EC1001-BASIC ELECTRONICS ENGINEERING. L T P C EC1001 BASIC ELECTRONICS ENGINEERING Prerequisite Nil
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1 L T P C EC1001 BASIC ELECTRONICS ENGINEERING Prerequisite Nil PURPOSE This course provides comprehensive idea about working principle, operation and characteristics of electronic devices, transducers, Digital Electronics and Communication Systems. INSTRUCTIONAL OBJECTIVES At the end of the course students will be able to gain knowledge about the: 1. Fundamentals of electronic components, devices, transducers 2. Principles of digital electronics 3. Principles of various communication systems UNIT I - ELECTRONIC COMPONENTS (4 hours) Passive components resistors, capacitors & inductors (properties, common types, I-V relationship and uses). UNIT II - SEMICONDUCTOR DEVICES (7 hours) Semiconductor Devices - Overview of Semiconductors - basic principle, operation and characteristics of PN diode, zener diode, BJT, JFET, optoelectronic devices (LDR, photodiode, phototransistor, solar cell, optocouplers) UNIT III - TRANSDUCERS (5 hours) Transducers - Instrumentation general aspects, classification of transducers, basic requirements of transducers, passive transducers - strain gauge, thermistor, Hall-Effect transducer, LVDT, and active transducers piezoelectric and thermocouple. UNIT IV - DIGITAL ELECTRONICS (7 hours) Number systems binary codes - logic gates - Boolean algebra, laws & theorems - simplification of Boolean expression - implementation of Boolean expressions using logic gates - standard forms of Boolean expression. UNIT V - COMMUNICATION SYSTEMS (7 hours) Block diagram of a basic communication system frequency spectrum - need for modulation - methods of modulation - principles of AM, FM, pulse analog and pulse digital modulation AM / FM transmitters & receivers (block diagram description only) TEXT BOOKS 1. Thyagarajan T, SendurChelvi K.P, Rangaswamy T.R, Engineering Basics:Electrical, Electronics and Computer Engineering, New Age International,Third Edition, Somanathan Nair B, Deepa S.R, Basic Electronics, I.K. International Pvt.Ltd., REFERENCES 1. Thomas L. Floyd, Electronic Devices, Pearson Education, 9th Edition, Rajput R.K, Basic Electrical and Electronics Engineering, Laxmi Publications, First Edition, 2007
2 Course designed by 1 Student outcomes 2 Mapping of instructional objective with student outcome 1,2,3 3 Category EC BASIC ELECTRONICS ENGINEERING Department of Electrical & Electronics Engineering a b c d e f g h i J k x General (G) Basic Sciences (B) Engineering Sciences and Technical Arts (E) Professional Subjects (P) - - x - 4 Course Coordinator Mrs. T. M. Thamizhthentral
3 Mapping of Program Outcomes with Instructional Objectives
4 Mapping of Program Instructional Objectives Vs Program Outcomes Program Outcomes To gain knowledge about the fundamentals of electronic components,devices, transducers Program Instructional objectives To gain knowledge about the principles of digital electronics To gain knowledge about principles of various communication systems. Graduates will demonstrate the ability to design a system, component or process as per needs and specifications, analyze and interpret data. X X X
5 Mapping of Program Educational Objectives with Program Outcomes
6 Mapping of Program Educational Objectives Vs Program Outcomes Program Outcomes Graduates will demonstrate the ability to design a system, component or process as per needs and specifications, analyze and interpret data. PROGRAM EDUCATIONAL OBJECTIVES X X X - Program Educational Objectives: 1. Graduates are in a position to apply their knowledge acquired in Mathematics, Basic Sciences and Electrical and Electronics Engineering courses, to the solution of complex problems encountered in the modern Engineering practice. 2. Graduates learn and adapt themselves to the constantly evolving technology by pursuing higher studies 3. Graduates are better employable and achieve success in their chosen areas of Electrical and Electronics Engineering and related fields. 4. Graduates are good leaders and managers by effectively communicating at both technical and interpersonal levels
7 Assessment Evidences for Program Outcomes
8 SRM University Department of Electrical and Electronics Engineering Course Code: EC1001 Course Title: BASIC ELECTRONICS ENGINEERING INSTRUCTIONAL OBJECTIVE To gain knowledge about the fundamentals of electronic components,devices, transducers PROGRAM OUTCOME Graduates will demonstrate the ability to design a system, component or process as per needs and specifications, analyze and interpret data. EVIDENCE Cycle Test 1, Model Exam & Surprise Tests To gain knowledge about the principles of digital electronics To gain knowledge about principles of various communication systems.. Graduates will demonstrate the ability to design a system, component or process as per needs and specifications, analyze and interpret data. Graduates will demonstrate the ability to design a system, component or process as per needs and specifications, analyze and interpret data. Cycle Test 2, Model Exam & Surprise Tests Cycle Test 1-2, Model Exam & Surprise Tests
9 Course Plan mapped with Program Outcomes
10 Test Schedule S. No Assessment Details Cycle Test I : 10 Marks Surprise Test : 05 Marks Cycle Test II : 10 Marks Model Exam : 20 Marks Attendance : 05 Marks Total : 50 Marks DATE TEST TOPICS DURATION (tentative) (tentative) (tentative) CYCLE TEST-I CYCLE TEST-II UNIT I - ELECTRONIC COMPONENTS Passive components resistors, capacitors & inductors (properties, common types, I-V relationship and uses). UNIT II - SEMICONDUCTOR DEVICES Semiconductor Devices - Overview of Semiconductors - basic principle,operation and characteristics of PN diode, zener diode, BJT, JFET, optoelectronic devices (LDR, photodiode, phototransistor, solar cell, optocouplers). UNIT III - TRANSDUCERS Transducers - Instrumentation general aspects, classification of transducers,basic requirements of transducers, passive transducers - strain gauge, thermistor, Hall-Effect transducer, LVDT, and active transducers piezoelectric and thermocouple. UNIT IV - DIGITAL ELECTRONICS Number systems binary codes - logic gates - Boolean algebra, laws & theorems- simplification of Boolean expression - implementation of Boolean expressionsusing logic gates - standard forms of Boolean expression. 1 hr 30 minutes 1 hr 30 minutes MODEL EXAM Units I to V 3 hrs
11 Outcomes Student who have successfully completed this course, Instructional Objective Program outcome Students to gain knowledge about 1. fundamentals of electronic components, devices, transducers 2. Principles of digital electronics Graduates will demonstrate the ability to design a system, component or process as per needs and specifications, analyze and interpret data. 3. Principles of various communication systems.
