Inverseur de fréquence vectoriel Lenze E82EV402_4C série 8200

Product Overview

The Lenze E82EV402_4C (E82EV402_4C) is a high-performance vector frequency inverter from the 8200-Series, engineered for precise motor control in demanding industrial environments. Rated for 4.0 kW (5.4 HP), this drive provides robust 3-phase power management for 400/500 VAC supply systems. By utilizing advanced vector control logic, the E82EV402_4C ensures superior torque regulation and speed stability, making it an essential component for applications requiring consistent performance, such as automated conveyors, industrial pumps, and ventilation systems. Its design focuses on operational reliability, allowing for seamless integration into existing infrastructure where precision motion control is critical.

Technical Configuration

The 8200-Series Vector architecture is designed to handle varying load conditions with high efficiency, ensuring that the driven motor maintains optimal performance throughout its operational speed range.

• Vector Control Strategy: Employs sophisticated control algorithms to deliver precise torque response, minimizing speed deviation and energy waste during fluctuating production cycles.
• Mains Versatility: Designed for 3-phase 400/500 VAC operation, the drive is highly adaptable to diverse international industrial power standards.
• Modular Interface: Supports the 8200-series modular ecosystem, allowing for the addition of communication gateways or expanded I/O functionality to suit specific process control needs.
• Thermal and Electrical Robustness: Built with industrial-grade components to withstand typical electrical disturbances, ensuring long-term hardware durability in manufacturing environments.

Technical Specifications

Frequently Asked Questions

Is the E82EV402_4C suitable for high-torque start-up applications?

Yes, the vector control capability of this drive allows for high starting torque, making it suitable for applications that require significant force to overcome static friction during machine start-up, such as heavy-duty conveyor belts.

How does this inverter contribute to energy savings?

By precisely matching the motor's power output to the actual load requirements, the drive minimizes losses associated with constant-speed operation. This is particularly effective in centrifugal pump and fan applications where speed reduction significantly decreases energy consumption.

Can I replace a legacy 8200-series unit with the E82EV402_4C without software changes?

As this is a functional member of the 8200-series, it is designed for compatibility. However, always ensure your drive's firmware and parameter settings are consistent with the original unit to guarantee identical machine behavior after replacement.

Engineering Integration and Operational Safety

• Cooling and Thermal Management: To ensure a long operational life, mount the drive vertically in a cabinet with adequate forced-air ventilation. Maintain a clearance of at least 100 mm above and below the unit to prevent thermal derating.
• Shielding and Grounding: Given the drive's output switching frequencies, electromagnetic interference (EMI) is a factor. Use shielded motor cables and terminate them with 360-degree clamps at the drive's PE connection. This minimizes the risk of interference with nearby sensitive sensor electronics.
• Wiring Practice: Use appropriately rated copper wire for the 4.0 kW power stage. Ensure that terminal screws are torqued to the manufacturer’s specification to prevent localized overheating of the connection point under full load.
• Safety Protocols: The E82EV402_4C should be protected by appropriately sized fast-acting fuses on the input side. In an emergency stop scenario, use a safety-rated contactor to disconnect the supply, ensuring the drive enters a safe, non-powered state.