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Basic Electrical Technology - (39 Lectures)
1&2 - Basic Electrical Technology
3 - Passive Components
4 - Sources
5 - Krichoff's Law
6 - Modelling of Circuit
7 - Modeling of Circuit Part 2
8 - Analysis Using MatLab
9 - Sinusoidal steady state
10 -Transfer Function and Pole Zero domain
11 - Transfer function & pole zero
12 - The Sinusoid
13 - Phasor Analysis Part 1
14 - Phasor Analysis Part 2
15 - Power Factor
16 - Power ports
17 - Transformer Basics Part 1
18 - Transformer Basic Part 2
19 - Transformer Basics Part 3
20 - The Practical Transformer Part 1
21 - Transformer Part 2
22 - The Practical Transformer Part 3
23 - DC Machines Part 1
24 - DC Machines Part 2
25 - DC Generators Part 1
26 - DC Generators Part 2
27 - DC Motors Part 1
28 - DC Motors Part 2
29 - DC Motor Part 3
30 - Three Phase System Part 1
31 - Three Phase System Part 2
32 - Three Phase System Part 3
33 - Three Phase System Part 4
34 - Three Phase Transformer Part 1
35 - Three Phase Transformer Part 2
36 - Induction Motor Part 1
37 - Induction Motor Part 2
38 - Induction Motor Part 3
39 - Induction Motor Part 4
40 - Synchronous Machine
Basic Electronics and Lab - (40 Lectures)
1 - Introduction to Basic Electronics
2 - Electronic Devices 1
3 - Electronics Devices II Resistor in series and parallel
4 - Some Useful Laws in Basic Electronics
5 - Some Useful Theorems in Basic Electronics
6 - Semi Conductor Diodes
7 - Applications of Diodes
8 - Wave Shaping using Diodes
9 - Zener Diode Characteristics
10 - Transistors
11 - Transistor Biasing - Common EmitterCircuits, Fixed Bias, Collector to base Bias
12 - Transistor Biasing - Emitter Current Bias, Thermal Stability (RC Coupled Amplifier)
13 - Basic Characteristic of an Amplifer - Simple Transister model, Common emitter Amplifier
14 - Hybrid Equivalent Circuit, H-Parameters
15 - Circuit Analysis using H-Parameters
16 - Frequency Response of Amplifiers
17 - Frequency Analysis
18 - Power Amplifiers
19 - Differential Amplifiers Ckt
20 - Integrated Chip
21 - Typical Characteristic of Operation Amplifier
22 - Four Types of Feed Back
23 - Four Types of Feed Back
24 - Mathematical Operations
25 - Mathematical Operations
26 - Mathematical Operations
27 - Characteristics of Operation Amplifier
28 - Characteristics of Operation Amplifier
29 - Characteristics of Operation Amplifier
30 - Inverter/Non-Inverter Circuits
31 - Applications of Op Amps
32 - Non-Linear Op Amp circuits
33 - Applications of Op Amps
34 - Active Diode Circuits
35 - Oscillatiors
36 - Logarthmic and Anti-Logarthmic Amplifer
37 - Filters
38 - Unit Junction Transistor
39 - Silicion Controlled Rectifier
40 - Field Effect Transistor
Circuit Theory - (39 Lectures)
1 - Review of Signals and Systems
2 - Review of Signals and Systems
3 - Network Equations; Initial and Final Conditions
4 - Problem Session1
5 - Step, Impulse and Complete Responses
6 - 2nd Order Circuits:Magnetically Coupled Circuits
7 - Transformer Transform Domain Analysis
8 - Problem Session 2 : Step,Impulse
9 - Network Theorams and Network Functions
10 - Network Functions(Contd.)
11 - Amplitude and Phase of Network Functions
12 - Problem Session 3 : Network Theorems Transform
13 - Poles, Zeros and Network Response
14 - Single Tuned Circuits
15 - Single Tuned Circuits (Contd.)
16 - Double Tuned Circuits
17 - Double Tuned Circuits (Contd.)
18 - Problem Session 4 : Network Functions, Analysis
21 - Two-port Networks (Contd.)
