Lesson Plan: Electronics &Communication Engg.

Transcription

1 Lesson Plan: Electronics &Communication Engg. Name of the faculty : Sanjay Puri Discipline : Electronics &Communication Engg. Semester : Fourth Subject : EDFT Lesson : Jan-Apr-2018 Work Load (Lecture/Practical) per week (in hours): 06 Hours Week Practical Practical Topic hours 1 st 1 Introduction About Subject 2 Study Of Different Electronics Components. 2 nd 3 Physical Identification Of Electronics Components. 4 Testing OF Passive Components. 3 rd 5 Testing OF Active Components. 6 Practice of Soldering and Desoldering. Jigs and fixtures for operational testing of modules 4 th 7 Practice of Cabinet Making 8 Revision 5 th 9 Study About Different Types Of Printed Circuit Board, board 10 material, their characteristics, drilling, soldering technique. 6 th Introduction to data sheets of electronics components 7 th 13 Demonstration on different types of measuring instruments 14, connectors and connecting leads,smds 8 th 15 Practice of CAD of electronic circuits using different 16 software. 9 th 17 Study about block diagram, detailed diagram, testing and checking point in any electronic circuit. 18 Preparation for making a electronic project by 10 th 19 P CB layout designing,artwork, Etching process th 21 PCB fabrication: Drilling, copper tracks checking,component 22 mounting 12 th 23 Assembly of prepared PCB on cabinet and their 24 presentation. 13 th 25 Final stage of project, fault diagnosis and rectification th 27 Project report preparation (hard copy) and Project 28 Submission. 15 th 29 Revision, Doubts clearance and viva voce examination. 30

2 Name of the faculty : Vipin Kumar Discipline : Electronics &Communication Engg. Semester : Fourth Subject : Digital Electronics II Lesson : Jan-Apr-2018 Work Load (Lecture/Practical) per week (in hours): Hours Lesson Plan Week Lectu re Day Theory Topic (Including assignment/test) 1 st Logic family :classification of different families like TTL, ECL, MOS, CMOS. Practi cal Day Practical Topic 1 st Verify the operation of D/A converter (Group A) 2 nd Types of integration SSI,MSI, LSI, VLSI. 3 rd Propagation delay. Speed, noise margin. Logic levels., power dissipation, fan in, fan out, power supply requirements. 2 nd Verify the operation of D/A converter. (Group B) 3 rd Verify the operation of D/A converter (Group C) 1 st Open collector and totem pole output circuits. Characteristics of TTL and CMOS and the comparison. 2 nd Operation of a standard TTL, CMOS, NAND, NOR gates. 3 rd CMOS to TTL interfacing and TTL to CMOS interfacing 1 st Verify the operation of A/D converter (Group A) 2 nd Verify the operation of A/D converter (Group B) 3 rd Verify the operation of A/D converter (Group C) 3rd 1 st Introduction to tri state devices. Assignment I 2 nd Tri state buffer inverter circuits. 3 rd A/D and D/A Converters : Performance characteristics of D/A converters. 1 st Verify the writing and reading operation of RAM Using kit Group A 2 nd Verify the writing and reading operation of RAM IC using kit Group B 3 rd Verify the writing and reading

3 4th 1 st Binary resister network. 2 nd Rsistance ladder ne3rdtwork methods of D/A converters and applications 3 rd A/D Converters : Performance characteristics of A/D converters. operation of RAMIC Using kit Group C 1 st Verify the writing and reading operation of RAM IC using bread board Group A 2 nd Verify the writing and reading operation of RAM IC using bread board Group B 3 rd Verify the writing and reading operation of RAM IC using bread board Group C 5th 1 st Single slope A/D converter. 1 st Check Files and repeat for absentee Design JK Flip flop counter and verify its truth table Group A 2 nd Dual slope A/D converter. 2 nd Check Files and repeat for absentee Design JK Flip flop counter and verify its truth table Group B 3 rd Successive approximation and parallel A/D converters Applications of converters. 3 rd Check Files and repeat for absentee Design JK Flip flop counter and verify its truth table Group C 6th 1 st Sessional Test I 1 st Familiarity with the use of EPROM programmes and UV index Group A 2 nd Memory organization. 2 nd Familiarity with the use of EPROM programmes and UV index. Group B

