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UNIVERSITY OF CALICUT (Abstract)
B.Sc programme in Instrumentation - under Choice Based Credit Semester System - Scheme and Syllabus – implemented with effect from 2009 admission onwards – approved – Orders issued. ------------------------------------------------------------------------------------------------------------
GENERAL AND ACADEMIC BRANCH – I ‘J’ SECTION
No. GA I/J1/896/2000 Dated, Calicut University. P.O., 30.06.2009. ------------------------------------------------------------------------------------------------------------ Read: 1. U.O.No.GAI/J2/3601/08 Vol.II dated 19.06.2009. 2. Minutes of the meeting of Board of Studies in Instrumentation held on 02.05.2009. 3. Item No.2(xxiv) of the minutes of meeting of Faculty of Science held on 05.05.2009. 4. Item No.II A.25 of the minutes of the meeting of the Academic Council held on 14.05.2009.
O R D E R
Choice Based Credit Semester System and Grading has been introduced for UG curriculum in all affiliated colleges under this University with effect from 2009 admission onwards and the Regulations for the same implemented vide paper cited (1) above.
As per paper read as (2) above, the Board of Studies has resolved to approve the Scheme and Syllabus of B.Sc Programme in Instrumentation under Choice Based Credit Semester System.
As per paper read as (3) & (4) above, the Faculty of Science at its meeting held on 05.05.2009 endorsed the minutes of Board of Studies and the Academic Council held on 14.05.2009 approved the same.
Sanction has therefore been accorded to implement the Scheme and Syllabus of B.Sc programme in Instrumentation under Choice Based Credit Semester System in the University with effect from 2009 admission onwards.
Orders are issued accordingly. Scheme and Syllabus appended. Sd/- DEPUTY REGISTRAR (G&A I) For REGISTRAR.
To The Principals of all affiliated Colleges offering B.Sc Programme in Instrumentation. Copy to: C.E/Ex I/EGI/DR, B.Sc/ System Administrator with a request to upload in University website/ Tabulation Section/Enquiry/ G&A-I ‘F’ Section/SF/DF/FC.
Forwarded/By Order
SECTION OFFICER
BSc Instrumentation - Restructured Pattern Under ccss
UNIVERSITY OF CALICUT
REGULATIONS GOVERNING
BACHELOR OF SCIENCE IN INSTRUMENTATION
UNDER CUCCSSUG 2009
1.0 Title of the programme :
This programme shall be called BACHELOR OF SCIENCE IN
INSTRUMENTATION
2.0 Highlights of the programme
2.1 Aim and objective: This course is to equip 10+2 (Science Group) students
with the theory of Instrumentation and also to train them in achieving technical
expertise in instrumentation.
2.2 Job Potential: The BSc Instrumentation graduates will be useful as scientific
and laboratory assistants to assist design specialties as well as maintenance
personal. Biomedical Instrumentation introduced in the curriculum will make
graduates useful in the medical field. Course content is designed such that BSc
Instrumentation graduates will be fit as scientific and laboratory assistants in the
industrial field. The project work will equip them to cater to the specialized needs
of industry, scientific laboratories, medical electronics and precision technology
fields.
2.3 Self Employment: These graduates will gain on job training during their
project study so that they can set up their own establishment to carry out
developmental activities as well as maintenance and servicing establishments.
2.4 Higher Studies: These students can continue to take up MSc Instrumentation
,MSc Biomedical Instrumentation, MSc Electronics and MCA
2.5 Minimum qualification of Faculty members: Masters degree in
Instrumentation or Instrumentation Technology /Biomedical Instrumentation/
B Tech in Instrumentation.
3.0 Eligibility for admission:
Any candidate who has passed the Plus Two of the Higher Secondary
Board of Kerala or Pre Degree of Calicut University or that of any other
University or Board of Examinations in any state recognized as equivalent to the
Plus Two of the Higher Secondary Board in Kerala, with mathematics as one of
the optional subject, is eligible for admission.