22 - Problem Session 5
23 - Minor - 1
24 - The Hybrid & Transmission Parameters of 2 ports
25 - Problem Session 6: Two - port networks
26 - Two - port Network parameters
27 - Two-port Interconnections
28 - Interconnection of Two-port Networks(Contd.)
29 - Problem Session 7 : Two-port Networks(Contd.)
30 - Scattering Matrix
31 - Scattering Parameters of a Two-port
32 - Problem Session 8 : Two- port Parameters
33 - Solutions of Minor - 2 Problems
34 - Insertion Loss
35 - Example of Insertion Loss and Elements
36 - Elements of Realizability Theory (Contd.)
37 - Positive Real Functions
38 - Testing of Positive Real Functions
39 - Problem Session 9
Digital Circuits and Systems - (40 Lectures)
1 - Introduction To Digital Circuits
2 - Introduction To Digital Circuits
3 - Combinational Logic Basics
4 - Combinational Circuits
5 - Logic Simplification
6 - Karnaugh Maps Amd Implicants
7 - Logic Minimization Using Karnaugh Maps
8 - Karnaugh Map Minimization Using Maxterms
9 - Code Convertors
10 - Parity Generators And Display Decoder
11 - Arithmetic Circuits
12 - Carry Look Ahead Adders
13 - Subtractors
14 - 2’S Complement Subtractor and BCD Adder
15 - Array Multiplier
16 - Introduction to Sequential Circuits
17 - S-R, J-K and D Flip Flops
18 - J-K and T Flip Flops
19 - Triggering Mechanisms of Flip Flops and Counters
20 - Up/ Down Counters
21 - Shift Registers
22 - Application of shift Registers
23 - State Machines
24 - Design of Synchronous Sequential Circuits
25 - Design using J-K Flip Flop
26 - Mealy and Moore Circuits
27 - Pattern Detector
28 - MSI and LSI Based Design
29 - Multiplexer Based Design
30 - Encoders and Decoders
31 - Programmable Logic Devices
32 - Design using Programmable Logic Devices
33 - Design using Programmable Logic Devices (contd)
34 - MSI and LSI based Implementation of Sequential Circuits
35 - MSI and LSI based Implementation of Sequential Circuits (contd)
36 - Design of circuits using MSI sequential blocks
37 - System Design Example
38 - System Design Example (contd)
39 - System Design using the concept of controllers
40 - System Design using the concept of controllers (contd)
Digital Signal Processing - (43 Lectures)
1 - Digital Signal Processing Introduction
2 - Digital Signal Processing Introduction Contd
3 - Digital Systems
4 - Characterization Description,Testing of Digital Syst
5 - LTI Systems Step & Impulse Responses,Convolution
6 - Inverse Systems,Stability,FIR & IIR
7 - FIR & IIR; Recursive & Non Recursive
8 - Discrete Time Fourier Transform
9 - Discrete Fourier Transform (DFT)
10 - DFT (Contd.)
11 - DFT (Contd.) Introduction to Z Transform
12 - Z Transform
13 - Z Transform (Contd.)
14 - Discrete Time Systems in the Frequency Domain
15 - Simple Digital Filters
16 - All Pass Filters,Com.Filters
17 - Linear Phase filters,Complementary Transfer Fn
18 - Compensatary Transfer Functions, (Contd.)
19 - Test for Stability using All Pass Functions
20 - Digital Processing of Continuous Time Signals
21 - Problem Solving Session: FT, DFT,& Z Transforms
22 - Problem Solving Session: FT,DFT, & Z Transforms
23 - Analog Filter Design
24 - Analog Chebyshev LPF Design
25 - Analog Filter Design (Contd.): Transformations
26 - Analog frequency Transformation
27 - Problem Solving Session on Discrete Time System
28 - Digital Filter Structures
29 - IIR Realizations
30 - All Pass Realizations
31 - Lattice Synthesis (Contd.)
