Product Description

The MAD130B-0250-SA-S2-AK0-35-N1 is a type of electric motor called a servo motor, which utilizes alternating current (AC) to operate and provides precise control over its position and velocity. This motor is designed to provide accurate and reliable performance, making it suitable for various industrial applications.

During operation, the motor generates a significant amount of heat, which can damage its internal components if not dissipated. To prevent this, the motor has a forced cooling system, which includes a blower (fan) installed on the rear side of the motor. This blower helps to circulate air and cool the motor, ensuring optimal performance and preventing overheating. The blower is a 3-phase type, meaning it requires three separate power supplies to operate. It can run on different input voltages, including 3 x 400V lines with a 15% voltage deviation, and 3 x 440V lines with a 10% voltage deviation. The recommended operating frequency for the blower is 50 or 60 Hz, which is a measure of how many cycles per second the blower operates at. This flexibility in input voltage and frequency makes the motor suitable for various applications and environments.

The motor's power consumption varies depending on the input voltage and operating conditions. It can consume between 139W and 208W of power, with a corresponding current draw of 0.2-0.25A (amperes). It's important to monitor the blower's power and current consumption to prevent overheating and damage. The allowable current deviation for the axial blower is up to 20% of the specified values, meaning the current draw can vary by up to 20% above or below the specified values without causing damage to the motor. This flexibility in power consumption and current deviation makes the motor suitable for various applications and environments.

Despite its power consumption, the blower delivers an impressive airflow rate of 1000 m3/h (cubic meters per hour), helping to effectively cool the motor and prevent damage. This high airflow rate ensures optimal performance and prevents overheating, making the motor suitable for demanding industrial applications. Additionally, the motor's connectors are conveniently located on the A-side (front side) of the motor, making it easy to plug in and plug out cables and connectors, ensuring easy maintenance and repair.