GROUP A Scheme of Examination (Common to all branches) First Semester Exam Schedule Practical Schedule Course No.

. Subjects L T P Total Theory Sess. Pract. Sess . AS-1001 AS1002 ME-1001 HU1003 EC 1001 CS 1001 Applied Maths I Applied Physics I Engg. Graphics Drawing Comm. & Prof. skills in English Basic Electronics Introduction to Computers & Programming in C (Practicals/Drawing/Design) AS 1003 EC 1002 Applied Physics Lab Basic Electronics Lab 2 2 3 2 2 3 50 50 50 50 50 50 100 100 100 3 3 0 3 3 3 1 1 0 1 1 1 6 0 4 4 6 4 4 4 100 100 100 100 100 100 50 50 50 50 50 50 150 150 150 150 150 150 Total

ME 1002/ Workshop Practice I/Information IT 1001 CS 1002 Technology Trainer Workshop I Computer Programming Lab

50

50

100

TOTAL Note :

15

15

35

600

300

200

200

1300

1. 2.

University Institute of Information Technology (UIIT) will offer Information Technology Trainer Workshop I/II (IT 1001) / (IT 1004) in place of Workshop I/II (ME 1002) / (ME 1004). Course Nos. AS-1001 and AS-1002 will be common for Groups A and B in First Semester.

GROUP B Scheme of Examination (Common to all branches) First Semester Exam Schedule Practical Schedule Course No. Subjects L T P Total Theory Sess. Pract. Sess . AS-1001 AS1002 AS 1004/ IT 1002 HU- 1002 EE 1001 ME 1003 Applied Maths I Applied Physics I Chemistry/Foundation of Information Technology Science, Technology & Society Basic Electrical Engineering Basic Mechanical Engineering 3 3 4 1 1 1 4 4 5 100 100 100 50 50 50 150 150 150 3 3 3 1 1 1 4 4 4 100 100 100 50 50 50 150 150 Total

(Practicals/Drawing/Design) AS 1005/ IT 1003 EE 1002 Applied Chemistry Lab/MATLAB Lab Basic Electrical Engineering Lab 1 2 3 2 4 50 50 50 50 100 100 2 2 50 50 100

ME 1004/ Workshop Practice II / Information IT 1004 ME 1005 Technology Trainer Workshop II Basic Mechanical Engineering Lab

50

50

100

TOTAL Note :
1.

20

35

600

300

200

200

1300

2.

University Institute of Information Technology (UIIT) will offer Information Technology Trainer Workshop I/II (IT 1001) / (IT 1004) in place of Workshop I/II (ME 1002) / (ME 1004). Course Nos. AS-1001 and AS-1002 will be common for Groups A and B in First Semester.

GROUP A Scheme of Examination (Common to all branches) Second Semester Exam Schedule Practical Schedule Course No. AS 1006 AS 1007 AS 1004/ IT 1002 HU 1002 EE 1001 ME 1003 Subjects Applied Maths II Applied Physics II Chemistry/Foundation of Information Technology Science, Technology & Society Basic Electrical Engineering Basic Mechanical Engineering 3 3 4 1 1 1 4 4 5 100 100 100 50 50 50 150 150 150 L 3 3 3 T 1 1 1 P Total 4 4 4 Theory 100 100 100 Sess. 50 50 50 Pract. Sess Total 150 150 150

(Practicals/Drawing/Design) AS 1005/ IT 1003 EE 1002 Applied Chemistry Lab/MATLAB Lab Basic Electrical Engineering Lab 1 2 3 2 4 50 50 50 50 100 100 2 2 50 50 100

ME 1004/ Workshop Practice II / Information IT 1004 ME 1005 Technology Trainer Workshop II Basic Mechanical Engineering Lab

50

50

100

TOTAL

20

35

600

300

200

200

1300

Note : 1. In campus 4 week vocational training for all branches will be held after the Second semester and credit for the same will be given in the Third Semester. In place of this, UIIT will go for this 4 week vocational training during winter vacation at the end of First Semester. However, Credits for the same will be given in the Third Semester. Vocational Training consists of extended workshop training in shops of Carpentry, Fitting, Foundry, Welding and Electrical Workshop. Course Nos. AS-1006 and AS-1007 will be common for Groups A and B in Second Semester.

2. 3.

GROUP B Scheme of Examination (Common to all branches) Second Semester Exam Schedule Practical Schedule Course No. AS 1006 AS 1007 ME-1001 HU1003 EC 1001 CS 1001 Subjects Applied Maths II Applied Physics II Engg. Graphics Drawing Comm. & Prof. skills in English Basic Electronics Introduction to Computers & Programming in C (Practicals/Drawing/Design) AS 1003 EC 1002 Applied Physics Lab Basic Electronics Lab 2 2 3 2 2 3 50 50 50 50 50 50 100 100 100 L 3 3 0 3 3 3 T 1 1 0 1 1 1 P 6 0 Total 4 4 6 4 4 4 Theory 100 100 100 100 100 100 Sess. 50 50 50 50 50 50 Pract. Sess Total 150 150 150 150 150 150

ME 1002/ Workshop Practice I/Information IT 1001 CS 1002 Technology Trainer Workshop I Computer Programming Lab

50

50

100

TOTAL

15

15

35

600

300

200

200

1300

Note : 1. In campus 4 week vocational training for all branches will be held after the Second semester and credit for the same will be given in the Third Semester. In place of this, UIIT will go for this 4 week vocational training during winter vacation at the end of First Semester. However, Credits for the same will be given in the Third Semester. Vocational Training consists of extended workshop training in shops of Carpentry, Fitting, Foundry, Welding and Electrical Workshop. Course Nos. AS-1006 and AS-1007 will be common for Groups A and B in Second Semester.

2. 3.

Scheme of Examination (Electrical Engineering) 3rd SEMESTER Course No. AS (ID) 3001 Subjects Numerical analysis and computer programming Principles of engineering economics and management Digital electronics Circuit theory L 3 T 1 P -Total 4

Exam Schedule Theory 100 Sess 50

Practical schedule Pract Sess ---

Total 150

AS (ID) 3002

--

100

50

--

--

150

EC (ID) 3001 EE (ID) 3001 EE 3002

3 3

1 1

----

4 4 4

100 100 100

50 50 50

----

----

150 150 150

Electrical Engg. 3 1 Materials and application EE 3003 Electrical 3 1 machine -I PRACTICAL/DRAWING/DESIGN AS (ID) Numerical --3003 analysis and computer programming EC (ID) Digital --3004 electronics EE Electrical --3004 machine -I ME (ID) Vocational --3001 training TOTAL 18 6

--

100

50

--

--

150

--

--

50

50

100

2 3 -7

2 3 -31

---600

---300

50 50 50 200

50 50 50 200

100 100 100 1300

Scheme of Examination (Electrical Engineering) 4th SEMESTER Course No. EE4001 Subjects L T P -Total 4 Exam Schedule Theory 100 Sess 50 Practical schedule Pract Sess ---

Total 150

Transmission & 3 1 Distribution of Electrical Power EE4002 Electrical 3 1 machine-II EE4003 Electromagnetic 3 1 field theory EE4004 Power electronics 3 1 EE4005 Electrical 3 1 measurements & measuring instruments EE4006 Communication 3 1 Engg PRACTICAL/DRAWING/DESIGN EE4007 Electrical --machine-II EE4008 Power electronics --EE4009 Electrical --measurements & measuring instruments EE4010 Transmission & --Distribution of Electrical Power TOTAL 18 6

-----

4 4 4 4

100 100 100 100

50 50 50 50

-----

-----

150 150 150 150

--

100

50

--

--

150

2 2 2

2 2 2

----

----

50 50 50

50 50 50

100 100 100

--

--

50

50

100

32

600

300

200

200

1300

Four weeks industrial training during the summer vacation after 4th semester and credit to be given in the 5th semester.

Scheme of Examination (Electrical Engineering) 5th SEMESTER Course No. EE5001 EE5002 Subjects Electrical Power generation Electronic measurements & measuring instruments EE5003 Electrical Drives& Fact Devices IT (ID)5002 Data Base Management Systems EE5004 Biomedical Engg. EC 5011 Microprocessors PRACTICAL/DRAWING/DESIGN EE5005 Electronic measurements & measuring instruments EE5006 Biomedical Engg. IT(ID) 5007 R D B M Systems EC 5012 Microprocessors EE 5007 Industrial Training TOTAL L 3 3 3 3 3 3 -----18 T 1 1 1 1 1 1 -----6 P ------2 2 2 2 -8 Total 4 4 4 4 4 4 2 2 2 2 -32

Exam Schedule Theory 100 100 100 100 100 100 -----600 Sess 50 50 50 50 50 50 -----300

Practical schedule Pract Sess --------50 50 50 50 50 250 ----50 50 50 50 50 250

Total 150 150 150 150 150 150 100 100 100 100 100 1400

Scheme of Examination (Electrical Engineering) 6TH SEMESTER Course No. EC 6012 Subjects L T P -Total 4

Exam Schedule Theory Sess 100 50

Practical schedule Practical --

Sess --

Total 150

Advanced 3 1 microprocessor and controller (Micro &PLC) EE6001 Switchgear & 3 1 protection EE6002 Energy 3 1 Management EE6003 High Voltage 3 1 Techniques and HVDC EE6004 Electrical 3 1 Energy Utilisation EE6005 Control Engg. 3 1 PRACTICAL/DRAWING/DESIGN EC6013 Advanced --- --microprocessor and controller (micro & PLC) EE6006 Switchgear & --protection EE6007 Control Engg. --TOTAL 18 6

----

4 4 4

100 100 100

50 50 50

----

----

150 150 150

--

100

50

--

--

150

-2

4 2

100 --

50 --

-50

-50

150 100

2 2 6

2 2 30

--600

--300

50 50 150

50 50 150

100 100 1200

Six weeks industrial training during the summer vacation after 6th semester and credit to be given in the 7th semester.

Scheme of Examination (Electrical Engineering) 7th SEMESTER Course No. EE7001 Subjects L T 1 1 1 1 1 -------5 P -----3 2 2 2 -6 15 Total 4 4 4 4 4 3 2 2 2 -6 35 Exam Schedule Theory Sess 100 100 100 100 100 ------500 50 50 50 50 50 ------250 Practical schedule Pract Sess -----50 50 50 -50 50 250 -----50 50 50 50 50 50 300

Total 150 150 150 150 150 100 100 100 50 100 100 1300

Electrical machine 3 design EE7002 Power system 3 operation & control EE7003 Entrepreneur 3 Development EE7004 Neural networks 3 and Fuzzy logic EE7005 Elective I (Deptt.) 3 PRACTICAL/DRAWING/DESIGN EE7006 Electrical machine --design EE7007 Entrepreneur -Development EE7008 Neural Networks -and Fuzzy logic EE7009 Group -discussion/seminar EE7010 Industrial Training EE7011 Project/ industrial -project TOTAL 15

Project /Industrial Project shall be started in the seventh semester and will continue in the 8th semester.

Scheme of Examination (Electrical Engineering) 8th SEMESTER Course No. EE8001 Subjects Testing & commissioning of electrical machines /Equipments Computer applications to power system analysis Digital Signal Processing L 3 T 1 P -Exam Schedule Practical schedule

Total Theory
4 100

Sess
50

Prac t
--

Sess
--

Total
150

EE8002

--

100

50

--

--

150

EC(ID)8001 xx-xxxx

3 3 3 --

1 1 1 --

---2

4 4 4 2

100 100 100 --

50 50 50 --

---100

---50

150 150 150 150

Elective-I (Open)

EE8004 Elective-II (Deptt.) PRACTICAL/DRAWING/DESIGN EE8005 Computer applications to power system analysis EC(ID)8006 Digital Signal Processing EE8006 Project/ industrial project EE8007 General fitness TOTAL LIST OF OPEN ELECTIVES

---15

---5

2 8 -12

2 8 -32

---500

---250

50 100 -250

50 100 100 300

100 200 100 1300

(1) Non Conventional Electrical Power Generation (EE-8008) (2) Energy Assessment and Auditing (EE-8009) Note: Students of B.Tech. (Electrical Engineering) will not opt for these electives. Instead, they are to choose one of the electives from the list of open electives of other branches.

10

GROUP

11

APPLIED MATHS-I
Course Code Name of the Course Lectures to be Delivered Semester End Examination AS-1001 Credits-4 Applied Maths-I 52 (1 Hr Each) (L=39, T=13 for each semester) Max Marks: 100 Min Pass Marks: 40

AS - 1001
L-3, T-1, P-0

Continuous Assessment (based on sessional test (2) 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D and E. Section E will be Compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C and D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For Candidates: Candidates are required to attempt five question in all selecting one question from each of the section A, B, C and D of the question paper and all the subparts of the questions in section E. Use of non-programmable calculators is allowed.

Maximum Time: 3 hrs Max Marks: 50

SECTION A Function of several variables, limits and continuity, partial derivatives, higher order partial derivatives, Eulers theorem, Jacobians, maxima of functions of two variables. Lagranges method of multipliers, double and triple integrals, change of variables, applications of double and triple integrals, beta and gamma functions. SECTION B Reductions formulae, definite integral as limit of a sum, area under a curve, length of an arc of a curve. Linear differential equations of second order with constant coefficients: complementary functions, particular integrals, Euler homogeneous form, and variation of parameters. Convergence of series, Taylors theorem with remainder, power series expansion of functions, Taylors and Maclaurins series. SECTION C Matrices: review of properties of determinants. Elementary operations on matrices. Homogeneous and nonhomogenous system of linear equations and their properties, bilinear, quadratic, hermitian and skewhermeitian forms. Eigenvalues of hermitian, skew-hermitian and unitary matrices. SECTION D Complex analytic functions: brief review of complex numbers, complex variable, concept of limit, continuity and derivatives of analytical function, cauchy-Riemann equations, harmonic function, complex series, some elementary functions, logarithm. BOOKS Kryszig, Thomas-Finny, Advanced Engineering Mathematics. S.S. Shastri, Engineering Mathematics (2nd edition) Vol-I and Vol-II. B.S. Grewal, Higher Engineering Mathematics. Piskunov, Differential and Integral Calculus. R.K.Jain and S.R. K. Iyengar, Advanced Engineering, Mathematics. Michael D. Greenberg, Advanced Engg. Mathematics.

1. 2. 3. 4. 5. 6.

12

APPLIED PHYSICS-I AS-1002 Course Code AS-1002 Credits-4 L-3, T-1, P-0 Name of the Course Applied Physics-I Lectures to be Delivered 52 (1 Hr Each) (L=39, T=13 for each semester) Semester End Examination Max Marks: 100 Min Pass Marks: 40 Maximum Time: 3 hrs Continuous Assessment (based on sessional test (2) 50%, Tutorials/Assignments 30%, Max Marks: 50 Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D and E. Section E will be Compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C and D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For Candidates: Candidates are required to attempt five question in all selecting one question from each of the section A, B, C and D of the question paper and all the subparts of the questions in section E. Use of non-programmable calculators is allowed. SECTION A Physical Optics: Interference-division of wavefront-fresnels biprism, division of amplitude, interference by Newtons rings, Michelsons interferometer and its applications. Diffraction- Difference between fraunhofer and fresnel diffraction through slit, plane transmission grating, its dispersal and resolving powers Polarization- polarized and unpolarised light, double refraction, nicol prism, quarter and half wave plates, polarimetry, biquartz and laurents half shade polarimeters, simple concepts of photoelasticity. Special theory of Realitivity: Michelson-Moreley experiments, Realitivistic transformations, Variation of mass with velocity, mass energy equivalence. SECTION B Wave and oscillations: Simple harmonic oscillations, simple concept of harmonic oscillator, resonance, quality factor, E.M wave theory, Review of basic ideas, Maxwells equations and their experimental basis. Simple plane wave equations, simple concepts of wave-guides and co-axial cables, Poynting vector. Dielelectrics: Molecular Theory, polarization, displacement, susceptibility, dielectric coefficient, permitivity and various relations between these, Gausss law in the presence of dielectric, energy stored in an electric field. Behavior of dielectric in field simple concepts, dielectric losses. SECTION C Quantum Physics: Difficulities with classical physics, Introduction to quantum mechanics-simple concepts, discovery of Plancks constant. De Broglie Waves, Phase and Group Velocities, Particle diffraction, Uncertainty Principle, the wave equation, Postulates of quantum mechanics, Time dependent and independent Schrodinger equation, Expectation Values, Eigen Values and Eigen functions, Particle in a box, Finite Potential Well, Tunnel Effect, Harmonic oscillator. Statistical distributions, Maxwell Boltzmann Statistics, Quantum statistics. SECTION D Nuclear Physics: Neutron cross-section, nuclear fission, moderators, nuclear reactors, reactor criticality, interaction of radiation with matter-basic concepts, Radiation Detectors-ionization chamber, G.M counter, scintillations & solid state detectors, cloud Chamber & bubble chamber. BOOKS Arthur Beiser, Concepts of Modern Physics, 5th International edition Tata McGraw Hill Wehr, Richards & Adair, Physics of the Atom. A.S.Vasudeva, Modern Engg. Physics.

1. 2. 3.

13

ENGG. GRAPHICS DRAWING

Course Code Name of the Course Lectures to be Delivered Semester End Examination ME-1001 Engg. Graphics Drawing 66 (P=66) Max Marks: 100 Credits-6

ME-1001
L-0, T-0, P-6

Continuous Assessment (based on sessional test (2) 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%)

Min Pass Marks: 40 Max Marks: 50

Maximum Time: 3 hrs Min. Pass Marks: 25

Instructions
1. For Paper Setters: The question paper will consist of five sections A, B, C, D and E. Section E will be Compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C and D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. For Candidates: Candidates are required to attempt five question in all selecting one question from each of the section A, B, C and D of the question paper and all the subparts of the questions in section E. Use of nonprogrammable calculators is allowed. This course will be conducted in drawing hall fitted with drawing tables and drafters.

2.

3.

SECTION A Drawing Techniques: Various type of lines, principal of dimensioning, size and location as per IS code of practice (SP-46) for general engg. Drawing. Practice of drawing, various types of lines and dimensioning exercises. Drawing exercises pertaining to symbols. Conventions and Exercise of lettering techniques. Free hand printing of letters and numerals in 3, 5, 8 and 12 mm sizes, vertical and inclined at 75 degree. Instrumental lettering in single stroke. Linear Scale, Diagonal scale & vernier scale. Projection of Points, Lines and Planes: Concept of horizontal and vertical planes. First and third angle projections: projections of point and lines, true length of lines and their horizontal and vertical traces, projection of planes and their traces. Auxiliary planes. SECTION B Projections of Solids: Right regular solids of revolution and polyhedrons etc. and their auxiliary views. SECTION C Sectioning of Solids: Principal of sanctioning, types of sanctioning and their practice on projection of solids, sectioning by auxiliary planes. Isometric Projection: Concept of isometric views: isometric scale and exercise on isometric views. Practice In: Orthographic projections SECTION D Development of Surfaces: Development of surfaces of cylinders, cones, pyramid, prism etc. exercises involving development of unique surfaces like Y-piece, hopper, tray, truncated pieces etc. Intersection of Surfaces: Intersection of cylinders, cones and prisms with their axes being vertical, horizontal or inclines. Exercise on intersection of solids-cylinder and cylinder, cylinder and cone, prism and prism. Note: Some exercise in each Section should be done using Auto CAD. BOOKS N.D. Bhatt, Elementary Engineering Drawing. P.S.Gill, Engineering Drawing & Engg. Graphics. L.V. Lakshminarayan & R.S. Vaish Engineering Graphics. N.D. Bhatt and V.M. Panchal, Engineering Drawing Plane and Solid Geometry, 44th Edition 2002, Charotar Publishing House. James D. Bethune, Engineering Graphics with AutoCAD 2002, Publisher-Pearson Education. P.S.Gill, engineering Graphics and Drawing, S.K.Kataria and Sons Millennium Edition. T. Jeyapoovan, Engineering Graphics using AUTOCAD 2000, 1st Edition 2002, Vikas Publishing House. K. Venugopal: Engineering Drawing and Graphics + AutoCAD 4th Edition, New Age International Publishers Ltd. New Delhi.

1. 2. 3. 4. 5. 6. 7. 8.

14

COMMUNICATION & PROFESSIONAL SKILLS IN ENGLISH

Course Code Name of the Course Lectures to be Delivered Semester End Examination HU-1003 Credits-4 Communication & Professional Skills in English 52 (1 Hr Each) (L=39, T=13 for each semester) Max Marks: 100 Min Pass Marks: 40

HU-1003
L-3, T-1, P-0

Continuous Assessment (based on sessional test (2) 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D and E. Section E will be Compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C and D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For Candidates: Candidates are required to attempt five question in all selecting one question from each of the section A, B, C and D of the question paper and all the subparts of the questions in section E. Use of nonprogrammable calculators is allowed.

