LK Automation Limited LK Automation Limited
Brand: OMRON | MITSUBISHI | Proface | Mennekes | Yaskawa
Go Back >> Product Catalogues
Low inertia small capacity motor HC-KF053 MITSUBISHI HC-KF053
Brand: MITSUBISHI
Name: Low inertia small capacity motor
Model: HC-KF053
Motor series: low inertia, small capacity.
Using a serial absolute / incremental encoder.
Rated output power: 0.05kw.
Rated speed: 3000rpm.
With the brake: not with brake.
Without GB.
Shaft end: straight shaft.
A servo motor is an engine that controls the operation of the mechanical components in the servo system.
Servo motor can make the control speed, position accuracy is very accurate, can be converted to torque and speed voltage signals to drive the control object.
Servo motor rotor speed is controlled by the input signal, and can quickly response,
In the automatic control system, used as actuators, and electromechanical time constant, high linearity, initiating voltage characteristics,
The signal can be converted into a motor shaft on the angular displacement or angular velocity output.
Divided into DC and AC servo motor two major categories, the main features are,
When the signal voltage is zero, there is no rotation,
The speed increases with the increase of the torque and the speed decreases.

Servo motor series: low inertia, medium and large capacity.
Rated output: 1.0kw.
Rated speed; 3000r/min.
Electromagnetic brake: No.
Power supply: 400V.
Most suitable for medium and large capacity, low inertia type products in high frequency operation or acceleration and deceleration operation.
Improve the environmental performance of HG-SR, HG-JR series of products using IP67 MITSUBISHI HC-KF053.
High speed & high torque HC-KF053 Shorten the positioning time, achieve high-speed equipment.
100 scene, there are 100 different drive control.
In order to meet the needs of the diverse and detailed field,
MR-J4 product line configuration, providing a wealth of servo amplifier and servo motor products.
Can meet the different needs of different customers MITSUBISHI HC-KF053. The length of the line: 10M.
IP level: IP65.
Direct type.
Bending life: high bending life.
Connector kit for motor electromagnetic brake.
Cable for electromagnetic brake, for HF-KP/HF-MP series (motor shaft with side extraction). 1 axis servo amplifier.
MITSUBISHI general AC servo amplifier MELSERVO-J4 series.
Rated output: 0.6kw.
Interface: SSCNET III /H.
Power supply: three phase AC200V MITSUBISHI HC-KF053.
Servo amplifier supporting SSCNET III /H.
Complete synchronization system capable of using high speed serial optical communication.
Can be combined with the servo system controller to maximize the performance of the servo system HC-KF053 MITSUBISHI.
2 low frequency vibration can be suppressed at the same time by supporting the seismic algorithm of 3 inertial equipment HC-KF053 MITSUBISHI.
Configurator2 MR to achieve convenient adjustment.
Effectively restrain the low frequency aftershock effect produced by the front end of the boom or the main body of the device 100Hz.
Can effectively shorten the time to control the stability of the aftershock.
In the XY design of trajectory control, improve the accuracy of arc track HC-KF053 MITSUBISHI.
At the same time, it can effectively control the phenomenon of quadrant protrusion caused by the rotation direction of the servo motor, which is caused by friction and twisting.MITSUBISHI general purpose AC servo amplifier MR-J2 series.
Rated output: 1.0kw.
Interface: single axis positioning built-in type.
Voltage: three phase AC200V.
High response.
High precision positioning.
High level automatic tuning, can easily achieve gain settings.
Adopting adaptive vibrationn control and reducing vibration HC-KF053.
With a computer combination, using the software to achieve the best tuning.
Pulse sequence input (position, speed control), analog input (speed, torque control) two purposes.
Simple operation.
Thhe socket is arranged on the front panel, and is convenient to connect MITSUBISHI HC-KF053.
Using the socket, wiring easy.
Setting method and J2Super with interchangeable.


...More relevant models >>>>