ECE317
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Transcript of ECE317
Lovely Professional University, Punjab
Course Code Course Title Course Planner Lectures Tutorials Practicals Credits
ECE317 ANALOG AND LINEAR INTEGRATED CIRCUITS LABORATORY
15692::Manie Kansal 0.0 0.0 2.0 1.0
Course Category Practical Course
TextBooks
Sr No Title Author Edition Year Publisher Name
T-1 Op-Amps & Linear ICs Ramakanth A. Gayakwad 2nd 2009 PHI (Pretice Hall India)
Reference Books
Sr No Title Author Edition Year Publisher Name
R-1 Op-Amps & Linear ICs Ramakanth A. Gayakwad 1st 2008 PHI Learning Pvt Ltd, New Delhi
R-2 Linear Integrated Circuits D.Roy Chowdary 2nd New Age international Ltd.
R-3 Microelectronics J. Millman and A. Grabel 2nd 1988 Tata McGraw Hill
Other Reading
Sr No Journals articles as Compulsary reading (specific articles, complete reference)
OR-1 http://nptel.iitm.ac.in/video.php?subjectId=117103063 ,
OR-2 http://www.electronics-tutorials.ws/sequential/seq_3.html ,
OR-3 http://www.ask.com/question/multivibrator-circuit ,
OR-4 http://www.mycircuits9.com/2012/07/schmitt-trigger-using-op-amp-741.html ,
OR-5 http://www.circuitstoday.com/schmitt-trigger-using-op-amp ,
OR-6 http://hyperphysics.phy-astr.gsu.edu/hbase/electronic/a741p.html ,
OR-7 http://www.circuitstoday.com/square-wave-generator-using-op-amp ,
OR-8 http://mycircuitstudy.blogspot.in/2012/11/wein-bridge-oscillator.html ,
OR-9 http://www.allaboutcircuits.com/vol_3/chpt_8/9.html ,
Relevant Websites
Sr No (Web address) (only if relevant to the course) Salient Features
RW-1 http://books.google.co.in/books?id=lc1d_aghlFYC&printsec=frontcover&source=gbs_ge_summary_r&cad=0#v=onepage&q&f=false
Google book
RW-2 https://www.google.co.in/search?q=google&oq=google&aqs=chrome.0.0l2j61j0l2j60.1446j0&sourceid=chrome&ie=UTF-8#sclient=psy-ab&q=google+books+for+analog+electronics&oq=google+books+for+analog+el&gs_l=serp.1.0.33i29i30l4.163052.171110.1.172864.26.20.0.6.6.0.413.3855.0j15j4j0j1.20.0...0.0.0..1c.1.17.psy-ab.LVwKdw-g_Vk&pbx=1&bav=on.2,or.r_qf.&bvm=bv.48705608,d.bmk&fp=454708d46e718598&biw=1366&bih=643
Google Book
RW-3 http://books.google.co.in/books?id=-zAe0P33BAcC&printsec=frontcover&source=gbs_ge_summary_r&cad=0#v=onepage&q&f=false
simluation link
Software/Equipments/Databases
Sr No (S/E/D) (only if relevant to the course) Salient Features
SW-1 Pspice Simulation tool
Detailed Plan For Practicals
Practical No Broad topic (Subtopic) Practical Description Learning Outcomes Equipment Used
Practical 1 Analog Electronics(D.C. characterization and finding parameters of transistors)
In Practical 1 description of all the five practicals will be given before MTE and in practical 2students are asked to find the Transistor parameters: alpha and beta and analyse the their dc characterstics
In practical-01 students will be knowing in brief about all the five practicals before MTE and in practical 2 Student will be learning the Transistor parameters: alpha (and beta and analyse the their dc characterstics
Resistors, Capacitors, BJT, Multimeter, Power supply
Practical 2 Analog Electronics(D.C. characterization and finding parameters of transistors)
In Practical 1 description of all the five practicals will be given before MTE and in practical 2students are asked to find the Transistor parameters: alpha and beta and analyse the their dc characterstics
In practical-01 students will be knowing in brief about all the five practicals before MTE and in practical 2 Student will be learning the Transistor parameters: alpha (and beta and analyse the their dc characterstics
Resistors, Capacitors, BJT, Multimeter, Power supply
Practical 3 Analog Electronics(Design of simple amplifiers (common emitter and common source))
To design simple common emitter amplifier
Students will learn to design common emitter amplifiers and will analyse the voltage and current gain
BJT, Resistors, Multimeter,Power supply, Capacitor
Practical 4 Analog Electronics(Design of differential amplifier)
To design and analyse the voltage gain of differential amplifier
Students will learn to design and analyse the voltage gain of differential amplifier
Resistors, Capacitors, IC 741, Multimeter, Power supply, CRO
*Each experiment of the lab will be evaluated using following relative scheme:
Component % of Marks
Performance Evaluation 100
Practical 5 Analog Electronics(Design of an oscillator (phase shift/Colpitts/Hartley/Wien bridge))
To implement Hartley, colpitt and Phase shift oscillator and measure their frequencies and do the error analysis with theoratical frequency
Students will learn To design Hartley, colpitt and Phase shift oscillator and measure their frequencies both theoratical and practical
Resistors, Capacitors, BJT, Multimeter, Power supply, CRO
Practical 6 Analog Electronics(Design of tuned amplifier)
In practical-06 To design and analyse the voltage gain of tuned amplifier and in practical 07 a test will be conducted for all the experiments before MTE
In practical -06 Students will able to learn the basics and operations of tuned amplifier along with its characterstics
Resistors, Capacitors, BJT, Multimeter, Power supply, CRO
Practical 7 Analog Electronics(Design of tuned amplifier)
In practical-06 To design and analyse the voltage gain of tuned amplifier and in practical 07 a test will be conducted for all the experiments before MTE
In practical -06 Students will able to learn the basics and operations of tuned amplifier along with its characterstics
Resistors, Capacitors, BJT, Multimeter, Power supply, CRO
Practical 8 Linear Integrated Circuits(Astable and Monostable Multivibrator and Schmitt Trigger using Op-Amp)
In practical-08 description will be given to students for all the experiments to be conducted after MTE and in practical-09 students are asked toTo study the detailed opertation IC 555 timer
In practical-08 students will be knowing about all the experiments after MTE and in practical -09 Students will learn various modes of operation of IC555 timer
IC 741, IC555, Resistors, capicators, power supply, CRO
Practical 9 Linear Integrated Circuits(Astable and Monostable Multivibrator and Schmitt Trigger using Op-Amp)
In practical-08 description will be given to students for all the experiments to be conducted after MTE and in practical-09 students are asked toTo study the detailed opertation IC 555 timer
In practical-08 students will be knowing about all the experiments after MTE and in practical -09 Students will learn various modes of operation of IC555 timer
IC 741, IC555, Resistors, capicators, power supply, CRO
Practical 10 Linear Integrated Circuits(Operational Amplifiers (IC741)-Characteristics and Application)
To study the Characteristics and ApplicatioCharacteristics, operatio and Application of operational amplifier
Students will learn about characteristics, working modes as well as the applications of operational amplifier
IC 741, Resistors, capicators, power supply, CRO
Practical 11 Linear Integrated Circuits(Waveform Generation using Op-Amp (IC741))
To generate squarewave, triangular wave and saw tooth wave using IC 741
Students will learn that how to generate squarewave, triangular wave and saw tooth wave using IC 741 without using function generator
IC 741, Resistors, capicators, power supply, CRO
Practical 12 Linear Integrated Circuits(Phase Shift Oscillator and Wein Bridge Oscillator using Op-Amp.)
To design and analyse the Phase Shift Oscillator and Wein Bridge Oscillator using Op-Amp
Students will learn to design and analyse the Phase Shift Oscillator and Wein Bridge Oscillator using Op-Amp
IC 741, Resistors, capicators, power supply, CRO
Practical 13 Linear Integrated Circuits(Study and Application of PLL IC)
In practical-13 students are asked to To study the basic principle of PLL and implement its application and in Practical-14 a test will be conduced for all the experiments conducted after MTE
In practical-13 Students will learn the basic principle of PLL and implement its application
IC 741, Resistors, capicators, power supply, CRO
Practical 14 Linear Integrated Circuits(Study and Application of PLL IC)
In practical-13 students are asked to To study the basic principle of PLL and implement its application and in Practical-14 a test will be conduced for all the experiments conducted after MTE
In practical-13 Students will learn the basic principle of PLL and implement its application
IC 741, Resistors, capicators, power supply, CRO
SPILL OVERPractical 15 Spill Over