4 3 rd Classification of semi conductor memories. 3 rd Familiarity with the use of EPROM programmes and UV index Group C 7th 1 st ROM, PROM, DROM, EPROM, EEPROM, RAM, 1 st Exercise on programming of EPROM Group A 2 nd Expansion of memory. CCD memories. 2 nd Exercise on programming of EPROM Group B 3 rd Content addressable memory, programmable logic devices. 8th 1 st PROM at PLD, programmable logic array (PLA) 3 rd Exercise on programming of EPROM Group C 1 st Design full adder and full subtractor Group A 2 nd Programmable array logic (PAL) 2 nd Design full adder and full subtractor Group B 3 rd Field programmable gate array (FPGA) 3 rd Design full adder and full subtractor Group C Assignment II 9th ist Familiarization with common ICs. 1 st Imlement full adder and full subtractor Group A 2 nd Combinational Circuits. 2 nd Implement full adder and full subtractor Group B 3 rd K -Map method. 3 rd Implement full adder and full subtractor Group C 10th 1 st Minimization of Boolean expressions using Quine Mcclaaskey method. 1 st Check Files and repeat for absentee 2 nd Continue -Minimization of Boolean expressions using Quine Mcclaaskey method. 2 nd Check Files and repeat for absentee. 3 rd Sessional Test II 3 rd Check Files and repeat for absentee 11th 1 st Essential components of sequential circuit, synchronous and asynchronous sequential circuits. 1 st Verify the arithmetic operation of binary numbers using IC74181 Group A 2 nd Classification of sequential circuits. 2 nd Verify the arithmetic

5 3 rd Meely and Moore Machine. 12th 1 st Design of counters using JK flip flops.. operation of binary numbers using IC74181 Group B 3 rd Verify the arithmetic operation of binary numbers using IC74181 Group c 1 st Verify the logical operation of binary numbers using IC74181 Group A 2 nd Continue design of counters. 2 nd Verify the logical operation of binary numbers using IC74181 Group B 3 rd Design of counters using SR flip flops. 3 rd Verify the logical operation of binary numbers using IC th 1 st Continue design. 1 st Repeat and revision for absentee 2 nd Arithmetic and Logic Unit. 2 nd Repeat and revision for absentee 3 rd Basic idea about arithmetic logic unit w.r.t. IC and applications, 3 rd Repeat and revision for absentee 14th 1 st Implementation of binary multiplication, division 1 st Check Files and repeat for absentee 2 nd Subtraction and addition. 2 nd Check Files and repeat for absentee 3 rd Introduction to Fuzzy logic Fuzzy sets. Classical sets and their operations, Fuzzy relations 3 rd Check Files and repeat for absentee 15th 1 st Assignment III Fuzzy control system. 2 nd Properties of membership functions, Fuzzification, Defuzzfication. 1 st Repeat and revision for absentee 2 nd Repeat and revision for absentee 3 rd Sessional test III 3 rd Repeat and revision for absentee

