Sigma -V series servo motor SGMSV.
Rated output: 1.0kw.
Power supply voltage: AC400V.
Serial encoder: 20 bit absolute value type (standard).
Design sequence: standard.
Shaft end: straight shaft, without keyway (standard).
Optional: with hold brake (DC90V).
Super power rate.
Variety is complete (1.0kW ~ 7.0kW, with hold brake).
Equipped with a high resolution serial encoder (20 bit).
Standard using IP67 (7.0kw for IP22).
Placement machine.
Punch printed circuit board.
Machine tool feeding device.
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
Sigma -V series servo motor SGMAV.
Rated output: 0.2KW (200W).
Power supply voltage: AC200V.
Serial encoder: 20 bit absolute value (standard).
Design sequence: standard.
Shaft end: straight shaft, without keyway (standard).
Optional: no matching.
Super power rate.
Small capacity.
Ultra low inertia
Instantaneous maximum torque (rating 300%) YASKAWA SGMSV-10D3A2B.
Equipped with a high resolution serial encoder (20 bit)
SGMSV-10D3A2B
Max speed up to 6000r\/min.
Variety is complete (50W ~ 1.0kw, with hold brake).
Use example:
Semiconductor manufacturing equipment,
Placement machine,
Punch printed circuit board,
Robot,
Handling machinery,
Food processing machinery.
Rating and specifications:
Rated time: continuous.
Vibration level: V15 YASKAWA SGMSV-10D3A2B.
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: B.
Insulation withstand voltage: AC1500V1 minutes.
Protection mode: fully enclosed self cooling type IP65 (except shaft through part).
The use of environmental humidity: 20 ~ 80% (not dew).
Connection mode: direct connection YASKAWA SGMSV-10D3A2B.
Rotation direction: clockwise direction (CCW) rotation at the load side under the direction of rotationDirect drive type servo motor SGMCV type.
Rated torque: M \/ 10N.
Servo motor diameter: diameter of 175mm YASKAWA servo motor.
Serial encoder: 22 bit (single cycle absolute encoder).
Design sequence: A.
Flange: reverse load side (lead).
Optional parts: do not buy pieces YASKAWA servo motor.
Under the condition of no speed reducer, the load is directly driven.
Can be realized from low speed to high speed of the strong smooth running
(instantaneous maximum torque: 12 ~ 75N \/ m, maximum speed: 500 ~ 600r\/min).
By using 22 bit high resolution encoder, the high precision can be carried out YASKAWA servo motor.
The use of hollow structure, convenient wiring and piping.
Use example:
Semiconductor manufacturing apparatus.
Liquid crystal circuit board manufacturing device.
Various inspection and test equipment.
Electronic component packaging machine.
C information processor.
C inspection equipment.
A variety of automated machinery.
ManipulatorHigh performance, use the best type of servo unit (high performance).
Maximum applicable motor capacity: 15kw.
Power supply voltage: three phase AC200V.
Design sequence: A.
Hardware specifications: shelf installation type + paint.
Interface: MECHATROLINK-III communication command type (rotary servo motor).
Function: support 125 s communication cycle.
High performance sigma shaped -V-EX series.
2 models of high performance servo unitt SGMSV-10D3A2B.
EX001 (support M- III high speed communication): the communication cycle is the minimum value of 125 s, which makes the response of the instruction becomes faster, and the track accuracy and processing ability are improved. YASKAWA SGMSV-10D3A2B.
EX002 (no deviation of the specification): greatly improve the command tracking performance, and further improve the accuracy of trajectory control.