YASKAWA ELECTRIC CORP. SGMAH Series SERVO MOTOR 100a 3000r/m
SGMAH-A3BAAJ361
Specifications
Model SGMAH-A3BAAJ361
Product Type AC Servo Motor
Rated Output 30w
Rated Torque0.095 Nm
Rated Speed 3000RPM
Power Supply Voltage 200vAC
Rated Current 0.44Amps
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
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There are several disadvantages to this: • The machines must be
close together. • The ratio by which the slave follows the master
requires physically replacing gears to change. • Shifting the
"phase" between master and slave requires a complicated design. •
Decoupling undesirable mechanical characteristics from one machine
to the other is difficult. Let's see how master/slave overcomes
these restrictions. Consider the basic closed motion control loop:
The magnetic field generated in the stator induces an EMF in the
rotor bars. In turn, a current is produced in the rotor bars and
shorting ring and another magnetic field is induced in the rotor
with an opposite polarity of that in the stator. The magnetic
field, revolving in the stator, will then produces the torque which
will “pull” on the field in the rotor and establish rotor rotation.
In addition to being classified by their step angle stepper motors
are also classified according to frame sizes
which correspond to the diameter of the body of the motor. For
instance a size 11 stepper motor has a body diameter of
approximately 1.1 inches. Likewise a size 23 stepper motor has a
body diameter of 2.3 inches (58 mm), etc. The body length may
however, vary from motor to motor within the same frame size
classification. As a general rule the available torque output from
a motor of a particular frame size will increase with increased
body length.
Power levels for IC-driven stepper motors typically range from
below a watt for very small motors up to 10 –
20 watts for larger motors. The maximum power dissipation level or
thermal limits of the motor are seldom
clearly stated in the motor manufacturers data. To determine this
we must apply the relationship P␣ =V ×␣ I.
For example, a size 23 step motor may be rated at 6V and 1A per
phase. Therefore, with two phases energized the motor has a rated
power dissipation of 12 watts. It is normal practice to rate a
stepper motor at the power dissipation level where the motor case
rises 65°C above the ambient in still air. Therefore, if the motor
can be mounted to a heatsink it is often possible to increase the
allowable power dissipation level. This is important as the motor
is designed to be and should be used at its maximum power
dissipation ,to be efficient from a size/output power/cost point of
view.