0.91A Ins B Yaskawa Servo Motor 400W 0.318 N.m Without Brake SGMAH
01A1A2B
QUICK DETAILS
Model SGMAH-A5AAAHC61
Product Type AC Servo Motor
Rated Output 50w
Rated Torque0.159 Nm
Rated Speed 3000RPM
Power Supply Voltage 200vAC
Rated Current 0.64Amps
OTHER SUPERIOR PRODUCTS
Yasakawa Motor, Driver SG- Mitsubishi Motor HC-,HA-
Westinghouse Modules 1C-,5X- Emerson VE-,KJ-
Honeywell TC-,TK- Fanuc motor A0-
Rosemount transmitter 3051- 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 |
Unlike common instantaneous type fuses and breakers, overload
devices are designed to allow high currents to flow briefly in the
motor to allow for:
Typical motor starting currents of 6 to 8 times normal running
current when starting.
Short duration overloads such as a slug of product going through a
system.
If the motor inlets and outlets are covered by a blanket of lint or
if a bearing should begin to lock, excessive heating of the motor
windings will “overload” the motors insulation which could damage
the motor.
The overcurrent device will not react to this low level overload.
The motor overload device prevents this type of problem from
severely damaging the motor and also provide protection for the
circuit conductors since it is rated for the same or less current
as the conductors.
• Overload protection trips when an overload exists for more than a
short time. The time it takes for an overload to trip depends on
the type of overload device, length of time the overload exists,
and the ambient temperature in which the overloads are located.
Stepper motors are DC motors that move in discrete steps. They have
multiple coils that are organized in groups called "phases". By
energizing each phase in sequence, the motor will rotate, one step
at a time.
With a computer controlled stepping you can achieve very precise
positioning and/or speed control. For this reason, stepper motors
are the motor of choice for many precision motion control
applications.
Stepper motors come in many different sizes and styles and
electrical characteristics. This guide details what you need to
know to pick the right motor for the job.
What are stepper motors good for?
Positioning – Since steppers move in precise repeatable steps, they
excel in applications requiring precise
positioning such as 3D printers, CNC, Camera platforms and X,Y
Plotters. Some disk drives also use stepper motors to position the
read/write head.
Speed Control – Precise increments of movement also allow for
excellent control of rotational speed for
process automation and robotics.
Low Speed Torque - Normal DC motors don't have very much torque at
low speeds. A Stepper motor has
maximum torque at low speeds, so they are a good choice for
applications requiring low speed with high
precision.