4.0 Duration of the programme:
The duration of the programme of study in BSc Instrumentation is three
academic years with six semesters.
5.0 Medium of Instruction:
The medium of instruction and examination shall be English.
6.0 Courses of study:
Total number of courses for the whole BBA program is 34. It is divided in to
four groups namely-
1.Common courses
2.Core courses
3.Complementary courses and
4.Open course
The Courses of study leading to the award of BSc Programme in Instrumentation
shall comprise the following:
COURSE PATTERN Courses No. of Courses Course Code Credits
Common 10 Sem 1-A01,A02,A07
Sem 2-A03,A04,A09
Sem 3-A06,A12
Sem 4-A013,A014
38
Core 14 IN1B01-IN6BI14 50
Complementary I
Computer
Applications
4 CS1CI01-CS4CI04 12
Complementary II
Applied Physics
4 AP1CII01-AP4CII04 12
Open I 1 IN5D01/02/03 4
Elective 1 IN6E01/02/03 4
Total 34 34 120
COURSE STRUCTURE
Semester-1 Sl.No Course Title Hrs/W Credits
1 A01 Communication Skills in English 4 3
2 A02 Critical Reasoning, Writing and
Presentation
5 3
3 A07 Communication Skills in other Languages 4 4
4 IN1B01 Applied Mathematics I 4 4
5 CS1CI-01 Computer Fund & Application Packages 2 2
6 CS1CI-01 MS Office Lab 2 0
7 AP1CII-01 Methodology of Science & Physics 2 2
8 AP1CII-01 General Physics Lab 2 0
25 18 Semester 2
Sl.No Course code Course Title Hrs/W Credit
1 A03 Reading Literature in English 4 4
2 A04 Readings on Indian Constitution Secularism
and Sustainable Environment
5 4
3 A09 Literature in Languages other than English 4 4
4 IN2B02 Applied Mathematics II 4 4
5 CS2CI02 Programming in C 2 2
6 CS2CI02 C Programming Lab 2 0
7 AP2CII02 Basic Electronic Devices and Circuits 2 2
8 AP2CII02 Basic Electronics Lab 2 0
25 20 Semester 3
Sl.No Course code Course Title Hrs/W Credit
1 A06 History & Philosophy of Science 4 4
2 A12 General Informatics 5 4
3 IN3B03 Measurement Techniques 3 4
4 IN3B04 Transducers 3 4
5 CS3CI03 Basics of System software,Network&DBMS 3 3
6 CS3CI03 HTML & MYSQL Lab 2 0
7 AP3CII03 OP-AMP and Applications 3 3
8 AP3CII03 OP-AMP Lab 2 0
25 22 Semester 4
Sl.No Course code Course Title Hrs/W Credit
1 A13 Basic Numerical skills 5 4
2 A14 Entrepreneurship Development 5 4
4 IN4B05 Electrical & Electronic Instrumentation 5 4
5 CS4CI04 Visual Programming 3 3
6 CS4CI04-P Visual Basic Lab 2 2
7 AP4CII04 Digital Integrated Circuits 3 3
8 AP4CII04-P Digital Electronics Lab 2 2
25 22 Semester 5
Sl.No Course code Course Title Hrs/W Credit
1 IN5B06 Basic Industrial Instrumentation 4 4
2 IN5B07 Elements of Process Control 4 4
3 IN5B08 Analytical Instrumentation 4 3
4 IN5B09 Microprocessors & Applications 4 3
5 IN5B12 Microprocessor Lab 2 0
6 IN5B13 Instrumentation Lab 2 0
7 IN5D01 Environmental Instrumentation (Open Course) 3 4
8 IN5B14(Pr) Project 2 0
25 18 Semester 6 Sl.No Course code Course Title Hrs/W Credit
1 IN6B10 Optoelectronic Instrumentation 5 4
2 IN6B11 Biomedical Instrumentation 5 4
3 IN6E01 Power Plant Instrumentation (Elective) 4 2
4 IN6B12-P Microprocessor Lab 4 4
5 IN6B13-P Instrumentation Lab 4 4
6 IN6B14(Pr) Project 3 2
25 20 Open Courses –Other Stream 1. IN5D01- Environmental Instrumentation 2.IN5D02 – P C Based Instrumentation 3. IN5D03- Science and Sustainable Development Elective Courses - Same Stream 1. IN5E01- Power Plant Instrumentation 2. IN5E02- Computer Networks 3. IN5E03-Nanotechnology Project-Instrumentation in cement/paper/fertilizer/steel/petrochemical/agricultural /power
