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Curriculum
9 Sections
77 Lessons
10 Weeks
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Module 01: Introduction to utility power supply system in Pakistan
3
2.1
Voltage, wave shape, frequency, current, watts, and VA’s
2.2
220V@50Hz,
2.3
110V@60Hz
Module 02: Power generation and distribution
2
3.1
Three-phase, Single phase system, Transformers, Star/Delta conversion
3.2
Wiring of home appliances and power calculations
Module 03: Alternate power sources
5
4.1
Home electricity generators, Battery, Solar panels, and UPS
4.2
Types of UPS’s Square wave, Quasi Square, and Pure sine wave UPS
4.3
ON/Line, Off/Line, On/Grid, Off/Grid, and line-interactive UPS
4.4
Power supplies Linear and switch mode
4.5
Battery Chargers
Module 04: Analog electronics
10
5.1
OPAMP based designing
5.2
Introduction to operational amplifiers
5.3
OPAMP as inverting and non-inverting amplifier
5.4
OPAMP as a comparator, Hysteresis calculation
5.5
Instrumentation amplifier
5.6
OPAMP as V/I and I/V converters
5.7
Shunt amplifier
5.8
Difference amplifier
5.9
OPAMP as a wave generato
5.10
ADC and DAC designs
Module 05: Sensors and actuators
19
6.1
Type of sensors used in industrial automation
6.2
Light sensors (LDR, Phototransistor, IR sensor, UV sensor)
6.3
Speed sensors (Tachogenerator, Opto-couplers, Proximity sensors, Encoders)
6.4
Temperature sensors (PT-100, Thermocouple, Thermistor, Leaser)Robotics
6.5
Distance sensors (Ultra-Sonic distance sensors, Leaser based distance sensors)
6.6
Type of actuators used in industrial automation
6.7
Motors (single-phase AC, Three-phase AC, DC, Stepper and BLDC)
6.8
Linear actuators
6.9
Magnetic latches
6.10
Conversion of different parameters in electrical quantity i.e. V, I
6.11
Conversion of light to voltage and current
6.12
Conversion of temperature to voltage and current
6.13
Voltage to frequency and frequency to voltage conversion
6.14
The Voltage to current and current to voltage conversion
6.15
Analog to digital and digital to analog conversion
6.16
Voltage to PWM and PWM to voltage conversion
6.17
Difference amplifier
6.18
OPAMP as a wave generator
6.19
ADC and DAC designs
Module 07: Power electronics
12
7.1
Power handling devices
7.2
Transistor parameters
7.3
Transistor working modes
7.4
The Transistor as an amplifier
7.5
Transistor as a current amplifier
7.6
MOSFETs and IGBTs parameters
7.7
Use of MOSFET and IGBT
7.8
Thyristor family (SCR and Tricks)
7.9
Firing angle control using Triac and SCR
7.10
DC motor drive using SCR
7.11
Stepper motor driver using MOSFETs
7.12
BLDC motor driver using MOSFETs
Module 06: Digital electronics
15
8.1
Discrete electronic design
8.2
Basic gating logic
8.3
Combinational circuits
8.4
Boolean algebra
8.5
Karnaugh maps and timing diagrams
8.6
Concept of Flip-Flop
8.7
RS latch, D-Flip-Flop
8.8
Eight-bit latch
8.9
Addressable Latch
8.10
Random-access memory
8.11
Read-only memory
8.12
Counters and timers
8.13
89C51 as microcontroller
8.14
Address Bus and Data Bus
8.15
89C51 as microprocessor
Module 08: Software Programming & Simulation
3
9.1
GUI Development using Labview
9.2
Simulation for hardware with Proteus
9.3
Microprocessor programming with flow code & Keil Compiler
Module 09: Development of line tracking ROBOT
8
10.1
Mechanical and Electrical design
10.2
Mechanical design using 3D max software
10.3
Selection of sensors and circuits
10.4
Selection of actuators and circuits
10.5
Designing of a control system using a microcontroller board
10.6
Assembling of line tracking ROBOT
10.7
Bench testing of line tracking robot
10.8
Final field testing of line tracking ROBOT
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