Product Description

The MAC063A-0-ES-4-C/095-A-1/WI574LV motor is part of the MAC Permanent Magnet series, offering industry-level precision and power delivery. With its 063 frame size and flange mounting configuration, it can easily integrate into machinery design and accommodate movement of linked components. As a self-cooled motor, no additional ventilation is required, allowing for more compact machinery footprints. Rated at IP65, dust and water infiltration is no concern, enabling reliable operation in demanding industrial environments.

A continuous torque output of 4.0 Nm provides the force needed to complete heavy-lift and high-speed tasks. At 6000 rpm maximum speed, it supports fast production cycles and throughput. This kind of torque and throttle capacity is well-suited for applications involving conveyance, converting, assembly, and material handling. Variable load demands are smoothly handled within its operational envelope. Tracking position with sub-micron accuracy down to stopping is made possible through its resolver feedback element. Tight control ensures alignment tolerances are consistently met and cut-to-length precision is maintained for repetitive feeding applications. Electromagnetic commutation for torque production is directly coordinated with position sensing to minimize lag between command inputs and motor response.

Thermal Class F certification permits extended duty cycles with less risk of overheating, even when fully loaded for prolonged periods. Operating efficiency is high while component durability is better protected against heat-related degradation over time. Infrequent downtime keeps production flowing. Weighing only 5 kilograms, its compact yet rugged design holds steady over years of continuous shifts. Smooth torque delivery is stress-free on driven transmission components and linked assemblies too. Standard power connectors make setup simplicity itself. Its IP65 protection shields the motor from airborne and liquid contaminants that could interfere or damage internal components. Maintenance needs are reduced while a long functional lifespan is supported. Costs associated with unscheduled repairs or early replacement are minimized.