industries. Extension Activity-Environmental monitoring and Impact studies
UNIVERSITY OF CALICUT BSc INSTRUMENTATION Programme Syllubus Semester 1-Core Course –1 (IN1B01) - Applied Mathematics-I 54 Hrs -3Hrs/W - Credit 4
Objective:- To familiarize treatment of the essential tools of applicable mathematics
required by students of physical science Module 1 (15 hrs) Coordinate Geometry:- Conics-Standard equations-Elementary properties-parametric
representations- tangents & normals- Coordinate geometry of three dimensions-A brief
review of vector addition, dot & cross multiplications, triple products, their physical
interpretations- position vector of a point- direction cosines-planes-straight lines- shortest
distance between lines- Standard equations of sphere, cone & cylinder Module II (24 hrs) Differential calculus: - Brief review of continuity & differentiality - Functions of
variable-Rolle’s theorem- Mean value theorem – Limits-Intermediate forms –L’ Hospitals rule. Radius of curvature- centre of curvature- evolute- functions of more than one variable –
Idea of partial differentiation – Euler’s theorem for homogenous - Total differentiation –
Applications in errors & approximations- Change of variables – Jacobians- Maxima &
minima of functions of two or more variables. A brief review of the methods of solutions of first order differential equations –separable,
homogenous & linear types – Exact equations – Orthogonal trajectories –The general
linear second order equations- The homogenous linear equations of the second order with
constant coefficients – Fundamental system of equations- The non- homogenous linear
equations-Methods of variation of parameters -Cauchy equations - Simple applications of
differential equations in electric circuits.. Module III (15 hrs) Matrices-Concept of a rank of a matrix – Reduction of matrix to normal form –System of
linear equations-Consistency of linear equations –Gauss elimination -Homogenous linear
equations –Fundamental system of equations –Inverse of a matrix - solution of a system
of equations using matrix inversion- Eigen values & eigen vectors-Eigen values of
Hermitian,Skew- Hermitian& Unitary matrices –Quadratic forms- Technique of
diagonalisation using row & column transformations on the matrix-definite, semi definite
&indefinite forms-Their identification using the eigen values of the matrix in quadratic
form Books for Study and Reference 1. N.Piskunoy Differential and Integral Calculus MIR Publications 2. Thomas .G.B Calculas and Analytic Geometry Addison Wesley Inc 3. M.R.Spiegel Matrices Schaum Series 4. C.R Wylie and Barrett Advanced engineering mathematics Mc-Graw Hill 5 E.Kreyszig Advanced engineering mathematics Wiley Eastern Limited 6 S. S Sastry Engineering mathematics Vol 1&2, PHI 7. B.S.Grewal Engineering mathematics 8. Manickyavachakom Pillai Advanced Mathematics Vol 1&2 UNIVERSITY OF CALICUT BSc INSTRUMENTATION Programme Syllubus SEMESTER II-Core Course II (IN2B02) - Applied Mathematics-II 72 Hrs - 4Hrs / W - Credit 4
Objective:- To familiarize treatment of the essential tools of applicable mathematics