32 - FIR Lattice Synthesis
33 - FIR Lattice (Contd.) and Digital Filter Design
34 - IIR Filter Design
35 - IIR Design by Bilinear Transformation
36 - IIR Design Examples
37 - Digital to Digital Frequency Transformation
38 - FIR Design
39 - FIR Digital Filter Design by Windowing
40 - FIR Design by Windowing & Frequency Sampling
41 - Solving Problems on DSP Structures
42 - FIR Design by Frequency Sampling
43 - FIR Design by Frequency Sampling (Contd.)
Wireless Communication - (39 Lectures)
1 - Motivation and Introduction
2 - Types of Wireless communication
3 - The modern wireless Communication Systems
4 - The cellular concept - System Design issues
5 - Cell capacity and reuse
6 - Interference and System capacity
7 - Improving coverage and system capacity
8 - Mobile Radio Propagation
9 - Mobile Radio Propagation Contd
10 - Mobile Radio Propagation Contd
11 - Mobile Radio Propagation Contd
12 - Mobile Radio Propagation Contd
13 - Mobile Radio Propagation Contd
14 - Mobile Radio Propagation II
15 - Mobile Radio Propagation II Contd
16 - Mobile Radio Propagation II Contd
17 - Mobile Radio Propagation II Contd
18 - Mobile Radio Propagation II Contd
19 - Mobile Radio Propagation II Contd
20 - Mobile Radio Propagation II Contd
21 - Modulation Techniques for Mobile Communication
22 - Modulation Techniques for Mobile Communication
23 - Modulation Techniques (Contd.)
24 - Modulation Techniques (Contd.)
25 - Modulation Techniques (Contd.)
26 - Modulation Techniques (Contd.)
27 - Modulation Techniques (Contd.)
28 - Modulation Techniques (Contd.)
29 - Equalization and Diversity Techniques
30 - Equalization and Diversity Techniques (Contd.)
31 - Equalization and Diversity Techniques (Contd.)
32 - Equalization and Diversity Techniques (Contd.)
33 - Coding Techniques for Mobile Communications
34 - Coding Techniques for Mobile Communications Contd
35 - Coding Techniques for Mobile Communications Contd
36 - Coding Techniques for Mobile Communications Contd
37 - Wireless Networks
38 - GSM and CDMA
39 - GSM and CDMA Contd
Electromagnetic Fields - (42 Lectures)
1 - Introduction To Vector
2 - Introduction To Vector ( Continued)
3 - Coulomb’s Law
4 - Electric Field
5 - Electro Static Potential
6 - The Gradient
7 - Gauss’s Law
8 - Poisson’s Equation
9 - Energy In The Field
10 - Sample Problems In Electrostatics
11 - Fields In Materials
12 - Fields In Material Bodies
13 - Displacement Vectors
14 - Capacitors
15 - Method Of Images
16 - Poisson’s Equation 2 Dimensions
17 - Field Near Sharp Edges And Points
18 - Magnetic Field 1
19 - Magnetic Field 2
20 - Stokes Theorems
21 - The curl
22 - Field due to current loop
23 - Ampere's law
24 - Examples of Ampere's law
25 - Inductance
26 - Mutual Inductance
27 - Faraday’s law
28 - Magnetic Energy
29 - Magnetic Energy (contd)
30 - Magnetic Energy (contd)
31 - Generalised Ampere’s Law
32 - The Wave Equation
33 - The Wave Equation
34 - Poynting Theorem
35 - Skin Effect
36 - Skin Effect (Continued)
37 - Radiation And Circuits
38 - Phasar Form Of Poynting Theorem
39 - Reflection At Dielectric Boundaries
40 - Reflection At Dielectric Boundaries - Continued
41 - Transmission Lines
42 - Transmission Lines(contd) & Conclusion
Transmission Lines and EM Waves - (42 Lectures)
VLSI Circuits - (55 Lectures)
1 - Introduction to VLSI Design
2 - Combinational Circuit Design
3 - Programmable Logic Devices
4 - Programmable Array Logic
5 - Review of Flip-Flops
6 - Sequential Circuits
7 - Sequential Circuit Design
8 - MSI Implementation of Sequential Circuits
9 - Design of Sequential Circuits using One Hot Controller
10 - Verilog Modeling of Combinational Circuits
