ABB 3HAC17484-otational ac motor M8

ABB 3HAC17484-otational ac motor M8

product overview

Model analysis:

3HAC17484: A prefix for ABB robots or industrial motors, commonly used in ABB servo motors or AC induction motor products.

M8: represents the motor series, power level, or compatible model.

Product positioning:

Belonging to the category of Rotating AC Motor, it can be used in industrial robots, automated production lines, precision machinery drives, and other scenarios, and has the characteristics of high precision and high reliability.

Brand background

As a leading global manufacturer of industrial motors, ABB's motor products include AC induction motors, servo motors, DC motors, etc., which are widely used in fields such as robots, machine tools, and conveyor systems.

Technical advantages: high efficiency and energy saving, low noise, long lifespan, supporting multiple control protocols (such as Profinet, EtherNet/IP), compatible with ABB and third-party control systems.

Conventional specification parameters

Parameter category: Typical value

Power range: possibly 0.1-5kW

Voltage/Frequency: Three phase 380-480V AC, 50/60Hz

Speed: The maximum speed can reach 3000-6000 RPM

Protection level: IP54/IP65

Insulation grade: F grade (temperature resistance 155 ° C)

Interface: Supports encoder feedback (such as EnDat 2.2, SSI), brake interface

Cooling method: self cooling or forced air cooling

Core functions

High precision drive:

Suitable for scenarios that require precise position control and speed adjustment, such as robot joint drive and precision machining machine tools.

Efficient and energy-saving:

Adopting permanent magnet synchronous or induction motor technology, the efficiency level can reach IE3/IE4, which meets energy efficiency standards.

Flexible control:

Support vector control (VC), direct torque control (DTC), compatible with ABB frequency converters (such as ACS880 series).

Reliability design:

High protection level, wear-resistant bearings, moisture-proof insulation treatment, suitable for harsh industrial environments.

Working principle

Electromagnetic induction principle:

The stator winding is fed with three-phase AC power to generate a rotating magnetic field, and the rotor conductor cuts the magnetic field lines to generate induced current, driving the rotor to rotate.

Control method:

By adjusting the power frequency and voltage through a frequency converter, precise control of motor speed and torque can be achieved.

Key advantages

High dynamic response: suitable for fast start stop and high-speed motion scenarios (such as robot grasping actions).

Low maintenance requirements: maintenance free design, long lifecycle, and reduced downtime costs.

Compact design: small size, high power density, saving installation space.

Strong compatibility: compatible with ABB robot controllers (such as IRC5) and third-party automation systems.

Application scenarios

Industrial robot:

As a robot joint motor, it is used for axis drive of IRB series robots to achieve precise motion control.

automatic production line:

Drive conveyor belts, sorting equipment, packaging machinery, etc., supporting high-speed and continuous operation.

Precision machining equipment:

CNC machine tools, printing machines, and textile machinery require high speed accuracy and stability.

In the field of new energy:

Wind power variable pitch system, electric vehicle test bench, etc., to meet high reliability requirements.

precautions

Installation and wiring:

Ensure the coaxiality between the motor shaft and the load to avoid mechanical vibration;

Wiring must comply with EMC standards and shield cables to reduce interference.

Environmental requirements:

Working temperature: -10 ° C~+40 ° C (if exceeded, forced cooling is required);

Humidity: ≤ 90% RH (no condensation).