required by students of physical science Module I (15 hrs) Infinite series:-Notation of convergence & divergence of infinite series-Ratio test-
comparison test-Rabe’s test- Root test-series of positive & negative terms-idea of
absolute convergence-Taylor’s& Maclaurin’s series-Representation of function-Leibnitz
formula for nth
derivative of the product of two functions- use of Leibnitz formula in
Taylor & Maclaurin expansions Module II (15 hrs) Laplace Transforms:- The Laplace Transforms- Inverse transforms - Laplace Transforms
of derivatives & integrals –Shifting theorms - Differentiation & integration of
transforms-Transforms of unit step functions- impulse functions & periodic function –
Solutions of ordinary differential equation using Laplace Transforms. Module III (20 hrs) Fourier series:-Introduction –Cosine series – Sine series- Functions having arbitary
period –Graphical representation of even & odd functions-Graph of sine & cosine series
–Fourier integral –Different forms of Fourier integrals- Physical significance of Fourier
series. Module IV (22 hrs) Probability & Statistics:- Probability distribution- Random variable distribution –
binomial distribution- Hypergeometric distribution-Mathematical expectation-Mean &
variance of a probability distribution – Chebychev’s theorm – Poisson’s approximation of
binomial distribution-The geometric distribution- Probability densities –Continuous
random variables- The normal distribution –Uniform distribution. Books for Study and Reference 1. N.Piskunoy Differential and Integral Calculus MIR Publications 2. Thomas .G.B Calculas and Analytic Geometry Addison Wesley Inc
3. M.R.Spiegel Matrices Schaum Series 4. C.R Wylie and Barrett Advanced Engineering Mathematics, Mc-Graw Hill 5 E.Kreyszig Advanced Engineering Mathematics, Wiley Eastern Limited 6 S. S Sastry Engineering mathematics Vol 1&2, PHI 7. B.S.Grewal Engineering mathematics 8. Manickyavachakom Pillai Advanced Mathematics Vol 1&2 9. Irvin Miller, John E Freund Probability and Statistics, PHI
BSc Instrumentation Programme
Complementary Course II -Computer Applications Stream- Science
Sem Course
No Course
Code Course Title
Contact Hours Credits
Theory Practical Total Theory Practical Total
I 1 CS1CI01
Computer
Fundamentals & Application
Packages
2 2 4 2 * 2
II 2 CS2CI02 Programming
in C 2 2 4 2 * 2
III 3 CS3CI03
Fundamentals
of System
Software,
Networks &
DBMS
3 2 5 3 * 3
IV 4 CS4CI04 Visual
Programming 3 2 5 3 2 5
UNIVERSITY OF CALICUT BSc INSTRUMENTATION Programme Syllubus Complementery Course I – Computer Applications
Course Code & Title CS1CI01 - Computer Fundamentals & Application packages 36 Hrs- 2Hr/W Credits-2 Prerequisite- Plus two level knowledge
Unit I -6Hrs Number systems- Non-positional number systems and positional number systems
(binary, octal and Hexadecimal), Converting from one number system to another-
decimal to a new base, converting to decimal from another bases, converting from base
other than ten to base other tan ten, short cut method for converting from binary to Octal,
octal to Binary, binary to Hexadecimal, and Hexadecimal to Binary, Computer Codes
(BCD, EBCDIC, ASCII), error detecting and correcting codes, parity bit, Hamming
Code, computer arithmetic ,importance of binary, Binary addition and subtraction.