Maximum Time: 3 hrs Max Marks: 50

SECTION A Reading Skills: The skill of effective reading eye movements, fixations, regression and visual wandering, the right approach to reading.; Factors affecting the style of reading reader related material related and environmental; Memory, retention, association of read material. Kinds of Reading: Introduction to phonetics familiarization with speech sounds and their symbols articulation of speech sounds stress and intonation. Grammar: Word building use of punctuation marks, articles, tenses, abbreviations, prepositions, idioms & phrases transformation of sentences, incorrect to correct English, single word for a group of words. SECTION B Writing Skills: Business letters: principles, structure and style of writing business i.e., sales letters, claim and adjustment letters, inviting quotations/tenders, writing a memo, job application letters, preparing a personal resume; Effective Meetings: Qualities i.e. planning, processing the discussion, conducting a meeting use of different type of questions, summaries, handling problem situations and problem people, writing notices, agenda and minutes of meetings; Report writing: Characteristics, types of reports, structure of technical/research reports, preparatory steps to report writing; Elements of style: Definition of style, characteristics of a good technical style practical hints to improve the style of writing ; prcis writing; Comprehension of passages (May be picked up from the books recommended for reading). SECTION C Listening Skills: Barriers to listening, effective listening and feedback skills, Telephone techniques. Considerations of listening and voice, developing telephone skills preparing for the call, controlling the call, follow up action. Handling difficult calls and difficult callers. SECTION D Speaking And Discussion Skills: Effective speaking: Preparation i.e., deciding the objective, preparing the environment, organizing the material, selection of words, voice modulation, speed, expression, body language, dealing with questions, dealing with nervousness, presentation of audio-visual aids; Group Discussions: The art of participating in group discussion i.e., initiative , cooperation with group members, analysis of the issue, putting ones views effectively, establishing leadership.

15

Assignments / Seminars / discussions may be given for following skill development. a) b) c) d) e) f) g) h) i) Word processing a document Report writing Preparing agenda for meeting Preparing minutes of the meeting / seminars. Press Releases Preparing a Brochure Advertisements Preparing a power point slide show on a PC / OHP Any other exercise decided by the course Professor. BOOKS Sheila HA Smith, M and Thomas, L., Methuen, Reading to Learn; London, 1982. McGraw, SJ;Basic Managerial Skills for all, Prentice Hall of India, New Delhi 1991 Technical Reporting Writing British Association for commercial and Industrial Education, BACIE, 1992 Chrissie Wright (Ed.); Handbook of Practical Communication Skills; JAICO Books K.K.Sinha, Business Communication, Galgotia Publishing Company, New Delhi, 1999. English Grammar David Cameron, Mastering Modern English. Robert L. Shuster, Written Communication in Business. Ron Ludlow & Ferous panton. The Essence of Effective Communication. Ragmond & Petit, business Communication. Common Errors in English, by Sudha Publication (P) Ltd., B-5, Prabhat Kiran Building, Rajendra Place, New Delhi 110008. Abul Hashem, Common Errors in English, Ramesh Publishing House, Daryagang New Delhi. Objective English by Tata McGraw Hill Publishing Co. Ltd., New Delhi. R.K.Bansal & J.B. Harrison, spoken English for India, Orient Longman. Veena Kumar, The Sounds of English, Makaav Educational Software, New Delhi. R.C.Sharma & Krishna Mohan, Business Correspondence and Report writing, Tat McGraw Hill Publishing Co. Ltd., New Delhi Group Discussion by Sudha Publications and Ramesh Publishing House, New Delhi.

1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17.

Recommended Readings 1. 2. 3. 4. Business @ The Speed of thought, Bill Gates. My Experiments with Truth, M.K.Ghandhi Wings of Fire, A.P.J. Kalam An Autobiography, Jwahar Lal Nehru.

16

BASIC ELECTRONICS Course Code Name of the Course Lectures to be Delivered Semester End Examination EC -1001 Credits-4 Basic Electronics 52 (1 Hr Each) (L=39, T=13 for each semester) Max Marks: 100 Min Pass Marks: 40

EC 1001 L-3, T-1, P-0

Continuous Assessment (based on sessional test (2) 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions
1.

Maximum Time: 3 hrs Max Marks: 50

2.

For Paper Setters: The question paper will consist of five sections A, B, C, D and E. Section E will be Compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C and D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. For Candidates: Candidates are required to attempt five question in all selecting one question from each of the section A, B, C and D of the question paper and all the subparts of the questions in section E. Use of nonprogrammable calculators is allowed.

SECTION A Brief review of Band Theory, transport phenomenon in semiconductors, Electrons and holes in Intrinsic semiconductor, Donor and acceptor Impurities, charge densities in semiconductor. PN Junction, Reverse and Forward bias conditions, Diode Characteristic and parameter, Ideal vs. Practical diode.equivalent circuits and frequency response. rectification-half and full wave, Zener and Avalanche diode, its role as regulator, photodiode. SECTION B Bipolar junction transistor (BJT) and their characteristics as circuit and gain elements. Two port network analysis, h-parameters and trans-conductance. Equivalent circuits for JFET and MOSFET, enhancement mode and depletion mode MOSFETS. Unijunction transistor (UJT), UJT characteristics, parameters and circuit operation. SECTION C Bias for transistor amplifier: fixed bias, emitter feed back bias. Feedback principles. Types of feedback, Stabilization of gain, reduction of non-linear distortion, change of inputs and output resistance by negative feedback in amplifier. Amplifiers coupling, types of coupling, Amplifier pass band, Eq circuits for BJT at high frequency response of CE, RC-Coupled amplifiers at mid, low and high frequencies. SECTION D Semi conductor processing, active and passive elements, Integrated circuits, bias for integrated circuits. Basic operational amplifier, applications of operational amplifier adder, subtractor, Integrator, differentiator and comparator, Photo transistor: its characteristics and applications. BOOKS A.P.Malvino.Electronic Principles. J.D. Ryder Electronic Fundamentals and Applications. J.Millman and C.C.Halkias Electronic Circuits & Devices. J.Millman & C.C.Halkias Integrated Circuits & Devices. N.N.Bhargava & Kulshrestha, Electronic Devices.

1. 2. 3. 4. 5.

17

INTRODUCTION TO COMPUTERS & PROGRAMMING IN C Course Code Name of the Course Lectures to be Delivered Semester End Examination CS-1001 Credits-4 Introduction to Computer & Programming in C 52 (1 Hr Each) (L=39, T=13 for each semester) Max Marks: 100 Min Pass Marks: 40

CS-1001 L-3, T-1, P-0

Continuous Assessment (based on sessional test (2) 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%)

Maximum Time: 3 hrs Max Marks: 50

1.

2.

Instructions For Paper Setters: The question paper will consist of five sections A, B, C, D and E. Section E will be Compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C and D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. For Candidates: Candidates are required to attempt five question in all selecting one question from each of the section A, B, C and D of the question paper and all the subparts of the questions in section E. Use of non-programmable calculators is allowed. SECTION A Fundamental Computer Concepts: Operating system fundamentals, disk basics, VDU Basics, Keyboard basics, introduction to compiler, interpreter, assembler, linker and loader and their inter relationship, Introduction to basics of Information Technology. SECTION B Problem solving with Computers: Algorithms, pseudocodes and Flowcharts, Debugging, testing and documentation, structure-programming concepts, top down and bottom-up design approaches. Data types, Constants, variables, arithmetic and logical expressions, data inputs and output, assignments statements, conditional statements. SECTION C Iteration, arrays processing, user-defined data types, functions, recursion, parameter passing by reference and by value. SECTION D Structure, Multiple structures, Arrays of structure, Unions. Files: reading, writing text and binary files, pointers, character pointers, pointers to arrays, arrays of pointer to structures. (The programming language C is to be taught along with the course in detail.) BOOKS Kanitkar, Let us C, BPB Publications Richie and Kerningham, C Programming V Rajaraman Fundamentals of computers D.Dromey, How to solve it by computers (Prentice Hall) E. Balaguruswamy, Programming in C, Tata McGraw Hill.

1. 2. 3. 4. 5.

18

APPLIED PHYSICS LAB

Course Code Name of the Course Lectures to be Delivered Semester End Examination Continuous Assessment AS-1003 Credits-2 Applied Physics Lab 26 hours of Lab. work (2 hrs. per week) Max Marks: 50 Min Pass Marks: 20 Lab work 30% Max Marks: 50 Lab Record 25% Viva/ Hands on 25% Attendance 20%

AS-1003
L-0, T-0, P-2

Maximum Time: 3 hrs Min Pass Marks: 25

Instructions for paper setter / candidates Laboratory examination will consist of two parts: (i) Performing a practical exercises assigned by the examiner (25 marks). (ii) Viva-voice examination (25 marks) Viva-voce examination will be related to the practicals performed / project executed by the candidate related to the

paper during the course of the semester. LIST OF EXPERIMENTS Note: (Two experiments to be done from each section, total number of experiments required to be performed 10 to be decided by the teacher concerned and availability of equipment.) OPTICALS AND WAVES SECTION A To find the wavelength of sodium light by Newtons rings experiment. To find the wavelength of sodium light by Fresnels Biprism experiment. To find the wavelength of sodium light by using the phenomenon of diffraction of light at a straight edge. To find the wavelength of various colors of white light with the help of a plane transmission diffraction grating. To find the wavelength of sodium light by Michelson interferometer. SECTION B To find the refractive index and Cauchys constant of a prism by using spectrometer. To find the resolving power of a telescope. To study the beam parameters of a helium-neon laser. To find the specific rotation of sugar solution by using a polarimeter. To find the velocity of Ultrasonic Waves in a given liquid. To find the specific rotation of sugar using polarimeter.

1. 2. 3. 4. 5.

1. 2. 3. 4. 5. 6.

ELECTRICITY AND MAGNETISM SECTION C 1. To compare the capacitances of two capacitors by Desauty Bridge. 2. To find the flashing & quenching potentials of argon & also to find the capacitance of unknown capacitor. 3. To find the temperature coefficient of resistance by using platinum resistance thermometer and Callender & Griffith bridge.

19

SECTION D 1. To find the frequency of AC mains by using sonometer. 2. To find the low resistance by carrey Fosters bridge. 3. To find the resistance of a galvanometer by Thomsons constant deflection method using a post office box. 4. To find the value of high resistance by Substitution method. 5. To find the value of high resistance by Leakage method. 6. To convert a galvanometer into an ammeter of a given range. 7. To study the variation of magnetic field with distance and to find the radius of coil by Stewart and Gees apparatus. 8. To find the reduction factor of two turn coil of tangent galvanometer by using a copper voltameter. MODERN PHYSICS SECTION E To find the value of e/m for electrons by Helical method. To determine the charge of an electron by Millikans oil drop method. To find the ionization potential of Argon. Mercury using a thyratron tube. To find the value of Plancks constant by using a photoelectric cell. SECTION F To study the various crystal structures using Beed Model. To calculate the hysteresis loss by tracing a B-H curve for a given sample. To determine the band gap of an intrinsic semiconductor by four probe method. To determine the resisitivity of a semi-conductor by four probe method at different temperatures. To determine the Hall co-efficient. To study the photovoltaic cell & hence to verify the inverse square law.

1. 2. 3. 4.

1. 2. 3. 4. 5. 6.

BOOKS 1. Practical Physics-S.L.Gupta & V.Kumar. 2. Advanced Practical Physics Vol. I & II S.P. Singh 3. Practical Physics for B.Sc I, II and III - C.L.Arora.

20

BASIC ELECTRONICS LAB

EC-1002 Credits-2 Basic Electronics Lab 26 hours of Lab. work (2 hrs. per week) Max Marks: 50 Min Pass Marks: 20 Max Marks: 50 Lab work 30% Lab Record 25% Viva/ Hands on25% Attendance 20% Instructions for paper setter / candidates Laboratory examination will consist of two parts: (i) Performing a practical exercises assigned by the examiner (25 marks). (ii) Viva-voice examination (25 marks) Course Code Name of the Course Lectures to be Delivered Semester End Examination Laboratory Continuous Assessment

EC-1002
L-0, T-0, P-2

Maximum Time: 3 hrs Min Pass Marks: 25

Viva-voce examination will be related to the practicals performed / project executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS 1. (a) To study the use and scope of using an oscilloscope as a measuring device in an electronic laboratory. (b) To study the use and scope of using a multimeter (digital and analog) as a measuring device in an electronics laboratory. (c) To study the use and scope of function generator as a signal source in an electronics laboratory. Set up an experiment to: 2. Draw forward bias and reverse bias characteristics of a pn junction diode and use it as a half wave and full wave rectifier. 3. Draw the characteristics of a zener diode and use it as a voltage regulator. 4. Draw characteristics of common base configuration of pnp transistor. 5. Draw characteristics of common emitter configuration of an npn transistor. 6. Draw characteristics of common drain configuration of a MOSFET. 7. Find the voltage and current gain of single stage common emitter amplifier. 8. Draw the characteristics curve of UJT. 9. Find the voltage gain of single stage voltage series feedback amplifier. 10. Use operational amplifier as I) Inverting amplifier II) Non-inverting amplifier III) Comparator 11. Use operational amplifier as I) Integrator II) Differentiator 12. Use operational amplifier as I) Adder II) Precision amplifier 13. Find the overall voltage gain and current gain of a two stage RC coupled amplifier. Basic electronics should stress on interfacing with real life devices and general-purpose linear units. Emphasis is on system design and not on discrete components, some of the components around which exercises can be built are 1. SCR as triacs and power control. 2. Power supplies starting with zener. 3. Op to compliers and isolations where photo diode, transistors, leds are used. 4. Laser diode (laser pointer) 5. Op amps 6. Op amps for instrument amplifiers. Note: Record to be maintained in the laboratory record book for evaluation. Usage of breadboard approach to be encouraged.

21

WORKSHOP PRACTICE-I
ME-1002 Credits-3 Workshop Practice-I 39 hrs. (Lab Sessions=39 (3 hrs. each)) Max Marks: 50 Min Pass Marks: 20 Lab work 30% Max Marks: 50 Lab Record 25% Viva/ Hands on 25% Attendance 20% Instructions for paper setter / candidates Laboratory examination will consist of two parts: (i) Performing a practical exercises assigned by the examiner (25 marks). (ii) Viva-voice examination (25 marks) Course Code Name of the Course Lectures to be Delivered Semester End Examination Laboratory Continuous Assessment

ME-1002
L-0, T-0, P-3

Maximum Time: 3 hrs Min Pass Marks: 25

Viva-voce examination will be related to the practicals performed / project executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS Fitting Shop: Introduction to the tools used in Fitting Shop and various processes in Fitting shop. 1. To make a square piece of mild steel. 2. To make V-matching joint of mild steel. 3. To make a V-notch. Machine Shop: Introduction to various machine tools and machine parts, such as Lathes, drilling machine, grinders etc. Cutting tools and operations. 1. Facing and turning on mild steel rod on Lathe Machine. 2. To make a groove on lathe machine. 3. Taper turning operation on Lathe Machine. Carpentry and Pattern making Shop: Carpentry and Pattern Making Various types of timber and practice boards, defects in timber, seasoning of wood, tools, operations and joints. Introduction to the tools used in carpentry shop. 1. To make the T lap joint. 2. To make T Dove-tail joint. 3. To make Mortise & Tennon joint. Welding Shop: Introduction to different welding methods, welding equipment, electrodes, welding joints, awareness of welding defects. 1. To make a lap joint. 2. To make a T joint. 3. To make a V-butt joint. Smithy and Forging: Introduction to forging tools, equipments and operations, Forgeability of metals. 1. To make a ring of mild steel by cold forging process. 2. To make S-hook by hot forging process. 3. To make chisel by hot forging process.

22

Foundry Shop: Introduction to moulding materials, moulds, use of cores, melting furnaces, tools and equipment used in Foundry. 1. Make a single piece pattern mould. 2. To make spilt pattern mould. 3. To make mould and core and assemble it. Electrical and Electronics Shop: 1. Introduction to electric wiring. 2. Exercises preparation of PCBs, involving soldering of electrical & electronic application.

1. 2. 3.

BOOKS Workshop Technology by Chapman. Manufacturing Processes by Begman. Manufacturing Materials and processes by JS Campbell.

Note:

Industrial visits can be undertaken to various industries available in the vicinity of the concerned Engineering College. One project at the end of semester has to be submitted by a group of six students.

23

INFORMATION TECHNOLOGY TRAINER WORKSHOP-I

Course Code Name of the Course Lectures to be Delivered Semester End Examination Laboratory Continuous Assessment IT-1001 Credits-3 Information Technology Trainer Workshop-I 39 Hrs. (Lab Sessions = 39(3 hrs. each)) Max Marks: 50 Min Pass Marks: 20 Lab work 30% Max Marks: 50 Lab Record 25% Viva/ Hands on25% Attendance 20%

IT-1001
L-0, T-0, P-3

Maximum Time: 3 hrs Min Pass Marks: 25

Instructions for paper setter / candidates Laboratory examination will consist of two parts: (i) Performing a practical exercises assigned by the examiner (25 marks). (ii) Viva-voice examination (25 marks) Viva-voce examination will be related to the practicals performed / project executed by the candidate related to the paper during the course of the semester. The workshop will provide training of hardware and software theory of a computer based on Pentium-IV CPU with windows 98 as an operating system with DMP/ DeskJet Printer/ Laser Printer.

(i)

Study of Computer Mother Board: a) CPU, DMA, Wait state, RAM / ROM, NMI, Logic Address, reset, I / O Ports, Device Drivers, Power Management, Block Diagram. Study of bus, Slots and Ports: a) ISA, EISA, VESA, PCI, MCA, AGP, USB, AMR b) Parallel, Serial RS 232C, USB

(ii)

(iii) Study of Memories on a PC: a) Memory Types, Selection, Installation b) ROM BIAS Types, Setup, Installation c) Floppy Drive Types, R/W head, Control Card, Spindle Motor, Stepper Motor, Termination Resistor, Block Diagram, Write protect, Testing. d) Hard Disk Jumper Setting, Configuration, HDC, Installation Software, Testing, Block Diagram. (iv) Study of Input/Output Device: a) Monitor Types, Working principle, Configuration, modes, scanning, Block diagram Adapter b) Card Types, Dot pitch, Resolution c) Keyboard Types, Construction, Working Principle. d) Mouse Types, Construction, Working Principle (v) Study of Hardware, Accessories (Mechanical / Electrical): a) Cabinet Types, Selections b) SMPS Rating, Green PC, EPA Compliance c) Cables HD Cable, FDD Cable, Printer Cable. d) Connectors 9 pin M/F, 25 Pin M/F Study of Printers: a) Printers Types, construction, working Principle, Fonts, DeskJet, Dot Matrix, Laser Jet, Line Printer, Plotters, Block Diagram

(vi)

24

(vii) Study of Multimedia Hardware Modules a) CDROM drive Jumper setting, Installation, Cables, Block Diagram, Configuration. b) DVD drive Types, Working Principle, Installation, Configuration c) Speakers/Mike Different Types d) Tuner Cards Different Types e) Digital Cameras Different Types f) Video Conferencing Kit. (viii) Study of Clean Power Supply Equipments: a) CVTs b) UPS Industrial visits can be undertaken to various industries available in the vicinity of the concerned Engineering College. One project at the end of semester has to be submitted by a group of six students.

Note:

25

COMPUTER PROGRAMMING LAB Course Code Name of the Course Lectures to be Delivered Semester End Examination Laboratory Continuous Assessment Credits-2 CS -1002 Computer Programming Lab. 26 Hrs. of Lab. Work (2 hrs. per week) Max Marks: 50 Min Pass Marks: 20 Lab work 30% Lab Max Marks: 50 Record 25% Viva/ Hands on 25% Attendance 20%

CS -1002 L-0, T-0, P-2

Maximum Time: 3 hrs Min Pass Marks: 25

Instructions for paper setter / candidates Laboratory examination will consist of two parts: (i) Performing a practical exercises assigned by the examiner (25 marks). (ii) Viva-voice examination (25 marks) Viva-voce examination will be related to the practicals performed / project executed by the candidate related to the paper during the course of the semester.

A. B. C. D.

Dos 6.2 (through MS-DOS prompt, usage of basic commands, idea of .bat, .sys, .com, .exe etc.and usage of an editor to be done in consultation with the faculty incharge for the course). Windows (usage of GUI for working effectively in laboratory to be done in consultation with the faculty incharge for the course). Microsoft office (projects based on word, excel, power point, access, to prepare reports, presentations and databases to be done in consultation with the faculty incharge for the course). Programming of fundamental algorithms in C in the form of projects in groups of two (based on how to solve it, Dromey and let us C by Kanitkar and in consultation with the faculty incharge for the course).List of Lab. exercises to be displayed in advance covering whole of the course. Tentative list is given below to be developed in the form of projects. 10 more exercises to be added by the faculty incharge.

1. 2. 3. 4. 5. 6. 7. 8. 9. 10.

Write a program to find the largest of three numbers (if-then-else). Write a program to find the largest number out of ten numbers (for statement). Write a program to find the average male height & average female height in the class (input is in form of sex code, height). Write a program to find roots of quadratic equation using functions and switch statement. Write a program using arrays to find the largest and second largest no. Write a program to multiply two matrices. Write a program to read a string and write it in reverse order. Write a program to concatenate two strings. Write a program to sort numbers using the Quick sort Algorithm. Represent a deck of playing cards using arrays.

