Lenze EVF9323-EVV004 Variateur de fréquence vectoriel série 9300

Product Overview

The Lenze EVF9323-EVV004 (EVF9323-EVV004) is a high-performance vector frequency inverter from the 9300-Series, engineered for demanding industrial motor control applications. Rated for 1.5 kW with a 3-phase 400 / 480 V mains connection, this drive utilizes sophisticated vector control algorithms to provide exceptional torque regulation and speed stability across the entire operational range. By minimizing speed deviation under fluctuating load conditions, it ensures consistent output quality in critical processes, including conveyor synchronization, machine tool spindles, and precise material winding systems.

Technical Configuration

This vector controller is built for environments where high-dynamic performance and accuracy are prioritized over basic V/f control schemes.

• Vector Control Logic: Offers superior torque control at low speeds and improved response to load transients compared to standard drives, allowing for tighter process coupling.
• Mains Flexibility: Engineered to operate reliably across a dual-voltage range (400 / 480 V), ensuring compatibility with diverse international power grid standards.
• Hardware Architecture: Designed without internal interference suppression (EMC filter), providing flexibility for installations where external or centralized filtering solutions are already implemented at the cabinet level.
• Modular Expansion: Consistent with the 9300-Series design, it supports a wide variety of communication modules (Profibus, CANopen, etc.), allowing for seamless integration into existing fieldbus-based automation networks.

Technical Specifications

Frequently Asked Questions

Why does this model exclude interference suppression measures?

The EVF9323-EVV004 is designed for applications where the system integrator provides external EMC filtering or where specific regulatory requirements mandate the use of dedicated, external line filters. This modular approach reduces the unit's size and footprint.

Can this drive be used in high-precision torque applications?

Yes, the vector control capability makes this drive suitable for applications requiring high-precision torque regulation, provided it is correctly tuned to the motor's specific parameters. Ensure that motor auto-tuning is performed during commissioning for optimal performance.

Is this drive compatible with standard asynchronous motors?

Absolutely. It is designed to drive standard 3-phase induction motors. For best results in vector mode, ensure the motor nameplate data (voltage, current, frequency, and slip) is entered accurately into the drive's parameter set.

Engineering Integration and Operational Safety

• EMC Compliance: Since this unit lacks integrated suppression, it is mandatory to install an external RFI/EMC filter if your application must comply with CE or local electromagnetic compatibility directives. Failure to do so may result in excessive conducted emissions.
• Cable Shielding: To maintain the integrity of the vector control loops, use shielded motor cables and ground the shield at both the drive and the motor terminal box using 360-degree clamps.
• Installation Clearance: Mount the drive vertically with at least 100 mm of space above and below the housing to facilitate airflow through the cooling channels. If the drive is mounted in a sealed enclosure, ensure the cabinet is rated for sufficient heat dissipation based on the drive’s power loss.
• Parameter Tuning: The drive requires accurate motor data for vector control. Always perform a static or rotating auto-tuning procedure upon initial installation to determine the motor's equivalent circuit parameters, which is vital for precise speed and torque control.