Unit II –8 Hrs Boolean Algebra and Logical circuit- fundamental concepts of Boolean Algebra, postulates,
Principle of duality, theorems of Boolean Algebra, Boolean functions, minimization, complement,
canonicals forms, conversion between canonical forms. Logic Gates. AND, OR, NOT, NAND, NOR, XOR
and XNOR, logic circuits, converting expression to logic circuit, universal NAND and NOR gates,
Exclusive OR and equivalence functions, Design of Combinational circuits (Half Adder, Subtract or and
full adder)
Unit III –6 Hrs Basic Computer Organization-input Unit, Output Unit, Storage Unit (Direct, sequential and
Random Access), CPU organizationally, Control Unit (micro programmed and hardwired control), primary
storage, memory hierarchy, storage locations and addresses, storage capacity, bit, byte, nibble, RAM,
ROM, PROM and EPROM, cache memory, registers. Secondary storage devices (Magnetic tape, Hard disk
and CD drive)
Unit IV –8 Hrs
I/O devices- Input Devices-identification and its use, keyboard, pointing devices (mouse. Touch pad
and track ball), Video digitizer, remote control, joystick, magnetic stripes, scanner, digital camera,
microphone, sensor, and MIDI instruments, Output Devices- identification and its use, monitor, printer
(laser, ink jet, Dot-Matrix), plotter, speaker, control devices (lights, buzzers, robotic arms, and motors
Unit V –8 Hrs Planning a Computer program- purpose of programming planning, algorithm, flowchart- symbols,
sample programs, advantages and limitations
Text book
1.Computer Fundamentals by P.K Sinha
Reference book
1. An introduction to Digital Computer design by V. Rajaraman and T. Radhakrishnan
2. Computer fundamentals by B. Ram
S1-LAB (CS1C101)-Course Title- Computer Fundamentals
(2Hrs/W)
LIST OF EXPERIMENTS
MS WORD 1. Paragraph formatting
2. Newspaper style Document
3. Table creation
4. Mail merge
5. Page formatting & printing
MS EXCEL
1. Worksheet including Formulas
2. Formatting cells
3. Chart creation
4. Functions
MS POWERPOINT
1. Creating presentation
2. Animations
3. Sound
4. Inserting picture
UNIVERSITY OF CALICUT BSc INSTRUMENTATION Programme Syllabus
Complementary Course I – Computer Applications
Course Code & Title - CS2CI02 - Programming in C
36 Hrs- 2Hr/W Credits-2 Prerequisite- Plus two level knowledge
Unit I -6Hrs Introduction to C- Structure of C program, Character Set, Keywords, Identifiers,
Data Types, Qualifiers, Variables, Declarations, Symbolic Constants, Expressions,
Statements, Different Types of Operators (Arithmetic, Logical, Relational & Equality,,
Unary and Conditional), Operator Precedence and Associativity, Library Functions,
Comments, I/O functions-( Formatted scanf() & printf() , getchar (), putchar (), getche(),
gets(), puts())
Unit II- 8 Hrs
Control Statements- Selection Statements( if, if-else, else if ladder, switch),
iteration (while, do while, for ), jumping( goto , break, continue) , Nested Control
Statements
Unit III- 6 Hrs Structured Data types- Arrays (One dimensional and Two Dimensional),
Character and String Functions, Structure (Definition, Processing-period Operator),
Union
Unit IV- 8 Hrs
User defined Functions- Advantages, Definition, Accessing functions, formal and
Actual Parameters, Recursion, Storage Classes- Automatic, External, Static and Register
Variable, Argument Passing Mechanism
Unit V- 8 Hrs Pointers and data files- Pointers, advantages, declaration, operations on pointers,
pointers and one dimensional arrays, dynamic memory allocation. Data files (sequential),
file handling functions (fopen (), fclose (), fputc (), fgetc (), fgets (0, fputs (), fscanf (),
fprintf ()
Text Book
1. E. Balaguruswamy
Reference 1. C.. Karthikeyan
2. Schaum Series
S2 LAB –(CS2CI02)- Course Title- Programming in C (2Hrs/W)
LIST OF EXPERIMENTS 1. Prime nos up to n
2. n Fibonacci numbers
3. Factorial using recursion
4. Simple calculator
5. Solving quadratic equation
6. Checking Armstrong or not
7. String palindrome
8. Sorting nos and names
9. Matrix transpose
10. Matrix multiplication
11. Trace of a matrix
12. Sum of the digits and reverse
13. Sin series
14. Cosine series
15. First n Even no and odd numbers in a range
16. Vowels in a string
17. LCM and HCF of 2 nos
18. No of positives, negatives and zeros in a set of numbers
19. Base conversion
20. Appending array
UNIVERSITY OF CALICUT BSc INSTRUMENTATION Programme Syllabus Complementary Course –I – Computer Applications
Course Code & Title - CS3CI03- Fundamentals of System Software, Networks & DBMS
54Hrs- 3Hr/W Credits-3
Prerequisite- Basic Computer knowledge
Unit I -12Hrs
System software – classification of programming languages (Machine, assembly