6 lesson Plan Name of the Faculty : Sh. Ranjan Pannu Discipline : Electronics and Communication Engg. Semester : IVth Subject : Instrumentation Lesson Plan Duration : Jan-Apr-2018 Work Load (Lecture/ Practical) per week (in hours): 03 HOURS (Lecture)03 Hours per Group (PRACTICAL) Week Theory Practical Lecture Topic (including assignment/ test) Topic day 1 Introduction about subject Introduction about 1 st 2 Measurements: Importance of measurement, basic measuring systems. Practical Instrumentation 3 Advantages and limitations of each measuring system. 4 Display devices To measure the level of 2 nd 5 Theory of Transducers: construction and use of various transducers a liquid using a transducer 6 Resistive transducers and wire wound potentiometer. 7 Capacitive transducers To measure 3 rd 8 Inductive transducers temperature using a thermo-couple 9 Electromagnetic, piezo electric type transducer. 10 Measurement of Displacement and Strain: LVDT and RVDT transducer. Study and use of digital 4 th 11 Strain gauges and Gauge factor, gauge materials and their selections. temperature controller 12 Use of electrical strain gauges their different types such as inductance type resistive type, wire and foil type etc. 13 Strain gauge bridges and amplifiers. 5 th Use of themistor in 14 Revision ON/OFF transducer 15 Revision 16 1 st Sessional Test 6 th 17 Force Measurement: Different types of force measuring devices and their Study of variable principles capacitive transducer 18 Load cells 19 load measurements by using elastic transducers and electrical strain gauges. Draw the characteristics 7 th 20 Torque Measurement: Different types of torque measurement methods. of a potentiometer 21 Measurements of torque by brake and dynamometer. 22 Speed measurements; different methods, devices. To measure linear 8 th 23 Pressure Measurement displacement using LVDT 24 Bourdon pressure gauges 25 Electrical pressure pickups and their principle construction and applications. To study the use of 9 th 26 Low pressure measurements and Use of pressure cells. electrical strain gauge

7 27 Revision 28 Revision 10 th To study weighing 29 2 nd Sessional Test machine using load cell 30 Flow Measurement: Basic principles of magnetic flow meters. 31 Ultrasonic flow meters 11 th 32 Measurement of Temperature: Bimetallic thermometer. To study ph meter. 33 Resistance thermometers 34 Thermisters 12 th 35 Thermocouple Revision & Viva 36 Pyrometer 37 Temperature recorders 13 th 38 Measurement of other non electrical quantities such as humidity Revision & Viva measurements. 39 ph value measurements 40 Level measurements 14 th 41 Vibrations measurements Revision & Viva 42 Revision 43 Revision 15 th 44 Revision Revision & Viva 45 3 rd Sessional Test * At least Three Assignment covering substantial portion of syllabus to be given.

8 Name of faculty: Sh. Nirmal Kumar Yadav Name of Subject : N.F.T.L Discipline: ECE Semester:4th Lesson plan duration : 15 Weeks(from January,2018 to April,2018) Work load (lecture/) per week (in hours) : 03 hrs/ 03 hrs(per Group) Week Theory Practical Lecture day Topic (including assignments/test) Practical day Topic 1 st 1 st Networks:Two port network, symmetrical network, asymmetrical network, Balanced network, Unbalanced network, T Network, Ladder network. 2 nd Lattice network, L network, Bridge network, Symmetrical network, Characteristics Impedance. 3 rd Propagation Constant, attenuation Constant. 2 nd 4 th Phase Shift Constant, Insertion loss of T network 3 rd 7 th 5 th Concept of iterative Impedance, Image Impedance. 6 th Image transfer Constant, Insertion loss. Half section, L section 8th 3rd 3rd To measure the Characteristic Impedance of symmetrical Tee and Pie networks. To measure the Characteristic Impedance of symmetrical Tee and Pie networks. To measure the Characteristic Impedance of symmetrical Tee and Pie networks. To measure the image Impedance of given asymetrical Tee and Pie networks. To measure the image Impedance of given asymetrical Tee and Pie networks. To measure the image Impedance of given asymetrical Tee and Pie networks. REVISION SESSION To determine the Characteristics Impedance of low pass Filter. Symmetrical T section, symmetrical pie section &it s expression. Determine the Characteristic

