LK Automation Limited LK Automation Limited
Brand: MITSUBISHI
Go Back >> Product Catalogues
HF-JP353 | MITSUBISHI Low inertia medium / high power servo motor HF-JP353
MITSUBISHI HF-JP353 Manual And Instructions
HF-JP353 datasheetPDF datasheet

MITSUBISHI HF-JP353 Product information and technical parameters:
Brand: MITSUBISHI
Name: Low inertia medium / high power servo motor
Model: HF-JP353
Servo motor series: low inertia, medium / high power.
Rated output: 3.5kw.
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 connection is reduced by using the power source connector.
(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 and acceleration / deceleration operations, especially for injection molding machines and large presses.
HF-JP703 (4) /903 (4) maximum speed: 5000r/min.

Type: general purpose AC servo amplifier MR-E series.
Rated output: 0.2kw.
Interface type: general purpose pulse interface.
KH003 special mark for Super MR-E.
High performance and easy to operate, reduce work load.
Enhanced system cost performance.
High performance, high precision positioning (servo motor encoder resolution: 131072) MITSUBISHI HF-JP353.
High response.
Suppression of vibration by adaptive vibration suppression control HF-JP353
Using personal computer and servo setup software to optimize tuning.
Has 2 types of interfaces:
Position control and speed control with pulse train interface.
The analog input interface is used for speed control and torque control. Servo motor series: low inertia, medium and large capacity MITSUBISHI HF-JP353.
Rated output: 3.5kw.
Rated speed; 3000r/min.
Electromagnetic brake: incidental.
Power supply: 200V.
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.
High speed & high torque. Shorten the positioning time, achieve high-speed equipment MITSUBISHI HF-JP353.
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 motor universal AC servo amplifier MELSERVO-J3 series.
Rated output: 3.5kw.
Interface type: SSCNET type III fiber communication.
Special specification: suitable for linear servo motor.
Power specification: three phase AC200V.
More advanced real-time automatic tuning by setting response values,
Including the position gain and the gain of speed, all the gain can be adjusted automatically.
32 segment response level can be set.

Advanced vibration suppression control HF-JP353.
An optimal vibration control filter value is automatically set by the automatic tuning function to effectively suppress the vibration of the 100Hz frequency that occurs when the driving part stops.
TThe automatic tuning function can effectively restrain the vibration of the end of the mechanical arm and reduce the residual vibration in the machine HF-JP353.


...More relevant models >>>>