2. Definition.
Over View.
Origin of Mechatronics.
Designing Mechatronic system.
Applications.
Phoenix.
Robots.
Merits and Demerits.
Conclusion.
3. “Mechatronics is the synergistic
combination of precision mechanical
engineering, electronic control and
systems thinking in the design of
products and manufacturing processes.”
Example:
Use of Home appliances, toys…..etc.
“The portmanteau ‘Mechatronics was
coined by Ko Kikuchi, the senior
engineer of the Japanese company
Yasakawa in 1969.”
4.
5. Origin of Mechatronics:
Technological advances in
design, manufacturing and
operation of engineered
products/devices /processes
can be traced through:
o Industrial revolution.
o Semiconductor revolution.
o Information revolution.
6. DESIGN OF MECHATRONIC SYSTEM:
Replacement of Mechanical part by Electronic
component like piezo electronic actuator.
Replacing Analogue measurement system for
inputs by sensors.
Instead of using bimetallic temperature switches, a
micro processor based thermo diode sensors can
do on/off function.
Mechatronics approach has redefined and accurate
result output as compared to crude and inaccurate
readings of traditional analogue systems with
mechanical design in total.
7. Automation and Robotics.
Servo Machines.
Automotive Engineering E.g.: anti lock braking system.
Expert Systems.
Industrial goods.
Transportation and vehicular systems.
Mobile applications.
8. Phoenix:
o Phoenix was a robotic
spacecraft on a space
exploration mission
on Mars under the Mars
Scout Program.
The Phoenix Lander des
cended on Mars on May
25, 2008. Mission
scientists used
instruments aboard the
Lander to search for
environments suitable
for microbial life on
Mars, and to research
the history of water
there.
9. ROBOTS:
A Robot is a mechanical or virtual intelligent agent
that can perform tasks automatically or with
guidance typically by a remote control.
It is usually an electro mechanical machine that is
guided by computer and electronic programming.
E.g.: NAO, ASIMO, TOPIO.
10. Merits and Demerits
Merits Demerits
Enhanced features and
Different expertise required.
functionality.
Increase in component failures.
Precision control.
Increased power requirements.
More efficient.
Lifetimes change/vary.
Lower cost.
Real-time
More reliable.
Calculations/Mathematical Models
Smaller.
Improper use of applications may
lead to several loses.