9 9 th Symmetrical T half section, Symmetrical pie half section concept, Applications of Networks. 4 th 10th Attenuator, Types of attenuators, Units of attenuation, Decibel &Nepers. General Characteristics of Attenuatiors. 11th Analysis of design of attenuators,symmetrical T type Attenuator, Symmetrical L type 3rd Impedance of low pass Filter. Determine the Characteristic Impedance of low pass Filter. To measure the attenuation of symmetrical T and Pie Attenuator. To measure the attenuation of symmetrical T and Pie Attenuator. Attenuator. 12th REVISION SESSION 3rd To measure the attenuation of symmetrical T and Pie Attenuator. 5 th 13th Filters, Uses of filters in different communication systems. To measure the Characteristic Impedance of high pass Filter. 14th Concept of Low pass Filter, it s design and applications. To measure the Characteristic Impedance of high pass Filter. 15th Concept of High pass Filter,Cut off frequency, Design & applications. 3rd To measure the Characteristic Impedance of high pass Filter. 6 th 16th Concept of band pass Filter, design & application. 17th 18th Concept of Band stop filter & its applications. Prototype filter section, Impedance Characteristics, Frequency Characteristics of low and high pass 3rd To measure Impedance Characteristic and attenuation Characteristic of band pass Filter. To measure Impedance Characteristic and attenuation Characteristic of band pass Filter. To measure Impedance Characteristic and attenuation

10 Filter. 7 th 19th Attenuation vs Frequency, Phase shift vs Frequency.Characterstics Impedance vs Frequency, & its significance Characteristic of band pass Filter. To measure Impedance Characteristic and attenuation Characteristic of m derived low pass Filter. 20th REVISION SESSION To measure Impedance Characteristic and attenuation Characteristic of m derived low pass Filter. 21th Simple design of prototype low pass Filter and it s application. 8 th 22th M derived Filter, limitations of prototype filter, need of m derived Filter. 23th 24th Crystal Filter, crystal and it s equivalent ckt, property of piezo electric Filter and it s uses Active Filters, basic concept of active filter, comparison with passive Filter. 9 th transmission Line, it s applications. 25th Transmission Line,Types of 26th Distributed constants and pai representation of transmission Line, Characteristic Impedance of transmission Line 3rd 3rd To measure Impedance Characteristic and attenuation Characteristic of m derived low pass Filter. To observe the information of standing wave on transmission Line and measurement of SWR. To observe the information of standing wave on transmission Line and measurement of SWR. To observe the information of standing wave on transmission Line and measurement of SWR. Draw attenuation Characteristic of Crystal Filter. Draw attenuation Characteristic of Crystal Filter. 27th REVISION SESSION 3rd Draw attenuation Characteristic of Crystal Filter. 10 th 28th Propagation Constant, Attenuation Constant it s expression. 29th Phase Shift Constant, it s mathematical expression. Revision/uncovered Revision/uncovered

11 30th Concept of infinite line,draw the infinite line. 3rd Revision/uncovered 11 th 31th Condition for minimum distortion, minimum attenuation of signal on the Revision/uncovered line. 32th Introduction to loading methods, Concept of Reflection. Revision/uncovered 33th Concept of standing wave, Reflection coefficient. 3rd Revision/uncovered 12 th 34th Concept of SWR, Concept of VSWR, Relation between SWR and Revision/uncovered VSWR 35th REVISION SESSION Revision/uncovered 36th Transmission Line equation and it s mathematical expression. 3rd Revision/uncovered 13 th 37th Expression for voltage and current, Expression for Impedance of a line. Revision/uncovered 38th Concept of transmission Line at high frequency Revision/uncovered 39th REVISION SESSION 3rd Revision/uncovered 14 th 40th Introduction to stubs and it s types, single stub Revision/uncovered 41th Double stub and it s Applications. Revision/uncovered 42th Open stub and Applications of open stub. 3rd Revision/uncovered 15th 43th Short circuit stub, Applications and uses. Revision/uncovered 44th Difference between open circuit stub and short circuit stub. Revision/uncovered 45th REVISION SESSION 3rd Revision/uncovered SESSIONAL TESTS TO BE CONDUCTED AS PER HSBTE TIME TABLE/SYLLABUS

