|
Outcomes
Programme Outcomes
- An ability to apply knowledge of mathematics, science, and engineering.
- An ability to design and conduct experiments, as well as to analyze and interpret data.
- An ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
- The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context.
- An ability to use the techniques, skills, and modern engineering tools necessary for engineering practice.
Programme Specific Outcomes
On completion of the B. Sc. in electronics degree graduates will be able to
- Foster the acquisition of comprehensive knowledge in Electronics science and technology among students.
- Facilitate students in staying updated with the latest trends and developments in the field of Electronics.
- Create opportunities for students to pursue careers as researchers and developers, fulfilling the specific demands of the electronics industry.
- An ability to design and conduct the experiments, as well as analyze and interpret the data.
- Enable students to effectively formulate, analyze, and solve real-life problems encountered in the electronics industry.
B. Sc. – I
Semester-I Paper- I
Network analysis and analog electronics
1. Familiar with active and passive electronic components
2. Understand the concepts of Voltage and Current sources
3. Understanding and problem solving with Thevenin’s, Norton’s, superposition and maximum power transfer theorems.
4. Ability to express and solve any Electrical Circuit in terms of h, Z, Y Parameter models
5. Get knowledge of characteristics and operation of different diodes
6. Understand the different types of filters and regulators
7. Get knowledge about voltage regulation by Zener diode
B. Sc. – I
Semester-I Paper- II
Digital integrated circuits
1. Student will familiar with the types of digital devices and its applications in different domain, Conversion of different number systems as example conversion from binary to other number systems, implementation of different codes and conversions ,addition and subtraction of 1’s and 2’s complement numbers.
2. Get knowledge about standard Boolean algebra and logic gates. De-Morgan’ Theorems
3. Knowledge about SOP and POS, develop K-map for 2/3/4 variables.
4. Understand the design of Arithmetic circuit- Adder, Subtractor
5. Understand of operation of decoder, Encoder, multiplexer, De-Multiplexer
B. Sc. – I
Semester- II Paper- III
Analog electronic circuits
1. Students will be able to assess knowledge about bipolar junction transistor and Relation between α and β, dc load line and Q point.
2. Understand the design of Amplifiers
3. Understand the operation of two stage RC coupled amplify. Coupling Methods (RC, DC &TC).
4. Understand the operation of various basic oscillators and feedback amplifiers.
5. Students will be able to assess knowledge about Unipolar Devices- JFET,UJT
B. Sc. – I
Semester- II Paper- IV
Linear and digital integrated circuits
1. Understand the basic differences of combinational and sequential circuits, Develop flip flops as SR, JK, D flip flop, Develop register and counters and other advanced sequential circuits, Prepare different conversion techniques from digital domain to analog domain and vice versa. Understand the operation of Synchronous Up/Down counter, Asynchronous counters, Decade counter, Ring counter.
2. Understand the data Conversion of DAC & ADC
3. Design and test various basic linear application circuits using Op-amps
4. Describe operating principle of 555 timer IC base monostable multivibrator, 555 timer IC based astable multivibrator
B. Sc. Part – II
Semester – III Paper – V
Electronic Communication Systems
Course Outcomes:
1. Students will develop a thorough understanding of the concepts, elements, and workings of electronic communication systems, including modulation, demodulation, transmission, and reception.
2. Knowledge of Signal Analysis and Processing: Students will gain knowledge of methods used in communication systems for signal analysis and processing, such as Fourier analysis, filtering, and noise reduction.
3. Knowledge of Modulation Techniques: Students will learn about various modulation methods, including amplitude modulation (AM), frequency modulation (FM), and phase modulation (PM), and comprehend the uses and benefits of each.
B. Sc. Part – II
Semester – III Paper – VI
Introduction to Microprocessor 8085
Course Outcomes:
1. Understanding of Microprocessor Architecture: Students will gain a thorough understanding of the 8085 microprocessor's architecture, including all of its many functional units and links between them.
2. Knowledge of Instruction Set: Students will gain knowledge of the 8085 microprocessor's instruction set, which will enable them to comprehend and develop assembly language programmes for fundamental operations.
3. Programming Skills: Using the 8085 microprocessors, students will learn to develop effective and optimized assembly language programmes for a variety of applications.
