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New Industrial Servo Motor 4.4A 750W Yaskawa ELectric servo motor SGMAH-08A1A-DH21

: Large Image : New Industrial Servo Motor 4.4A 750W Yaskawa ELectric servo motor SGMAH-08A1A-DH21

Product Details:

Place of Origin:	Japan
Brand Name:	Yaskawa
Model Number:	SGMAH-08A1A-DH21

Payment & Shipping Terms:

Minimum Order Quantity:	1
Price:	negotiable
Packaging Details:	New in original box
Delivery Time:	2-3 work days
Payment Terms:	TT West Union
Supply Ability:	100

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Detailed Product Description

Power:	750W	Volatage:	200V
Current:	4.4A	Nm:	2.39
R/MIN:	3000	INS:	B
High Light:	ewing machine servo motor , electric servo motor

New Industrial Servo Motor 2.8A 400W Yaskawa ELectric servo motor SGMAH-08A1A-DH21

Specifications

Model SGMAH-08A1A-DH21

Product Type AC Servo Motor

Rated Output 750w

Rated Torque 2.39 Nm

Rated Speed 3000RPM

Power Supply Voltage 200vAC

Rated Current 4.4Amps

OTHER SUPERIOR PRODUCTS

Yasakawa Motor, Driver SG-	Mitsubishi Motor HC-,HA-
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Honeywell TC-,TK-	GE Modules IC -
Fanuc motor A0-	Yokogawa transmitter EJA-

Contact person: Anna

E-mail: wisdomlongkeji@163.com

Cellphone: +0086-13534205279

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

SGMAH-02AAA61D-OY

SGMAH-02AAA61D-YO

SGMAH-02AAA6C

SGMAH-02AAA6CD-0Y

SGMAH-02AAA6SD

SGMAH-02AAAG761

SGMAH-02AAAGB61

SGMAH-02AAAH161

SGMAH-02AAAH76B

SGMAH-02AAAHB61

SGMAH-02AAAJ32C

SGMAH-02AAAJ361

SGMAH-02AAA-SB12

SGMAH-02AAAYU21

SGMAH-02AAF4C

SGMAH-02ABA21

SGMAH-02ACA-SW11

SGMAH-02B1A21

SGMAH-02B1A2C

SGMAH-02B1A41

SGMAH-02B1A6C

SGMAH-02BAA21

SGMAH-02BAA41

SGMAH-02BAAG721

SGMAH-02BBA21

SGMAH-03BBA-TH11

SGMAH-04A1A2

SGMAH-04A1A21

SGMAH-04A1A2B

Differential Term
The Integral and Proportional terms have provided a system which is considerably more accurate and
responsive at lower frequencies, yet stable based on the phase margin criterion near servo bandwidth
frequencies. It may also be desirable to further improve the phase margin so that the bandwidth can be
extended or the overshoot of the step response minimized.

This is possible by introducing positive phase to improve the phase margin by means of a Differentiator.
Earlier it was mentioned that an Integrator results in the output lagging the input by 90°. Conversely, a
Differentiator has an output that leads the input by 90°. An Integrator, with frequency, takes the form of
(KI/ω)∠-90° with its gain decreasing with frequency and its output having a 90° phase lag. A Differentiator
takes the form KDω∠+90° with its gain increasing with frequency, but its output having a 90° phase lead.

By designing the Differentiator so that it is effective for frequencies of 10 radc. and above in the example,
the phase lead will benefit the phase margin near the bandwidth frequencies. There is an undesirable effect
from this, however. Since the Differentiator causes the gain to increase with frequency, it also increases
some of the machine resonances that will often be found in the 100 to 1,000 radc. range. For this reason,the Differentiator is usually "disengaged" back to Proportional at some midpoint between the servo
bandwidth and the frequency of the first resonance.

Coils and Phases
A stepper motor may have any number of coils. But these are connected in groups called "phases". All the coils in a phase are energized together.

Unipolar vs. Bipolar
Unipolar drivers, always energize the phases in the same way. One lead, the "common" lead, will always be negative.
The other lead will always be positive. Unipolar drivers can be implemented with simple transistor circuitry. Thedisadvantage is that there is less available torque because only half of the coils can be energized at a time.
Bipolar drivers use H-bridge circuitry to actually reverse the current flow through the phases. By energizing the phaseswith alternating the polarity, all the coils can be put to work turning the motor.
A two phase bipolar motor has 2 groups of coils. A 4 phase unipolar motor has 4. A 2-phase bipolar motor will have 4wires - 2 for each phase. Some motors come with flexible wiring that allows you to run the motor as either bipolar orunipolar.

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Contact Person: Anna

Tel: 86-13534205279

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