LK Automation Limited LK Automation Limited
Brand: MITSUBISHI
Go Back >> Product Catalogues
HA-FE43B servo motor
MITSUBISHI HA-FE43B Manual And Instructions
HA-FE43B datasheetPDF datasheet

MITSUBISHI HA-FE43B Product information and technical parameters:
Brand: MITSUBISHI
Name: servo motor
Model: HA-FE43B
Type: HA-FE series.
Rated output: 0.4KW.
Rated speed: 3000r/min.
Electromagnetic brake: there.
Control complex, easy to achieve intelligent,
The electronic commutation method is flexible and can be changed by square wave or sine wave.
Motor maintenance free, high efficiency, low operating temperature,
Electromagnetic radiation is very small, long life, can be used in a variety of environments.
AC servo motor is brushless motor, which is divided into synchronous and asynchronous motor,
Synchronous machines are commonly used in motion control,
Its power range, you can do a lot of power.
Large inertia, the maximum rotation speed is low, and with the increase of power and rapid reduction.
So it is suitable for the application of low speed and stable operation.
The rotor of the servo motor is permanent magnet,
Drive controlled U/V/W three phase electric electromagnetic field,
The rotor rotates under the action of the magnetic field,
At the same time the motor comes with the encoder feedback signal to the drive,
According to the feedback value and the target value, the driver is compared,
Adjust the rotor rotation angle.
The accuracy of the servo motor is determined by the accuracy of the encoder.

Motor series: medium inertia, medium capacity.
Using a serial absolute / incremental encoder.
Rated output power: 1.5kw.
Rated speed: 2000rpm.
With the brake: without.
Shaft end: straight shaft.
The rotor of AC servo motor is usually made of squirrel cage, but in order to make the servo motor has a wide range of speed regulation, linear mechanical properties,
Without the "rotation" phenomenon and the performance of the fast response, it is compared with the ordinary motor,
The two characteristics of rotor resistance and moment of inertia should be provided HA-FE43B HA-FE43B
At present, there are two kinds of rotor structure, one is the squirrel cage rotor, which is made of conductive material with high resistivity,
In order to reduce the moment of inertia of the rotor, the rotor is slender HA-FE43B. Servo motor series: low inertia, medium power.
Rated output: 3.0kw.
Rated speed: 2000r/min.
Electromagnetic brake: with.
Shaft end specification: Standard (straight axis).
Features: low inertia is widely used in general machinery.
IP level: IP65.
Application example:
1, roller type feeding equipment.
2, loading / unloading equipment HA-FE43B.
3, high frequency transmission system.
Abundant motor product line can optimize the performance of the machine.
Has a rich motor product line including a rotary servo motor, linear servo motor and direct drive motor. Type: HA-ME series.
Rated output: 0.75KW.
Rated speed: 3000r/min.
Electromagnetic brake: No.
Control complex, easy to achieve intelligent,
The electronic commutation method is flexible and can be changed by square wave or sine wave.
Motor maintenance free, high efficiency, low operating temperature,
Electromagnetic radiation is very small, long life, can be used in a variety of environments.
AC servo motor is brushless motor, which is divided into synchronous and asynchronous motor,
Synchronous machines are commonly used in motion control,
Its power range, you can do a lot of power.
Large inertia, the maximum rotation speed is low, and with the increase of power and rapid reduction.
So it is suitable for the application of low speed and stable operation.
The rotor of the servo motor is permanent magnet,
Drivve controlled U/V/W three phase electric electromagnetic field,
The rotor rotates under the action of the magnetic field,
At the same time the motor comes with the encoder feedback signal to the drive,
According to the feedback value and thhe target value, the driver is compared,
Adjust the rotor rotation angle HA-FE43B HA-FE43B.
The accuracy of the servo motor is determined by the accuracy of the encoder.


...More relevant models >>>>