LK Automation Limited LK Automation Limited
Brand: OMRON | MITSUBISHI | Proface | Mennekes | Yaskawa
Go Back >> Product Catalogues
SGM7P-04AFE2S Medium inertia, flat servo motor Yaskawa SGM7P-04AFE2S
Brand: Yaskawa
Name: Medium inertia, flat servo motor
Model: SGM7P-04AFE2S
SGM7P type (rated speed: 3000r\/min) of inertia and flat servo motor in non speed reducer.
Rated output: 0.4kw.
Power supply voltage: AC200V.
Serial encoder: 24 bit delta.
Design sequence: IP67.
Shaft end: straight shaft, no keyway.
Optional parts: with oil seal.
Yaskawa servo motor, also known as YASKAWA Yaskawa servo motor,
Origin of Japan, in Shenyang, China, Jiading, Shanghai also has a factory,
Is to make the position of the object, the position, the state and other output controlled,
Automatic control system capable of following an arbitrary change of an input target value (or a given value).
It is divided into AC servo motor and DC servo motor,
In the domestic semiconductor, liquid crystal manufacturing devices, electronic components packaging equipment, machine tools and general machinery has been widely used in.
As a leading enterprise for the first time Yaskawa servo drive, put forward the concept of "mechatronics",
Now has become a universal term

Security module.
Maximum applicable motor capacity: 11kw.
Power supply voltage: three phase AC400V.
Interface: analog voltage, pulse sequence type (linear servo motor).
Design sequence: A.
Hardware specification: rack mounting type.
Matching (software): no matching (standard).
Matching (parameters): no matching (standard) Yaskawa SGM7P-04AFE2S.
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 SGM7P-04AFE2S
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) Yaskawa SGM7P-04AFE2S.
Can easily achieve the best security design of mechanical systems.
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 items can be changed through the parameter Yaskawa SGM7P-04AFE2S.
With the use of the servo unit with a security module, so that the system can be simplified and miniaturized. Large capacity SGMVV type servo motor.
Rated output: 37KW.
Voltage: three phase AC200V SGM7P-04AFE2S Yaskawa.
Serial encoder: 20 bit delta.
Rated speed: 800r\/min.
The main mechanical structure: support mounting type, straight shaft (without keyway and screw) SGM7P-04AFE2S Yaskawa.
Optional parts: do not buy pieces.
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.
After the motor is installed, the phase is started to run immediately SGM7P-04AFE2S Yaskawa.
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 happenHigh performance, use the best type of servo unit (high performance).
Maximum applicable motor capacity: 7.5kw.
Power supply voltage: three phase AC400V.
Design sequence: A.
Hardware specification: rack mounting type.
Interface: MECHATROLINK-III communication command type (rotary servo motor).
Function: no deviation standard.
High performance sigma shaped -V-EX series.
2 models of high performance servo unitt SGM7P-04AFE2S.
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 SGM7P-04AFE2S.
EX002 (no deviation of the specification): greatly improve the command tracking performance, and further improve the accuracy of trajectory control.


...More relevant models >>>>