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Industrial Original AC Servo Motor Yaskawa Electric SGMPH-01AAE-YA11 0.89A 200V 100W

Name: Industrial Original AC Servo Motor Yaskawa Electric SGMPH-01AAE-YA11 0.89A 200V 100W
Brand: Shenzhen Wisdomlong Technology CO.,LTD
SKU: SGMPH-01AAE-YA11
Price: 10000.00 USD
Availability: InStock

Product Details:

Place of Origin:	Japan
Brand Name:	Yaskawa
Model Number:	SGMPH-01AAE-YA11

Detail Information

Place of Origin:

Japan

Brand Name:

Yaskawa

Model Number:

SGMPH-01AAE-YA11

Power:

100W

Volatage:

200V

Current:

0.89A

Nm:

0.317

R/MIN:

3000

INS:

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Trading Information

Minimum Order Quantity:

Price:

negotiable

Packaging Details:

New in original box

Delivery Time:

2-3 work days

Payment Terms:

TT West Union

Supply Ability:

100

Product Description

Industrial Original AC Servo Motor Yaskawa Electric SGMPH-01AAE-YA11 0.89A 200V 100W

QUICK DETAILS

Brand/ManufacturerYaskawa

Manufacturer Part NumberSGMPH-01AAE-YA11

Product typeServo Motor

Servomotor Type: SGMPH

Rated Output: 100W

Power Supply: 200V Standard Configuration

Encoder Specifications: 8192 P/R Incremental Encoder

Shaft Specifications: Straight with key and one shaft-end tap

Options: Standard

Power rating100 W

Supply voltage200 V

Current rating0.89 A

Output speed 3000 rpm

Torque rating 0.318Nm

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SIMILAR PRODUCTS

SGMPH-01AAA41+SGDM-01ADA

SGMPH-01AAA4C+SGDM-01ADA

SGMPH-02AAA41+SGDM-02ADA

SGMPH-02AAA4C+SGDM-02ADA

SGMPH-04AAA41+SGDM-04ADA

SGMPH-04AAA4C+SGDM-04ADA

SGMPH-08AAA41+SGDM-08ADA

SGMPH-08AAA4C+SGDM-08ADA

SGMPH-15AAA41+SGDM-15ADA

SGMPH-15AAA4C+SGDM-15ADA

SGMPH-01AAA21+SGDM-01ADA

SGMPH-01AAA2C+SGDM-01ADA

SGMPH-02AAA21+SGDM-02ADA

SGMPH-02AAA2C+SGDM-02ADA

SGMPH-04AAA21+SGDM-04ADA

SGMPH-04AAA2C+SGDM-04ADA

SGMPH-08AAA21+SGDM-08ADA

SGMPH-08AAA2C+SGDM-08ADA

SGMPH-15AAA21+SGDM-15ADA

SGMPH-15AAA2C+SGDM-15ADA

SGMPH-01A1A41+SGDM-01ADA

SGMPH-01A1A4C+SGDM-01ADA

SGMPH-02A1A41+SGDM-02ADA

SGMPH-02A1A4C+SGDM-02ADA

SGMPH-04A1A41+SGDM-04ADA

SGMPH-04A1A4C+SGDM-04ADA

SGMPH-08A1A41+SGDM-08ADA

SGMPH-08A1A4C+SGDM-08ADA

SGMPH-15A1A41+SGDM-15ADA

SGMPH-15A1A4C+SGDM-15ADA

A phasor E, that can represent the voltage impressed on a circuit. The phasor is made of a vector with magnitude proportional to the magnitude of E, rotating at a constant rotational speed ω. The convention is that phasors rotate counterclockwise. The vertical projection of the phasor results in a sinusoidal representing the instantaneous voltage e existing at any time. In the graph, α = ω × t, where t is the time elapsed from its zero crossing. phenomenon in periodic circuits is that the resulting angle between the applied voltage and the current depends on certain characteristics of the circuit. These characteristics can be classified as being resistive, capacitive, and inductive. The angle between the voltage and the current in the circuit is called the power angle.

The cosine of the same angle is called the power factor of the circuit, or for short, the PF.

Note: As it will be shown latter, in synchronous machines the term power angle is used to identify a different concept. To avoid confusion, in this book the angle between the current and the voltage in the circuit will therefore be identified by the “power factor.”
In the case of a circuit having only resistances, the voltages and currents are in phase, meaning the angle between them equals zero. Figure 1.8 shows the various parameters encountered in a resistive circuit. It is important to note that resistances have the property of generating heat when a current flows through
them. The heat generated equals the square of the current times the value of the
resistance. When the current is measured in amperes and the resistance in ohms, the resulting power dissipated as heat is given in watts. In electrical machines this heat represents a loss of energy. It will be shown later that one of the fundamental requirements in designing an electric machine is the efficient removal of these resistive losses, with the purpose of limiting the undesirable temperature rise of the internal components of the machine.

In resistive circuits the instantaneous power delivered by the source to the load equals the product of the instantaneous values of the voltage and the current. When the same sinusoidal voltage is applied across the terminals of a circuit with capacitive or inductive characteristics, the steady-state current will exhibit
an angular (or time) displacement vis-a-vis the driving voltage.

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Industrial Original AC Servo Motor Yaskawa Electric SGMPH-01AAE-YA11 0.89A 200V 100W

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