B. Tech in Electronics Engineering

College of Engineering Chengannur
In Kovalam

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Important information

Typology Bachelor
Start Kovalam
Duration 4 Years
  • Bachelor
  • Kovalam
  • Duration:
    4 Years

Important information

Where and when

Starts Location
On request
College of Engineering Chengannur, Alapuzha District, Kerala , 689121, Kerala, India
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Starts On request
College of Engineering Chengannur, Alapuzha District, Kerala , 689121, Kerala, India
See map

Course programme

Network Theory - Signals representation in time and frequency domain, Laplace transform transfer functions, Network transmission, Filters, Transmission lines.

Digital Electronics - Number system and codes, Combinational circuits, Sequential circuits, Programmable Logic Devices, Memories, Logic families, Interfacing between logic families.

Solid State Electronics and Circuits - Band theory of solids, PN junctions, Zener and Avalanche diodes, Photodiodes, LDR, Tunnel diode, PIN diode, Varactor diode, BJT, JFET, UJT, MOSFET, CMOS, Power supplies.

Electronic Circuits - Microelectronics, Operational Amplifiers, Introduction to Tuned & Wideband Amplifiers, Voltage Regulators, Gyrators, ADCs, DACs, small-signal and large-signal Amplifiers, Multi-vibrators.

Microprocessors - Computer architecture and organization, Intel 8085, Assembly Language Programming, Timing and Interrupts, Interfacing with Intel 8255, Intel 8253, Intel 8279, Intel 8251.

Digital System Design - Combinational modules and modular networks, Synchronous and asynchronous digital systems, Analysis and synthesis of networks in the canonical implementation, Standard sequential modules, Multimodule implementation of sequential systems.

Communication Engineering - Communication process, Digital and Analog communication, Noise, Modulation Schemes, Modulators, Spectral analysis of different modulators, Receivers, Telephony, Telegraphy.

Electromagnetic Theory - Vector Analysis, Stokes theorem, Static Electric Field, Time varying Electric and Magnetic Fields, Poynting theorem, Maxwell's equations, Transmission lines.

Signals and Systems - Continuous Time signals and systems, Discrete Time signals and systems Frequency analysis, Convolution, Time-Bandwidth product, Fourier Transforms, Discrete Transforms, Filters, Sampling Theorem, Random Processes, Variance, Auto correlation and spectral densities, Noise.

Advanced Microprocessors and Design - Intel 8086, Programming, Intel 80386, Pentium and Pentium pro architectures, Microcontrollers, Interfacing of LCD, ADC, sensors, stepper motor, keyboard and DAC, Communication standards.

Linear Integrated Circuits - Operational Amplifiers, Filters, Specialized ICs, DAC and ADC.

Industrial and Power Electronics - Power Transistors, SCR, Commutation schemes, Choppers, static switches, induction and dielectric heating - application of power electronics.

Advanced Digital Signal Processing - Discrete-time signals and systems, Discrete Fourier Transform and Fast Fourier Transform, FFT algorithms, 2-D signal processing, IIR and FIR digital filter realizations, Finite word length effects, DSP Processors.

Microwave Techniques - Important microwave properties, applications, microwave measurement, microwave tubes, Reflex Klystron, Magnetron, Semiconductor microwave devices, IMPATT and TRAPATT diodes, Microwave Integrated Circuit.

Digital Communication - Digital modulation schemes, Information Theory, PCM-DPCM, Codes for error detection and correction, Digital transmission and reception, digital Switching, ISDN, Design of Communication systems, Estimation Theory.

Electronics Measurements and Instrumentation - General measurement systems, Transducers and sensors, Signal generators, DSO, Recodring instruments, Temperature and flow measurements, Analytical instruments.

Control System Engineering - Model of physical system, Time domain analysis, Frequency domain analysis, Root locus method, State variable method, Control system components, Adaptive control systems.

Computer Networks - OSI reference model, TCP/IP reference model, X.25 Networks, Frame relay, Broad band ISDN and ATM, Link Layer, Network Layer, Transport Layer, Application Layer, Network Security, Principles of Cryptography, Authentication protocols, Firewalls, SSL ­ IP security.

Radio Communication - Electromagnetic Radiation, Antenna parameters, Antenna arrays, Antenna Measurements, Sky wave, Space wave and Ground wave propogation, RADAR, Pulse compression, RADAR displays, transmitters and receivers, MTI and pulse Doppler RADAR, Sequential lobing and conical scanning, SAR, ECM and ECCM.

VLSI Design - Fabrication Techniques, MOS, Basic Inverters, VLSI process integration, Stick diagrams, Layout design of static MOS circuits and networks, Scaling down, Subsystem design, Timing Issues.

Electronic Product Design - Various dimensions of EPD, Thermal design of electronic equipment, EMI, EMC regulations, EDA tools.

Modern Communication Systems - Optical, Microwave, Satellite, Remote Sensing, Spread Spectrum Communication.

Audio and Video Engineering - Sound Recording, Television, Color Television, Video Recording, TV Test Techniques.


Seventh Semester

Artificial Neural Networks
Digital Image Processing
Opto Electronics and Communication
Embedded System Design

Eighth Semester

Bio-medical Instrumentation
ASIC Design
Fundamentals of RF Design

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