Equipped with DeviceNet communication function type servo unit (servo controlled power supply drive type)
Maximum applicable motor capacity: 1.5kw.
Interface: instruction selection and installation (rotary type servo motor).
Matching (hardware): single phase 200V power input specifications.
Matching (software): standard.
Matching (parameter): standard.
Optional modules: DeviceNet module (servo control power driver) + full closed loop module.
Communication specifications for DeviceNet based on open field network.
The combination of the DeviceNet controller and the V can be used to implement motion control in a simple way.
Can make use of the city''s rich DeviceNet support software.
Can use the upper controller to manage the servo information.
Through the network from the host controller to monitor the running status of the servo drive, alarm information.
Using the upper controller to manage the servo information, which can improve the maintenance (shorten the debugging time, improve the efficiency of maintenance operations).
Save wiring, reduce the cost and improve the reliability.
Because the upper controller and the servo unit are connected through the communication network, the connection is greatly saved.
Built in rich positioning function.
Can be from the upper controller (PLC or computer) to carry out a variety of simple positioning action.
Equipped with simple positioning, continuous rotation, and return to the origin of continuous rotary motion positioning, running and other rich positioning function.
Servo motor SGMSH type.
Rated speed: 3000r\/min.
Power: 3.0kw.
Power supply voltage: three phase AC200V.
Serial encoder: 17 bit absolute value.
Design sequence: A.
Shaft end: taper 1\/10, with parallel key.
Optional parts: with oil seal, DC90V brake.
Ultra high power response series: the need for small inertia, high torque Yaskawa SGDV120AE1A008000501.
Online automatic adjustment, automatic measurement of mechanical properties, set the required servo gain
SGDV120AE1A008000501
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.
Standard for regenerative resistance connection terminals Yaskawa SGDV120AE1A008000501.
Connecting terminal equipped with external regenerative resistance,
Convenient connection regenerative resistorLarge capacity SGMVV type servo motor.
Rated output: 22KW.
Voltage: three phase AC400V.
Serial encoder: 20 bit absolute value type.
Rated speed: 800r/min.
The main mechanical structure: flange type, straight shaft (without keyway and screw).
Optional parts: keep the brake (DC90V), with dust Yaskawa SGDV120AE1A008000501.
The use of small, low inertia servo motor, also can give full play to the strength of the mechanical properties.
The new model SGMVV with a rated output of 22~55KW, the amount of passenger speed 800r/min and 1500r/min products SGDV120AE1A008000501 Yaskawa.
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 happen SGDV120AE1A008000501 Yaskawa.
Low inertia, high speed servo motor type SGM7A (rated speed 3000r\/min).
Rated output: 2.5kw.
Power supply voltage: AC200V.
Serial encoder: 24 bit absolute value type SGDV120AE1A008000501 Yaskawa.
Design sequence: A.
Shaft end: straight shaft with keyway, with screw.
Optional parts: with hold brake (DC24V).
Small (about 80% in the past).
Equipped with high-resolution 24bit encoder (16 million 770 thousaand \/rev pulse) SGDV120AE1A008000501.
The maximum torque of 350% (small capacity).
Hope to shorten the working cycle.
Want to improve positioning accuracy.
Increase speed after shaking.
Whether there is no workpiece, action is not stable.
IIt is helpful to the servo performance of ultra high speed and ultra precision control Yaskawa SGDV120AE1A008000501. most
To limit the performance of the device to solve the problem