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| Categories | Industrial Servo Motor |
|---|---|
| Brand Name: | Yaskawa |
| Model Number: | SGMAH-A5AAAYU41 |
| Place of Origin: | Japan |
| MOQ: | 1 |
| Price: | negotiable |
| Payment Terms: | T/T, Western Union |
| Supply Ability: | 100 |
| Delivery Time: | 2-3 work days |
| Packaging Details: | New in original box |
| Brand: | Yaskawa |
| Model: | SGMAH-A5AAAYU41 |
| Type: | AC Servomotor |
| Rated Output:: | 50W |
| Supply Voltage: | 200V |
| Current: | 0.64A |
| Options:: | Without Brake |
| Company Info. |
| Shenzhen Wisdomlong Technology CO.,LTD |
| Verified Supplier |
| View Contact Details |
| Product List |
Industrial Servo Motor Yaskawa ELECTRIC 50W AC SERVO MOTOR
SGMAH-A5AAAYU41
QUICK DETAILS
SIMILAR PRODUCTS
| SGMAH-01A1A21 |
| SGMAH-01A1A2B |
| SGMAH-01A1A2C |
| SGMAH-01A1A41 |
| SGMAH-01A1A4B |
| SGMAH-01A1A4C |
| SGMAH-01A1A61D-OY |
| SGMAH-01A1A-AD11 |
| SGMAH-01A1A-FJ61 |
| SGMAH-01A1A-SM11 |
| SGMAH-01A1A-SM21 |
| SGMAH-01AAA21 |
| SGMAH-01AAA21-Y2 |
| SGMAH-01AAA2B |
| SGMAH-01AAA2C |
| SGMAH-01AAA41 |
| SGMAH-01AAA4B |
| SGMAH-01AAA4C |
| SGMAH-01AAA4CH |
| SGMAH-01AAA61 |
| SGMAH-01AAA61D-OY |
| SGMAH-01AAACH |
| SGMAH-01AAAG761 +SGDM-01ADA |
| SGMAH-01AAAH12C |
| SGMAH-01AAAH161 |
| SGMAH-01AAAH161-E |
| SGMAH-01ACA-SW11 |
| SGMAH-01B1A2S |
| SGMAH-01B1A41 |
| SGMAH-01BAA21 |
| SGMAH-01BAA41 |
| SGMAH-01BBA21 |
| SGMAH-01BBABC |
| SGMAH-01BBA-TH12 |
| SGMAH-02A1A21 |
| SGMAH-02A1A61D-0Y |
| SGMAH-02A1A6B |
| SGMAH-02A1A6C |
| SGMAH-02A1A-DH12 |
| SGMAH-02A1A-DH21 |
| SGMAH-02A1AG161 |
| SGMAH-02A1A-SM11 |
| SGMAH-02A1A-SM21 |
| SGMAH-02A1A-YR21 |
| SGMAH-02AAA21 |
| SGMAH-02AAA21/SGMAH-02AAA41 |
| SGMAH-02AAA21-Y1 |
| SGMAH-02AAA2B |
| SGMAH-02AAA2C |
| SGMAH-02AAA2C-Y2 |
| SGMAH-02AAA41 |
| SGMAH-02AAA4C |
Low Voltage Protection
Low Voltage Disconnects - Protection device operates to disconnect
the motor when the supply voltage drops below a preset value. The
motor must be manually restarted upon resumption of normal supply
voltage.
Low Voltage Release - Protection device interrupts the circuit when
the supply voltage drops below a preset value and re-establishes
the circuit when the supply voltage returns to normal.
Phase Failure Protection
Interrupts the power in all phases of a three-phase circuit upon
failure of any one phase.
C Normal fusing and overload protection may not adequately protect
a polyphase motor from damaging single phase operation. Without
this protection, the motor will continue to operate if one phase is
lost.
C Large currents can be developed in the remaining stator circuits
which eventually burn out.
C Phase failure protection is the only effective way to protect a
motor properly from single phasing.
What Is Required to Maintain Accuracy During Coordinated Motions?
The magnitude of the error really does not matter if the path being
followed is a single axis move. The axis will trail the moving
command, but will catch up when the endpoint is reached. One could
not detect, by observing the cut, that an error ever existed. When
two axes are moved simultaneously to generate a sloping straight
cut, large errors can develop. Figure 2 shows a two axis move along
a 45° slope where
both X and Y are being commanded at the same velocity. The gain of
the X axis is twice that of the Y axis, so the X axis error (EX) is
half that of the Y axis error (EY). The resulting path is offset
from the commanded one depending on direction, velocity, gains and
angle of slope. If the gains of the two axes in the example were
identical, EX and EY would be identical and the machine would lag
the moving command, but it would be precisely on the desired path.
It would catch up when the command stops at the endpoint. Once the
gains are precisely matched, the direction, velocity and angle of
slope no longer matter. As long as the commanded path remains on a
straight line, the axes will always lag, but precisely on that
line. Maintaining accuracy for linear moves becomes an exercise in
matching gains. This will require detuning the more responsive axes
to match the poorest performing one. Many systems allow gains to be
set digitally (and thereby precisely). Often the gain will be a
potentiometer or digital register adjustment. This adjustment is
made by commanding each axis at the same medium range value and
adjusting the potentiometers to achieve equal errors.
Circular moves, where the commanded path is generated by circular
interpolation, is another story. Again, the axes gains must be
matched or one will be cutting eggs instead of circles. With
matched gains, circles will always result, but not necessarily of
the commanded size. With low velocities and high circle radii,
errors are negligible, however, as the ratio of velocity to circle
radius increases, the error in the circle size
increases. This raises the question: Will the resultant circle be
larger or smaller than the commanded one?
(Think about this before reading on.)
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