& High level), Characteristics and Comparison, language processors (Assembler,
Interpreter and Compiler), Operating Systems-Functions, types of OS (batch,
multiprogramming, time sharing, real time and distributed)
Unit II -10Hrs Computer networks- goals of networking, network topologies, types of networks
(LAN, MAN and WAN), network model, OSI model- 7 layers, Internet Layer- 5 layers,
Communication Media-Guided (Twisted Pair, Coaxial Cable and Fiber Optic) and
Unguided (microwave, satellite)
Unit III –10 Hrs Database Management Systems-definition, structure of Database, data models
(Record based Data model, Network model:- Basic Components, Record types, data
types, links, relationships, Hierarchical model and Relational model)
Unit IV -10Hrs Structured query language-Create, insert, select, update, delete, alter, drop
Unit V -12Hrs HTML-hyper text, hyper media, understanding basic HTML tools- HTML editor,
web browser, General structure of a HTML document, different types of elements-doc
type, comment element, structural element, HTML tags and attributes-<
HTML>,(<BODY>,<HEAD>,<TITLE>, <H1>, <H2>,……,<H6> , <BR>, <TABLE>,
<IMG>, <HR>, adding links, background image to the body, creating lists Reference Book
1. Fundamentals of Computers by P.. K Sinha
2. OS A concept based Approach by D.M Dhamdhere
3. Data Communication & Networking by Behrouz A Forouzan Fourth Edn MC
Graw Hill
4. Principles of web page design by Joel Sklar, Vikas publications
S3-LAB(CS3CI03)-Course Title-Fundamentals of System Software, Networks &
DBMS
(2Hrs/W)
LIST OF EXPERIMENTS
HTML
1. Simple HTML document creation
2. Table creation
3. List creation
MYSQL
1. Database creation
2. Data retrieval
3. Insertion and deletion
4. Alteration of a table
UNIVERSITY OF CALICUT BSc INSTRUMENTATION Programme Syllabus Complementary Course I -Computer Applications
Course Code & Title - CS4CI04 Visual Programming
54 Hrs- 3Hr/W Credits-3
Prerequisite- Knowledge in Programming language
Unit I- 12 Hrs
Introduction to visual Programming -Concept of event driven programming,
introduction to VB.Net, The .Net Frame work and Common language runtime, Building
VB. Net Application, VB IDE, forms, properties, events, VB language-console
application and windows application, data type, declaring variable, scope of variable,
operators and statements,
Unit II- 10 Hrs
Control Statements- if-then, if –then- else, else-if ladder, select case,
choose, loop statements- do loops, for, while-The with statement, converting between
data types, Handling dates and times
Arrays-declaration and manipulation, Strings and String functions, procedures and
functions
Unit III- 10 Hrs
Windows Applications-forms, adding controls to forms, handling events,
MsgBox, Input Box, multiple forms, handling mouse and Keyword events, Object
oriented programming- creating and using classes and objects, Handling Exceptions- On
Error Goto
Unit IV- 10 Hrs
Common controls- textbox, Rich textbox, label, command Button, option button,
checkbox, frame, list box, combo box, scrollbar, picture box, image box, timer, Data
control, OLE, file controls-properties and methods
Unit V- 12 Hrs
Data Access with ADO. Net, accessing data with Server Explorer, Accessing Data with data Adaptors and Data sets, Creating a new data connection, creating and populating Data set, displaying data in Data Grid, selecting a data provider, Data accessing using Data adapter Control, Binding Data to Controls
Text Book 1.. Visual Basic. NET Black Book, by Steven Holzner Reference Book 1. Visual Basic. NET for developer, by Keith Franklin, Rebecca Riordan,
SAMS. 2. Sams teach yourself Visual studio, Net 2005 in 21 days by Jason
Beres 3. Learning Visual Basic. Net by Jesse Liberty 4. Visual Basic. Net programming in easy steps by Tim Anderson,
Dreamtech Press
S4- LAB (CS4CI04-P) - Course Title- Visual Programming (2Hrs/W)
LIST OF EXPERIMENTS
BSc Instrumentation Programme
Complementary Course-C II – Applied Physics
AP2CII02 - BASIC ELECTRONIC DEVICES AND CIRCUITS
(36 Hrs , 2 Hrs/w , 2 Credit )
Unit 1. (18 hrs)
1. Semiconductor Physics:- Semiconductors, Bonds in Semiconductors, Semi
conductor material (Silicon and Germanium), Energy Band description, effect of
temperature, Hole current, intrinsic and extrinsic – p-type and n-type semiconductors
2. Junction diode: - pn junction, Properties of pn junction- Forward and reverse
biasing. V-I characteristics of PN junction diodes, Diode as a rectifier, Zener diode, Half
wave, full wave and bridge rectifier circuits, Efficiency, Nature of output ripple factor,
filter circuits, capacitor filter, π filters, voltage stabilization using Zener diode. Voltage
multiplier.
