SUBJECTS
1.AUTOMATED MANUFACTURING PROCESSES-I
Computer application in manufacturing;
Product
cycle, Brief history of NC, CNC & DNC machines,
Explanation of execution system, PLC and basic
configuration of machine. Capabilities and
limitations, Intelligent manufacturing.
Motion control and machine elements, High speed machining, accessories and other essential Peripherals, Basic part programming, Accuracy and measurement standards, Material handling and storage, Computer aided process planning.
2.AUTOMATED MANUFACTURING PROCESSES-II
automation, Group technology and flexibility in manufacturing, futuristic factories, Fundamental of robotics, robot motion analysis and control, application engineering for manufacturing.
3.BASIC THERMAL ENGINEERING
Thermodynamics, Gas cycles and their applications, Steam power plant, Heat transfer theory.
4.OBJECT ORIENTED PROGRAMMING
Principle of object oriented programming,
inheritance, C++ input/output system, Template
and expectance handling, Run time type
identification and casting operators, Standard
template library, Object oriented system
development.
5.COMPUTER AIDED DESIGN
Product cycle and CAD, Importance of Computer
graphics and CAD, Computer system hardware and
software, Applications and benefits of CAD, CAD
system configuration; Hardware : Display
devices, Hard-copy devices, Interactive input
devices, Display processors, Fundamentals of
computer graphics, Three dimensional concepts,
Database techniques, Design and analysis.
6.CONTROLL SYSTEM ENGINEERING
1
Basic block diagram of a control system;
terminology, classification of control systems.
Illustrative examples of open loop & closed loop
control systems. Digital control system. Non
linear control system - definitions, terminology
and illustrative examples, Modeling of physical
system, Servo components, Representation of
control system, Transient and steady state
response analysis, stability analysis, Control
action.
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