Electromagnetic Theory covers the coordinate systems, basic principles of electromagnetism, electrostatics, magnetic fields of steady currents, motional e.m.f. and electromagnetic induction, Maxwell's equations, propagation and radiation of electromagnetic waves, electric and magnetic properties of matter, and conservation laws.
- Teacher: Dr Sreelekha G
COURSE OBJECTIVE
To make
students capable of analyzing any given electrical network
COURSE OUTCOME
- Understand electrical network systems and solve them using mesh and nodal analysis techniques
- Analyse DC and AC circuits and develop the response to excitations.
- Understand the resonance and frequency response of series and parallel RLC circuit
- Teacher: Athira K
Course Summary
The course
"Microcontroller and Interfacing" is designed to provide students
with a comprehensive understanding of microcontrollers and their applications
in the field of embedded systems. The course focuses on the theoretical and
practical aspects of microcontroller architecture, programming, and interfacing
with external devices.
Throughout the course, students will learn about various microcontrollers and their features, with a particular emphasis on popular microcontrollers like the 8051 or Arduino.
The course covers assembly language programming for microcontrollers, enabling students to write efficient and optimized code to control the microcontroller's operations. Students will learn about the specific instruction set, memory organization, and addressing modes of microcontrollers.
Course Objectives
• Understand Microcontroller and its Architectures
• Develop Assembly Language Programming Skills
• Master Interfacing Techniques
- Teacher: Dr. Ashkarali P
- Teacher: Dr. Ashkarali P
- Teacher: Dr. Ashkarali P