3. Transistors :- BJT fundamentals, Types of BJT (NPN and PNP), BJT operation, BJT
configuration and characteristics- CE, CB, CC. Transistor as an amplifier, current
amplification factors, their relationships, transistor biasing, need for biasing, different
types of biasing , collector to base bias, biasing with emitter resistor, fixed bias, voltage
divider bias. Single stage transistor amplifier circuit, Input and Output resistances,
Voltage and current gains.
Unit 2 (18 hrs)
4. Multistage amplifiers: - RC coupled amplifiers. Frequency response and gain in
decibels, Classification of power amplifiers, class A, Class B and Class C
5. Filed effect transistor:- Basic construction of JFET, JFET characteristics and
parameters (VDS, Pinch-off voltage etc.), Common source amplifier.
6. Feed back circuits and oscillators
Basic principle of feed back, positive and negative feed back, basic type of
negative feedback circuits, feed back and circuit requirement for oscillators. LC and RC
oscillators, tuned collector oscillator, Hartley oscillator, Phase shift oscillator, crystal
oscillator expression for frequency.
7. Modulation and demodulation: - Transmission and reception of radio waves, types of
modulation, AM FM, their comparison, and demodulation- linear diode demodulation for
AM signals.
8. Special devices: - LED, UJT, MOSFET, SCR
Text books:
1. Principles of electronics, V K Metha and Rohit Metha, S Chand & Comp., New Delhi
2. Basic Electronics, Solid state, B L Thereja
3. Electronic Principles- Devices and circuits M L Anand.
References;
1. Electronic Principles, Albert Paul Malvino
2. Semiconductor Electronics, R K Sharma
Physics of semiconductor devices, Michel Shur.
BSc Instrumentation Programme
Complementary Course-C II – Applied Physics
AP3CII03 - OP-AMP AND APPLICATIONS
(54 Hrs ,3 Hrs/w , 3 Credit )
Unit 1 (27 Hrs) 1. Op-amp parameters, ideal op-amp, open loop op-amp configuration-
differential amplifier, inverting amplifier, non inverting amplifier, equivalent circuit
of an op-amp 2. Op-amp linear application-dc amplifier, ac amplifier, summing amplifier, scaling
amplifier, averaging amplifier, precision rectifier, instrumentation amplifier,
integrator, differentiator. Unit 2 (27 Hrs) 3. Active filters-low pass high pass,band reject,all pass filter 4. Wave form generators-square wave,triangular,saw tooth, voltage controlled
oscillator 5. Comparators-basic comparator types,characteristics,applications,zero
crossing detector, schimitt trigger,voltage limiters Text book
Opamps and linear integated circuits- E.A.Gayakwad, Prentice Hall
India, New Delhi. Additional references
1. Operational amplifiers and applications-Subirkumar Sarkar, S. Chand & Co. 2. Operational Aplifiers and Linear Integrated circuits, Robert F. Coughlin and
Frederick F. DriscollPrentice Hall India, New delhi 3. Digital principles and applications-Malvino and Leach 4th edn TMH 4. Digital fundementals-Thomas L Fioyd, Merril publishing Co, US
Basic Physics Experiments (10 out of 12)
1. Spectrometer - angle and minimum deviation of solid prism.
2. Spectrometer – Grating, Normal incidence: Wavelength of different lines of
mercury spectrum.
