Electronics and Communication Engineering (ECE) Syllabus1. Electronic Communication Engineering (ECE)- Introduction to electronic communication systems
- Analog and digital communication principles
- Modulation techniques and signal processing
- Wireless communication systems
- Satellite communication systems
- Optical communication systems
- Data communication and networking
- Antennas and propagation
2. Networks- Network analysis and synthesis
- Network theorems and circuit analysis techniques
- Passive and active network elements
- Network functions and filters
- Two-port networks
- Transmission lines and waveguides
- Network stability and feedback systems
3. Digital Circuits- Number systems and codes
- Boolean algebra and logic gates
- Combinational and sequential circuits
- Memory devices and arithmetic circuits
- Digital logic families and ICs
- Programmable logic devices
- Microprocessors and microcontrollers
4. Communications- Analog and digital modulation techniques
- Analog and digital multiplexing techniques
- Error detection and correction
- Communication protocols and standards
- Wireless communication systems
- Mobile communication systems
- Data communication and networking
- Telecommunication switching systems
5. Electromagnetics- Electrostatics and magnetostatics
- Maxwell's equations and electromagnetic waves
- Transmission lines and waveguides
- Antennas and radiation
- Electromagnetic interference and compatibility
- Electromagnetic field theory and applications
6. Signals and Systems- Continuous-time and discrete-time signals
- Fourier series and Fourier transform
- Laplace transform and z-transform
- Signal representation and processing
- System analysis and properties
- Time and frequency domain analysis
- Digital signal processing techniques
7. Control Systems- System modeling and representation
- Time and frequency domain analysis
- Stability and steady-state errors
- Feedback control systems
- PID controllers and compensators
- State-space analysis and design
- Digital control systems
8. Analog Circuits- Diodes and diode circuits
- Bipolar junction transistors and amplifiers
- Field-effect transistors and amplifiers
- Feedback amplifiers and oscillators
- Power amplifiers and voltage regulators
- Operational amplifiers and applications
- Filters and signal processing circuits
9. Electronic Devices- Semiconductor physics and materials
- Diodes, transistors, and their characteristics
- BJT and FET amplifiers
- Power devices and switching circuits
- Optoelectronic devices and displays
- Integrated circuits and fabrication processes
- Sensors and transducers
10. Engineering Mathematics- Linear algebra and matrix theory
- Differential and integral calculus
- Differential equations and series solutions
- Probability and statistics
- Numerical methods and optimization
- Complex variables and transforms
- Discrete mathematics
11. Microprocessor & Micro-Controller (MPC)- Introduction to microprocessors and microcontrollers
- Architecture and instruction set of popular microprocessors
- Addressing modes and programming techniques
- Interfacing and I/O devices
- Interrupts and interrupt handling
- Memory and peripherals
- Applications of microprocessors and microcontrollers
This syllabus covers the major topics in Electronics and Communication Engineering (ECE) and provides a comprehensive understanding of the field. It encompasses various aspects such as electronic communication systems, digital circuits, control systems, analog circuits, and engineering mathematics. Students will develop skills in designing, analyzing, and troubleshooting electronic and communication systems.
This course is helpful for the following exams: Electronics and Communication Engineering (ECE), GATE