12 Microprocessor and Peripheral Devices Name of faculty member Dr. Rajesh Kumar Garg Discipline ECE Semester 4th Subject MICROPROCESSORS AND PERIPHERAL DEVICES Lesson plan duration 15 week ( January 2018 to April 2018) Work load (lecture/) per week (in hours) : Lecture-04/Practical- 02(PER GROUP) Week Theory Practical Lecture Practical Topic ( including assignment/test) Topic day day 1 Evolution of Microprocessor 1 1. Familiarization 2 Typical organization of a of different keys of 8085 microcomputer system and functions Unit 1 2 Microprocessor of its various blocks 3 (Evolution of Microprocessor, its evolution and Microprocessor) function 4 Impact of Microprocessor on modern 3 society 5 Revision of unit Steps to enter, 6 modify data/ Architecture of a program and to Microprocessor execute a 7 Applications of a Microprocessor of programme on 8085 microprocessor kit 8 Concept of Bus, bus organization of 3rd 4th 9 Unit 2 (Architecture of a Microprocessor) (With reference to 8085 microprocessor) 8085, Functional block diagram of 8085 and function of each block *Assignment Topic 10 Pin details of 8085 and related signals 8 11 Demultiplexing of address/data bus 9 12 Demultiplexing of address/data bus 13 Generation of read/write control signals Steps to execute a stored programme Revision of Unit 2 16 Introduction of different cycles (a) ALP for Addition and of two 8 bit numbers 3.(b) ALP for Subtraction of two 8 bit numbers

13 5th 6th 7th 8th 9th 10th 11th 17 Instruction Timing and Cycles 13 ( Basic Introduction) 18 Instruction cycle 14 Unit 3 19 (Instruction machine cycle Timing and T-states 21 Cycles) Fetch and execute cycle ALP for 22 Comparison between all the cycles 17 Unit4 (Programming with respect to 8085 microprocessor) 4. ALP for Multiplication and division of two 8 bit numbers Arranging 10 numbers in ascending / descending order 23 Revision of Unit Brief idea of machine and assembly languages 25 Machines and Mnemonic codes ALP for 0 to 26 Instruction format and Addressing 9 BCD counters 20 mode 27 Identification of instructions as to which addressing mode they belong Identification of instructions as to which addressing mode they belong 29 Concept of Instruction set Explanation of the instructions of the following groups of instruction set 31 Explanation of the instructions of the following groups of instruction set Explanation of the instructions of the following groups of instruction set 33 Data transfer group, Arithmetic Group, Logic Group 34 Stack, I/O and Machine Control Group REVISION 7. Interfacing exercise on 8255 like LED display control 35 Programming exercises in assembly language (with the help of examples) Programming exercises in assembly language (with the help of examples) 37 Revision of unit Interfacing 38 Doubt session on topics Unit 3,4 29 exercise on Concept of memory mapping, 30 programmable 40 partitioning of total memory space interval timer 41 Address decoding 31 REVISION 42 Unit 5 (Memories and concept of peripheral mapped I/O and I/O interfacing) memory mapped I/O * Assignment Topic 32

14 12th 13th 14th 15th ` 43 concept of peripheral mapped I/O and memory mapped I/O Interfacing of memory mapped I/O devices 45 Interfacing of memory mapped I/O devices Revision of unit Concept of interrupt, Maskable and non-maskable 48 Edge triggered and level triggered 36 interrupts, Software interrupt, Restart interrupts and its use Servicing interrupts, extending interrupt system Unit Interfacing exercise on 8279 programmable KB/display interface Various hardware interrupts of Use of 8085 emulator for hardware testing 51 (Interrupts) Concept of programmed I/O operations, sync data transfer, asynchronous data transfer (hand shaking) 53 Interrupt driven data transfer, DMA 40 and * Assignment Topic 54 Unit 7 (Data Serial output data, Serial input data Transfer Revision of unit 6,7 Techniques) PPI and 8253 PIT / 8237 DMA controller Programmable KB/Display 43 Unit 8 Interface 59 (Peripheral 8251 Communication Interface 44 devices) Adapter 60 Revision of unit 8 45 Test conducted as per Annual Calendar REVISION Practice of Programming

