All of us know that motor is a machine which produces or imparts
motion, or in detail it is an arrangement of coils and magnets
that converts electric energy into mechanical energy and ultrasonic
motors are the next generation motors.
In 1980,the
world's first ultrasonic motor was invented which utilizes the
piezoelectric effect in the ultrasonic frequency range to provide
its motive force resulting in a motor with unusually good low
speed, high torque and power to weight characteristics.
Electromagnetism
has always been the driving force behind electric motor technology.
But these motors suffer from many drawbacks. The field of ultrasonic
seems to be changing that driving force.
DRAWBACKS
OF ELECTROMAGNETIC MOTORS
Electromagnetic
motors rely on the attraction and repulsion of magnetic fields
for their operation. Without good noise suppression circuitry,
their noisy electrical operation will affect the electronic components
inside it. Surges and spikes from these motors can cause disruption
or even damage in nonmotor related items such as CRTs and various
types of receiving and transmitting equipments. Also , electromagnetic
motors are notorious for consuming high amount of power and creating
high ambient motor temperatures. Both are undesirable from the
efficiency point of view. Excessive heat energy is wasted as losses.
Even the efficiently rated electromagnetic motor has high input
to output energy loss ratios.
Replacing
these by ultrasonic motors would virtually eliminate these undesirable
effects. The electromagnetic motors produce strong magnetic fields
which cause interference. Ultrasonic motors use piezoelectric
effect and hence no magnetic interference.
PRINCIPLE
OF OPERATION
PIEZOELECTRIC
EFFECT
Many polymers,
ceramics and molecules are permanently polarized; that is some
parts of the molecules are positively charged, while other parts
are negatively charged. When an electric field is applied to these
materials, these polarized molecules will align themselves with
the electric field, resulting in induced dipoles within the molecular
or crystal structure of the material. Further more a permanently
polarized material such as Quartz(SiO2) or Barium Titanate(BaTiO3)
will produce an electric field when the material changes dimensions
as a result of an imposed mechanical force.
These materials are
piezoelectric and this phenomenon is known as Piezoelectric effect.
Conversely, an applied electric field can cause a piezoelectric
material to change dimensions. This is known as Electrostriction
or Reverse piezoelectric effect. Current ultrasonic motor design
works from this principle, only in reverse.
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