraded Version -Three Channels on the top, left and right are easy for wiring.
- Large Torque - Maximum torque is up to 25kg.cm 7.4V. 270 degree rotation. 360 degree rotation when power-off, perfect for robot joint activities.
- Variable ID -The default number is 1 which is modifiable. It can be used to replace xArm ID5 servo.
- Details Tutorial - Provide bus servo communication protocol, Provide for Arduino and STM32 source code.
- Dimensions -1.57 x 0.79 x 2.01inch (40 x 20.14 x 51.1mm); Weight: 63g (2.22oz) only.
Servo Controller
LSC-6: Hiwonder 6 CH Bluetooth 4.0 Servo Controller Module RC Robot Toy for Children
- Built-in power switch
- High-performance CPU
- 16M high-capacity memory
- Built in Bluetooth 4.0 module
- Support TTL serial communication
Hiwonder
Hiwonder JetArm ROS1/ROS2 3D Vision Robot Arm, with Multimodal AI Model (ChatGPT), AI Voice Interaction and Vision Recognition, Tracking & Sorting
【AI-Driven and Jetson-Powered】 Hiwonder JetArm is a high-performance 3D vision robot arm developed for ROS education scenarios. It is equipped with the Jetson Nano, Orin Nano, or Orin NX as the main controller, and is fully compatible with both ROS1 and ROS2. With Python and deep learning frameworks integrated, JetArm is ideal for developing sophisticated AI projects.
【High-Performance AI Robotics】 Hiwonder JetArm features 6 intelligent serial bus servos with a torque of 35KG. The robot arm is equipped with a 3D depth camera, a built-in 6-microphone array, and Multimodal AI Large Models, enabling a wide variety of applications, such as 3D spatial grabbing, target tracking, object sorting, scene understanding, and voice control.
【Depth Point Cloud, 3D Scene Flexible Grabbing】 JetArm is equipped with a high-performance 3D depth camera. Based on the RGB data, position coordinates and depth information of the target, combined with RGB+D fusion detection, Hiwonder JetArm can realize free grabbing in 3D scene and other AI projects.
【Enhanced Human Robot Interaction Powered by AI】 JetArm leverages Multimodal AI Large Models to create an interactive system centered around ChatGPT. Paired with its 3D vision capabilities, JetArm boasts outstanding perception, reasoning, and action abilities, enabling more advanced embodied AI applications and delivering a natural, intuitive human robot interaction experience.
【Advanced Technologies & STEAM Education Tutorials】 With JetArm, you will master a broad range of cutting-edge technologies, including ROS development, 3D depth vision, OpenCV, YOLOv8, MediaPipe, AI models, robotic inverse kinematics, MoveIt, Gazebo simulation, and voice interaction. We provide in-depth learning materials and video tutorials to guide you step by step, ensuring you can confidently develop your own AI powered robotic arm.
Hiwonder
Hiwonder MechDog Open Source AI Robot Dog with AI Vision & Voice Interaction, Programmable with Scratch, Arduino, and Python
【Driven by Coreless Servos】 Hiwonder MechDog is equipped with 8 high-speed coreless servos, providing exceptional torque, rapid response, robust force, and high accuracy. Its leg linkage structure enables swift, precise, agile and stable walking in any environment.
【Inverse Kinematics for Flexible Movement】 MechDog features built-in inverse kinematics that support real-time adjustments of walking direction, gait and posture, resulting in more flexible and lifelike movements.
【Cross-Platform Control with Multiple Programming Options】 Hiwonder MechDog supports control via PC software and a mobile app. It can be programmed using Python, Scratch, or Arduino, offering a variety of programming options.
【Extensive Expansion for Creativity】 MechDog can be enhanced with various sensors and electronic modules. It is also compatible with LEGO components, allowing for a broad range of creative applications.
Hiwonder
Hiwonder MentorPi A1 Raspberry Pi Robot Car – Ackerman Chassis, ROS2 AI Coding Robot with Large AI model ChatGPT, SLAM and Autonomous Driving
【Raspberry Pi 5 & ROS2 Robot Car】 Powered by a Raspberry Pi 5 and ROS2, the MentorPi A1 robot is an ideal platform for AI robot development, programmed in Python.
【Built with Advanced Components】 Equipped with closed-loop encoder motors, a TOF lidar, a 3D depth camera, and high-torque servos for optimal performance.
【Advanced AI Capabilities】 Supports SLAM mapping, path planning, vision recognition, target tracking, and more for a wide range of AI applications.
【Autonomous Driving with Deep Learning】 Utilizes YOLOv5 model training to enable road sign and traffic light recognition, helping users develop autonomous driving technologies.
【Human-Robot Interaction】 Empowered by a large AI model with ChatGPT at its core, MentorPi robot A1 uses 3D vision and AI voice to enhance its capabilities, enabling natural, context-aware human-robot interaction.
Hiwonder
Ackerman Intelligent Car/Metal Chassis/Dual Encoder Motor/Front Wheel Servo Steering/ROS Robot
- 【Powerful Hardware】The chassis is equipped with high-performance DC reduction motor, high-quality rubber tires, LD-1501MG high-torque digital servo and other components.The chassis adopts an all-metal aluminum alloy structure with anodized surface, which is beautiful and exquisite.
- 【Ackerman Steering Structure】The chassis adopts a forward Ackerman steering structure and the rear wheels travel with electronic differential, which can satisfy users' learning of Ackerman's special structure.
- 【Unlimited Expansion】The Ackermann steering car chassis is a DIY kit, and suitable for robot lovers. At the same time, it can expand electronic systems such as STM32 to achieve more creativity.
- 【Version Difference】The standard version is a single layer Ackermann chassis; The advanced version is the double layer Ackermann chassis.
- All kit versions include a 4-channel encoder driver.