12 Detailed Session Plan-Basic Electronics Engineering UNIT 1 ELECTRONIC COMPONENTS Passive components-resistors, capacitors and inductors (Properties, common types, I-V relationship and uses). Session No. Topics to be covered Text book Resistors (Properties, 1 common types, I- Thyagarajan.T, V relationship and Sendurchelvi.K.P, uses) Rangaswamy.T.R Capacitors Engineering (Properties, Basics:Electrical, 2-3 common types, I- Electronics and computer V relationship and Engineering. uses) Inductors (Properties, 4 common types, I- V relationship and uses) UNIT 2 SEMICONDUCTOR DEVICES Page No. 277, , ,294 Testing Methods CT-1 & Surprise Tests Instructional Objective 1 Program Outcome Graduates will demonstrate the ability to design a system, component or process as per needs and specifications, analyze and interpret data. Semiconductor Devices Overview of semiconductors-basic principle, operation and characteristics of PN diode, zener diode, BJT, JFET, optoelectronic devices (LDR, photodiode, phototransistor, solar cell, opto couplers). Session No Topics to be covered Text book Page No. Testing Methods Overview of semiconductors 307,315 basic principle, operation and characteristics of PN 312,320 diode Basic principle, operation and 318,325 CT-1 & characteristics of zener Surprise diode Tests Basic principle, operation and characteristics of BJT Basic principle, operation and characteristics of JFET Basic principle, operation and characteristics of optoelectronic devices Thyagarajan.T, Sendurchelvi.K.P, Rangaswamy.T.R Engineering Basics:Electrical, Electronics and computer Engineering. 320, , ,365 Instructional Objective 1 Program Outcome Graduates will demonstrate the ability to design a system, component or process as per needs and specifications, analyze and interpret data
13 UNIT 3 TRANSDUCERS Transducers-Instrumentation-general aspects, classification of transducers, basic requirements of transducers, passive transducers-strain gauge, thermistor, Hall-effect transducer, LVDT, and active transducers-piezoelectric and thermocouple. Session No Topics to be covered Instrumentationgeneral aspects, classification of transducers Basic Requirements of transducers Passive transducersstrain gauge, thermistor, Halleffect transducer, LVDT, Active transducerspiezoelectric and thermocouple. Text book Thyagarajan.T, Sendurchelvi.K.P, Rangaswamy.T.R Engineering Basics:Electrical, Electronics and computer Engineering. Page No. 294, , Testing Methods CT 2 & Surprise Tests Instructional Objective 2 Program Outcome Graduates will demonstrate the ability to design a system, component or process as per needs and specifications, analyze and interpret data UNIT 4 DIGITAL ELECTRONICS Number systems-binary codes-logic gates-boolean algebra, laws & theorems-simplification of Boolean expressionimplementation of Boolean expressions using logic gates-standard forms of Boolean expression. Session No. Topics to be covered Text book Page No. Testing Methods Instructional Objective Program Outcome Number systemsbinary codes Logic gates Boolean algebra, laws & theoremssimplification of Boolean expressionimplementation of Boolean expressions using logic gatesstandard forms of Boolean expression. R Muthusubramanian & S Salivahanan Basic Electrical, and Electronics CT 2 & Surprise Tests 3 Graduates will demonstrate the ability to design a system, component or process as per needs and specifications, analyze and interpret data UNIT 5 COMMUNICATION SYSTEMS Block diagram of a basic communication system-frequency spectrum-need for modulation-methods of modulationprinciples of AM, FM, pulse analog and pulse digital modulation-am / FM transmitters & receivers (block diagram description only) Session No. Topics to be covered Text book Page No. Testing Methods Instructional Objective Program Outcome
14 Block diagram of a basic communication system Frequency spectrum Thyagarajan.T, Sendurchelvi.K.P, Rangaswamy.T.R Engineering Basics:Electrical, Electronics and computer Engineering (T1) R Muthusubramanian & S Salivahanan Basic Electrical, and Electronics T2-558 T Need for modulationmethods of modulationprinciples of AM, FM, pulse analog and pulse digital modulation- T1-429,422 (T2) AM / FM transmitters & receivers T1-450 CT -1, CT - 2, Model Exam & Surprise Tests 3 Graduates will demonstrate the ability to design a system, component or process as per needs and specifications, analyze and interpret data
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