MITSUBISHI motor universal AC servo amplifier MELSERVO-J3 series.
Rated output: 22.0kw.
Interface type: SSCNET type III fiber communication.
Power specification: three phase AC400V.
High speed serial communication between the SSCNET and the servo amplifier by using the fastest up to 0 MR-J4-15KB4-RJ.44ms communication cycle,
A fully synchronous control systtem can be constructed.
It is only necessary to insert the special optical fiber into the joint to form SSCNET III network, which greatly reduces the wiring work and reduces the possibility of false wiring MR-J4-15KB4-RJ.
Due to the adoption of the optical fiber communication, the anti noise ability can be greatly improved and the long distance wiring of 50 meters (maximum 800 meters x 16 axes) can be realized MITSUBISHI MR-J4-15KB4-RJ.
A servo amplifier to meet the full closed loop control function MR-J3-B-RJ006 MR-J4-15KB4-RJ.
Suitable for mechanical servo optimization and adjustment!
More advanced optimization adjustment function and control function to maximize mechanical properties MITSUBISHI MR-J4-15KB4-RJ. MITSUBISHI motor universal AC servo amplifier MELSERVO-J3 series.
Rated output: 1.0kw.
Interface type: SSCNET type III fiber communication.
Special specification: suitable for direct drive servo motor.
Power specification: three phase AC200V.
Direct drive system suitable for high speed and high precision!
High speed operation can be realized by direct drive (2m/s), and the traditional mechanical transmission can not achieve such a high speed MITSUBISHI MR-J4-15KB4-RJ.
The full closed loop control can be realized by using the position feedback signal from the load side encoder, such as the linear encoder.
The use of a flexible linear servo motor drive components can make the system more compact structure.
The primary side of the linear servo motor (motor coil) is sliding along the secondary side (permanent maagnet) of the motor,
So linear servo motor is especially suitable for large range of applications MR-J4-15KB4-RJ. In addition, linear servo motor can be connected in series,
Especially for large systems in two axes for high precision synchronous operation.