3. Newtons rings- Wave length of the monochromatic light.
4. Viscosity of the liquid: Capillary flow method
5. Surface tension of a liquid: capillary rise method
6. Cary Fosters Bridge: - temperature coefficient of resistance of the material of the
given wire.
7. Potentiometer:- Calibration of a low range voltmeter..
8. Melde's string- Frequency of the tuning fork
9. Deflection magnetometer:- moment and pole strength of a bar magnet, Tan C
method
10. Youngs modulus of the material of a bar:- uniform bending (mirror and telescope
method)
11. Rigidity modulus of the material of a wire:- torsional oscillation method.
12. Current sensitivity of a moving coil galvanometer.
Operational amplifier Experiments (10 Out of 12)
1. Inverting amplifier,
2. Non inverting amplifier
3. Voltage Follower
4. Summing amplifier
5. Schmidt Trigger
6. Astable Multi vibrator
7. Integrator
8. Differentiator
9. WienBridge oscillators
10. Phase shift oscillator
11. 2nd
order filters
12. Zero crossing detector
BSc Instrumentation Programme
Complementary Course-C II – Applied Physics
AP4CII04 - DIGITAL INTEGRATED CIRCUITS
(54 Hrs , 3 Hrs/w , 2 Credit )
LOGIC CIRCUITS: (10Hrs) Functions of Binary Variables – Logic Gate operations – Logic Variables – Boolean
algebraic theorems – Binary number systems – Arithmetic operations – Standard form of
Logic functions – SOP & POS – Minterm and Maxterm specifications – Karnugh map
representations – simplifications – uses. LOGIC FAMILIES: (8 HRS) Concepts of different logic families – TTL – active pull up – Volt- Ampere
characteristics of TTL gates – Manufacture’s specifications – Types of TTL gates –
Schotkey TTL, ECL gates – Transfer Characteristics – properties – Logic versatility. MOS gates: Characteristics – CMOS gates – Manufacture’s specifications – Interfacing
BJT and CMOS – Types of CMOS gates. FLIP-FLOPS: (8 HrS) Terminology – Flip-flop as a Memory element – Different types, Characteristics –
propagation delay – Manufacture’s specifications – Applications – Latches.
RREGISTERS & COUNTERS: (1O HRS) Shift Register – Serial – Parallel Data Transfer –Typical Circuits- Applications –Ripple
counters – Methods to improve counter speed – Counter designs – Synchronous &
Asynchronous counter – Sequence generator –typical circuits – Principle of operation –
applications – IC versions. LOGIC FUNCTIONS: (10 HRS) Adders –different types – Comparators – Decoders – Encoders – Code converts –
Multiplexers – Demultiplexers – Parity generators – Familiarization of popular IC
versions –Typical circuits applications. SYSTEM INERFACING: (8 HRS) Analog to Digital converter - Digital to Analog converter – different types –
applications – popular IC versions. TEXT BOOKS: 1. Digital Fundamentals – Thomas Floyd. 2. System Design using ICs – B.S. Sonde. REFERENCE BOOKS: 1. Digital Integrated Electronics – Taub & Schilling. 2. Microelectronics – Millman & Grabel. DIGITAL ELECTRONICS LAB 1. Familiarization of logic gates. 2. Realization of gates using NAND & NOR. 3. Half Adder using NAND & NOR. 4. Full Adder using NAND & NOR. 5. Flip Flops – RS, Clocked RS, D, T, JK. 6. Verification of De Morgans Theorem 7. Binary Adder 8. Code Converters 9. Counters (Up/Down/Decade). 10. Multiplexer / Demultiplexer – Using gates and ICs. 11. D/A Converter. 12. A/D Converter.