Note: Record to be maintained both electronically and hard copy for evaluation.

26

GROUP

27

APPLIED MATHS II
Course Code Name of the Course Lectures to be delivered Semester End Examination AS 1006

AS - 1006

Credits : 4 L-3, T-1, P-0 APPLIED MATHS II 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

1.

2.

SECTION A Vector Calculus: Curves, arc length, tangent, curvature and torsion, Directional derivative, Gradient of a scalar field, divergence and curl of a vector field. Line, surface and volume integrals, theorem of gauss, Stokes and Greens (proofs not needed), consequences and applications. SECTION B Integral Transforms: Fourier series, Eulers formula, even and odd functions, half range expansions. Fourier integral. Fourier and Laplace transform, Inverse transform of derivatives and integrals, shifting theorem, application to periodic functions, unit step function, impulse function. SECTION C Second order Differential Equations: Solution by: Power series method and its basis, Solution of Bessel and Legendre differential equations, properties of Bessel and Legendre functions. SECTION D Partial Differential Equations (PDE): Formulation and classification. Solution of wave equation, heat equation in one dimension and Laplace equation in two dimesion by the method of separation of variables. BOOKS E.Kreyszig, Advanced Engineering Mathematics (Wiley Eastern Pvt. Ltd.). S.S.Sastri, Engineering Mathematics (2nd edition) Vol-I and Vol-II. B.S.Grewal, Higher Engineering Mathematics. Piskunov, Differential and Integral Calculus. R.K.Jain and S.R.K.Iyengar, Advanced Engineering, Mathematics. Michael d.Greenberg, Advanced Engg. Mathematics.

1. 2. 3. 4. 5. 6.

28

APPLIED PHYSICS II
Course Code Name of the Course Lectures to be delivered Semester End Examination AS 1007

AS - 1007

Credits : 4 L-3, T-1, P-0 APPLIED PHYSICS II 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A Crystal Structure: Space lattice, unit cell and translation vector, miller indices, Simple crystal structure, bonding in solids, Experimental x-ray diffraction method, laue method, powder method. Free electron theory: Elements of classical free electron theory and its limitations. Quantum theory of free electrons, Fermi level, density of states, fermi dirac distribution function, Thermionic emission, Richardsons equation. SECTION B Band Theory of Solids: Origin of energy bands, Kronig-Penney Model (qualitative), E-K diagrams, Brillouin Zones, Concept of effective mass and holes, Classification into metals, semiconductors and insulators, fermi energy and its variation with temperature. SECTION C Photoconductivity & Photovoltaics: Photoconductivity in insulating crystals, variation with illumination, Effect of traps, application of photoconductivity, Photovoltaic cell and their characteristics. Properties of Solids: Atomic Magnetic Moments, Orbital Diamagnetism, Classical Theory of Para magnetism, Ferromagnetism Molecular Field theory and domains, Magnetic circuit. Its comparison with Electric circuit and its applications, Super Conductor (Introduction, Types and Applications) Hall Effect. SECTION D Laser: Spontaneous and stimulated emission, Laser action, Characteristics of Laser Beam Concept of coherence, Types of lasers based on pumping techniques, He-Ne Laser, Semiconductor Laser (simple Ideas) with applications. Fibre Optics: Optical communication: Communication through open space, optical wave guides with special reference to Propagation of light in Fibres, Numerical Aperture, single mode and multi mode Fibers, applications. BOOKS 1. Charles Kittel: Introduction to Solid State Physics. 2. B.S.Saxena, R.C.Gupta & P.N.Saena: Solid state Physics. 3. M.B.Avadhanulu & P.G.Kshirsagar, A text book of Engineering Physics. 4. Arthur Beiser, concepts of Modern Physics, 5th International edition Tata McGraw Hill. 5. A.J.Dekkar, Introduction to solid state Physics.

29

CHEMISTRY
Course Code Name of the Course Lectures to be delivered Semester End Examination AS 1004

AS - 1004

Credits : 4 L-3, T-1, P-0 CHEMISTRY 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A Thermodynamics: Second law concept of Entropy, Entropy change for an ideal gas, free energy and work functions, Free energy change, Gibbs Helmholtz equation, Clausius Clapeyron equation, Related numerical problems with above topics. Phase Rule: Introduction, One Component System, Two components System (Water, Sulphur and Alloy System), thermal Analysis, auxiliary. SECTION B Water Treatment: Introduction, Sources of water, Impurities, Hardness Analysis, Oxidations, (BOD & COD), Boiler Corrosion, Sewage & Treatment. Pollution and Control: Introduction, causes/reasons, types of pollution, air, water, soil and radioactive pollutions and controls. Corrosion and its control: Introduction, Types of corrosions, Electrochemical Theory, Pitting, Water Line, Differential Aerations corrosions, Stress Corrosions, Factors affecting Corrosions, Preventive measures. SECTION C Lubricants: Introductions, Frictions and Wear, Lubricants, Mechanism of Lubrication, Base oil, Additives, Greases and Emulsions. Fuel and Combustion: Introduction, class of fuels ( Solid, Liquid and Gases) Coal and its origin, Analysis of Coals, Petroleum fuels, Crude Petroleum and its refining, Cracking, Hydofinishings and Diesel, Kerosene, Gasoline as fuel, Gaseous fuels, Water Gas, Bio-Gas, nuclear Fuel, Breeder Reactor. SECTION D Solid State Chemistry: Introduction, Lattices and Periodicity, Elements of Band Theory, Conductors, Insulators and Semi-Conductors, Structure Determination by I.R.NMR, X-Ray UV, Mass Spectroscopy. Catalysis: Introduction, criteria of Catalysts, Types of Catalysts, Enzyme Catalysis, Mechanism of Catalysis (Homogeneous & Heterogeneous Catalysis). BOOKS Engineering Chemistry: By P.C.Jain & Monika Jain, Dhanpat Rai and Sons. A Text Book of Engineering Chemistry: By Shashi Chawla, Dhanpat Rai & Sons. Physical Chemistry: By R.P.Verma, Pardeep Publishers Jallandhar. Principles of Physical Chemistry by Puri, Sharma, Pathania, Shobhan Lal Nagin Chand& Co. Chemistry in Engineering & Technology, Vol.I & Vol.II, Rajaram, Kuriacose (TMH). Physical Chemistry, P.W.Atkin (ELBS, Oxford Press) Physical Chemistry, W.J.Moore (Orient Longman)

1. 2. 3. 4. 5. 6. 7.

30

FOUNDATION OF INFORMATION TECHNOLOGY

Course Code Name of the Course Lectures to be delivered Semester End Examination

IT 1002

IT 1002 Credits : 4 L-3, T-1, P-0 FOUNDATION OF INFORMATION TECHNOLOGY 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A Information concept and Processing: Definition of Information, Need for Information, Quality of Information, Value of Information, Categories and Levels of information in Business Organisation, Data concepts and Data Processing, data representation Number system. Computer Appreciation: Definition of an Electronic Digital Computer, history, Generations, Characteristics and applications of Computers, classification of Computers. Elements of Computers Processing System: Hardware CPU, Peripherals, Storage Media, Software Definition, Role and Categories, Firmware and Human ware. SECTION B Communication: Need for communication, Data Transmission, Baud, Bandwidth, Data transmission rate, Channel Capacity, transmission impairments, Signal noise ratio. Transmission media (twisted cables, Micro wave and radio wave, Optical fiber and satellite) and communication through these media. A/D and D/A, Modulation, Multiplexing-FDM, TDM. Communication techniques: circuit switching, message switching and packet switching and their advantages and disadvantages. SECTION C Networking Essentials: Networking of Computer Introduction of LAN and WAN, Types of LAN, Basic ISO-OSI model of LAN, client Sever Architectures. Programming Language Classification: Computer Languages, Generation of Languages, Translators Interpreters, Compilers, Assembles, Introduction to 4GLS. SECTION D Information Technology Applications: Multimedia introduction, tools graphics, sound, video and animations. Artificial intelligence (AI) Basic concepts of AI and Expert systems. Latest IT enabled business applications: Basic concepts with definitions and short introduction of Enterprise Resource Planning (ERP), Customer relationship Management (CRM) Supply Chain Management (SCM), E-Commerce. Awareness of Ongoing IT Projects in India such as NICNET, ERNET, INFLIBNET etc. BOOKS Rajaram,V.: Introduction to Computer. Morris: Computer Organisation. Hamacher: Computer Organisation. Kanter: Managing Information System. Vital N: Information Technology India Tomorrow. Murthy C.S.V: Fundamentals & Information Technology.

1. 2. 3. 4. 5. 6.

31

SCIENCE, TECHNOLOGY AND SOCIETY

Course Code Name of the Course Lectures to be delivered Semester End Examination HU 1002

HU 1002

Credits : 4 L-3, T-1, P-0 SCIENCE, TECHNOLOGY AND SOCIETY 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of nonprogrammable calculators is allowed.

SECTION A 1. Science, Technology and Engineering, as knowledge and as social and professional activities. 2. Inter-relationship of technology growth and social, economic and cultural growth: historical perspective. 3. Ancient, medieval and modern technology/Industrial revolution and its impact. The Indian Science and Technology. SECTION B 1. Social and Human critiques of technology: Mumford and Ellul. 2. Rapid technological growth and depletion of resources. Reports of the club of Rome. 3. Energy crisis; renewable energy resources. 4. Environmental degradation and pollution. Eco-friendly technologies. Environmental regulations. Environmental ethics. SECTION C 1. Technology and the arms race. The nuclear threat. 2. Appropriate technology movement Schumacher; later developments. 3. Technology and the developing nations. Problems of technology transfer. Technology assessment/impact analysis. 4. Human operator in Engineering projects and industries Problems of man machine interaction. Impact of assembly line and automation. Human centered technology. SECTION D 1. Industrial hazards and safety. Safety regulations. Safety Engineering. 2. Politics and technology. Authoritarian versus democratic control of technology. Social and ethical audit of industrial organizations. 3. Engineering profession. Ethical issues in Engineering practice, Conflicts between business demands and professional ideals. Social and Ethical responsibilities of the engineer. Codes of professional ethics. Whistle blowing and beyond. Case studies.

32

1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17.

BOOKS Appleyard, R.ed. 1989. the impact of international migration on developing countries paris: OECD. Barger, Bernard 1952 science and the social order New York: Free Press. Gaillard, J 1991. Scientists in the third world Lexington: Kentucky University Press. Gaillard, J., V.V.Krishna and R.Waast, eds. 1997. Scientific communities in the developing world New Delhi: Sage. Kamala Cahubey ed. 1974. Science policy and national development New Delhi: Macmillan. Krishna, V.V.1993. S.S.Bhatnagar on science, technology and development 1938-54 New Delhi: Wiley Eastern. Kornhauser, William, 1962 Scientists in industry, Berkley; University of California Press, price, Derek J.dSolla, 1963 little science, big science New York Columbia University Press. Rahman, A.1972 Trimurti: Science, Technology and society A collection of essays New Delhi: Peoples Publishing House. Storer, Norman W.1966. The social system of science New York: Holt Rinehart and Winston. UNCTAD/CSIR Case study in reverse transfer of technology: A survey of problems and policy in India Doc. TD/B/C.6AC.4/6 and Corr.1, Geneva. Crne, Diana. 1965. scientists at major and minor universities: A study of productivity and recognition American sociological review, 30 (5) , Pp. 699-714. Coler, Myron A.ed 1963 Essays on the creativity in the sciences New York: New York University Press. Debroy, Bibek. 1996. Beyond the Uruguay round: The Indian perspective on GATT New Delhi: Sage. Gilpin, Robert, and Christopher Wright eds. 1964. Scientists and national policy making New York: Columbia University Press. Kumar, Nagesh and N.S.Siddharthan. 1997. Technology, market structures and internationalization: Issues and policies for developing countries London: Routlege and the united National University. MacLeod, Roy and Deepak Kumar, 1995. Technology and the raj: Western technology and technical transfers to India, 1700-1947 New Delhi: Saga. Merton, Robert K.1938. Science, technology and society in seventeenth century England Osiris (Bruges, Belgium), 14 Pp.360-632.

33

BASIC ELECTRICAL ENGINEERING

Course Code Name of the Course Lectures to be delivered Semester End Examination EE 1001

EE 1001

Credits : 4 L-3, T-1, P-0 BASIC ELECTRICAL ENGINEERING 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A D.C. circuits: Ohms law, Kirchoffs Laws, Thevenins, Nortons, superposition theorem, Maximum power transfer theorem, Reciprocity, Compensation, Millman and Tellegans Theorem . D.C. circuits, Nodal and Mesh analysis. A.C. circuits: Sinusoidal signal, instantaneous and peak values, RMS and average values, phase angle, polar and rectangular, exponential and trigonometric representations RL and C components, behavior of these components in A.C. circuits, concept of complex power, power factor. Transient Response: transient response RL, RC and RLC circuits with step input. SECTION B Series and Parallel A.C. circuits: Series and Parallel A.C. circuit, Series and Parallel resonance. Q factor, cut off frequency and bandwidth. Three phase circuits: Phase and line voltages and currents, balanced star and delta circuits, power equation, measurement of power by 2-wattmeter method, importance of earthing. SECTION C Transformers: Principle, construction and working of transformer, Efficiency and regulation. Electrical Machines: Introduction to D.C. Machines, induction motor, Synchronous machines. SECTION D Measuring Instruments: Voltmeter, Ammeter, Wattmeter, Energy meter. Batteries: Storage batteries:- Types, construction, charging and discharging, capacity and efficiency. BOOKS 1. Kothari & Nagarath: Basic Electrical Engg. (2nd Edition), TMH. 2. B.L. Theraja & A.K. Theraja, S.Chand: Electrical Technology(Vol-1). 3. Deltoro: Electrical Engg Fundamentals, PHI.

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BASIC MECHANICAL ENGINEERING

Course Code Name of the Course Lectures to be delivered Semester End Examination ME - 1003

ME 1003

Credits: 5 L-4, T-1, P-0 Basic Mechanical Engineering 65 (1 Hr Each) (L = 52, T = 13 for each semester) Maximum Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests (2) 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A First Law of Thermodynamics Essence and corollaries of the first law, analytical expressions applicable to a process and cycle, internal energy, enthalpy and specific heats, first law analysis of steady flow, applications of steady flow energy equation to engineering devices. Applications of first law of Thermodynamics Closed and open systems, analysis of non-flow and flow processes for an ideal gas under constant volume (Isochoric), constant pressure (Isobaric), constant temperature (Isothermal), adiabatic and polytropic conditions. Analysis of free expansion and throttling processes. Representation of these processes on P-V charts and analysis of property changes and energy exchange (work and heat) during these processes. SECTION B Second Law of Thermodynamics Limitations of first law, various statements of second law and their equivalence, application of statements of second law to heat engine, heat pump and refrigerator. Philosophy of Carnot cycle and its consequences. Carnot theorem for heat engines and heat pump. Classius inequality, concept and philosophy of entropy and entropy changes during various processes. Temperature entropy chart and representation of various processes on it. Third law of thermodynamics. SECTION C Simple Stresses & Strains Concept & types of Stresses and strains, Poissons ratio, stresses and strain in simple and compound bars under axial loading, stress strain diagrams, Hooks law, Elastic constants and their relationships. Temperature stress and strain in simple and compound bars under axial loading, Numerical problems. Shear Force and Bending Moments Definitions, SF & BM diagrams for cantilevers, simply supported beams with or without over-hang and calculation of maximum BM and SF and the point of contraflexture under (i) concentrated loads, (ii) uniformly distributed loads over whole span or a part of it, (iii) combination of concentrated loads and uniformly distributed loads. Relation between the rate of loading, the shear force and the bending moments, Numerical Problems.

35

SECTION D Bending Stresses in Beams Bending Stresses in Beams with derivation of Bending equation and its application to beams of circular, rectangular I & T Section, Composite beams, Shear stress in beams with derivation, Combined bending, Torsion and axial loading of beams, Numericals. Torsion of Circular Members Torsion of Solid and hollow circular shafts, Torsion of thin circular tube, Combined bending and torsion, Equivalent torque, Numerical Problems. TEXT BOOKS 1. 2. 3. 4. Nag, P.K., Engineering Thermodynamics, Tata McGraw Hill, New Delhi. Yadav, R., Thermal Science and Engineering, Central Publishing House, Allahabad. Strength of Materials G.H.Ryder Third Edition in S I units 1969 Macmillan India. Mechanics of Materials Dr. Kirpal Singh, Standard Publishers Distributors, New Delhi. REFERENCE BOOKS 1. 2. 3. 4. 5. 6. 7. 8. Strength of Materials Popoy, PHI, New Delhi. Strength of Materials Sadhu Singh, Khanna Publications. Strength of Materials A Rudimentary Approach M.A.Jayaram, Revised Ed. 2001, Sapna Book House, Bangalore. Strength of Materials U.C.Jindal Moran, M.J. and Shapiro, H.N., Fundamentals of Engineering Thermodynamics, John Wiley, New York. Van Wylen, G.J., Fundamental of Classic Thermodynamics, John Wiley, New York. Spalding, D.B. and Cole, E.H., Engineering Thermodynamics, ELBS, New Delhi. Hibbeler, R.C. Engineering Mechanics Statics, Addison Wesley Longman, New Delhi.

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APPLIED CHEMISTRY LAB

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory AS 1005 Credits : 2 APPLIED CHEMISTRY LAB 26 hours of Lab sessions Max. Marks : 50 Max. Marks: 50

AS 1005
L-0, T-0, P-2

Max. Time : 3 hrs Continuous Assessment (based on Lab work 30%, Lab record 30%, Viva 30%, Attendance 10%)

Min. Pass Marks : 20 Min. Pass Marks: 25

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) ii) Performing a practical examination assigned by the examiner (25 marks). Viva-voice examination (25 marks).

Viva-voce examination will be related to the practical performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. To determine the surface tension of the given liquid by drop number method by using Stallagmometer and identify the given liquid. To determine the insoluble, soluble and total solids in given sample of sewage. To determine the solid carbon, volatile matter, ash content and percentage of moisture in given sample of coal by proximate analysis method and classify the coal. To determine the total alkalinity in a given sample of water using a standard acid. Ask for what you want To determine the percentage of Chlorine in a given sample of CaOCl2 which has been dissolved in one litre of solution. To determine the surface tension of the two given unknown liquids by using Stallagmometer and identify the given liquid. To determine the fineness of a given sample of cement by solving through standard 75:90 micro sieve. To determine the coefficient of viscosity of the given unknown liquids by using Ostwalds Viscometer and identify the given liquid. To determine the coefficient of viscosity of the given lubricating oil using Red Wood Viscometer To determine the coefficient of viscosity of the given lubricating oil using Seybolt Viscometer. To determine the flash point and fire point of given sample of oil using Penskey Martens apparatus. To determine the amount of Chlorine in given sample of water approximate N/20 sodium Thiosulphate solution. Ask for your requirement. Estimation of calcium as CaO volumetrically in cement To determine the maximum wavelength of solution of cobalt chloride To determine the Beers Law and apply it to find the concentration of given unknown solution by spectro-photometer. To determine the chemical oxygen demand of waste water. To determine the half-life period of given radioactive sample using GM counter.

NOTE: At least 8 experiments to be performed.

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MATLAB

IT 1003 L-0, T-0, P-2

Course Code IT 1003 Credits : 2 Name of the Course MAT LAB Lectures to be 26 hours of Lab sessions delivered Semester End Max. Time : 3 hrs Max. Marks : 50 Examination Laboratory Continuous Assessment (based on Lab Max. Marks: 50 work 30%, Lab record 30%, Viva 30%, Attendance 10%) Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voice examination (25 marks).

Min. Pass Marks : 20 Min. Pass Marks: 25

Viva-voce examination will be related to the practical performed/projects executed by the candidate related to the paper during the course of the semester. The aim of this laboratory is to help students get an idea about a programming environment very widely used by engineer to solve the problem in their respective disciplines. Exercises on computer i. ii. iii. iv. v. vi. vii. viii. ix. x. xi. Roots of a quadratic equation. Guessing a number Units conversion Factorial program Simulation of RC circuit V-I characteristics of a MOSFET. Finding average with dynamic array. Writing a binary file Reading a binary file Plotting one dimensional and two dimensional graph using MAT LAB 2-D plot types. Using functions in MAT LAB Environment

To teacher concerned will give at least 10 exercises to solve non trivial problems using MAT LAB environment.

1. 2.

BOOKS Programming in MAT LAB, Marc E.Herniter, Thomson ASIA Ptd. Ltd Singapore(2001) MAT LAB, the languages of computing; The maths work inc.

