Sigma -V series servo motor SGMGV.
Rated output: 15kw.
Power supply voltage: AC200V.
Serial encoder: 20 bit Delta (standard).
Design sequence: standard.
Shaft end: straight shaft with keyway, with screw (optional).
Optional: with oil seal, with the brake (DC24V).
A variety of mechanical feed shaft drive (high speed feed).
Variety is complete (300W ~ 15kW, with hold brake).
Equipped with a high resolution serial encoder (20 bit).
Standard using IP67.
Transport machinery.
Food processing machinery.
Rated time: continuous.
Vibration level: V15.
Insulation resistance: DC500V, 10M, or above.
Using ambient temperature: 0 ~ 40 degrees C.
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 rotation
Large capacity SGMVV type servo motor.
Rated output: 22KW.
Voltage: three phase AC400V.
Serial encoder: 20 bit delta.
Rated speed: 1500r\/min.
The main mechanical structure: flange type, straight shaft (without keyway and screw).
Optional parts: with hold brake (DC90V).
The use of small, low inertia servo motor, also can give full play to the strength of the mechanical properties YASKAWA SGMGV-1EADA6E
SGMGV-1EADA6E
The new model SGMVV with a rated output of 22~55KW, the amount of passenger speed 800r\/min and 1500r\/min products.
After the motor is installed, the phase is started to run immediately.
Even if the servo is not adjusted, as long as the moment of inertia is within the allowable range,
Even if the load changes, it can be driven stably, and the vibration will not happenServo motor type SGMAH (speed: 3000r/min) YASKAWA SGMGV-1EADA6E.
Power: 50W.
Power supply voltage: single phase AC100V.
Serial encoder: 13 bit relative value.
Design sequence: A.
Shaft end: straight shaft without key.
Optional parts: with DC24V 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 SGMGV-1EADA6E YASKAWA Rotary 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 Rotary 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 maintenance.Sigma -v series servo unit SGDV YASKAWA Rotary servo motor.
Maximum applicable motor capacity: 3kw.
Power supply voltage: three phase AC400V.
Design sequence: A type.
Interface: MECHATROLINK- II communication command type (linear servo motor).
Optional (hardware): DB resistance external type.
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 SGMGV-1EADA6E.
High precision motion control is realized.
In addition to torque, position and speed control, but also to achieve high precision synchronizzation phase control YASKAWA SGMGV-1EADA6E.
Because the control mode can be switched on line, the complicated mechanical action can be realized more effectively and smoothly.