Motor series: medium inertia, medium capacity.
Using a serial absolute / incremental encoder.
Rated output power: 2.0kw.
Rated speed: 1000rpm.
With a brake band.
Shaft end: straight shaft.
The structure of the AC servo motor stator is basically similar to the capacitor split phase single-phase induction motor.
The stator is provided with two positions of 90 degrees of mutual difference of the winding, one is the excitation winding Rf, it is always connected to the AC voltage Uf;
The other is to control the winding L, which is connected to the control signal voltage Uc.
So the AC servo motor, also known as the two servo motor.
Servo motor series: low inertia, medium / high power.
Rated output: 22.0kw.
Rated speed: 1500r/min.
Electromagnetic brake: No.
Shaft end specification: Standard (straight axis).
Voltage: 400V level.
Features: low inertia has low medium and high speed three models, suitable for different applications as a standard, 30KW and above servo motor can be installed flange or bracket MITSUBISHI HC-SF201B.
IP level: IP44
HC-SF201B
Application example:
1, injection molding machine.
2, semiconductor manufacturing equipment.
3, large material handling system.
4, stamping machine.
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 MITSUBISHI HC-SF201B. Motor series: low inertia, small capacity.
Using a serial absolute / incremental encoder.
Rated output power: 0.1kw.
Rated speed: 3000rpm.
With a brake band.
Shaft end: straight shaft.
AC servo motor and brushless DC servo motor in the function of the difference: AC servo is better, because it is a sine wave control, torque ripple small.
DC servo is a trapezoidal wave. DC servo is simple and cheap MITSUBISHI HC-SF201B. MR-J2M multi axis servo amplifier expansion unit.
1, the servo controller through the automation interface can be easily carried out the operation module and the conversion of the field bus module,
At the same time using different fieldbus modules to achieve different control modes (RS485, RS232, optical fiber, InterBus, ProfiBus),
And the control mode of general inverter is single MITSUBISHI Low inertia small capacity motor MITSUBISHI Low inertia small capacity motor.
2, the servo controller is directly connected with the rotary transformer or encoder, and the speed and displacement control loop is formed.
The general inverter can only form an open loop control system.
3 servo controller of the control parameters (such as steady-state accuracy and dynamic performance) is better than the general inverter MITSUBISHI Low inertia small capacity motor. Type: MR-J series.
Rated output: 2.0KW.
Applicable motor series: HA-FF, HA-SE.
Voltage: three phase AC220V.
It is very helpful to improve the stability of the low speed control of the servo motor.
But there is no direct effect to improve the accuracy of position control.
There are, of course, software compensation that is similar to pitch compensation,
Can improve the physical resolution of the single lap, so as to improve the accuracy of positioning control.
This can be effectively used in the use of the robot conntrol of the indexing table HC-SF201B.
It is also because of the application of splicing technology,
The rotary encoder will be more widely used in the high precision servo control in the harsh environment.
The use of rotary encoder with 224/ in the servo motor has been used in the servo motor MITSUBISHI HC-SF201B.
Encoder serial communication system, the communication frequency can only be limited to 10M.