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BASIC ELECTRICAL ENGINEERING LAB

EE 1002

Course Code EE 1002 Credits : 2 L-0, T-0, P-2 Name of the Course BASIC ELECTRICAL ENGINEERING LAB Lectures to be 26 hours of Lab sessions delivered Semester End Max. Time : 3 hrs Max. Marks : 50 Min. Pass Examination Marks : 20 Laboratory Continuous Assessment (based on Lab Max. Marks: 50 Min. Pass work 30%, Lab record 30%, Marks: 25 Viva 30%, Attendance 10%) Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voice examination (25 marks). Viva-voce examination will be related to the practical performed/projects executed by the candidate related to the paper during the course of the semester. LIST OF EXPERIMENTS 1. 2. To verify KCL and KVL. TO study frequency response of series RLC circuit and determine resonance frequency and Q factor for various values of R,L,C 3. TO study frequency response of parallel RLC circuit and determine resonance frequency and Q factor for various values of R,L,C 4. 5. 6. To perform direct load test of transformer and plot efficiency v/s load characteristics. To perform direct load test of the DC shunt generator and plot load v/s current curve. To study and verify Thevenins, Nortons, superposition, Millimans, maximum power, reciprocity theorems. 7. 8. 9. 10. To perform O.C and S.C test of transformer. to study various types of meters Measurement of power by 3 voltmeter/ 3 ammeter method. Measurement of power in 3-phase system by 2-wattmeter method.

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WORKSHOP PRACTICE - II
Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory ME 1004 Credits : 4 WORKSHOP PRACTICE -II 52 hours of Lab sessions

ME 1004
L-1, T-0, P-3

Max. Time : 3 hrs

Max. Marks : 50

Continuous Assessment (based on Lab Max. Marks: 50 work 30%, Lab record 30%, Viva 30%, Attendance 10%) Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voice examination (25 marks). Viva-voce examination will be related to the practical performed/projects executed by the candidate related to the paper during the course of the semester.

Min. Pass Marks : 20 Min. Pass Marks: 25

LIST OF EXPERIMENTS Fitting shop: 1. Drilling and Tapping in M.S. piece 2. To make a male-female joint (taper type) of mild steel. Machine Shop : 1. To perform boring operation on lathe machine. 2. To perform knurling and threading operation on lathe machine. 3. step turning operation on a lathe machine Carpentry and Pattern making shop: 1. To make a single piece pattern of connecting rod. 2. To make a self core pattern. 3. To make a split pattern. Welding shop: 1. To make V butt joint in horizontal position. 2. To make a V butt joint in vertical position. 3. To perform Gas welding operation. Smithy and Forging: 1. To make a cube from a circular bar. 2. To make a tong using hot forging operations 3. To perform drawing down operation. Foundry Shop:1. To make a mould and perform casting operation. 2. Study of casting defects and remedies. BOOKS Workshop Technologies By Chapman Manufacturing Processes by Begam Manufacturing Materials And Processes By JS Campbell Introduction To Electrical Wiring Exercises And Prepration Of PCBs Involving soldering of electrical and electronic applications.

1. 2. 3. 4. 5.

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INFORMATION TECHNOLOGY TRAINER WORKSHOP II

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory

IT 1004

IT 1004 Credits : 4 L-1, T-0, P-3 INFORMATION TECHNOLOGY TRAINER WORKSHOP II 52 hours of Lab sessions Max. Time : 3 hrs Max. Marks : 50 Min. Pass Marks : 20 Min. Pass Marks: 25

Continuous Assessment (based on Lab Max. Marks: 50 work 30%, Lab record 30%, Viva 30%, Attendance 10%) Instructions for paper setter/Candidates

Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voice examination (25 marks). Viva-voce examination will be related to the practical performed/projects executed by the candidate related to the paper during the course of the semester

LIST OF EXPERIMENTS This workshop will provide training of different types of operating systems (Windows98,LINUX) with hands on experiments on the following: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. Installation of operating system. Configuration of Hard Disk. Configuration of Display Cards. Configuration of sound cards. Configuration of CDROM. Configuration of Mouse. Configuration of Printer. Configuration of Display Cards. Configuration of Network Cards. Configuration of Modems. Understanding Boot up process. Creating and using emergency Disk. Troubleshooting exercises related to various components of computer like Monitor drives, memory, printers etc. 14. Note: Assembling a PC. Industrial visits can be undertaken to various industries available in the vicinity of the concerned Engineering College. One project at the end of semester has to be submitted by a group of six students.

41

BASIC MECHANICAL ENGG. LAB

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory ME 1005 Credits : 2

ME 1005
L-0, T-0, P-2

BASIC MECHANICAL ENGG. LAB 26 hours of Lab sessions Max. Time : 3 hrs Continuous Assessment (based on Lab work 30%, Lab record 30%, Viva 30%, Attendance 10%) Max. Marks : 50 Max. Marks: 50 Min. Pass Marks : 20 Min. Pass Marks: 25

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voice examination (25 marks). Viva-voce examination will be related to the practical performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. To study low-pressure boilers. To study High-pressure boilers. Calibration of thermometers. Calibration of pressure gauges. Study of discharge measuring devices. To determine co-efficient of discharge of orifice meter. To verify the Bernoullis Theorem. To find Youngs Modulus of Elasticity using Searls apparatus. To find Youngs Modulus of Elasticity of a beam with deflection beam apparatus. To find Modulus of rigidity with the help of torsion apparatus.

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SEMESTER

III

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SEMESTER III
NUMERICAL ANALYSIS AND COMPUTER PROGRAMMING
Course Code Name of the Course Lectures to be delivered Semester End Examination

AS (ID) 3001

AS (ID) 3001 Credits : 4 L-3, T-1, P-0 Numerical Analysis & Computer Programming 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests (2) 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A
INTRODUCTION TO COMPUTER PROGRAMMING: Review of computer programming in C and C++ languages. Arithmetic expressions, simple programs. The emphasis should be more on programming techniques rather than the language itself. FINITE DIFFERENCES & INTERPOLATION: Various difference operators and relation between them. Newtons forward and backward interpolation formulae. Central difference Interpolation formula. Gausss forward and backward interpolation formulae. Lagranges interpolation formula and Newtons divided difference formulae. SECTION- B SOLUTION OF ALGEBRAIC AND TRANSCENDENTAL EQUATIONS : Bisection method, method of false position, secant method, Iteration method, Newton-Raphson method, Generalized Newton-Raphson method. SOLUTION OF SIMULTANEOUS ALGEBRAIC EQUATIONS : Jacobis method, Gaussseidal method, relaxation method. SECTION C NUMERICAL DIFFERENTIATION AND INTEGRATION : Formulae for derivatives. Trapezoidal rule, Simpsons 1/3rd and 3/8th rules, Booles and Weddles rules, Rombergs integration. SECTION D NUMERICAL SOLUTION OF P.D.E.: Finite difference approximations of partial derivatives, solution of Laplace equation (Standard 5-point formula only) One-dimensional heat equation (Schmidt method, Crank Nicolson DuFort method and Frankel method) and wave equation. TEXT BOOKS Numerical Methods in Engg. & Sciences : B.S.Grewal : Khanna Publishers. Numerical methods for Scientific & Engg. Computations : M.K.Jain, S.R.K.Iyengar & R.K.Jain; Wiley Eastern Ltd. REFERENCE BOOKS Computer Oriented Numerical methods : U.Rajaramanm Orebtuce; Hall of India. Introduction to Numerical Analysis : C.E.Froberg; Addison Wesley.

1. 2.

1. 2.

NOTE: Students will be asked to write computer program of problems discussed in C/C++.

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SEMESTER III PRINCIPLES OF ENGINEERING ECONOMICS AND MANAGEMENT

Course Code Name of the Course Lectures to be delivered Semester End Examination

AS (ID) 3002

AS (ID) 3002 Credits : 4 L-3, T-1, P-0 Principles of Engineering Economics and Management 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time = 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests (2) 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

1.

2.

SECTION A ECONOMICS : Definitions, Nature & scope of Economics, Economics Systems-meaning of Capitalism, Socialism & mixed economy. DEMAND AND SUPPLIES ANALYSIS: Law of demand and supply, exception to the law of demand, Elasticity of demand and supply and their types, Methods of measuring elasticity of demand and supply. SECTION B THEORY OF PRODUCTION: Scales of production, Law of returns, Break even analysis.

MONETARY SYSTEM: Monetary policy Meaning, objectives, methods, Fiscal policy Meaning & objectives of fiscal policy in a developing country like India, Functions of Reserve Bank of India and commercial banks.
ECONOMICS & BUSINESS ENVIRONMENT: Privatization Growth of private capitalism in India, Business/Trade Cycles Meaning, Characteristics & classification, Foreign capital & economic development. SECTION C

MANAGEMENT PRINCIPLES: Meaning & types of Management, Concept of Scientific Management, Management By Objectives, System Approach to Management.
FINANCIAL MANAGEMENT: Meaning, functional areas of financial management, Sources of Finance, Meaning of financial accounting, accounting principles-concepts & conventions, Importance of final accounts profit & loss a/c and balance sheet, Need and importance of capital budgeting. MARKETING MANAGEMENT: Introduction to marketing management, Market segmentation, Developing & managing advertising programs, Deciding on media & measuring effectiveness.

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SECTION D PRODUCTION MANAGEMENT: Procedure for production planning & Control, Plant Location & Lay-out, Routing, Scheduling, CPM & PERT, QUALITY MANAGEMENT: Statistical Quality Control, Introduction, Control Charts, X Charts, R Charts, Control Charts for C (N. of defects per unit), Control chart for P( Fraction Defective), Advantages & Limitations of SQC, Quality Circles:- Structure, functions & Limitations.

TEXT BOOKS 1. 2. Business Organisation & Management B.P.Singh T.N.Chabra Dhanpat Rai & Sons. Modern Economic Theory K .K. Dewett S.Chand & Co. REFERENCE BOOKS 1. 2. 3. 4. 5. 6. 7. 8. Marketing Management Philip Kotler Prentice Hall of India Pvt. Ltd. Financial Management - I.M. Pandey - Vikas Publishing House Pvt. Ltd. Indian Economic Ruddar Dutt, K.P.M.Sundaram S.Chand & Co. Advanced Economic Theory H.L.Ahuja S.Chand & Co. Production Operation Management.- Dr. B.S. Goel Pragati Prakashan. Statistical Quality Control Grant, Leaven worth Tata Mc. Graw Hill. Personnel Management Edwin B.Flippo Tata Mc. Graw Hill. Management A Global Perespective Harold Krontz Tata Mc. Graw Hill.

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SEMESTER III
DIGITAL ELECTRONICS
Course Code Name of the Course Lectures to be delivered Semester End Examination EC(ID) 3001

EC(ID) 3001

Credits : 4 L-3, T-1, P-0 Digital Electronics 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time = 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests (2) 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A Binary, octal & Hexadecimal number systems and their inter conversion. Binary arithmetic (Addition & Subtraction, Multiplication & Division), 1s & 2s complements, 9s & 10s complement , BCD code, BCD Addition , Gray Code, Error Detection and Correction , Hamming code. SECTION B Logic functions (OR, AND, NOT, NAND, NOR, XOR), Elements of Boolean Algebra (Theorems truth tables and relations) Negative & Positive logic, Saturated & non saturated logic , fan in, fanout, Logic ICs, de Morgans Theorem, minterms and maxterms. Karnaugh mapping, K-map representation of logical function for 2, 4 variable, simplification of Boolean equations with the help of K-map, Various minimization techniques, Quines method and Quinnes Mc-Cluskey method, Half adder, full adder, half subtractor, full subtractor, serial and parallel binary adder. SECTION C Introduction and performance criteria for logic families, various logic families - DCTL, RTL, DTL, TTL & EC working and their characteristics in brief, MOS Gates and GMOS Gates, comparison of various logic families. SECTION D Various kinds of Flip-Flop: RS Flip-Flop, Clocked RS Flip-Flop, Edge triggered D Flip-Flop, FlipFlop Switching time, J/K Flip-Flop, JK Master Slave Flip flop, lock waveforms. 555 timer as an astable multivibrator, shift registers: serial in serial out, parallel in parallel out, Ring counters, asynchronous counters, synchronous counters. D/A Converter, A/D Converter, clipping and clamping circuits, astable, monostable, bistable multivibrators using transistor. BOOKS Malvino and Leach, Digital Principles and Applications. Taub and Schilling, Digital Integrated Electronics. Samuel C Lee, Digital Circuits and Logic Design 4. Pulse, Digital and Switching Waveforms Millman and Taub. R.P.Jain Modern Digital Electronics. Floydd Digital Fundamentals. Malvino Digital Electronics Principles.

1. 2. 3. 4. 5. 6. 7.

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SEMESTER III
CIRCUIT THEORY
Course Code Name of the Course Lectures to be delivered Semester End Examination EE(ID) 3001

EE (ID) - 3001

Credits : 4 L-3, T-1, P-0 CIRCUIT THEORY 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time = 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests (2) 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A Laplace Transformation: Laplace transformation and its applications to circuit theory in obtaining steady state and transient response of linear circuit. Fourier Analysis: of complex waveform, solution of linear circuit impressed with complex waveform, power and power factor associated with complex wave. SECTION- B Two Port network: Network elements, classification of networks, symmetrical two port networks, Equivalent T and representation in parameter form, ladder and lattice networks, Parameter representation: Z parameters (open ckt impedance parameters), Y parameters (short ckt admittance parameters), Hybrid parameters (h- parameter representation), ABCD parameter representation, condition of reciprocity & symmetry in two port networks, different types of interconnection of two port network including series, parallel and cascade connection ,iterative and image impedances. SECTION-C Analysis of network using Graph Theory: Graph for given network, classification of graph and sub graphs, incidence , tie set and cut set matrices, terminology used in Network Graph, properties of tree in a graph, variable solution of network using graph theory and matrix from the concept of network function. Coupling Circuit: Dot convention, coefficient of coupling, mutual inductances, loop and nodal equation for coupling circuits. SECTION D Network Synthesis: Driving point functions, P.R functions , properties of P.R functions, Hurwitz polynomials, properties of Hurwitz polynomial functions, synthesis of reactive network by Foster & Cauers method: Form-I & Form-II for LC networks,Synthesis of RC network by Foster & Cauer Form. BOOKS 1. Circuit Theory By Chakravorty. 2. Network and Circuit: Synthesis and Analysis by A.Sudhakar,Tata Mc Graw Hill. 3. Network Analysis by M.E Valkenburg. 4. Network Analysis by Sundaram Seshu & N Balbanian John. 5. Network Analysis and Synthesis by D Roy Choudhary. 6. Network Analysis and Synthesis By Soni Gupta. 7. Network Analysis by Schaum Series.

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SEMESTER III
ELECTRICAL ENGG. MATERIALS & APPLICATIONS
Course Code Name of the Course Lectures to be delivered Semester End Examination EE 3002

EE 3002

Credits : 4 L-3, T-1, P-0 Electrical Engineering Materials and Applications 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time = 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests (2) 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of nonprogrammable calculators is allowed.

SECTION A CONDUCTING MATERIALS: Introduction, atomic theory, Inter atomic Bonds, Resistivity and factors Affecting Resistivity, classification of conducting materials into low-resistivity and highresistivity materials. Main features and their applications. (Copper, aluminium, steel, brass, bronze, Tungsten, carbon, platinum, mercury). Superconductivity, super-conducting materials and their applications. SECTION B INSULATING MATERIALS: Introduction, General properties of insulating materials, Electrical properties, Visual properties, Mechanical properties, Thermal properties, Chemical properties, Classification-introduction, history of development of insulating materials, Classification of insulating materials on the basis of physical and chemical structure and their applications, Fibrous materials (Wood, Paper and card board, insulating textiles) impregnated Fibrous materials (impregnated insulating paper, varnished or impregnated textiles), non-resinous materials (bitumens, waxes). Insulating liquids: main features and their applications. (Mineral insulating oils) Ceramics: main features and their applications. (Porcelain, alumina, titanates, steatite) mica, asbestos, glass, natural and synthetic rubbers, insulating resins, laminates and adhesives.

Insulating gases: main features and their applications: nitrogen, hydrogen, sulphurhexafloride.
SECTION C MAGNETIC MATERIALS: Permeability & Magnetic susceptibility, magnetic moment, Magnetization. Types of magnetic materials (diamagnetism, Paramagnetism, ferromagnetism), Magnetisation curve, eddy current & Hysteresis losses, curie point, Magnetostriction, applications, soft and hard materials:(pure iron, iron-silicon alloys, grain oriented sheet steel, magnetic anisotropy, annealing, nickel iron alloys, soft ferrites, carbon steel, tungsten steel, cobalt steel, alnico, hard ferrites).

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SECTION D SEMICONDUCTORS: introduction, electron energy and energy band theory, excitation of atoms, N-type materials, P-type materials, (Boron, Carbon, Silicon, Germanium, Phosphorus, Arsenic, Antimony, Sulphur, Selenium, Tellurium, Iodine). Si and Ge as semi-conducting materials, application of semiconductor materials: Rectifiers (Germanium and Silicon rectifiers, Copper-oxide And Selenium Rectifiers). Temperature-sensitive resistors or thermistors, Photoconductive cells, Photovoltaic cell, Transistor, Hall Effect Generators, Strain Gauges.

BOOKS 1. 2. 3. Electrical Engg. Materials: K. B. Raina, S. K. Bhattacharya, Tilak Joneja, TTTI Chandigarh: Katson Pub. House New Delhi Electrical Engg. Materials: Seth Electrical Engineering Materials: A.J. Dekker; PHI.

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SEMESTER III
ELECTRICAL MACHINES - I
Course Code Name of the Course Lectures to be delivered Semester End Examination EE 3003

EE 3003

Credits : 4 L-3, T-1, P-0 Electrical Machines - I 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time = 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests (2) 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of nonprogrammable calculators is allowed.

SECTION A Principle of Transformer operation, EMF equation, voltage ratio and turns ratio, construction of single phase Transformers, Ideal transformer, transformer on no load, phasor diagram and equivalent circuit, practical transformer, phasor diagram and equivalent circuit, voltage regulation, losses, separation of Hysteresis and Eddy current losses, open ckt, short ckt, back to back tests, Transformer efficiency, condition for maximum efficiency, per unit transformer values, all day efficiency, distribution transformers, power transformers, application of transformers. SECTION-B Single phase auto transformer, volt ampere relation, step up auto transformer, auto transformer efficiency, saving in conductor material, conversion of a two winding transformer to an auto transformer, advantages & disadvantages of auto transformer, applications of auto transformer. Three phase transformer, advantages of three phase unit transformer, advantages of a transformer bank of three phase transformers, three phase transformer construction, three phase transformer groups, three phase transformer connections, factors affecting the choice of connections, delta- delta connection, star-star connection, star- delta connection, delta-star connection, open delta connection, Scott three phase/ two phase connection, relationship between input and output currents, Advantages, disadvantages and applications(star-star, delta-delta, star-delta, delta-star, open-delta, Scott connections) of these type of connections, Three phase to six phase transformation, diametrical connection, 3-phase to 12-phase transformation, 3 winding transformers: equivalent circuit, determination of parameters, voltage regulation. Polarity of the transformers, parallel operation, single-phase transformers and 3-phase transformers in parallel Wave shape of no load (exciting) current, inrush of magnetizing current, harmonic phenomenon in 3- phase transformer. Construction of current transformers and voltage transformers, transformer cooling.

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SECTION-C Basic structure of electric machine, dc generator construction, equivalent circuit of dc machine armature, type of dc machine, emf equation of dc machine, lap & wave winding, Armature reaction in DC Generators, commutation, methods of improving commutation, demagnetizing and cross magnetizing ampere turns, characteristics of DC generator. SECTION-D Direct current motors: motor principle, back emf, equivalent circuit of a dc motor armature, torque of dc machine, types of dc motor, armature reaction in dc motor and interpoles, characteristics of shunt, series & compound motors, speed control of dc motors, starting of dc motors & starters, losses in dc machine, Efficiency of a dc machine, testing of a dc machines, application of dc machines.

BOOKS 1. Electrical Machines, Ashfaq Hussain, Dhanpat Rai, Delhi 2. Electric Machines: I.J.Nagrath and D.P .Kothari, TMH, New Delhi. 3. Performance & Design of D.C. Machines: A.E. Clayton & N.N Hancock; ELBS 4.Electric Machinery, Fitzgerald & Kingsley, MGH. 5.Theory of alternating current machinery, A.S. Langsdorf, TMH. 6.Electrical Machinery, P. S.Bhimbra, Khanna Publishers Delhi 7.Generalized theory of electrical machine, P. S.Bhimbra, Khanna Publishers Delhi

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SEMESTER III Numerical Analysis & Computer Programming Lab

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory

AS (ID)- 3003
L-0, T-0, P-2

AS (ID) 3003 Credits : 2 Numerical Analysis & Computer Programming Lab 26 hours of Lab sessions Max. Time : 3 hrs Max. Marks : 50

Continuous Assessment (based on Lab work Max. Marks: 50 30%, Lab record 25%, Viva 25%, Attendance 20%) Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voce examination (25 marks).