B. Sc. Part – II
Semester – IV Paper – VII
Digital Modulation technique and Mobile telephone systems
Course Outcomes:
1. Students will get a thorough grasp of digital modulation techniques, such as amplitude shift keying (ASK), frequency shift keying (FSK), and phase shift keying (PSK), as well as how they are used in mobile phone networks.
2. Students will learn about the principles, architecture, and operation of the Global Positioning System (GPS), as well as the satellite constellation, signal acquisition, tracking, and location determination algorithms.
3. Application of Digital Modulation in Mobile Communication: Students will comprehend the use of digital modulation techniques in wireless internet access, multimedia messaging, voice and data transmission, and other aspects of mobile phone systems.
B. Sc. Part – II
Semester – IV Paper – VIII
Microcontroller and Embedded Systems
Course Outcomes:
1. Understanding of Microcontroller Architecture: Students will gain a thorough understanding of the registers, memory organization, and numerous functional blocks that make up the 8051 microcontroller's architecture and internal structure.
2. Writing effective and optimized assembly language programmes for the 8051 microcontroller, displaying their comprehension of the instruction set, addressing modes, and control flow, will become a skill for students in programming.
3. Interfacing and Peripheral Integration: Students will learn how to integrate peripherals such as sensors, actuators, displays, and communication modules into embedded systems by interfacing the 8051 microcontroller with a variety of external devices and peripherals.
B.Sc. Part- III
Semester- V Paper- IX
DSE-E17: Electronics Instrumentation-I and Mechatronics
Course Outcomes
After successful completion of this course, the students will be able to:
1. Understand the basics, advantages, disadvantages and applications of mechatronics.
2. Understand construction, working and applications of different types of transducers.
3. Understand different types of applications of Op-amp.
4. Understand basics of first order active filters.
B.Sc. Part- III
Semester- V Paper- X
DSE-E18: Antenna and Wave Propagation
Course Outcomes
After successful completion of this course, the students will be able to:
1. Understand basic antenna parameters.
2. Understand construction and working of HF, VHF, UHF and Microwave antennas.
3. Understand construction and working of monopole, dipole and patch antennas.
4. Understand different modes of propagation of radio waves, critical frequency, skip distance, virtual height etc.
B.Sc. Part- III
Semester- V Paper- XI
DSE- E19: 8051 Microcontroller Interfacing and Applications
Course Outcomes
After successful completion of this course, the students will be able to:
1. Understand different types of interrupts in 8051 programming
2. Understand real world interfacing of 8051 microcontrollers.
3. Understand different applications of 8051 microcontrollers.
4. Understand basics of modern microcontrollers and their applications.
B.Sc. Part- III
Semester- V Paper- XII
DSE –E20 : Power Electronics Devices and Applications
Course Outcomes
After successful completion of this course, the students will be able to:
1. Understand construction, working and applications of semiconductor power devices.
2. Understand structure, characteristics operation of IGBT and thyristors.
3. Understand basics of uncontrolled and controlled rectifiers.
4. Understand applications of power devices.
B.Sc. Part- III
Semester- VI Paper- XIII
DSE- F17: Electronics Instrumentation-II and Robotics
Course Outcomes
After successful completion of this course, the students will be able to:
1. Understand construction and working of different types of modern lab instruments and meters.
2. Understand basics of mechanical and electrical actuation systems.
3. Understand basics of robotics.
4. Understand certain applications robots.
B.Sc. Part- III
Semester- VI Paper- XIV
DSE- F18: Optoelectronics and IoT
Course Outcomes
After successful completion of this course, the students will be able to:
1. Understand working of LASER diode, LED, Photodiodes, and Phototransistors.
2. Understand OFC communication and construction - working of different types of fibers.
3. Understand different types of losses in optical fibers.
4. Understand the concept, working and applications of IoT.
B.Sc. Part- III
Semester- VI Paper- XV
DSE-F19: Advanced Microcontroller: PIC
Course Outcomes
After successful completion of this course, the students will be able to:
1. Understand basics if PIC families.
2. Understand instruction set and programming of PIC18.
3. Understand facilities in PIC18.
4. Understand serial communication, interfacing and different type of interrupts in PIC18.
B.Sc. Part- III
Semester- VI Paper- XVI
DSEF20: Industrial Automation and PLC Programming
Course Outcomes
After successful completion of this course, the students will be able to:
1. Understand basics of control system.
2. Understand components of control system.
3. Understand programming logic controller (PLC) basics.
4. Understand ladder programming basics.
|