500W/1000W Electric Canbus Dual Drive Controller With RS485 Work for Two Motors

The 500W/1000W Electric Dual Drive Controller is a high performance device designed to manage and co-ordinate two motors simultaneously. Equipped with CANbus communication and RS485 compatibility, the controller ensures seamless integration into advanced systems that require precise motor control. Its dual-drive capability makes it ideal for applications that require synchronised operation, such as autonomous robot chassis or other automated machinery.One of the product's outstanding features is its ability to handle two independently controlled motors, allowing for flexible configuration in a variety of settings.The controller supports 500W and 1000W power outputs that can be adapted to different load requirements, which is ideal for applications such as small and medium-sized robots and industrial automation systems, providing enough power for demanding tasks without overloading.Supports CANbus and RS485 for reliable data transmission in noisy environments, ensuring system integration.Closed Loop Control: Includes encoder feedback for precise speed and position, which is important for application accuracy.Designed for wheel servo motors, commonly used in robotics and mobility to ensure compatibility. 500W Electric Dual Drive Controller With RS485 Drive Model MXES-W100100D120HN-V1 Ratings Continuous output current M1:100A M2:100A Main circuit Input voltage range(V) 20 to 120V Maximum output current(A) 100A Specifications Control method SVPWM sine wave current drive method Send back information Encoders Conditions of Use Use/storage temperature 0~ +50℃ /-25 ~ +55℃ Use/storage humidity Below 90%RH (no condensation) Vibration/shock resistance 4.9m/s² /19.6m/s2 Protection level IP67 Protective function Over-current, over-load,under-voltage, over-voltage,over-temperature Gas pedal Input Range 0~5V   1000W Electric Dual Drive Controller With RS485 Drive Model MXES-W150150D60HN-V1 Ratings Continuous output current M1:150A M2:150A Main circuit Input voltage range(V) 20 to 60V Maximum output current(A) 150A Specifications Control method SVPWM sine wave current drive method Send back information Encoders Conditions of Use Use/storage temperature 0~ +50℃ /-25 ~ +55℃ Use/storage humidity Below 90%RH (no condensation) Vibration/shock resistance 4.9m/s² /19.6m/s2 Protection level IP67 Protective function Over-current, over-load,under-voltage, over-voltage,over-temperature Gas pedal Input Range 0~5V CANbus dual drive controllers are particularly well suited to autonomous robot chassis, where precise control of both motors is essential for mobility and navigation. Autonomous robots, such as those used in warehouses, research laboratories or delivery services, often utilise a differential drive system, where two motors control the left and right wheels for forward, backward and turning movements. The controller's dual-channel capability enables synchronised operation, ensuring smooth navigation and accurate positioning, which is essential for tasks such as obstacle avoidance or path planning. In addition to basic motion, the controller's CANbus and RS485 communication protocols support integration with higher-level control systems such as Robot Operating System (ROS) or industrial automation software, facilitating the exchange of real-time data for sensor feedback and command execution. Its closed-loop control, possibly with encoder feedback, ensures precise velocity and position control, reducing slippage and improving accuracy, which is critical for autonomous robots operating in dynamic environments. Signals and Connections Wires M1(Motor 1) M2(Motor 2) Serial Number Define Description of Definitions Serial Number Define Description of Definitions Serial Number Define Description of Definitions Serial Number Define Description of Definitions 1 Y1 Standby 2 +5V 5V Power Positive 1 Y2 Standby 2 +5V 5V Power Positive 3 X1 Standby 4 A1 Coder 3 X2 Standby 4 A2 Coder 5 HC1 Motor Hall 6 B1 Coder 5 HC2 Motor Hall 6 B2 Coder 7 HB1 Motor Hall 8 Z1 Coder 7 HB2 Motor Hall 8 Z2 Coder 9 HA1 Motor Hall 10 GND Power supply negative pole 9 HA2 Motor Hall 10 GND Power supply negative pole   M1(Motor 1) M2(Motor 2) Serial Number Define Description of Definitions Serial Number Define Description of Definitions U Motor Phase Line U Motor Phase Line V V W W Maintenance and Precautions Maintenance of this controller includes regularly checking connections and communication lines to ensure reliable operation, checking for firmware updates to maintain compatibility with the system, and ensuring proper voltage and current ratings to prevent overloads. Users should also consider the controller's compatibility with motors and system architecture to ensure proper integration for safety and performance, especially in automated robot chassis, where malfunctions can affect navigation and operation.