Min. Pass Marks : 20 Min. Pass Marks: 25

Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

WRITE DOWN AND EXECUTE FOLLOWING PROGRAMS USING C/C++ LANGUAGE 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. To find the roots of non-linear equation using Bisection method/Mullers method. To find the roots of non-linear equation using Newtons method/Mullers method. Curve fitting by least-squares approximations. To solve the system of linear equations using Gauss-Elimination method. To solve the system of linear equations using Gauss-Seidal iteration method. To solve the system of linear equations using Gauss-Jordan method. To solve integral equation numerically using Trapezoidal rule. To solve integral equation numerically using Simpsons rule. Find the largest Eigen value of a matrix by power method. To find numerical solution of ordinary differential equations by Eulers method. To find numerical solution of ordinary differential equations by Runga-Kutta method. To find numerical solution of partial differential equation/laplace equation/ wave equation/heat equation. 13. 14. 15. To find numerical solution of ordinary differential equations by Milnes method. To solve a given problem using Newtons forward interpolation formula. To solve a given problem using Lagranges forward interpolation formula.

NOTE : Minimum 10 experiments are to be performed.

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SEMESTER III DIGITAL ELECTRONICS LAB

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory EC (ID) 3004

EC (ID) 3004
L-0, T-0, P-2

Credits : 2 Digital Electronics Lab 26 hours of Lab sessions

Max. Time = 3 hrs.

Max. Marks: 50

Continuous Assessment (based on Lab work Max. Marks: 50 30%, Lab record 25%, Viva 25%, Attendance 20%) Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voice examination (25 marks).

Min. Pass Marks: 20 Min. Pass Marks: 25

Viva-voice examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS 1. Verify truth tables of AND, OR, NOT, NAND, NOR and XOR gates. 2. 3. 4. 5. 6. 7. Implement (i) half adder (ii) full adder using AND OR gates. Implement full adder using NAND gates as two level realization. Implement full subtractor using 8 to 1 multiplexer. Verify truth tables of RS & JK flip flops and convert JK flip fops into D type & T type flip flops. Use 555 timer as (i) monostable (ii) astable multivibrator. (a) Use of 4-bit shift register for shift left and shift right operations. (b) Use 4-bit shift register as a ring counter. Implement mod 10 counter and draw its output wave forms. Implement 4-bit DAC using binary weighted resistance technique/R-2R ladder network technique. Implement 8 bit ADC using IC (ADC 0800/0801).

8. 9.

10. 11.

a) Implement (i) Single level clipping circuit (ii) Two level clipping circuit. b)Implement clamping circuit to clamp, at peak +ve voltage/peak ve voltage of an input signal. ADDITIONAL EXERCISES: 1. Construct bounce less switch. 2. Construct a pulser of 1 Hz and 10 Hz, 1kHz and manual. 3. Construct logic state detector. 4. Construct opto sensor based. a. Measurement rotational speed of motor. b. Measurement time elapse between two events. c. Measurement of linear velocity. d. Measurement of acceleration. 5. Construct a memory using TTL Circuits. Read and write data onto a memory from bus. 6. Construct a security latch that can be operated by an identity card. NOTE: Record to be maintained both electronically and hard copy for evaluation.
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SEMESTER III ELECTRICAL MACHINE I LAB

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory EE 3004

EE 3004
L-0, T-0, P-3

Credits : 3 Electrical Machine - I Lab 39 hours of Lab sessions

Max. Time = 3 hrs.

Max. Marks: 50

Continuous Assessment (based on Lab work Max. Marks: 50 30%, Lab record 25%, Viva 25%, Attendance 20%) Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voice examination (25 marks).

Min. Pass Marks: 20 Min. Pass Marks: 25

Viva-voice examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS SECTION A 1. To find turns ratio & polarity of single-phase transformer. 2. To perform open & short circuit tests on single-phase transformer. 3. To perform Sumpners (Back to Back) test on two identical transformers. 4. To separate the iron losses occurring in single-phase transformer into its components. 5. Parallel operation of two single-phase transformers & to study the load shared by each transformer. 6. To convert three phase to 2-phase By Scott-connection of transformers. SECTION B 1. To plot the magnetizing characteristics of a dc generator running at rated speed. 2. To obtain and plot the external characteristics of a dc shunt generators & to deduce the internal characteristics from the above. 3. To perform load test on DC shunt generator. 4. Speed control of DC shunt motor. 5. Swinburne's tests of DC shunt motor. 6. To separate the constant losses of DC Machine into their components. 7. Parallel operations of dc generators 8. To obtain and plot the characteristics of DC series motor. 9. To perform load test on DC series motor. 10. To perform the Hopkinson's test on two identical DC machines and to determine the efficiency of motor and generator at various loads. NOTE: At least 10 experiment to be performed in the semester from the above list.

BOOK Experimentation and viva voce on electrical machines by Dr. V. N. Mittle & A.Mittal.Standard Publications.

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SEMESTER

IV

56

SEMESTER IV
TRANSMISSION & DISTRIBUTION OF ELECTRICAL POWER EE - 4001

Course Code EE - 4001 Credits: 4 L-3, T-1, P-0 Name of the course Transmission and Distribution of Electric Power Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Maximum Time: 3 Hrs. Max. Marks: Min Pass Marks: 40 Examination 100 Continuous Assessment (Based on sessional Tests (2) Max. Marks 50 50%, Tutorials /Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D, and E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will coverthe entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C and D will have two questions from the respective sections of the syllabus and each section will carry 20% of the total marks of the semester end examination for the course. 2. For Candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C and D of the question paper and all the subparts of the questions in section E. Use of non-programmable calculators is allowed. SECTION A INTRODUCTION: Structure of a power system, indoor and outdoor substations, equipment for substation layout, auxiliary supply. DISTRIBUTION SYSTEMS: Radial, ring mains and network distribution system, comparison of various types of ac and dc systems. SECTION B TRANSMISSION LINES: Introduction: inductance of a conductor due to internal flux and external flux, inductance of a single phase two-wire line, inductance of three phase line, capacitance of three phase line, charging current due to capacitance, skin effect, Ferranti effect, proximity effect. PERFORMANCE OF LINES: Models of short, medium and long transmission lines, performance of transmission lines, circle diagram, capacity of synchronous condenser, tuned lines, voltage control SECTION C MECHANICAL DESIGN: Sag and stress calculations, effect of ice and wind, string chart, line supports, conductor material, dampers. INSULATORS: Types, insulating materials, voltage distribution over insulator string, equalizer ring, configuration of insulators for EHV AC & HVDC transmission systems, post insulators, insulator failures, testing of the insulators, SECTION D CABLES: Types of cables, construction of cables, grading of cables, capacitance, ratings, power factor in cables, thermal characteristics and applications. CORONA: Phenomenon, critical voltage, power loss, reduction in losses& radio-interference. HVDC Transmission- types of links, advantages and limitations, corona in HVDC lines. BOOKS Power System Engg: I.J.Nagrath and D.PKothari (TMH) A Course in Electrical Power: Gupta, Soni & Bhatnagar (Dhanpat Rai & Sons). Power system: Aqshaf Hussain, Dhanpat Rai, Delhi Elements of power system analysis: W.D.Stevenson (MGH) Electric Power: S.L. UppaI (Khanna Pub.) Electrical power: J.B.Gupta (S.K.Kataria & Sons). Power System Engineering: B. R. Gupta. Electric Power System: B.M.Weedy, John Wiley & Sons. Transmission & Distribution of Electrical Engineering: H.Cotton. Transmission & Distribution of Electrical Engineering: Westing House & Oxford Univ. Press.

1. 2. 3. 4. 5. 6. 7. 8. 9. 10.

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SEMESTER IV ELECTRICAL MACHINE-II EE-4002

Course Code EE-4002 Credits : 4 L-3, T-1, P-0 Name of the Electrical Machine-II course Lectures to be 52 (1 Hr Each) (L = 39, T = 13 for each semester) delivered Semester End Maximum Time: 3 Hrs. Max. Marks: Min Pass Marks: 40 Examination 100 Continuous Assessment (Based on sessional Tests (2) Max. Marks 50 50%, Tutorials /Assignments 30%, Quiz/Seminar 10%, Attendance 10%)
Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D, and E. Section E will be Compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C and D will have two questions from the respective sections of the syllabus and each section will carry 20% of the total marks of the semester end examination for the course. 2. For Candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C and D of the question paper and all the subparts of the questions in section E. Use of non-programmable calculators is allowed.

SECTION A THREE PHASE INDUCTION MOTORS Introduction: construction, comparison of cage & wound rotors, production of rotating field, principle of operation of a 3- phase induction motor, speed & slip, frequency of rotor voltage and current, rotor current, relationship between rotor copper loss and rotor input, torque, winding emf, equivalent circuit, power flow diagram, starting of induction motor, different types of starters. SECTION B THREE PHASE INDUCTION MOTORS Determination of efficiency, no load and blocked rotor test, construction of circle diagram, high torque cage motors. Comparison between single cage and double cage motors. Effect of space harmonic on 3-phase induction motor performance, cogging and crawling, speed control of induction motors. SINGLE PHASE MOTORS Introduction, production of rotating fields, principle, double revolving field theory, rotor slip, equivalent circuit, determination of equivalent circuit parameters, starting methods, types of single-phase induction motors, characteristics and applications of single-phase motors. SECTION C SYNCHRONOUS GENERATOR Introduction, advantages of rotating field alternators, speed and frequency, construction of 3-phase synchronous machines. Excitation system, emf equation, armature winding, coil span factor, distribution factor, actual voltage generated, armature leakage reactance, armature reaction, synchronous impedance, equivalent circuit & Phasor diagram, voltage regulation, measurement of synchronous impedance. Magnetic axis of the rotor, two reaction theory, salient pole synchronous machine- two reaction model, torque angle characteristic of salient pole synchronous machine, maximum reactive power for a synchronous generator, determination of Xd and Xq, parallel operation of alternators, synchronizing power and synchronizing torque coefficient, transient conditions of alternators, constant flux linkage theorem with proof, symmetrical short circuit transients, 3- phase short circuit on loaded synchronous generator , short circuit ratio , cooling of synchronous generators. SECTION - D SYNCHRONOUS MOTORS Introduction, construction, principle of operation, main features, equivalent circuit and phasor diagram of a cylindrical rotor synchronous motor, different torques in synchronous motor, power flow equation for a synchronous motor, phasor diagram of salient pole synchronous motor, effect of varying field currents, effect of load changes, synchronous motor V curves and inverted V curves, starting of synchronous motors, hunting, comparison between 3- phase synchronous and induction motors, synchronous condenser, applications of synchronous motors. BOOKS 1. Electrical Machines, Ashfaq Hussain, Dhanpat Rai, Delhi. 2. Electric Machines: I.J. Nagrath and D.P. Kothari, TMH, New Delhi. 3. Performance & Design of D.C. Machines: A.E. Clayton & N.N Hancock; ELBS 4. Electric Machinery, Fitzgerald & Kingsley, MGH.

5.Theory of alternating current machinery, A.S. Langsdorf, TMH.

6. Electrical Machinery, P. S.Bhimbra, Khanna Publishers Delhi 7. Generalized theory of electrical machine, P. S.Bhimbra, Khanna Publishers Delhi.

58

SEMESTER IV ELECTROMAGNETIC FIELD THEORY EE-4003

Course Code EE-4003 Credits : 4 L-3, T-1, P-0 Name of the Electromagnetic Field Theory course Lectures to be 52 (1 Hr Each) (L = 39, T = 13 for each semester) delivered Semester End Maximum Time: 3 Hrs. Max. Marks: Min Pass Marks: 40 Examination 100 Continuous Assessment (Based on sessional Tests (2) Max. Marks 50 50%, Tutorials /Assignments 30%, Quiz/Seminar 10%, Attendance 10%)
Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D, and E. Section E will be Compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C and D will have two questions from the respective sections of the syllabus and each section will carry 20% of the total marks of the semester end examination for the course. 2. For Candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C and D of the question paper and all the subparts of the questions in section E. Use of non-programmable calculators is allowed.

SECTION A

INTRODUCTION: Review of vector analysis, scalar and vector product, gradient, divergence and curl of a vector and their physical interpretation, transformation amongst rectangular, cylindrical and spherical co-ordinate system
ELECTROSTATIC FIELD: Coulombs law, electric field intensity from point charges, Electric field due to continuous field distribution of charges, gausss law, electric displacement and displacement density, potential functions, potential field of a charge, laplaces and poissions equation, capacitance and electrostatic energy. SECTION B STEADY MAGNETIC FIELDS: Faraday Induction law, Ampere's Work law in the differential vector form, Ampere's law for a current element, magnetic field due to volume distribution of current and the Dirac-delta function, Ampere's Force Law, magnetic vector potential, vector potential (Alternative derivation), equation of continuity. SECTION-C TIME VARYING FIELDS: Equation of continuity for time varying fields, inconsistency of Ampere's law, Maxwell's field equations and their interpretation; solution for free space conditions, electromagnetic waves in a homogeneous medium, propagation of uniform plane-wave, relation between E & H in a uniform plane-wave, wave equations for conducting medium, Maxwell's equations using phasor notation, wave propagation in a conducting medium, conductors, dielectrics, wave propagation in good conductor and good dielectric, depth of penetration, polarization: linear, circular and elliptical. SECTION-D REFLECTION AND REFRACTION OF EM WAVES: Reflection and refraction of plane at the surface of a perfect conductor & perfect dielectric (both normal incidence as well as oblique incidence), Brewsters angle and total internal reflection, reflection at the surfaces of a conductive medium, surface impedance, transmission-Line analogy, poynting theorem, interpretation of E x H, power loss in a plane conductor. TRANSMISSION LINE THEORY: Transmission line as a distributed circuit, transmission line equation, traveling & standing waves, characteristic impedance, input impedance of terminated line, reflection coefficient, VSWR, Smith's chart and its applications.
BOOKS

1. 2. 3. 4.

Electro-magnetic Waves and Radiating System: Jordan & Balmain, PHI. Electromagnetic field theory: PV Gupta. Engineering Electromagnetic: Hayt; TMH Electro-Magnetics. Krauss J.DF; Mc Graw Hill.

59

SEMESTER IV POWER ELECTRONICS EE-4004

Course Code EE-4004 Credits : 4 L-3, T-1, P-0 Name of the Power Electronics course Lectures to be 52 (1 Hr Each) (L = 39, T = 13 for each semester) delivered Semester End Maximum Time: 3 Hrs. Max. Marks: Min Pass Marks: 40 Examination 100 Continuous Assessment (Based on sessional Tests (2) Max. Marks 50 50%, Tutorials /Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D, and E. Section E will be Compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C and D will have two questions from the respective sections of the syllabus and each section will carry 20% of the total marks of the semester end examination for the course. 2. For Candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C and D of the question paper and all the subparts of the questions in section E. Use of non-programmable calculators is allowed.

SECTION-A POWER ELECTRONIC DEVICES: Ratings and protections, series and parallel connections, R, RC, and UJT firing circuit and other firing circuits based on ICs and microprocessors; pulse transformer and opto-coupler, commutation techniques. SECTION-B AC REGULATORS: Types of regulator, equation of load current, calculation of extinction angle, output voltage equation, harmonics in load voltage and synchronous tap changer, three phase regulator.

CONVERTERS: One, two, three and six pulse converters, fully and half controlled converters, load voltage waveforms, output voltage equation, continuous and discontinuous modes of operation, input power factor of converter, reactive power demand, effect of source inductance, introduction to four quadrant /dual converter, power factor improvement techniques, forced commutated converters, MOSFET and transistor based converters.
SECTION-C INVERTERS: Basic circuit, 120 and 180 conduction schemes, modified Mc-Murray half bridge and full bridge inverters, Mc-Murray- Bedford half bridge and full bridge inverters, Brief description of parallel and series inverters, Current source inverters (CSI), transistors and MOSFET based inverters. SECTION-D

CHOPPERS: Basic scheme, output voltage control techniques, one, two and four quadrant choppers, step up chopper, voltage commutated chopper, current commutated chopper, MOSFET and transistor based choppers. CYCLO CONVERTERS: Basic principle of frequency conversion, types of cyclo converters, non-circulating and circulating types of cyclo-converters.
1. 2. 3. 4. 5. BOOKS Power Electronics by M.H Rashid PHI Power Electronics by P.C.Sen, TMH Power Electronics by H.C Rai, Galgotia Thyristorised Power Controllers by G.K Dubey, etal, PHI Power Electronics by P.S.Bhimra.

60

SEMESTER IV
ELECTRICAL MEASUREMENTS AND MEASURING INSTRUMENTS

EE-4005

Course Code EE-4005 Credits : 4 L-3, T-1, P-0 Name of the Electrical Measurements and Measuring Instruments course Lectures to be 52 (1 Hr Each) (L = 39, T = 13 for each semester) delivered Semester End Maximum Time: 3 Hrs. Max. Marks: Min Pass Marks: 40 Examination 100 Continuous Assessment (Based on sessional Tests (2) Max. Marks 50 50%, Tutorials /Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D, and E. Section E will be Compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C and D will have two questions from the respective sections of the syllabus and each section will carry 20% of the total marks of the semester end examination for the course. 2. For Candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C and D of the question paper and all the subparts of the questions in section E. Use of non-programmable calculators is allowed. SECTION-A UNITS STANDARDS & ERRORS. S.I units, Absolute standards (International, Primary. Secondary & Working Standards), True Value, Errors (Gross, Systematic, Random); Static Characteristic of Instruments (Accuracy, Precision, Sensitivity, Resolution & threshold). MEASURING SYSTEM FUNDAMENTALS: Classification of Instruments (Absolute & Secondary Instruments; Indicating, Recording & Integrating instruments; Based upon Principle of operation), Generalized Instrument (Block diagram, description of blocks), three forces in Electromechanical Indicating Instrument (Deflecting, controlling & damping forces), Comparison between gravity & spring controls; Comparison of damping methods & their suitability, bearing supports, pivot-less supports (Simple & tautband), Scale information, Instrument cases (Covers). SECTION-B MEASURING INSTRUMENTS: Construction, operating principle, Torque equation, Shape of scale, use as Ammeter or as Voltmeter (Extension of Range), Use on AC/DC or both, Advantages & disadvantages, Errors (Both on AC/DC) of PMMC types, Electrodynamics Type, Moving iron type (attraction, repulsion & combined types), Hot wire type & Induction type, Electrostatic type Instruments. SECTION-C WATTMETERS & ENERGY METERS: Construction, operating principle, Torque equation, Shape of scale, Errors, Advantages & Disadvantages of Electrodynamics & Induction type Wattmeters & single phase induction type Energy meter, Compensation & creep in energy meter. POWER FACTOR & FREQUENCY METERS: Construction, operation, principle, Torque equation, Advantages & disadvantages of Single-phase power factor meters (Electrodynamics & Moving Iron types) & Frequency meters (Electrical Resonance Types, Ferrodynamic & Electrodynamics types) SECTION-D LOW & HIGH RESISTANCE MEASUREMENTS: Limitations of Wheat stone bridge; Kelvin's double bridge method, Difficulties in high resistance measurements, Measurement of high resistance by direct deflection, loss of charge method, Megohm bridge & Meggar. A.C. BRIDGES: General balance=n, Ckt. diagram, Phasor diagram, Advantages, disadvantages, applications of Maxwell's inductance, inductance-capacitance, Hays, Anderson, Owens, De-Sauty's, Schering & Weins bridges, Shielding & earthing. BOOKS A Course in Elect. & Electronic Measurement & Instrumentation by A. K Sawhney; Khanna Pub. Electronic & Elect. Measurement & Instrumentation by J.B.Gupta; Kataria & Sons.

1. 2.

3. Electrical Measurements by E.W. Golding 4. Electronic Measurement and Measuring technique, W.D. Cooper & A.D. Helfrick. 5. Measuring Systems by E.O. Doeblin; TMH.

61

SEMESTER IV
COMMUNICATION ENGINEERING

EE-4006

Course Code EE-4006 Credits : 4 L-3, T-1, P-0 Name of the Communication Engineering course Lectures to be 52 (1 Hr Each) (L = 39, T = 13 for each semester) delivered Semester End Maximum Time: 3 Hrs. Max. Marks: Min Pass Marks: 40 Examination 100 Continuous Assessment (Based on sessional Tests (2) Max. Marks 50 50%, Tutorials /Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D, and E. Section E will be Compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C and D will have two questions from the respective sections of the syllabus and each section will carry 20% of the total marks of the semester end examination for the course. 2. For Candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C and D of the question paper and all the subparts of the questions in section E. Use of non-programmable calculators is allowed.

SECTION A FREQUENCY BANDS AND SIGNALS: Various frequency bands used for communication and their special features, Need for wireless communication, Types of communication based on modulation systems, types of various signals. MODULATIONTION TECHNIQUES: Introduction to AM, FM, PM, PCM, PPM, DSBSC, Frequency spectrum of AM Waves, Representations of AM, need and descriptions of SSB, suppression of carrier, suppression of unwanted side bands, vestigial side band system. Mathematical representation of FM, Frequency spectrum of the FM waves, Phase modulation, comparison between analog and digital modulation, wide band and narrow band FM. Sampling theorem, frequency division multiplexing and time division multiplexing. SECTION-B AM TRANSMITTERS AND RECEIVERS: AM TRANSMITTERS: generation of AM, Low Level and High-level modulation, Comparison of levels, AM transmitter block diagram, collector class C modulator, and Base modulator, DSB S/C Modulator. AM RECEVIER: Tuned radio frequency (TRF) receiver, Super heterodyne receiver, RF section and characteristics, mixers, frequency changing and tracking, IF rejection and IF amplifiers, detection and automatic gain control (AGC), AM receiver characteristics. SECTION - C FM TRANSMITTERS AND RECEIVERS: FM TRANSMITTERS: Basic requirements and generation of FM, FM Modulation methods: Direct methods, varacter diode methods, FET reactance modulator, Transistor reactance modulation, Pre-emphasis, direct FM modulator, AFM in reactance modulation, RC Phase Shift modulation, Armstrong FM systems. FM RECIVERS: Limiters, single and double tuned demodulator, balanced slope detector, foster seely of phase discriminator, de- emphasis, ratio detector, block of FM receiver, RF amplifiers, FM receiver characteristics.

