Overview Course Objective: To provide an introduction to traditional and modern coding theory. Topics covered include linear block codes, cyclic codes (BCH and RS codes), convolutional codes, turbo codes and low-density parity-check (LDPC) codes.
38 Lessons
37:02:49 Hours
Overview Contents: Introduction : RF systems basic architectures - Transmission media and reflections - Maximum power transfer Passive RLC Networks : Parallel RLC tank, Q - Series RLC networks, matching - Pi match, T match Passive IC Components : Interconnects and skin effect - Resistors, capacitors - Inductors Review of MOS Device Physics : MOS device review Distributed Systems : Transmission lines, reflection coefficient - The wave equation, examples - Lossy transmission lines - Smith charts plotting gamma
38 Lessons
36:18:21 Hours
Microcontroller is a compressed micro computer manufactured to control the functions of embedded systems in office machines, robots, home appliances, motor vehicles, and a number of other gadgets. A microcontroller is comprises components like - memory, peripherals and most importantly a processor.
34 Lessons
28:32:00 Hours
Overview Contents: Introduction - Introduction of Combinational Circuit Design - Combinational Circuit Design Using MSI Blocks - Combinational Circuit Using Multiple Module - Iterative Circuits - Logic Minimization Tabular Methods - Sequential Circuits: Definitions and Classification - Sequential Circuits: State Equivalance and Minimization - State Machine Synthesis - State Machine Implementation Using Registers & Counters
37 Lessons
26:43:45 Hours
Overview Contents: Course overview and introduction,The Butterworth approximation,The Chebyshev approximation,The Chebyshev approximation (contd),The Chebyshev approximation (contd), the Inverse Chebyshev approximation,The Inverse Chebyshev approximation (contd),Synthesis of doubly terminated all-pole LC ladders filters,Synthesis of doubly terminated LC ladders (contd),Synthesis of doubly terminated LC ladders with finite zeros of transmission.
42 Lessons
39:56:16 Hours
Lecture Details Introduction to RF Design, Tradeoffs, Fading and Diversity , limitations of RF circuit design,aniruddhan,iit madras,
36 Lessons
29:43:29 Hours
Overview Negative feedback systems and stability : Negative feedback amplifier using an integrator, Frequency and time domain behavior, Loop gain and its implications; Negative feedback amplifier realization - Finite DC gain; increasing DC gain
50 Lessons
42:23:13 Hours
Lecture Details Semiconductor Device Modeling by Prof. S. Karmalkar,Department of Electronics & Communication Engineering,IIT Madras.For more details on NPTEL visit httpnptel.iitm.ac.in
38 Lessons
33:47:58 Hours
Overview Course introduction and overview - Distributed generation technologies - Distributed storage technologies - Distribution system protection - Circuit breaker coordination - Symmetrical component analysis and sequence excitation - Modeling of distribution system components
41 Lessons
37:19:57 Hours