15 Lesson Plan Name of Faculty Discipline Semester Subject : Sanjay Puri : Electronics and Communication Engg. : Fourth : Communication Systems Lesson Plan Duration : 15 weeks (Jan 2018 to Apr 2018) **Work Load (Lecture / Practical) per week (in hours) : 3 hrs / 9 hrs Week Theory Practical Lecture Day Topic (including assignment / test) 1 st Introduction to Communication,modulation,its need and block diagram of a comm.. system 3rd Classification of transmitters on the basis of modulation, service, frequency and power Block diagram of AM transmitters and working of each stage 2 nd 4th Block diagram and working principles of reactance FET and armstrong FM transmitters 5th 6th Principle and working with block diagram of super heterodyne AM receiver. Function of each block and typical waveforms at input and output of each block Performance characteristics of a radio receiver: sensitivity, selectivity, fidelity, S/N ratio 3 rd 7th Image rejection ratio and their measurement procedure. Practical Day Topic 1 st Introduction,C=f.y,dial of a radio,frequency bands,controls and identification of components used in a radio receiver 2 nd To observe the waveforms at different stages of a AM transmitter 3 rd To observe the waveforms at

16 8th 9th Selection criteria for intermediate frequency (IF). Concepts of simple and delayed AGC different stages of a Radio Receiver 4 th 10th Block diagram of an FM receiver, function of each block and waveforms at input and output of different blocks. 11th ISI standards on radio receivers 12th (brief Idea) Need for limiting and deemphasis in FM reception 5 th 13th Block diagram of communication receivers, differences with respect to broadcast receivers. 14th 15th Revision Electromagnetic spectrum and its various ranges: VLF, LF, MF, HF, VHF, UHF, Microwave 6 th 16th Physical concept of radiation of electromagnetic energy from a dipole. 17th polarization of EM Waves. 18th Definition and physical concepts of the terms used with antennas like point source, 7 th 19th gain directivity, aperture, effective area, radiation pattern 20th beam width and radiation resistance, loss resistance. 4 th To align AM broadcast radio receiver 5 th To identify and study the various types of antennas used in different frequency ranges. 6 th To plot the radiation pattern of a directional and omni directional antenna 7th To plot the variation of field strength of a radiated wave, with distance from a transmitting antenna

17 2 Types of antennas-brief description, characteristics and typical applications of half wave dipole, 8 th 2 medium wave (mast) antenna, folded dipole, patch, 23rd loop antenna,ferrite rod antenna (used in transistor receivers) 8th Installation of Dish Antenna for best reception 24th Yagi antenna 9 th 25th Brief description of broad-side and end fire arrays, their radiation pattern and applications 26th Dish antenna 27th Rhombic antenna 10 th 28th Revision 10th Field visit 29th Basic idea about different modes of wave propagation and typical areas of application. 30th Ground wave propagation and its characteristics, summer field equation for field strength. 11 th 3 Space wave communication 3 line of sight propagation, standard atmosphere, concept of effective earth radius range of space wave propagation standard atmosphere 9th 11th To observe waveforms at input and output of ASK and FSK modulators Field visit 33rd Duct propagation 12 th 34th ionosphere and its layers Revision /Performance of left out experiment 35th 36th sky wave propagation virtual height, critical frequency, skips distance, 13 th 37th maximum usable frequency, multiple hop propagation. 38th Practical and numerical Revision /Performance of left out experiment

18 39th problems Revision 14 th 40th Digital Modulation Techniques Introduction Revision /Performance of left out experiment 4 PCM, DPCM, DELTA Modulation 4 ASK, FSK, PSK, QPSK 15 th 43rd Spread Spectrum Techniques Practical examination 44th Frequency Hopping Technique 45th Revision