SECTION-D Broad overview of PCM, DM, and ADM. Review of sampling, flat top sampling, quantization, Analog to digital conversion, overview of performance of anlong modulation scheme in presence of noise. Digital modulation techniques (ASK, FSK, BPSK, QPSK, M-aryPSK) BOOKS 1.Electronic communications systems-Kennedy/TMH 2.Communications systems Taub&Schilling/TMH 3.Communication systems Simon Haykins/John Wiley &sons 4.Communication systems-Bruce Carlson 5.Communication systems-Singh & Sapre/TMH 62

SEMESTER IV
ELECTRICAL MACHINES II LAB
Course Code Name of the course Lectures to be delivered Semester End Examination EE 4007 Credits : 2

EE - 4007
L-0, T-0, P-2

Electrical Machines II Lab 26 hours of Lab Session Maximum Time: 3 Hrs. Max.Marks: 50 Max.Marks 50 Min Pass Marks: 20 Min Pass Marks: 25

Continuous Assessment (Based on Lab Work 30%, Lab Record 25%, Viva-Voca/Hand on Test 25%, Attendance 20%)

Instructions for Paper setter/ Candidates Laboratory examination will consist of two parts: 1. 2. Performing a practical examination assigned by the examiner (25 marks) Viva-voce examination (25 marks)

Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS INDUCTION MOTOR 1) Single Phase Induction Motor a) No load test b) Block rotor test 2) Three phase slip ring induction motor a) No load test b) Block rotor test c) Load test 3) Three phase squirrel cage induction motor a) No load test b) Block rotor test c) Load test 4) Starting of three phase induction motor. a) Stator resistance starting b) Reduced voltage starting c) Autotransformer starting d) Star delta starting e) Rotor resistance starting f) Direct on line (DOL) starting 5) Cascading of two induction motors 6) Speed changing by Pole changing method SYNCHRONOUS MACHINE 1. 2. 3. 4. To draw characteristics of alternator under different loading condition. To find out regulation by synchronous impedance method. To find out regulation by zpf method. SYNCHRONISATION a) To synchronise a three phase alternator with bus bar. b) Parallel operation of two alternators.

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5. V- CURVES OF SYNCHRONOUS MOTOR a) To study the effect of variation of field current upon the stator current and p.f. with synchronous motor running at no load, draw the V-curves and inverted V- curves of the motor. 6. STEADY STATE REACTANCES (Xd, Xq)/SLIP TEST a) To measure the direct axis synchronous reactance of a synchronous machine. b) To measure quadrature axis synchronous reactance by slip test. 7. SUBTRANSIENT REACTANCES: Xd, Xq a) To measure the direct axis synchronous sub transient reactance of a synchronous machine. b) To measure quadrature axis synchronous sub transient reactance of a synchronous machine. 8. NEGATIVE SEQUENCE REACTANCE: X2 a) To measure the negative sequence reactance X2 of synchronous machine. 9. ZERO SEQUENCE REACTACE: X0 a) To measure the zero sequence reactance of synchronous machine.

10 THREE PHASE CIRCUIT OSCILLOGRAPH a) To record the oscillogram of armature current in various phases under three-phase sudden short circuit.
Note: At least 8 experiments should be performed from above list. BOOKS Experimentation and viva voce on electrical machines by Dr. V. N. Mittle & A. Mittal. Standard Publications.

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SEMESTER IV
POWER ELECTRONICS LAB
Course Code Name of the course Lectures to be delivered Semester End Examination EE 4008 Credits : 2

EE - 4008
L-0, T-0, P-2

Power Electronics Lab

26 hours of Lab Session Maximum Time: 3 Hrs. Max.Marks: 50 Max.Marks 50 Min Pass Marks: 20 Min Pass Marks: 25

Continuous Assessment (Based on Lab Work 30%, Lab Record 25%, Viva-Voca/Hand on Test 25%, Attendance 20%)

Instructions for Paper setter/ Candidates Laboratory examination will consist of two parts: 1. 2. Performing a practical examination assigned by the examiner (25 marks) Viva-voce examination (25 marks)

Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS 1. To study Steady-state characteristics of SCR by plotting graph between voltage and current of Thyristers. To Study R and RC Triggering Circuit for SCR. To study UJT as Relaxation Oscillator. To study SCR Half Wave and Full Wave Bridge Controlled Rectifier-Output characteristics. To study 1-Phase Full Wave Bridge Controlled Rectifier using SCR and UJT with R and R-L Load and observe its input/output characteristics with and without free wheeling (commutating) diode. To study three Phase Full-Wave Uncontrolled Rectifier Operation with R and R-L Load and observe its input/output Characteristics. To study Single Phase Cycloconverter output characteristics. Series operation of SCRs. Parallel operation of SCRs. Speed Control of DC motor using SCRs. Lamp-Dimmer Using Diac &Triac With Lamp Load.

2. 3. 4.

5.

6.

7. 8. 9. 10. 11.

Note: At least 7 experiments should be performed from above list.

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SEMESTER IV
ELECTRICAL MEASUREMENTS AND MEASURING INSTRUMENTS LAB EE-4009
Course Code Name of the course Lectures to be delivered Semester End Examination EE 4009 Credits : 2 L-0, T-0, P-2

Electrical Measurements And Measuring Instruments Lab

26 hours of Lab Session Maximum Time: 3 Hrs. Max.Marks: 50 Max.Marks 50 Min Pass Marks: 20 Min Pass Marks: 25

Continuous Assessment (Based on Lab Work 30%, Lab Record 25%, Viva-Voca/Hand on Test 25%, Attendance 20%)

Instructions for Paper setter/ Candidates Laboratory examination will consist of two parts: 1. 2. Performing a practical examination assigned by the examiner (25 marks) Viva-voce examination (25 marks)

Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS

1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14.

To identify the meters from the given lot. To convert & calibrate a D' Arsonval type galvanometer into a voltmeter & an ammeter To calibrate an energy meter with the help of a standard wattmeter & a stop watch. To measure power & p.f. by 3-ammeter method To measure power & p.f by 3-Voltmeter method To measure power & p.f in 3-phase circuit by 2-wattmeter method. To measure capacitance by De Sauty's bridge. To measure inductance by Maxwells bridge. To measure frequency by Wein's bridge, To measure the power with the help of C.T & P.T. To measure magnitude & phase angle of a voltage by rectangular type potentiometer. To measure magnitude & phase angle of a voltage by polar type potentiometer. To measure low resistance by Kelvin's double bridge. To measure high resistance by loss of charge method.

Note: At least 7 experiments should be performed from above list.

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SEMESTER IV
TRANSMISSION AND DISTRIBUTION OF ELECTRIC POWER LAB
Course Code Name of the course Lectures to be delivered Semester End Examination EE - 4010 Credits : 2

EE 4010

L-0, T-0, P-2

Transmission and Distribution of Electric Power-Lab 26 hours of Lab Session Maximum Time: 3 Hrs. Max.Marks: 50 Max.Marks 50 Min Pass Marks: 20 Min Pass Marks: 25

Continuous Assessment (Based on Lab Work 30%, Lab Record 25%, Viva-Voca/Hand on Test 25%, Attendance 20%)

Instructions for Paper setter/ Candidates

Laboratory examination will consist of two parts: 1. Performing a practical examination assigned by the examiner (25 marks) 2. Viva-voce examination (25 marks) Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.
LIST OF EXPERIMENTS 1. To find out A, B, C, D parameters, hybrid parameters and image parameters of a given transmission line model. 2. To study the performance of a long transmission line under no load condition and under light load condition. 3. To study the performance of a long transmission line under load at different power factors. 4. Visit to substation and preparing layout of various equipments in the substation. 5. To study the performance characteristics of a typical DC distribution system (Radial Configuration) 6. To study the performance characteristics of a typical DC distribution system (Ring main Configuration) 7. To find out voltage distribution across the string of insulators without guard ring. 8. To find out voltage distribution across the string of insulators with guard ring. 9. To plot equipotential lines of paper model of single layer cable. 10. To plot equipotential lines of paper model of multi layer cable. 11. To measure the insulation resistance of cable. Note: At least 10 experiments should be performed from above list.

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SEMESTER V

68

SEMESTER V ELECTRICAL POWER GENERATION

Course Code Name of the Course Lectures to be delivered Semester End Examination

EE 5001

Credits : 4 L-3, T-1, P-0 ELECTRICAL POWER GENERATION 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

EE 5001

SECTION-A LOAD CURVES: Energy requirements, connected load, maximum demand, demand factor, diversity factor, types of load, variation in demand, Chronological load curve, load duration curve, Energy load curve, Mass curve, load factor, Capacity factor, utilization factor. SECTION-B CONVENTIONAL METHODS OF GENERATION: Hydro Stations- location, layout, types and selection of prime mover, calculation of energy generated. Thermal stations- Location, layout, calculations of energy generated. Nuclear stations-Principle of nuclear generation, location, layout and calculation of energy generated. SECTION-C CLASSIFICATION OF PLANTS: Base load, peak load and stand by stations, stand by capacity in power plants, selection of number and size of units for different types of stations. POWER STATION AUXILIARIES: Ash handling in thermal plants, necessity of condensers in thermal and nuclear plants, Radiation protection in nuclear plants, station batteries and their maintenance, Fire fighting equipment. SECTION-D ECONOMIC OPERATION OF STEAM PLANTS: Methods of loading turbo alternators, input output curve, heat rate, incremental cost, optimum generator scheduling neglecting transmission loss, sequence of adding units, Elementary treatment of transmission loss and its effect on optimum scheduling, load dispatching. BOOKS TEXT BOOK: 1. A Course in Electrical power by Soni, Gupta, Bhatnagar. REFERENCE BOOKS: 1. Elements of Electrical Power Station Design by M.V.Deshpande. 2. Power station Engineering and Economics by Strotzky and Uopat.

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SEMESTER-V ELECTRONIC MEASUREMENTS & MEASURING INSTRUMENTS EE - 5002

Course Code Name of the Course Lectures to be delivered Semester End Examination Credits : 4 L-3, T-1, P-0 ELECTRONIC MEASUREMENTS & MEASURING INSTRUMENTS 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessionals tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

EE 5002

SECTION-A TRANSDUCERS: Definition of a transducer, basic requirements of a transducer, Electrical transducers and their classification, Transducers for measuring displacement, strain, vibration, force, torque, pressure, flow, temperature ( including Strain Gauge and L.V.D.T.) SIGNAL CONDITIONING: Basic characteristics of instrumentation amplifier, sample and hold circuits, Digital to Analog and Analog to Digital conversion. SECTION-B ANALOG INSTRUMENTS: Electronic analog instruments for measurement of direct and alternating quantities,VTVM, Electronic Voltmeter, Electronic ohmmeter, Electronic multimeter. DIGITAL INSTRUMENTS: Comparison between Digital and Analog instruments, Digital voltmeter, Digital frequency meter, Digital display methods. SECTION-C C.R.O: Construction and synchronization of CRO , measurement of Voltage, current, phase angle and frequency using CRO, Dual trace and Dual beam oscilloscopes. SIGNAL ANALYSERS: Harmonic Distortion Analysers, Spectrum Analysers and their applications. SECTION-D RECORDERS: Magnetic Tape recorders, X-Y recorders, Strip- Chart recorder. TELEMETRY: Principle of Telemetry, Multiplexers, Wire Link Channels and Data Acquisition systems. BOOKS Text books: 1. A course in Electrical and Electronic Measurements and Instrumentation by A.K. Sawhney. Reference books: 1. Modern Electronic Instrumentation and measuring Techniques by Albert D.Helfrick and William D. Cooper, PHI. 2. Electronic Measurements and Instrumentation by Oliver and Cage. 3. Digital Instrumentation by A.J.Bouwens, TMH, N.Delhi.

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SEMESTER-V ELECTRICAL DRIVES AND FACT DEVICES

Course Code Name of the Course Lectures to be delivered Semester End Examination

EE-5003

Credits : 4 L-3, T-1, P-0 EE 5003 ELECTRICAL DRIVES AND FACT DEVICES

52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessionals tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION-A ELECTRICAL DRIVES: Types, classification, characteristics and their application areas. Selection of electrical drives for electric traction, steel mills, cement mills and textile mills. SECTION-B Review of converters, Inverters, Cycloconverters, Choppers etc. and their applications in drive control (AC as well as DC). SECTION-C Introduction to FACT controllers. Principle and operation of Thyristor controlled series capacitors for transmission lines. SECTION-D Principle and operation of Thyristor controlled dynamic brake. Principle and operation of Thyristor controlled var compensators.

TEXT BOOKS 1. Flexible A.C.Transmission System by T.N.Pai 2. Power Electronics by P.S. Bhimbra. 3. Fundamentals of Power Electronics and Drives by A.Chakarbarti.(Dhanpat Rai).

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SEMESTER-V DATABASE MANAGEMENT SYSTEMS

Course Code Name of the Course Lectures to be delivered Semester End Examination IT(ID)-5002 Credits : 4

IT (ID) - 5002
L-3, T-1, P-0

DATABASE MANAGEMENT SYSTEMS

52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessionals tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION-A Overview of DBMS, Components of DBMS :(users, languages, structure, data - dictionary, Data Manager, DBA etc.) File processing versus Data Management, File Oriented approach versus Database Oriented approach, SPARC 3-level architecture, A brief overview of three traditional models(hierarchical model, network model and relational model). SECTION-B Properties of relational model{ Codds 12 rules (Integrity rules (Concept of keys)},Relational algebra (select, project, cross product, joins(theta join, equi-join, natural join, outer join)), Tuple relational calculus, Domain relational calculus, Entity- relationship model as a tool for conceptual design entities, attributes and relationships, ER-diagram, Converting ER-model into relational schema. SECTION-C Functional Dependencies, Multi-valued Dependencies, Normalization (utpo 5th level),Structured Query Language( with special reference of SQL of Oracle): (INSERT,DELETE,UPDATE,VIEW definitions and use of Temporary tables, Nested Queries, Correlated nested queries, Integrity, constraints (Not null, unique,check,primary key,foreign key references), File Organization (Sequential file, index sequential file, direct files, Hashing, B-trees, Index files) SECTION-D Query Processing (Introduction, Steps in Query processing, General Processing Strategies, Query Optimization), Recovery and Security, Introduction to Object-Oriented Database, C/S Database, Knowledge Based Database & Distributed Database Management System. BOOKS C.J.Date, An Introduction to Data Base Systems, 7th ed.Addison Wesley,2000. Abraham Silberschatz, Henry F.Korth,S.Sudarshan, Database System Concepts, 3rd edition,The McGraw Hill Companies,Inc.,1997. Naveen Prakash,Introduction to Data Base Management, Tata McGraw Hill Publishing Company Ltd.,New Delhi,1991. Bipin C Desai, An Introduction to Database Management System.

1. 2. 3. 4.

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SEMESTER-V BIOMEDICAL ENGINEERING

EE 5004

Course Code EE 5004 Credits : 4 L-3, T-1, P-0 Name of the Course BIOMEDICAL ENGINEERING Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Examination Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessionals tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION-A FUNDAMENTALS OF MEDICAL INSTRUMENTATION: Anatomy and physiology, physiological systems of the body, sources of biomedical signals, basic medical instrumentation system, performance requirements of medical instrumentation systems, General constraints in design of medical instrumentation systems, regulation of medical devices. BIOELECTRIC SIGNALS AND ELECTRODES: Origin of bioelectric signals, Recording electrodes, Silver- Silver chloride electrodes, Electrodes for ECG, Electrodes for EEG, Electrodes for EMG, Electrical conductivity of electrode jellies and creams, Microelectrodes. SECTION-B PHYSIOLOGICAL TRANSDUCERS: Introduction, classification of transducers, performance characteristics of transducers, Displacement, position and motion transducers, Pressure transducers, Transducers for body temperature measurement, Photoelectric transducers, optical fibre sensors, Biosensors, Smart sensors. RECORDING SYSTEMS: Basic recording systems, General considerations for signal conditioners, pre ampliers, sources of noise in low level measurements, Biomedical signal analysis techniques, main amplifier and driver stage, Writing systems, Direct writing recorders, inkjet recorder, potentiometric recorders, Digital recorders, Instrumentation tape recorders. SECTION-C BIOMEDICAL RECORDERS: Electrocardiograph, Vector cardiograph(VCG), honocardiograph (PCG), Electro encephalograph (EEG), Electromyograph (EMG), other biomedical recorders, Biofeedback instrumentation. X-RAY COMPUTED TOMOGRAPHY: Computed Tomography, system components, Gantry geometry, patient dose in CT scanners. SECTION-D Basis of Diagnostic Radiology, Nature of X-rays, production of X-rays, X-ray machine, visualization of X-rays, Dental X-ray machines, portable and mobile X-ray units,physical parameters for X-ray detectors, Digital radiography. BOOKS Text Book: 1. Handbook of Biomedical Instrumentation - By R.S.Khandpur( TMH) Reference Books: 1. Principles of Applied Bio-medical Instrumentation by L.A. Geddes & LE.Baker (Wiley Inter Science Publication) 2. Bio-medical Instrumentation and Measurements by Laslie Cromell, Fred J.Weibell, Erich A Pfeiffer (PHI). 3. Bio-medical Instruments, Theory and Design by Walter-Welkowit, Sid Dentsch and Metin Kay (Academic Prers)

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SEMESTER - V MICROPROCESSORS EC-5011

Course Code Credits : 4 L-3, T-1, P-0 EC-5011 Name of the Course MICROPROCESSORS Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: Examination 40 Continuous Assessment (based on sessional tests Max. Marks: 50 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION-A Introduction to microprocessors, microprocessor general architecture and its basic operations, microcomputer system : memory and input-output devices, code conversion, BCD arithmetic and 16 bit data operations, BCD to binary and binary to BCD conversion,Binary to ASCII and ASCII to binary conversion. SECTION-B 8085 Microprocessor: Pin diagram, architecture, Instruction set and timing diagrams, Instruction format and addressing modes, Assembly language programs, debugging of programs, Interrupts and memory interfacing. SECTION-C Programming techniques: Looping, counting, indexing, counters and time delays, Illustrative programs, stacks and subroutines. SECTION-D Programmable peripheral interfaces-8255 A, programmable interval timer-8253, programmable interrupt controller 8259, Direct-memory access(DMA) and 8257 DMA controller, Microprocessor applications. TEXT BOOKS 1. Microprocessor Architecture, Programming and application with 8085/8080 A by Ramesh S.Gaonkar, Wiley Eastern. 2. Introduction to microprocessors by Aditya P.Mathur, Tata Mc Graw Hill. 3. Industrial Electronics and control-S.K.Bhattacharya, S.Chatterjee-Tata Mc Graw Hill. 74

SEMESTER-V ELECTRONIC MEASUREMENTS & MEASURING INSTRUMENTS LAB Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory EE - 5005

EE 5005 Credits : 2 L-0, T-0, P-2 ELECTRONIC MEASUREMENTS & MEASURING INSTRUMENTS LAB 26 hours of Lab sessions Max. Time = 3 hrs. Continuous Assessment (based on Lab work 30%, Lab record 25%, Viva 25%, Attendance 20%) Max. Marks : 50 Max. Marks: 50 Min. Pass Marks: 20 Min. Pass Marks: 25

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voce examination (25 marks). Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS (1) To study LVDT and plot its response to an application. (2) (3) To study Strain Gauge and plot its response to an application. To plot the characteristics of a Thermistor and calibrate it for temperature measurement. (4) To plot the characteristics of a Thermocouple and calibrate it for temperature measurement. (5) (a) To observe waveform of a signal on CRO and measure its amplitude and frequency. (b) To measure frequency of an unknown signal using Lissajous patterns on CRO. (6) (7) To study the working of a general purpose Spectrum Analyser. To study an angular potentiometric transducer and measure its sensitivity and linearity. (8) (9) (10) To study the working of a Digital Multimeter. To study the working of a Data Acquisition System. To study an Instrumentation Amplifier and plot its response to an application.

Note: At least eight experiments to be performed from above list.

