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Industrial Yaskawa Sigma 2 Series New 100W AC SERVO MOTOR SGMPH-01A1A41

: Large Image : Industrial Yaskawa Sigma 2 Series New 100W AC SERVO MOTOR SGMPH-01A1A41

Product Details:

Place of Origin:	Japan
Brand Name:	Yaskawa
Model Number:	SGMPH-01A1A41

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

Brand:	Yaskawa	Model:	SGMPH-01A1A41
Place Of Origin:	Japan	Series:	Sigma 2 (Σ-II Series)
Weight:	5KG	Color:	Black
Highlight:	ewing machine servo motor , electric servo motor

Industrial Yaskawa Sigma 2 Series New 100W AC SERVO MOTOR SGMPH-01A1A41

DESCRIPTION

Yaskawa Electric
AC Servo Motor
Sigma 2 (Σ-II Series)

SEPCIFICATIONS

Manufacturer	Yaskawa / MagneTek / Saftronics / Omron
Series	Sigma 2 (Σ-II Series)
Weight	5KG

SIMILAR PRODUCTS

SGMPH-02A1A-YR12	SGMPH-02A1A-YR21
SGMPH-02A1A-YR31	SGMPH-02A1A-YR32
SGMPH-02A2A-YR12	SGMPH-02A2A-YR21
SGMPH-02AAA2B	SGMPH-02AAA2C
SGMPH-02AAA2E	SGMPH-02AAA2E
SGMPH-02AAA4B	SGMPH-02AAA61
SGMPH-02BAA21	SGMPH-02BAA41
SGMPH-04A1A21	SGMPH-02BAAG161
SGMPH-04A1A2B	SGMPH-04A1A2C
SGMPH-04A1A41	SGMPH-04A1A4B

Contact person: Anna

E-mail: wisdomlongkeji@163.com

Cellphone: +0086-13534205279

OTHER SUPERIOR PRODUCTS

Yasakawa Motor, Driver SG-	Mitsubishi Motor HC-,HA-
Westinghouse Modules 1C-,5X-	Emerson VE-,KJ-
Honeywell TC-,TK-	GE Modules IC -
Fanuc motor A0-	Yokogawa transmitter EJA-

The presence of this high permeability material causes the magnetic flux to be confined for the most part to the paths defined by the stator structure in the same fashion that currents are confined to the conductors of an electronic circuit. This serves to concentrate the flux at the stator poles. The
Figure 4. Principle of a disc magnet motor developed by Portescap.= N N N N S S S 3
Figure 5. Magnetic flux path through a two-pole stepper motor with a lag between the rotor and stator.
Figure 6. Unipolar and bipolar wound stepper motors. torque output produced by the motor is proportional to the intensity of the magnetic flux generated when the winding is energized.
The basic relationship which defines the intensity of the magnetic flux is defined by:
H = (N × i) ÷ l where:
N = The number of winding turns
i = current
H = Magnetic field intensity
l = Magnetic flux path length
This relationship shows that the magnetic flux intensity and consequently the torque is proportional to
the number of winding turns and the current and inversely proportional to the length of the magnetic flux path.
From this basic relationship one can see that the same frame size stepper motor could have very different torque output capabilities simply by changing the winding parameters. More detailed information on how the winding parameters affect the output capability of the motor can be found in the application note entitled “Drive Circuit Basics”.

Configuration Elements

(a) Controller The controller is the SynqNet network host. There should only be one controller per network.

(b) Nodes A node is a slave and not the controller, unless otherwise stated.

Topology

SynqNet supports a ring topology where the network nodes are connected in series back to the SynqNet controller. In a ring topology, if any one cable or node fails, the network will redirect packet data around the break and notify the application with an event. The location of the break can be determined by the application.

String topology (opened or terminated) is also supported where the network nodes are not connected back to the SynqNet controller. If a cable breaks, the nodes downstream from the break will no longer be able to send/receive packets to/from the controller. The advantage of using a terminator on the last node is that the network initialization time is reduced, because the controller can deterministically find the last node on a network. Both string topology types do not support fault recovery.

Cyclic Responses All cyclic responses are received every control cycle and are available in the node response buffer.

(1) Drive Ready Shows that communications are active. Valid at all times.

(2) Encoder Ready Shows that the serial encoder is communicating correctly in synchronous mode. Valid when the Drive Ready response appears.

(3) Amp Powered Shows that motor voltage is available to drive the servo. Valid when the Drive Ready response appears.

(4) Servo ON Shows that servo is enabled or disabled. Will not be set if drive is disabled either by turning the PWM off or by dynamic braking. Valid when Drive Ready is set.

(5) Torque Limit Shows that the Torque Reference is over the Torque Limit. Valid when the Drive Ready response appears.

(6) Warning Warns that precautions must be taken to prevent a fault or error. Valid at all times.

(7) Fault Shows that a fault has shut down the amplifier. To determine the fault cause, the error code needs to be read using a memory operation. Valid at all times.

(8) Position Feedback Returns a 32-bit position value at every control cycle.

(9) Monitor_A / Torque Echo Shows that the torque value at every control cycle is returned.

(10) Monitor_C / Multi-turn Data Returns a 16-bit multi-turn data value.

Tag:

Contact Person: Harper

Tel: 86-13170829968

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