11 - Modeling of Verilog Sequential Circuits - Core Statements
12 - Modeling of Verilog Sequential Circuits - Core Statements(Contd)
13 - RTL Coding Guidelines
14 - Coding Organization - Complete Realization
15 - Coding Organization - Complete Realization (Contd)
16 - Writing a Test Bench
17 - System Design using ASM Chart
18 - Example of System Design using ASM Chart
19 - Examples of System Design using Sequential Circuits
20 - Examples of System Design using Sequential Circuits (Contd)
21 - Microprogrammed Design
22 - Microprogrammed Design (Continued)
23 - Design Flow of VLSI Circuits
24 - Simulation of Combinational Circuits
25 - Simulation of Combinational and Sequential Circuits
26 - Analysis of Waveforms using Modelsim
27 - Analysis of Waveforms using Modelsim (Continued)
28 - ModelSim Simulation Tool
29 - Synthesis Tool
30 - Synthesis Tool (Continued)
31 - Synplify Tool - Schematic Circuit Diagram View
32 - Technology View using Synplify Tool
33 - Synopsys Full and Parallel Cases
34 - Xilinx Place & Route Tool
35 - Xilinx Place & Route Tool (Continued)
36 - PCI Arbiter Design using ASM Chart
37 - Design of Memories - ROM
38 - Design of Memories- RAM
39 - Design of External RAM
40 - Design of Arithmetic Circuits
41 - Design of Arithmetic Circuits (Continued)
42 - Design of Arithmetic Circuits (Continued)
43 - System Design Examples
44 - System Design Examples (Continued)
45 - System Design Examples (Continued)
46 - System Design Examples (Continued)
47 - System Design Examples (Continued)
48 - System Design Examples using FPGA Board
49 - System Design Examples using FPGA Board (Continued)
50 - Advanced Features of Xilinx Project Navigator
51 - System Design Examples using FPGA Board (Continued)
52 - System Design Examples using FPGA Board (Continued)
53 - System Design Examples using FPGA Board (Continued)
54 - System Design Examples using FPGA Board (Continued)
55 - Project Design Suggested for FPGA/ASIC Implementations
Solid State Devices - (42 Lectures)
1 - Introduction
2 - Evolution and uniqueness of Semiconductor Technology
3 - Equillibrium and Carrier Concentration
4 - Equillibrium and Carrier Concentration (contd)
5 - Equillibrium and Carrier Concentration (contd)
6 - Equillibrium and Carrier Concentration (contd)
7 - Equillibrium and Carrier Concentration (contd)
8 - Equillibrium and Carrier Concentration (contd)
9 - Equillibrium and Carrier Concentration (contd)
10 - Equillibrium and Carrier Concentration (contd)
11 - Equillibrium and Carrier Concentration (contd)
12 - Carrier Transport
13 - Carrier Transport (contd)
14 - Carrier Transport (contd)
15 - Excess Carriers
16 - Excess Carriers (contd)
17 - Procedure for Device Analysis
18 - Procedure for Device Analysis (contd)
19 - PN Junction
20 - PN Junction (contd)
21 - PN Junction (contd)
22 - PN Junction (contd)
23 - PN Junction (contd)
24 - PN Junction (contd)
25 - PN Junction (contd)
26 - Bipolar Junction Transistor
27 - Bipolar Junction Transistor (contd)
28 - Bipolar Junction Transistor (contd)
29 - Bipolar Junction Transistor (contd)
30 - Bipolar Junction Transistor (contd)
31 - Bipolar Junction Transistor (contd)
32 - Bipolar Junction Transistor (contd)
33 - Metal-Oxide-Semiconductor (MOS) Junction
34 - Metal-Oxide-Semiconductor (MOS) Junction (contd)
35 - Metal-Oxide-Semiconductor (MOS) Junction (contd)
36 - Metal-Oxide-Semiconductor (MOS) Junction (contd)
37 - Metal-Oxide-Semiconductor (MOS) Junction (contd)
38 - MOS Field Effect Transistor
39 - MOS Field Effect Transistor (contd)
40 - MOS Field Effect Transistor (contd)
41 - MOS Field Effect Transistor (contd)
42 -
04-02-2010, 06:01 AM
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