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SEMESTER-V BIOMEDICAL ENGINEERING LAB

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory

EE-5006
L-0, T-0, P-2

Credits : 2 EE - 5006 BIOMEDICAL ENGINEERING LAB 26 hours of Lab sessions Max. Time = 3 hrs. Continuous Assessment (based on Lab work 30%, Lab record 25%, Viva 25%, Attendance 20%) Max. Marks : 50 Max. Marks: 50

Min. Pass Marks: 20 Min. Pass Marks: 25

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voce examination (25 marks). Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS (1) To study ECG Machine, pick-up ECG Signal, display it on CRO and find duration of P,R and T Wave. (2) To Study various lead positions of ECG and observe the difference in ECG waveforms for different positions. (3) To plot experimentally the relationship between the surface EMG and muscular force. (4) To study various parts of an EEG Machine. (5) To pick up EEG signals and study their wave patterns. (6) To study the frequency spectrum of ECG signal on a display device using a movable band pass filter. (7) To study the frequency spectrum of EMG on a display device using a movable band-pass filter. (8) To study a C.T.Scan system available in the field. Note : At least six experiments to be performed from above list.

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SEMESTER V RDBMS Lab

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory IT(ID) 5007 RDBMS Lab 26 hours of Lab sessions Max. Time = 3 hrs. Continuous Assessment (based on Lab work 30%, Lab record 25%, Viva 25%, Attendance 20%) Max. Marks : 50 Max. Marks: 50 Min. Pass Marks: 20 Min. Pass Marks: 25

IT(ID) 5007
Credits : 2 L-0, T-0, P-2

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voce examination (25 marks). Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester. LIST OF EXPERIMENTS

Familiarization with RDBMS (ORACLE/FOXPRO using VISUAL BASIC as front end) & developing a small application. 2. Create a database and write the programs to carry out the following operation: a) Add a record in the database. b) Delete a record in the database. c) Modify a record in the database. d) Generate queries. e) Generate the report. f) List all the records of database in ascending order. 3. Develop a menu driven project management of database system: 1. Library Information System. a) Engineering. b) MCA 2. Inventory control system. a) Computer Lab. b) College Store. 3. Student Information System. a) Academic. b) Finance 4. Time Table Development System. a) CSE, IT & MCA Departments. b) Electrical & Mechanical Departments. Usage of S/W: 1. VB, ORACLE and/or DB2. 2. VB, MS ACCESS. 3. VB, MS SQL SERVER 2002. Note: At least 5 to 10 more exercises to be given by the teacher concerned.

1.

77

SEMESTER-V MICROPROCESSORS LAB

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory

EC-5012
Credits : 2 L-0, T-0, P-2

EC-5012 MICROPROCESSORS LAB

26 hours of Lab sessions Max. Time = 3 hrs. Continuous Assessment (based on Lab work 30%, Lab record 25%, Viva 25%, Attendance 20%) Max. Marks : 50 Max. Marks: 50 Min. Pass Marks: 20 Min. Pass Marks: 25

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voce examination (25 marks). Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester. LIST OF EXPERIMENTS

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10)

Study of 8085 Trainer Kit and awareness of its use alongwith user manual. Execution of Assembly language programs using the user manual and verification of the programs given in the user manual. Programming practices for various architectural and logical exercises using assembly language on 8085 Kit. Development of delay generating programs using 8085 P Kit and verification of the delay generated with the help of CRO. Generation of pulse trains using 8085 P kit and its verification on a CRO. Development of P based traffic controller. Development of P based stepper motor controller. Development of P based temperature controller. Development of P based Firing circuit for triggering a thyristor. Development of P based thyristorised speed controller of a dc shunt motor.

Note: At least eight experiments to be done from above list.

78

SEMESTER

VI

79

SEMESTER VI ADVANCED MICROPROCESSOR AND CONTROLLER (MICRO & PLC)

Course Code Name of the Course

EC 6012

Credits : 4 L-3, T-1, P-0 EC-6012 ADVANCED MICROPROCESSOR AND CONTROLLER

(MICRO & PLC)

Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: Examination 40 Continuous Assessment (based on sessional tests Max. Marks: 50 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed. SECTION-A Introduction to microprocessors, microcomputers and computers, batch processing, multiprocessing, multiprogramming, Time sharing and multitasking system, classification of microprocessors-8086, 80186, 80286, 80386 and 80486. SECTION-B Introduction of 16-bit micrprocessors,8086 architecture, programming model, segmented memory, memory map, segment registers, Addressing modes, data transfer instructions, string instructions, logical instructions, Arithmetic instructions, Transfer of control instructions, process control instructions. SECTION-C 8051 Series microcontrollers-architecture,pin diagram, basic instruction set, applications of micro controllers as dedicated controllers. SECTION-D Architecture of programmable logic controllers(PLCs), Input output modules, programming of PLC using ladder logic.

1. 2. 3. 4.

TEXT BOOKS The 8086/8088 family design, programming and interfacing-John Uffenbeck, Prentice Hall of India. Microcomputer system-The 8086/8088 family architecture,programming and designby Y.C.Lin, G.A.Gibson, Prentice of India. Programmable logic controller-J.R.Hackworch-Jr Pearson Education. Introduction to programmable logic controller-G.Dunning(Delmer publications)

80

SEMESTER VI

SWITCHGEAR AND PROTECTION

Course Code Name of the Course Lectures to be delivered Semester End Examination EE 6001

EE 6001

Credits : 4 L-3, T-1, P-0 SWITCHGEAR AND PROTECTION 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessionals tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A RELAYS: Operating Principles, constructional features and characteristics of relays. Relay classification, principal types of electromagnetic relays, theory of Induction relays, relay design, general equation for electromagnetic relays, general equation of comparators, Overcurrent relays, instantaneous over current relay, Directional relays, Distance relays, Differential relays. SECTION B FEEDER PROTECTION: Overcurrent protection, Distance protection, Pilot protection. APPARATUS PROTECTION: Transformer protection, generator protection, Motor protection, Bus bar protection, C.T.s, P.T.s and their application in protective schemes. SECTION C STATIC RELAYS: Basic concepts, Input Output devices and circuits, Phase and amplitude comparator, general organization of static relays. PROTECTION AGAINST OVER VOLTAGES: Ground wire, shielding angle, rod gap, horn gap, impulse gap, valve type and non linear arrestors, surge absorbers. FUSES: Types, ratings, theory and characteristics, characteristics and construction of HRC fuses. SECTION D THEORY OF CIRCUIT INTERRUPTION: Physics of arc interruption, maintenance of arc, arc interruption theories. CIRCUIT CONSTANTS IN RELATION TO CIRCUIT BREAKING: Circuit breaker rating, circuit constants and circuit conditions, Restriking voltage. THEORY OF CIRCUIT BREAKERS: Air break circuit breaker, oil circuit breaker, Air blast circuit beaker, Vacuum circuit breaker, SF6 circuit breaker, circuit breaking in HVDC systems, Testing and maintenance of circuit breakers. BOOKS A course in Electrical Power by Soni, Gupta, Bhatnagar. Power System Protection and Switchgear by B.Ravinder Nath & M.Chander, Wiley Eastern. Switchgear and Protection by Sunil S.Rao. Art and Science of Protective relaying by C.R.Mason, John Wiley.

1. 2. 3. 4.
5.

Electrical Power Systems by C.L.Wadhwa.

81

SEMESTER VI ENERGY MANAGEMENT EE 6002

Course Code EE 6002 Credits : 4 L-3, T-1, P-0 Name of the Course ENERGY MANAGEMENT Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: Examination 40 Continuous Assessment (based on sessionals tests Max. Marks: 50 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A
ENERGY FLOWS: Systems of Energy flow, principles of energy flow, energy and money, energy and growth, flows of energy in ecological systems. SECTION B ENERGY AUDIT: Types of Energy Audits, National Energy Plan and its impact on Energy Conservation, Energy accounting and analysis. SECTION C MEASURING INSTRUMENTS: Temperature measuring instruments, combustion system measuring instruments, measurement of heating, ventilation and air conditioning system performance. SECTION D ENERGY AUDITS PRACTICE: Energy Audits of building systems, electrical systems, maintenance and Energy Audits. BOOKS 1. 2. Handbook of Energy Audits by Albert Thuman Fairman Press Inc. Energy basis for man and nature by Howard T.Odum & Elisbeth C.Odum.

82

SEMESTER VI HIGH VOLTAGE TECHNIQUES AND H.V.D.C.

Course Code Name of the Course Lectures to be delivered Semester End Examination EE 6003

EE 6003

Credits : 4 L-3, T-1, P-0 HIGH VOLTAGE TECHNIQUES AND H.V.D.C. 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessionals tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A DISCHARGES IN GASES: General characteristics of gaseous insulation, basic processes of ionization in a gas, discharges in uniform and non-uniform fields, Paschens law, Corona discharges due to direct and alternating voltage, commonly used gases for insulation and their properties. BREAKDOWN OF SOLIDS AND LIQUIDS: Different mechanisms of breakdown of solids, Intrinsic breakdown, theories of intrinsic breakdown, different theories of breakdown in liquids, commonly used solid and liquid insulating materials and their properties. SECTION B LIGHTNING PHENOMENON: Charge accumulation in clouds formation of lightning stroke, characteristics of lightning stroke, current and voltage magnitudes, protection of transmission lines and substations against lightning, lightning arrestors, switching surges, Insulation co-ordination. HIGH VOLTAGE TESTING EQUIPMENT: Power frequency high voltage testing transformer, rating for testing different kinds of equipments, cascade connection of transformers, generation of high direct voltage by voltage doubler circuit and Cockrort Walton circuit. SECTION C IMPULSE GENERATOR: Definition of impulse wave, single stage and multistage impulse generators and equivalent circuits, determination of front and tail resistance to produce a given wave shape. HIGH VOLTAGE MEASUREMENTS: Measurement of ac, dc and impulse voltage, sphere gap, resistance and capacitance potential dividers, standard capacitors, High voltage measurements by measuring rectified current of a standard capacitor, Creat voltmeter, Electrostatic voltmeter, Impulse voltage measurement by Cathode Ray Oscillograph. SECTION D HVDC: Merits and demerits of HVDC transmission systems, types of HVDC systems, bipolar, monopolar, back - to - back, Normal operation of an H.V.D.C link, Energy considerations in breaking direct current in H.V.D.C. circuit breakers, HVDC circuit breaker capabilities and characteristics, HVDC system requirement, Typical layout of an HVDC substation. BOOKS 1. High Voltage Engineering by M.S.Naidu & V.Kamaraju. 2. Power System Transients and High Voltage Principles by B.Thapar, B.R.Gupta & L.K.Khera. 3. High Voltage Engineering by C.L.Wadhwa. 4. A course in Electrical power by Soni, Gupta, Bhatnagar. 5. D.C.transmission by E.W.Kimbark, Wiley Publication

83

SEMESTER VI ELECTRICAL ENERGY UTILIZATION

EE 6004

Course Code EE 6004 Credits : 4 L-3, T-1, P-0 Name of the Course ELECTRICAL ENERGY UTILIZATION Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: Examination 40 Continuous Assessment (based on sessionals tests Max. Marks: 50 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed. SECTION A ELECTRIC TRACTION: Different systems of traction their comparison, types of motors for traction, systems of track electrification, speed time curves, energy consumption. CURRENT COLLECTION SYSTEM: Conductor rail system, overhead equipment system Pole collector, bow collector, Pantograph collector, air blast circuit breaker. CONTROL OF DC MOTORS: Series parallel control, drum controller, contactor type controller, energy saving with series parallel starting. MECHANICS OF BRAKING: Mechanical brakes, Electric braking Plugging, rheostatic braking, regenerative braking. SECTION B ELECTRIC ENERGY AS LIGHT: Production of light by different methods, units of quantities used in study of light, Laws of illumination, different light sources their construction and operating principle, design of lighting schemes and equipment used, Indoor, roadway, industrial and flood lighting. SECTION C ELECTRIC HEATING: Different methods of electric heating, Constructional details and performance of resistance heating furnaces, heating elements design, ovens, direct and indirect induction and arc furnaces, estimation of power and energy requirement, power supply problems. SECTION D ELECTRICAL WELDING: AC and DC welding, resistance arc and atomic hydrogen welding, electron beam welding, ultrasonic welding, laser welding, different types of control equipment used for controlling temperature and pressure in arc and resistance welding, welding transformer. BOOKS Art and Science of Utilization of Electrical Energy by H.Partab. Utilization of Electrical Energy by Openshaw Taylor.

1. 2.

84

SEMESTER VI CONTROL ENGINEERING

Course Code Name of the Course Lectures to be delivered Semester End Examination EE 6005

EE 6005

Credits : 4 L-3, T-1, P-0 CONTROL ENGINEERING 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessionals tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%)

Instructions:
1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

2.

SECTION A INTRODUCTION: Basic concept of automatic control, servo mechanism, regulating systems, open loop and closed loop control systems, feedback, effects of feedback, linear and non-linear control systems, Block diagrams, examples of various control systems. MODELLING: Formulation of differential equations of linear electrical, mechanical, translational, rotational and thermal systems, electrical and mechanical analogies, use of Laplace transform and transfer function, concept of state variable modelling, block diagram algebra, signal flow graphs, characteristic equation. SECTION B TIME DOMAIN ANALYSIS: Standard test signals, transient response of the first order, second order systems, time domain specifications, dominant closed loop poles of higher order systems, steady state error and error coefficients. STABILITY: Concept of absolute and relative stability, pole - zero location, Routh Hurwitz criterion. SECTION C FREQUENCY DOMAIN ANALYSIS: Closed loop frequency response, correlation between time and frequency response, Bode diagram, polar plots, log magnitude vs. phase plot. STABILITY IN FREQUENCY RESPONSE: Nyquist stability criterion, stability analysis, relative stability. SECTION D COMPENSATION DESIGN: Necessity of compensation, compensating network, phase margin, gain margin, lag and lead compensation. CONTROL SYSTEM COMPONENTS: Error detectors potentiometers and synchros, stepper motor, servo motor, ac and dc tachogenerators. BOOKS Text Books: 1. Control System Engineering by I.J.Nagrath & M.Gopal. Reference Books: 1. Modern Control Engineering by K.Ogata (PHI) 2. Automatic Control System by B.C.Kuo (PHI) 3. Control System Components by J.F.Gibsen (MGH)

85

SEMESTER-VI ADVANCED MICROPROCESSOR AND CONTROLLER (MICRO & PLC) LAB EC-6013
Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory Credits : 2 L-0, T-0, P-2 EC-6013 ADVANCED MICROPROCESSOR AND CONTROLLER (MICRO & PLC) LAB 26 hours of Lab sessions Max. Time = 3 hrs. Continuous Assessment (based on Lab work 30%, Lab record 25%, Viva 25%, Attendance 20%) Max. Marks : 50 Max. Marks: 50 Min. Pass Marks: 20 Min. Pass Marks: 25

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voce examination (25 marks). Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPPERIMENTS (1) (2) (3) (4) (5) (6) (7) Program practice on 8086 kit. Interfacing of 8086 with PC and downloading programming using compilers. Application of 8086 for temperature control. Simple programming on8051 microcontrollers. Interfacing of 8051 with PC and downloading of program. Application of 8051 as a stand alone(dedicated) controller. PLC Programming practices using ladder logic.

Note: At least five experiments to be performed from above list.

86

SEMESTER-VI SWITCHGEAR AND PROTECTION LAB

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory

EE-6006
L-0, T-0, P-2

Credits : 2 EE 6006 SWITCHGEAR AND PROTECTION LAB 26 hours of Lab sessions Max. Time = 3 hrs. Continuous Assessment (based on Lab work 30%, Lab record 25%, Viva 25%, Attendance 20%) Max. Marks : 50 Max. Marks: 50

Min. Pass Marks: 20 Min. Pass Marks: 25

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voce examination (25 marks). Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS (1) (2) Symmetrical fault level analysis on a d.c.network analyzer. Unsymmetrical fault level analysis on a d.c. network for various type of faults. (3) (4) Symmetrical fault level analysis on an a.c network analyzer. Unsymmetrical fault level analysis on an a.c network for various types of faults. (5) To plot time current characteristics of Electromagnetic type over-current relay. (6) (7) (8) To plot time-current characteristics of an IDMT relay. Performance and study of Merz-Price protection. Study of the performance and operation of a three phase over-current and earth fault static relay. Note: At least six experiments to be done from above list.

87

SEMESTER VI CONTROL ENGINEERING LAB

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory Credits : 2 EE-6007 CONTROL ENGINEERING LAB 26 hours of Lab sessions Max. Time = 3 hrs. Continuous Assessment (based on Lab work 30%, Lab record 25%, Viva 25%, Attendance 20%) Max. Marks : 50 Max. Marks: 50 Min. Pass Marks: 20 Min. Pass Marks: 25

EE-6007
L-0, T-0, P-2

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voce examination (25 marks). Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS (1) To Study the step response of a second order system for different damping factors. (2) To plot the speed torque characteristics of a 2 phase AC servomotor. (3) To plot the torque speed characteristics of a DC servomotor. (4) To study the closed loop control of a three phase AC motor. (5) To study the performance characteristics of a D.C. motor angular position control system. (6) To study the magnetic amplifier. (7) To Study the synchro transmitter rotor position versus stator voltages for three phase. (8) To Study the microcontroller based stepper motor controller circuit. (9) To Study various lag-lead compensation networks. Note: At least eight experiments to be performed from above list.

88

SEMESTER

VII

89

SEMESTER VII ELECTRICAL MACHINE DESIGN EE 7001 Course Code EE 7001 Credits : 4 L-3, T-1, P-0 Name of the Course ELECTRICAL MACHINE DESIGN Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Examination Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed. SECTION A GENERAL: Review of materials used in Electrical Machines their characteristics and limitations, classification of insulating materials based on temperature rise, BIS specifications for conductors, transformers, transformer oil and induction motors, Standard specifications for rotating electrical machinery as per IEC publications. TEMPERATURE RISE CALCULATIONS: Losses in electric machines, classification of losses, temperature rise calculation, steady state temperature rise, heating and cooling curves, ratings of machines, temperature gradients in transformers and rotating machines. VENTILATION: Methods of cooling transformers, design of tank, types of ventilation, methods of cooling 3-phase induction motor, cooling circuits and types of enclosures, cooling of totally enclosed machines, Hydrogen cooling direct water cooling, Quantity of cooling medium Air, Hydrogen, water and oil. SECTION B MAGNETIC CIRCUITS: Magnetic circuits of transformers and three phase induction motors, magnetic loading of transformers and induction motors, Specific slot permeance and slot leakage reactance of a 3phase induction motor, Leakage reactances of cylindrical coils of equal length and sandwitch coils of equal width in a transformer, variation in magnetic losses with changes in supply voltage and frequency of a transformer. ELECTRIC CIRCUITS: Types of low voltage and high voltage windings in transformers, calculation of resultant mechanical forces in transformers under normal and abnormal conditions, bracings, Characteristics of a.c.armature windings, types of windings used for induction motors, winding factors. SECTION C TRANSFORMERS: Design of single - phase and three - phase core type power and distribution transformers, single phase shell type transformers, magnetic and electric circuit, leakage reactance, regulation, efficiency, no load current, cooling system, overall dimensions and weight, computer aided design of transformers. SECTION D INDUCTION MOTORS: Design of squirrel cage and wound rotor type three phase induction motors, stator and its windings, slot and its insulation, squirrel cage and slip ring rotors, no load current, short circuit current, efficiency, circle diagram, stator temperature rise, weight, computer aided design of induction motors. BOOKS A Course in Electrical Machine Design by A.K.Sawhney. Design Manual by Say and Smith. Electrical Machine Design by L.K.Khera. Alternating Current Macines by M.G.Say. Advanced Electrical Machines and Power by B.G.Brosen and J.T.Hayden.

1. 2. 3. 4. 5.

90

SEMESTER VII POWER SYSTEM OPERATION AND CONTROL

Course Code Name of the Course Lectures to be delivered Semester End Examination EE 7002

EE 7002

Credits : 4 L-3, T-1, P-0 POWER SYSTEM OPERATION AND CONTROL 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A CHARACTERISTICS OF POWER GENERATION UNITS: Characteristics of steam units, characteristics of hydro-units, Input Output and incremental fuel cost characteristics. UNIT COMMITMENT: Constraints in unit commitment, solution of the unit commitment problem by Priority list method and Forward Dynamic Programming Approach. SECTION B ECONOMIC DISPATCH OF THERMAL UNITS: Economic dispatch problem, thermal system dispatching with network losses considered, Base point and participation factors, Line loss formula (derivation not included), Solution of co-ordination equations by iteration method and Newton Raphson method. SECTION C HYDRO-THERMAL CO-ORDINATION: Short term hydro thermal scheduling problem, solution of co-ordination equations by iteration method, Dynamic programming, dynamic programming application to hydro-thermal problem. SECTION D POWER SYSTEM CONTROLS: Generator voltage control, Turbine governer control, load frequency control, co-ordination of economic dispatching with load frequency control. BOOKS Power generation operation and control by A.J.Wood and B.F.Wollenberg, John Wiley & Sons. Power System Engineering by Nagrath & Kothari, TMH. Power System Analysis and Design by B.R.Gupta, Wheeler.

1. 2. 3.

