Servo motor SGMGH type.
Rated speed: 1500r\/min.
Power: 0.45kw.
Power supply voltage: three phase AC200V.
Serial encoder: 17 bit absolute value.
Design sequence: high precision machine tool.
Shaft end: taper 1\/10, with parallel key.
Optional parts: with oil seal, DC90V brake.
High speed feed series: high speed running when no load.
Alarm can only turn off the main circuit power supply, easy to maintain.
Parameter setting device.
The parameters can be directly entered by the servo drive body.
Saving wiring.
Using a serial encoder, encoder wiring number than the original product reduced by 1\/2.
Multi in one control: the use of the parameters of the switch can not use the torque, position, speed control
Sigma -V series servo motor SGMGV.
Rated output: 11kw.
Power supply voltage: AC400V.
Serial encoder: 20 bit absolute value type (standard).
Design sequence: Standard (bolt for silver).
Shaft end: straight shaft, without keyway (standard).
Optional: with hold brake (DC90V).
A variety of mechanical feed shaft drive (high speed feed) YASKAWA SGMGH-05A2C3D.
Variety is complete (300W ~ 15kW, with hold brake)
SGMGH-05A2C3D
Equipped with a high resolution serial encoder (20 bit).
Standard using IP67.
Use example:
Machine tool。
Transport machinery.
Handling machinery。
Food processing machinery.
Rating and specifications:
Rated time: continuous.
Vibration level: V15.
Insulation resistance: DC500V, 10M, or above.
Using ambient temperature: 0 ~ 40 degrees C YASKAWA SGMGH-05A2C3D.
Excitation mode: permanent magnet type.
Installation method: flange type.
Heat resistance grade: F.
Insulation withstand voltage: AC1500V 1 minutes (200V), AC1800V 1 minutes (400V).
Protection mode: fully enclosed self cooling type IP67 (except shaft through part).
The use of environmental humidity: 20 ~ 80% (not dew).
Connection mode: direct connection.
Rotation direction: clockwise direction (CCW) rotation at the load side under the direction of rotationServo motor SGMSH type YASKAWA SGMGH-05A2C3D.
Rated speed: 3000r\/min.
Power: 5.0kw.
Power supply voltage: three phase AC200V.
Serial encoder: 17 bit relative value.
Design sequence: A.
Shaft end: straight shaft without key.
Optional parts: with oil seal, DC24V brake YASKAWA Motor for high precision machine tool.
Ultra high power response series: the need for small inertia, high torque YASKAWA Motor for high precision machine tool.
Online automatic adjustment, automatic measurement of mechanical properties, set the required servo gain.
Even if the initial contact, can also be completed in a short time the best set.
Automatic identification of the motor, servo drive automatic identification of servo motor power, specifications, automatic setting motor parameters YASKAWA Motor for high precision machine tool.
Standard for regenerative resistance connection terminals.
Connecting terminal equipped with external regenerative resistance,
Convenient connection regenerative resistorSigma -v series servo unit SGDV.
Maximum applicable motor capacity: 1kw.
Power supply voltage: three phase AC400V.
Design sequence: A type.
Interface: MECHATROLINK- II communication command type (rotary servo motor).
Matching (hardware): base mounting type (standard).
Realize real time communication.
The maximum transmission speed of 10Mbps and can be set to the communication cycle 250 s ~ 4ms,
Achieved a maximum of 30 stations in the high speed control. Through the high speed of communication,
Can send and receive all kinds of control information in real time.
Energy saving and high efficiency.
A maximum of 30 stations can be connected to the communication lines, can significantly reduce the wiring costs and time.
The command connector of the upper controller only needs 1,
Pullse generator for D/A converter or position instruction without speed / torque command SGMGH-05A2C3D.
High precision motion control is realized.
In addition to torque, position and speed control, but also to achieve high precision synchronizzation phase control YASKAWA SGMGH-05A2C3D.
Because the control mode can be switched on line, the complicated mechanical action can be realized more effectively and smoothly.