Servo motor type SGMAH (speed: 3000r/min).
Power: 50W.
Power supply voltage: single phase AC100V.
Serial encoder: 16 bit relative value.
Design sequence: A.
Shaft end: straight shaft with screw.
Optional parts: with oil seal, DC90V brake.
Improve mechanical properties.
In order to achieve a higher production efficiency, SGDMAH type to the best control to explore the highest performance of the machine,
Compared with the original models, CPU computing time for its 1/2, through the expansion of the new control algorithm,
Positioning time is shortened to the original product of 1/3, to achieve a good response.
The parameter setting and maintenance time is shortened.
In order to establish a high degree system in a short time, the use of the simplicity of the.
Automatic adjustment of servo system with mechanical characteristics.
Then use the main loop / control circuit power separation and alarm tracking memory function, can be simple to carry out maintenance.
Servo motor SGMGH type.
Rated speed: 1500r\/min.
Power: 7.5Kw.
Power supply voltage: three phase AC200V.
Serial encoder: 17 bit absolute value.
Design sequence: high precision machine tool.
Shaft end: straight shaft without key.
Optional parts: with oil seal, DC90V brake.
High speed feed series: high speed running when no load YASKAWA SGMAH-A5BBA8D.
Complete separation of the main circuit and the control circuit,
Alarm can only turn off the main circuit power supply, easy to maintain
SGMAH-A5BBA8D
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 controlServo motor type SGMAH (speed: 3000r/min) YASKAWA SGMAH-A5BBA8D.
Power: 0.2kw.
Power supply voltage: single phase AC100V.
Serial encoder: 16 bit relative value.
Design sequence: A.
Shaft end: straight shaft without key.
Optional parts: with DC90V brake.
Improve mechanical properties.
In order to achieve a higher production efficiency, SGDMAH type to the best control to explore the highest performance of the machine,
Compared with the original models, CPU computing time for its 1/2, through the expansion of the new control algorithm,
Positioning time is shortened to the original product of 1/3, to achieve a good response YASKAWA SGMAH-A5BBA8D YASKAWA servo motor.
The parameter setting and maintenance time is shortened.
In order to establish a high degree system in a short time, the use of the simplicity of the YASKAWA servo motor.
Flexible use of online automatic adjustment function,
Automatic adjustment of servo system with mechanical characteristics.
Then use the main loop / control circuit power separation and alarm tracking memory function, can be simple to carry out maintenanceSecurity module YASKAWA servo motor.
Maximum applicable motor capacity: 2.0kw.
Power supply voltage: three phase AC400V.
Interface: MECHATROLINK- III communication command type (rotary servo motor).
Design sequence: A.
Hardware specification: dynamic brake (DB).
Matching (software): no matching (standard).
Matching (parameters): no matching (standard).
Optional module: security module.
European EC standards: Based on the integration of mechanical instructions standard ISO13849-1 EN,
Security module with individual standard 61800-5-2 IEC specified security function.
Through the combination of the SGDV servo unit, the best safety design of the mechanical system is realized.
Suitable for AC servo drive, with the following safety features specified in the international standard IEC61800-5-2 (Japan''s first).
Can easily achieve the best security design of mechanical sysstems SGMAH-A5BBA8D.
Torque Off Safe (STO)
Stop Safe 1 (SS1)
Stop Safe 2 (SS2)
Limited Speed Safely (SLS)
Equipped with 2 security functions, can be set (distribution) security functions.
In addition, the monitoring time and other itemms can be changed through the parameter YASKAWA SGMAH-A5BBA8D.
With the use of the servo unit with a security module, so that the system can be simplified and miniaturized.