LK166
Home >> Products >> MITSUBISHI >> Servo driver/Servo motor >> MR-J2 series >> HC-(KF/SF/MF/RF/UF),HA-(LF/FF) motor >> HC-MF43 MITSUBISHI Ultra low inertia small capacity motor

HC-MF43 MITSUBISHI Ultra low inertia small capacity motor

Brand: MITSUBISHI
Name: Ultra low inertia small capacity motor
Model: HC-MF43
Motor series: ultra low inertia, small capacity.
Using a serial absolute / incremental encoder.
Rated output power: 0.4kw.
Rated speed: 3000rpm.
With the brake: not with brake.
Without GB.
Shaft end: straight shaft.
The rotor of the servo motor is a permanent magnet, and the control of the servo amplifier is controlled by the U/V/W three-phase electric electromagnetic field,
The rotor rotates under the action of the magnetic field, and the encoder feedback signal of the motor is given to the driver,
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 resolution of the encoder.

The length of the line: 2M.
IP level: IP65.
Relay type.
Bending life: standard.
The cable is not shielded.
Electric motor power supply cable (motor side), for HF-KP/HF-MP series (motor shaft with side extraction). Motor series: medium inertia, medium power.
Rated output power: 2.0kw.
Rated speed: 2000r/min HC-MF43 MITSUBISHI.
Whether to bring the brakes: with.
Shaft end: Standard (straight).
Protection level: IP65 (IP67) HC-MF43
Features: medium inertia from low speed to high speed three modes for selection, suitable for different applications.
Application examples: transmission machinery, robots, X-Y working platform.
High resolution encoder 131072p/rev (17 bit).
The encoder with high resolution ensures excellent performance and stability at low speed HC-MF43 MITSUBISHI.
All motor dimensions are the same as before and all are compatible with the wiring. Drive unit.
MITSUBISHI universal AC servo amplifier MELSERVO-J4 series.
Rated output: 30kw.
Interface: SSCNET III /H.
Power supply: three phase AC200V.
Special specifications: full closed control 4 wire / support mechanical end encoder ABZ phase input / support positioning mode HC-MF43 MITSUBISHI.
Support position control, speed control, torque control.
Position control to follow the position instructions.
When the control is inserted, the position control is performed.
Speed control follows the speed command to control the speed within a certain range.
Torque control to follow the torque command to control the stable torque.
Function of switching amplitude. The increase in the process of switching and stopping,
And in the operation of the use of the switching signal, switching growth. Servo motor series: low inertia, medium / high power.
Rated output: 2.0kw.
Rated speed: 3000r/min.
Electromagnetic brake: No.
Shaft end specification: Standard (straight axis).
Features: low inertia for high speed / acceleration and deceleration operation occasions.
IP level: IP67.
Application example:
1, food processing machinery.
2, printing machine.
3, injection molding machine (11KW, 15KW).
4, large press machine (11KW, 15KW).
The protection level of the HF-SP/HF-JP series servo motor is IP67 (except the shaft part).
Low inertia of the power servo motor (0.5kW ~ 9kW), the maximum speed: 6000r/min (rated speed: 3000r/min),
Suitable for high frequency positioning and acceleration / deceleration operations, especially for food processing machines and printing machines.
Low inertia, high power, no cooling fan servo motor (11kW and 15kW), maximum speed: 3000r/min (rated speed: 1500r/min).
The motor structure is more compact due to the adoption of the non cooling fan design, and the coonnection is reduced by using the power source connector HC-MF43.
(compared with the HF-LP series servo motor with the same power, the volume is reduced by about 46%, and the weight is reduced by about 34%,
Suitable for high frequency positioning annd acceleration / deceleration operations, especially for injection molding machines and large presses HC-MF43.
HF-JP703 (4) /903 (4) maximum speed: 5000r/min.


...More relevant models >>>>