Available courses

MJR_II_ECE-2024-25

MICROPROCESSORS AND MICROCONTROLLERS _2024-25

Course Objectives: 


1. To introduce fundamental architectural concepts of microprocessors and microcontrollers. 
2. To impart knowledge on addressing modes and instruction set of 8086 and 8051 
3. To introduce assembly language programming concepts 
4. To explain memory and I/O interfacing with 8086 and 8051 
5. To introduce16 bit and 32 bit microcontrollers. 
 
Course Outcomes:  


1. Distinguish between microprocessors & microcontrollers  
2. Develop assembly language programming  
3. Describe interfacing of 8086 with peripheral devices  
4. Design applications using microcontrollers  

20AEC56-EMBEDDED SYSTEMS_2023-24

Course Outcomes: 

After successful completion of course the student will be able to 

CO1: Explain concept of embedded systems and its applications 

CO2: Define various processors and explain their architecture 

CO3: Design State machine and Concurrent Process Models 

CO4: Identify embedded components, peripheral devices and apply various processor scheduling algorithms.

20AEC01-ELECTRONICS DEVICES AND CIRCUITS_2020-21

Course Objectives:

The objectives of this course are

1. To understand operation of various Electronic devices such as Diodes, BJT, JFET and MOSFET.

2. To understand working of rectifiers and filters.

3. To understand the design of various biasing circuits of BJT.

4. To understand various special purpose electronic devices.


Course Outcomes:

After completion of the course students will be able to

1. Obtain the knowledge of Diode, special electronic Devices with their characteristics.

2. Develop the ability to understand the design and working of various rectifiers and filters.

3. Know the various configurations, working and various biasing techniques of BJT.

4. Know the working of JFET, MOSFET.

MACHINE LEARNING AND APPLICATIONS_2020-21

Objectives:
1. To understand the need for machine learning for various problem solving
2. To study the various supervised, semi-supervised and unsupervised learning algorithms in machine learning
3. To learn the new approaches in machine learning
4. To design appropriate machine learning algorithms for problem solving


Outcomes:
At the end of the course, the students will be able to
1. Differentiate between supervised, unsupervised, semi-supervised machine learning approaches
2. Apply specific supervised, unsupervised, semi-supervised machine learning algorithms for a particular problem.
3. Analyze and suggest the appropriate machine learning approach for the various types of problem.
4. Design and make modifications to existing machine learning algorithms to suit an individual application
5. Provide useful case studies on the advanced machine learning algorithms.

Electronic Devices and Circuits_2019-20

Microprocessors and Microcontrollers_2019-20

Objectives:  

1. To familiarize the architecture of 8086 processor and its Assembly language programming. 

2. To learn about various programmable peripheral devices and their interfacing. 

3. To understand and design microprocessor based systems for various applications. 

4. To provide the knowledge of 8051 Microcontroller concepts, architecture and programming. 

Outcomes:

After the completion of the course the students will be able 

1. To write 8086 assembly language programs.

2. To use the built-in devices of 8051 microcontroller in any application.

3. To Study and understand the architecture and programming of any other microprocessor or microcontroller.

4. To do any type of VLSI and Embedded Systems for Industrial and Real Time applications.