During the Diploma in Electronics and Communication Engineering (ECE) course, students are taught a wide range of subjects that help them build a strong foundation in both electronics and communication technologies. The curriculum is designed to cover both theoretical knowledge and practical skills so that students can work confidently in industries like telecommunications, embedded systems, IT, robotics, and more.
Some of the core subjects taught during the course include:
Basic Electronics Engineering – Understanding the principles of semiconductors, diodes, transistors, amplifiers, and electronic circuits.
Digital Electronics – Learning logic gates, Boolean algebra, flip-flops, multiplexers, counters, and memory devices.
Analog Communication Systems – Study of modulation, demodulation, amplitude modulation (AM), frequency modulation (FM), and phase modulation.
Digital Communication Systems – Concepts of pulse code modulation, error detection, multiplexing, and modern digital communication techniques.
Microprocessors and Microcontrollers – Programming and applications of microprocessors (8085, 8086) and microcontrollers like 8051, ARM, or PIC.
Electronic Devices and Circuits – Design and analysis of electronic circuits using different active and passive components.
Signal and Systems / Signal Processing – Basics of continuous and discrete signals, transformations, and digital signal processing (DSP).
Electromagnetic Field Theory – Fundamentals of electromagnetic waves, antennas, and transmission lines.
Control Systems – Understanding open-loop and closed-loop systems, feedback mechanisms, and stability analysis.
Communication Networks – Study of computer networks, switching techniques, and modern wireless communication technologies.
Embedded Systems – Designing and developing hardware-software integrated systems.
VLSI Design – Introduction to Very Large-Scale Integration and chip design basics.
Instrumentation and Measurement – Techniques to measure electrical and electronic quantities with accuracy.
In addition to these, students also learn mathematics, physics, engineering drawing, computer programming, and project work to enhance analytical and technical skills. Practical laboratory sessions, mini-projects, industrial visits, and internships are also part of the course to ensure hands-on experience.