Industrial Servo Motor YASKAWA 0.91A AC SERVO 100W 200V 0.318N.m
MOTOR SGMAV-01ADA2C
Quick Details
Brand Name:Julante
Model Number:YE2
Type: Servo Motor
Frequency: 50/60Hz
Output Power: 200W
Protect Feature:Totally Enclosed
Phase:Three-phase
Certification:CCC, CE, ROHS, UL, VDE, Other
AC Voltage:208-230 / 240 V
Place of Origin:Japan
Efficiency:IE 1
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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To start with, a ‘digital servo’ is the same as a standard servo,
except for a microprocessor, which analyses the incoming receiver
signals and controls the motor. It is incorrect to believe that
digital servos differ drastically in physical design to standard
ones. Digital servos have the same motors, gears and cases as
standard servos and they also, most importantly, have a Feedback
Potentiometer (Pot) just like their standard counterparts. Where a
digital servo differs, is in the way it processes the incoming
receiver information, and in turn controls the initial power to the
servomotor, reducing the deadband, increasing the resolution and
generating tremendous holding power.
In a conventional servo at idle, no power is being sent to the
servomotor.When a signal is then received for the servo to move, or
pressure is appliedto the output arm, the servo responds by sending
powerotage to theservomotor. This power, which is in fact the
maximum voltage, is pulsed orswitched On/Off at a fixed rate of 50
cycles per second, creating small ‘blips’of power. By increasing
the length of each pulse
![](file:///C:UsersADMINI~1AppDataLocalTempHQ9KMHQXBO]W@DKMF`Z~U(D.gif)
ip of power, a speedcontroller effect is created, until full power
oltage is applied to the motor,accelerating the servo arm towards
its new position.
In turn, as the servo positioning pot tells the servo’s electronics
it is reachingits required position, the power blips are reduced in
length to slow it down,until no power is supplied and the
servomotor stops.
Over the last few years, servos have changed tremendously with
size, rotational speeds and torque ever improving. The latest
development, known as the ‘digital servo’, is yet another step
forward. Digital servos have significant operational advantages
over standard servos, even coreless versions. but with these
advantages also come minor disadvantages, and this fact file will
try, in simplified terms, to explain the positives and negatives
ofDigital servos. It will also dispel some myths