HA-FF13 MITSUBISHI Low inertia small capacity motor HA-FF13

Motor series: medium inertia, medium power.
Rated output power: 1.0kw.
Rated speed: 3000r/min.
Whether to bring the brakes: with.
Shaft end: Standard (straight).
Protection level: IP65 (IP67).
Features: medium inertia from low speed to high speed three modes for selection, suitable for different applications HA-FF13.
Application examples: transmisssion 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 HA-FF13.
All motor dimensions are the same as before and all are compatible with the wiring. Servo motor series: low inertia, medium / high power.
Rated output: 37.0kw.
Rated speed: 1000r/min.
Electromagnetic brake: No.
Shaft end specification: Standard (straight axis) HA-FF13.
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.
IP level: IP44.
Application example:
1, injection molding machine MITSUBISHI HA-FF13.
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 HA-FF13.
Motor series: low inertia, small capacity.
Using a serial absolute / incremental encoder.
Rated output power: 0.1kw.
Rated speed: 3000rpm.
With the brake: without.
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 MITSUBISHI HA-FF13.
DC servo is a trapezoidal wave. DC servo is simple and cheap. Motor series: low inertia, medium capacity.
Using a serial absolute / incremental encoder.
Rated output power: 1.0kw.
Rated speed: 3000rpm.
With a brake band.
Shaft end: straight shaft.
Performance comparison of servo motor and stepping motor.
Stepper motor as an open-loop control system, and modern digital control technology has the essential link.
In the current domestic digital control system, stepping motor is widely used.
With the emergence of digital AC servo system, AC servo motor is more and more used in digital control system.
In order to adapt to the development trend of digital control, most of the motion control system adopts stepping mmotor or full digital AC servo motor as executive motor HA-FF13.
Although they are similar in control mode (pulse train and directional signal), there are great differences in performance and application.
The use performance of the two are compared.