MECHATRONICS
Course Code BME515A
CIE Marks 50
Teaching Hours/Week (L:T:P: S) 3:0:0
SEE Marks 50
Total Hours of Pedagogy 40
Total Marks 100
Credits 03
Exam Hours 03
Examination type (SEE) Theory
Module 1
Introduction: Scope and elements of Mechatronics, Mechatronics design process, measurement
system, requirements and types of control systems, feedback principle, Basic elements of feedback
control systems, Classification of control system. Examples of Mechatronics Systems such as
Automatic Car Park system, Engine management system, Antilock braking system (ABS) control,
Automatic washing machine.
Transducers and sensors: Definition and classification of transducers, Difference between
transducer and sensor, Definition and classification of sensors, Principle of working and
applications of light sensors, Potentiometers, LVDT, Capacitance sensors, force and pressure
sensors, Strain gauges, temperature sensors, proximity switches and Hall Effect sensors.
Module 2
Signal Conditioning: Introduction – Hardware – Digital I/O, Analog to digital conversions,
resolution, Filtering Noise using passive components – Registers, capacitors, amplifying signals
using OP amps. Digital Signal Processing – Digital to Analog conversion, Low pass, high pass, notch
filtering. Data acquisition systems DAQS), data loggers, Supervisory control and data acquisition
(SCADA), Communication methods.
Electro Mechanical Drives: Relays and Solenoids – Stepper Motors – DC brushed motors – DC
brushless motors – DC servo motors – 4quadrant servo drives, PWM’s – Pulse Width Modulation.
Module 3
Microprocessor & Microcontrollers: Introduction, Microprocessor systems, Basic elements of
control systems, Microcontrollers, Difference between Microprocessor and Microcontrollers.
Microprocessor Architecture: Microprocessor architecture and terminologyCPU, memory and
address, I/O and Peripheral devices, ALU, Instruction and Program, Assembler, Data Registers,
Program Counter, Flags, Fetch cycle, write cycle, state, bus interrupts. Intel’s 8085A Microprocessor.
Module 4
Programmable Logic Controller: Introduction to PLCs, Basic structure of PLC, Principle of
operation, input and output processing, PLC programming language, ladder diagram, ladder
diagrams circuits, timer counters, internal relays, master control, jump control, shift registers, data
handling, and manipulations, analogue input and output, selection of PLC for application.
Application of PLC control: Extending and retracting a pneumatic piston using latches, control of
two pneumatic pistons, control of process motor, control of vibrating machine, control of process
tank, control of conveyer motor etc.
Module 5
Mechatronics in Computer Numerical Control (CNC) machines: Design of modern CNC
machines – Machine Elements: Different types of guide ways, Linear Motion guide ways. Bearings:
antifriction bearings, hydrostatic bearing and hydrodynamic bearing. Recirculating ball screws.
Typical elements of open and closed loop control systems. Adaptive controllers for machine tools.
Mechatronics Design process: Stages of design process – Traditional and Mechatronics design
concepts – Case studies of Mechatronics systems – Pick and place Robot – Automatic car park
barrier.
Suggested Learning Resources:
Books
1. Mechatronics System Design by Devdas Shetty and Richard A Kolk, Second edition, Thomson
Learning Publishing
2. Company, Vikas publishing house, 2001.
3. W. Bolton, “Mechatronics” Addison Wesley Longman Publication, 1999.
4. Shetty and Kolk “Mechatronics System Design” Cengage Learning, 2010
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