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Phone: +86 16626708626Description
The MotoDrive EPL10200 functions as a high-performance servo drive, acting as the interface between the control system and the servo motor. It receives command signals from a PLC or motion controller, processes them, and adjusts the motor’s operation to achieve the desired speed, position, or torque. The drive uses advanced feedback mechanisms, such as encoder signals, to continuously monitor the motor’s performance and make real-time adjustments, ensuring precise control.
EPL10200
What sets the MotoDrive EPL10200 apart is its adaptive control algorithm, which automatically compensates for factors like friction and load variations, maintaining optimal performance without manual tuning. It connects to the control network via standard industrial communication protocols, allowing for seamless integration into larger automation systems and enabling centralized monitoring and control.
EPL10200
Technical specifications:
Model NumberEPL10200
Brand MotoDrive Systems
Type Servo Drive
Input Voltage 3-phase 400V AC
Operating Temp Range -10°C to +55°C
Mounting Style Panel Mount
Dimensions 220mm x 150mm x 100mm
Weight 2.8kg
Interface/Bus EtherCAT, Profibus DP
Compliance CE, RoHS, UL 508C
Supported Protocols EtherCAT, Modbus RTU, Profibus
Typical Power Draw 1.2kW (nominal)
Contact Us
Phone:+86 16626708626
WeChat/WhatsApp:+86 16626708626
Email: 3772179818@qq.com
EPL10200
Main features and advantages:
Choosing the MotoDrive EPL10200 brings significant real-world benefits to industrial operations. Its precise motion control capabilities reduce product defects by ensuring consistent part positioning and smooth handling, which is especially critical in industries like electronics manufacturing where delicate components are involved. The drive’s adaptive algorithm minimizes mechanical stress on motors and connected machinery, extending their lifespan and reducing maintenance costs. The MotoDrive EPL10200 also enhances energy efficiency by optimizing motor power consumption based on load demands, lowering overall energy usage in the facility. Additionally, its easy integration with existing control systems reduces setup time and engineering overhead, allowing teams to focus on optimizing production processes rather than troubleshooting drive compatibility.
EPL10200
Application areas:
The MotoDrive EPL10200 excels in a range of industrial applications where precise motion control is essential. In packaging facilities, it regulates the speed of conveyor belts and packaging machinery, ensuring that products are aligned correctly for sealing and labeling, reducing waste from misaligned packages. In automotive component manufacturing, the MotoDrive EPL10200 controls the movement of robotic arms used in welding and assembly, where precise positioning is critical to ensuring strong, accurate joints. It is also widely used in printing presses, where it maintains consistent roller speeds to prevent image distortion and ensure high-quality prints. In each of these settings, the drive’s ability to deliver smooth, synchronized motion under varying loads makes it an invaluable asset.
Related products:
Before installing the MotoDrive EPL10200, verify that the motor it will control is compatible with the drive’s power rating and feedback requirements. Check that the input power supply is stable and within the specified voltage range, and ensure that the control system’s communication protocol matches one of the drive’s supported protocols. Confirm that the mounting location provides adequate cooling, as the drive generates heat during operation—allow at least 50mm of clearance around the unit for airflow.
During installation, follow the wiring diagrams carefully to avoid incorrect connections, which could damage the drive or motor. For ongoing maintenance, regularly inspect the drive’s status LEDs to monitor operation—steady green indicates normal performance, while flashing codes signal issues like overcurrent or overheating. Periodically check cable connections for tightness and signs of corrosion, and schedule annual calibration checks to ensure feedback signals remain accurate.
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