91

SEMESTER VII
ENTREPRENEUR DEVELOPMENT
Course Code Name of the Course Lectures to be delivered Semester End Examination EE 7003

EE 7003

Credits : 4 L-3, T-1, P-0 ENTREPRENEUR DEVELOPMENT 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A Entrepreneurship: Entrepreneurship, Role of entrepreneurship in Indian economy, Characteristics of entrepreneur, Types of entrepreneurs, some myths and realities about entrepreneurship. Small scale industries: Introduction, Role and scope of small scale industries, concept of small scale and ancillary industries undertaking, How to start a small scale industry, Steps in launching own venture, procedure for registration of small scale industries, various development agenciestheir functions and role in industrial and entrepreneurship development, infrastructure facilities available for entrepreneurship development in India. SECTION B Product planning and Development: Introduction, Requirement of a good product design, product development approaches, Product development process, Elements of concurrent engineering, quality function development, Rapid prototyping, Various controlling agencies involved; their role and formalities for getting clearance before starting individual venture. SECTION C Preparation of feasibility Project Report: Tools for evolution of techno economic feasibility project report, SWOT analysis. SECTION D Elements of Marketing & Scales Management: Nature of product and market strategy, packing and advertising, after sales service, social responsibility and business ethics. Important Legal Provisions: Sales of good act, partnership act, packing and advertising, after sales service, social responsibility and business ethics. BOOKS Text Books: 1. The practice of Entrepreneurship - G.G. Meredikh, R.E. Nelson and P.A. Neek 2. Handbook of Entrepreneurship - Rao and Pareek Reference Books: 1. Engineering Economics - Tarachand 2. Industrial Engineering and Management- Ravi Shanker 3. Industrial Engineering and Management- O.P. Khanna Dhanpat Rai & Sons, New Delhi.

92

SEMESTER-VII
NEURAL NETWORKS AND FUZZY LOGIC EE- 7004

Course Code EE- 7004 Credits : 4 L-3, T-1, P-0 Name of the Course NEURAL NETWORKS AND FUZZY LOGIC Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: Examination 40 Continuous Assessment (based on sessional tests Max. Marks: 50 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed. SECTION-A Structure of Human brain. Artificial Neural Networks (ANN) - Single layer and multi layer. Learning - Supervised and unsupervised. SECTION-B Perceptrons Back propagation, counter propagation, Hopfield networks. Typical Training schemes. SECTION-C Fuzzy vs.Classical set theory. Membership functions, fuzzy arithmetic(addition, multification, union, intersection etc.) Fuzzification techniques. SECTION-D Defuzzification methods: max-min, Average method, centroid method etc.Advantages of centroid method etc. Advantages of centroid method over others. Fuzzy rule based control systems simple fuzzy logic controllers. Introduction to Neuro-fuzzy controllers.

1. 2. 3.

BOOKS T.J.Ross-Fuzzy Logic with Engineering applications. C++ Neural Networks and Fuzzy Logic by Rao & Rao. Neural computing Theory and Practice by P.D.Wasserman (Auza Research Inc.)

93

SEMESTER VII ELECTIVE I (DEPTT.) HYDRO POWER STATION DESIGN EE 7005 A

Course Code EE 7005 A Credits : 4 L-3, T-1, P-0 Name of the Course HYDRO POWER STATION DESIGN Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Examination Marks: 40 Continuous Assessment (based on sessional tests Max. Marks: 50 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

1.

2.

SECTION A Introduction, Hydrology, Stream flow, Hydrographs, Flow duration curves, Mass curve, Storage, Investigation of site. SECTION B Types of dams, arrangement and location of hydro-electric station, types of hydroelectric plants and their fields of use, principle of working of a hydroelectric plant. SECTION C Power to be developed, size of plant and choice of units, Types of turbines and their characteristics, Design of main dimensions of turbines. SECTION D Draft tubes, Turbine setting, penstock dimensions, scroll case, preliminary design of penstock, characteristics of generators.

BOOK 1. Power Station Design by M.V.Deshpande.

94

SEMESTER VII ELECTIVE I (DEPTT.) ILLUMINATION ENGINEERING

Course Code Name of the Course Lectures to be delivered Semester End Examination EE 7005 B

EE 7005 B

Credits : 4 L-3, T-1, P-0 ILLUMINATION ENGINEERING 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A INTRODUCTION: Laws of illumination - Inverse Square law and Lamberts Cosine law, their application in lighting calculations by point-by-point method. GENERAL PRINCIPLES OF ILLUMINATION: Definitions, units of light, definitions of flux, solid angles, luminous intensity and brightness, glare, polar curves. COLOUR AND SHADOW: Nomenclature of colour, production of colored light and mixing colours, colours contrast, colour matching, shadow. ELECTRIC LIGHT SOURCES: Brief description of characteristics of starting and application of the following lamps: a) Incandescent lamp. b) Sodium Vapour lamp. c) Mercury Vapour lamp d) Flourescent lamp e) Neon lamp f) Compact fluorescent lamp. SECTION B GENERAL ILLUMINATION DESIGN (LUMEN METHOD): Selection of equipment, Equipment efficiency, Room index and Utilization factor, Maintenance factor, computation for lamp size, core lighting design, optical design methods, Louver design, Louver application, Boxes with diffusing media. SECTION C Elementary idea of the special features required and minimum level of illumination required for: (i) Domestic. (ii) Commercial (iii) Educational. (iv) Health (v) Industrial buildings. Architectural lighting concepts in above buildings. SECTION D Elementary ideas for design of flood lighting of building, road lighting and tunnel lighting. MAINTENANCE AND ECONOMICS: Maintenance of luminaire, luminaire depreciation caused by dust and dirt, Efficient light production, lighting economics. PHOTOMETRIC MEASUREMENTS: Instruments used in photometric measurements, Design of lighting system for a stadium, theatre hall, indoor play hall, External and internal lighting of historical building, hospital lighting, air-port lighting, tunnel lighting, underwater lighting etc., complete testing of a luminaire as per IS:13383. BOOKS Electric Illumination by John O.Kraehenbueshl, John Wiley & Sons. Lamps and lighting by H.Howitt & A.S.Vause.

1. 2. 3.

Load lighting by Ir. W.J.M. Van Bommel

95

SEMESTER VII ELECTIVE I DEPTT. ELECTRICAL ENGINEERING ECONOMICS

Course Code Name of the Course Lectures to be delivered Semester End Examination EE 7005 C

EE 7005 C

Credits : 4 L-3, T-1, P-0 ELECTRICAL ENGINEERING ECONOMICS 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A Cost analysis in industry, classification of costs, one time investments, regular recurring costs, operating costs, shifting of expenditure from one time to another, capitalized cost method, annual cost method and unit cost method, their field of application, comparison between different methods. Pay back period, break even point of production, financial justification of project, cost of generation: fixed, semi fixed and variable cost, average cost per unit. SECTION B Depreciation costs: Significance of depreciation, causes of depreciation, methods of calculation of depreciation, cost comparison between different methods, method suitable for electric supply industry. Location of Industries: Factors influencing industrial location, Webers theory and Fluorance theory of industrial location, power transmission as transportation cost, locations and size of power plants. SECTION C Load forecasting, statistical methods for estimating future demands, graphical method, exponential method (C.I.Law) and demand as a power series of time, Capacity planning for future, prediction of load curves. Analysis of electrical losses: classification of electrical losses into voltage dependent and current dependent losses, fixed and variable losses, condition for best efficiency, energy loss over a time period from the given load curve, cost of electrical losses on the basis of two part tariff, economic selection of electrical equipment, Kelvins law. SECTION D Principle of Industrial Pricing: Price under perfect competition, monopoly price fixing, cost of service principle, values of service principle, consumers capacity to pay, marginal cost pricing, Pricing of public utilities. Electricity Pricing: Development costs, principles of electricity pricing, differential rates, types of electricity tariffs, flat demand rate, flat rate, block rate, two part and three part tarriffs. BOOKS 1. Electrical Engineering Economics Vol-I & II by Bolton. 2. Economics for Public utility and Electrical Engineers by L.K.Khera.

96

SEMESTER VII ELECTIVE I (DEPTT.) ADVANCED CONTROL SYSTEMS

EE 7005 D

Course Code EE 7005 D Credits : 4 L-3, T-1, P-0 Name of the Course ADVANCED CONTROL SYSTEMS Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Examination Marks: 40 Continuous Assessment (based on sessional tests Max. Marks: 50 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A Review of Control Engineering, frequency response methods, Root locus method. Design of feedback control system, approaches to system design, Cascade compensation networks, phase lead design, phase lag design, phase lag lead design. SECTION B Design of state variable feedback systems Introduction, controllability, observability, optimal control systems, pole placement using state variable, limitations of state variable feedback. SECTION C ROBOUST CONTROL SYSTEMS: Robust control systems and system sensitivity analysis of Robustness, systems with uncertain parameters, design of Robust control systems, three term PID controller. SECTION D DIGITAL CONTROL SYSTEMS: Digital computer control systems applications, sampled data systems, z-transform, closed loop feedback sampled data systems, stability analysis in the z-plane. BOOKS Modern Control Systems by Dorf and Bishop, Addison Weslay. Modern Control Engineering by Ogatta, PHI. Automatic Control Systems by B.C.Kuo, PHI.

1. 2. 3.

97

SEMESTER VII ELECTRICAL MACHINE DESIGN LAB

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory EE 7006 Credits : 3

EE 7006
L-0, T-0, P-3

ELECTRICAL MACHINE DESIGN LAB

39 hours of Lab sessions Max. Time = 3 hrs. Continuous Assessment (based on Lab work 30%, Lab record 25%, Viva 25%, Attendance 20%) Max. Marks : 50 Max. Marks: 50 Min. Pass Marks: 20 Min. Pass Marks: 25

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voce examination (25 marks). Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS 1. i) ii) Study of winding arrangements for d.c.machines. Study of different winding arrangements of a.c.machines.

2.

Skeleton design of the following machines to be worked out: (i) Single phase shell type transformer complete with winding and core design including cooling system and performance calculation. (ii) Three phase power or distribution core type transformer, complete with winding and core design including cooling system performance calculation. (iii) Three phase induction motor (squirrel cage and wound rotor type) design including stator, rotor, cores and windings and performance calculations. (iv) Armature winding of d.c. and a.c. machines. Following drawing sheets to be made: (i) Transformer assembly views showing details of core assembly with windings in position and oil tank accessories. (ii)Induction motors assembly views showing details of stator, rotor core, teeth winding in slot with insulation, shaft, bearing, covering, lifting eye bolts and terminal box. (iii)Stator winding of an a.c. machine/armature winding of a d.c.machine (Induction or Synchronous) BOOKS 1. 2. A course in Electrical Machine Design by A.K.Sawhney. Design Manual by Say and Smith.

3.

98

SEMESTER VII ENTREPRENEUR DEVELOPMENT LAB

EE - 7007
L-0, T-0, P-2

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory

EE 7007 Credits : 2 ENTREPRENEUR DEVELOPMENT LAB 26 hours of Lab sessions Max. Time = 3 hrs. Continuous Assessment (based on Lab work 30%, Lab record 25%, Viva 25%, Attendance 20%) Max. Marks : 50 Max. Marks: 50

Min. Pass Marks: 20 Min. Pass Marks: 25

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voce examination (25 marks). Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS 1. 2. 3. 4. 5. 6. Familiarization to entrepreneurship and its development in India. Collect the data from nearby existing small scale industries. Analysis of data and their different aspects. Suggestions, recommendation, improvements for the plant. To prepare the project report Case Study

99

SEMESTER-VII NEURAL NETWORKS AND FUZZY LOGIC LAB

Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory

EE-7008
Credits : 2 L-0, T-0, P-2

EE-7008

NEURAL NETWORKS AND FUZZY LOGIC LAB

26 hours of Lab sessions Max. Time = 3 hrs. Continuous Assessment (based on Lab work 30%, Lab record 25%, Viva 25%, Attendance 20%) Max. Marks : 50 Max. Marks: 50 Min. Pass Marks: 20 Min. Pass Marks: 25

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voce examination (25 marks). Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS:

Familiarization with Neural Network (NN) and Fuzzy Logic (FL) Tool Boxes of MATLAB. Problem solving using Artificial Neural Networks (ANN) and Fuzzy Logic(FL) Tool Boxes of MATLAB.

100

SEMESTER

VIII

101

SEMESTER VIII TESTING AND COMMISSIONING OF ELECTRICAL MACHINES/EQUIPMENTS EE-8001

EE 8001 Credits : 4 L-3, T-1, P-0 TESTING AND COMMISSIONING OF ELECTRICAL MACHINES/EQUIPMENTS Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Examination Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of nonprogrammable calculators is allowed. Course Code Name of the Course

SECTION A EARTHING: Station earthing, neutral grounding and equipment grounding, step potential, touch potential and their permissible values, pipe earthing and plate earthing, material used in earthing, General requirement of earthing as per Indian Electricity Rules for buildings and industrial premises, Permissible values of earth resistance in different earthing requirements, Periodic checks on earthing system. SECTION B TESTING AND COMMISSIONING OF TRANSFORMERS: Various tests on power and distribution transformers (Type, routine and commissioning tests), Measurement of Insulation Resistance (IR) and Polarisation Index of a transformer winding using Megger, characteristics of transformer oil as per Indian Standards, Filtering and drying out of transformer oil, information required for ordering a transformer, recommended maintenance schedule of transformers, testing, commissioning and accuracy class of C.T./P.T. SECTION C TESTING AND COMMISSIONING OF ROTATING MACHINES: Testing, installation and commissioning of d.c., induction and synchronous machines, covering: Type, routine and commissioning tests. Selection, location and mounting of machines. Frame sizes, Degree of protection, standard IP and IC code, type of enclosures. Foundation and civil work. Checks before commissioning of machines. Measurement of IR value, drying out of electrical machines. Recommended maintenance schedule of rotating machines (d.c., induction and synchronous), covering: Mechanical and electrical maintenance. Preventive maintenance, overhauling and safety precautions. Permissible temperature rise limits. Idea of MTBF and MTTR. SECTION D COMMISSIONING AND MAINTENANCE OF L.T. PANELS: Type and rating of bus-bars, A.C.B.s, MCCBs, ELCBs and MCBs etc. Laying of power and control cables as per relevant Indian Standards, cable jointing. Location and rating of power factor improvement apparatus. SAFETY PRECAUTIONS: Biological effects of electric shock. Safety precautions for testing, commissioning and maintenance of electrical equipments (low and medium voltage apparatus). Procedure and tools for live line maintenance. BOOKS 1. Testing, Commissioning, Operation and Maintenance of Electrical Equipment by S.Rao, Khanna Publishers. REFERENCE BOOK: 1. Handbook of Electrical Engineering by S.L.Bhatia, Khanna Publishers.

102

SEMESTER VIII COMPUTER APPLICATIONS TO POWER SYSTEM ANALYSIS EE 8002

Course Code EE 8002 Credits : 4 L-3, T-1, P-0 Name of the Course COMPUTER APPLICATIONS TO POWER SYSTEM ANALYSIS Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Examination Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A INTRODUCTION: System view point regarding Computer Aided Power Systems Analysis, Simulation, Hierarchy of transmission and distribution system, Review of power system parameters and representation, ABCD constants of a transmission system, Analytical derivation of network matrices, formation of ZBUS and YBUS matrices, building algorithms. SECTION B SHORT CIRCUIT STUDIES: Review of symmetrical components, interconnection of sequence networks for three phase single line to ground, line to line, double line to ground and open conductor faults. SECTION C POWER FLOW STUDIES: The power flow problem, power flow solution by Gauss Siedal, Newton Raphson and Fast decoupled methods, Sparsity techniques, Control of power flow. SECTION D TRANSIENT STABILITY STUDIES: The Swing equation, simplified synchronous machine model and system equivalents, equal area criterion, numerical integration of swing equation, multi machine stability, Design methods for improving transient stability. BOOKS Modern Power System Analysis by I.J.Nagrath & D.P.Kothari. Power System Analysis and Design with Personal Computer Application by J.D.Glover and M.Sharma, PWS KENT Publishing Company. Computer Techniques to Power System Analysis by M.A.Pai. Power System Analysis by J.J.Grainger and W.D.Steverson, MGH. Electrical Power Systems by C.L.Wadhwa. Power System Analysis and Design by B.R.Gupta. Computer methods in power system analysis by G.W.Stagg and A.H.Li

1. 2. 3. 4. 5. 6. 7.

Abiad.

103

SEMESTER VIII DIGITAL SIGNAL PROCESSING EC(ID) 8001 Course Code Credits : 4 L-3, T-1, P-0 EC(ID) 8001 Name of the Course DIGITAL SIGNAL PROCESSING
Lectures to be delivered Semester End Examination 52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A Discrete time signal analysis and linear systems: Signal analysis signal characteristics typical discrete time signals operation on signals properties of linear time invariant digital systems Fourier transform relationship sampling analog signals and sampling rate conversion. Z-transform; Properties of Z-transform, Inverse Z-transform Analysis of discrete time systems, convolution SECTION B System function,difference eqution IIR filter design: analog filter approximation, Butterworth, Chebyshev and elliptic filters, bilinear transformations ,impulse invariance technique , digital frequency band transformations. FIR filter design using windows technique ,equiripple approximation technique , frequency sampling technique . SECTION C Discrete Fourier transform (DFT) and inverse Discrete time Fourier Transform: properties circular convolution. Fast Fourier Transform (FFT): Decimation-in-time (DIT) algorithmdecimation-in-frequency algorithm-FFT ,Radix-2 DIT and DIF implementation. SECTION D Finite Register Length Effects: Quantization noise introduced by analog-to-digital conversionfinite register length effects in the realization of IIR and FIR digital filters and in DFT computation. IIR and FIR filter realization scheme BOOKS Text Books: 1. David.K.Defatta, Joseph G, Lucas and William S.Hodgkiss, Digital Signal Processing, John Wiley & sons, 1988. 2. Sanjit K and Mitra, Digital Signal Processing, Tata McGraw Hill, 1998. Reference Books: 1. A.V.Oppeheim and R.W.Schaffer, Digital Signal and Processing, Prentice Hall. 2. Farooq Hussain, Digital Signal and Processing, Prentice Hall.

104

SEMESTER VIII
ELECTIVE I (OPEN) NON CONVENTIONAL ELECTRICAL POWER GENERATION EE-8008 Course Code EE-8008 Credits : 4 L-3, T-1, P-0 Name of the Course NON CONVENTIONAL ELECTRICAL POWER GENERATION Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: Examination 40 Continuous Assessment (based on sessional tests Max. Marks: 50 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed. SECTION - A Energy situation and renewable energy sources: Global Energy scenario, World Energy consumption, Energy in developing countries, fire wood crisis, Indian energy scene, Non conventional renewable energy sources, potential of renewable energy sources.

SECTION - B Wind Energy: Origin of wind, Basic principle of wind energy, conversion, component of wind energy conversion system, type of windmills, Wind electrical Generations in India. Solar Energy: Introduction, solar radiation, solar energy collector, solar thermal power generation, low temperature application of solar energy. SECTION - C Geo-thermal Power Plants: Introduction, Geothermal sources, comparison of Geo thermal energy with other energy forms, development of Geothermal power in India. Physical and thermochemical methods of bioconversion: Introduction, biomass definition and potential, physical method of bio conversion, thermo chemical methods. SECTION - D Wave, Tidal and OTEC: Introduction, Basic principle of tidal power, Wave energy, component of Tidal power plant, Ocean Thermal Energy Conversions, advantages and disadvantages of tidal power generation. Small and Mini Hydro power System: Introduction, site development, generation and electrical equipment, system of regulation of Hydroelectric Power in India. BOOKS Renewable Energy Sources Maheshwar Dyal. Small and mini Hydropower system by Tata Mc Graw Hill. An Introduction to power plant technology G.D.Rai. Solar Energy Suhas.P.Sukhatma, Tata Mc Graw Hill. Modern Power Plant Engg. Joel

1. 2. 3. 4. 5.

105

SEMESTER VIII
ELECTIVE I (OPEN) ENERGY ASSESSMENT AND AUDITING EE-8009

Course Code EE-8009 Credits : 4 L-3, T-1, P-0 Name of the Course ENERGY ASSESSMENT AND AUDITING Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: Examination 40 Continuous Assessment (based on sessional tests Max. Marks: 50 50%, Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed. SECTION - A ENERGY MANAGEMENT PRINCIPLES: Systems of Energy flow, principles of Energy flow and Energy conservation, Energy and money, Energy and growth, flow of energy in ecological system, Energy efficiency and demand side management (DSM), Economic evaluation. SECTION - B ENERGY AUDIT: Concepts and benefits of Energy Audit, Types of Energy Audits, National Energy Plan and its impact on energy conservation, Energy accounting and analysis, Energy audits of building systems, electrical systems, maintenance and energy audits. SECTION - C MEASURING INSTRUMENTS: Temperature measuring instruments, combustion system measuring instruments, measurement of heating, ventilation and air conditioning system performance. SECTION - D ENERGY CONSERVATION IN INDIAN SCENARIO: Energy demand and consumption in Indian industries, potential for energy efficiency in Indian industry, governments role in energy conservation and energy efficiency, Energy conservation techniques conservation in energy intensive industries, economic evaluation of conservation techniques.

1. 2.

BOOKS Handbook of Energy Audits by Albert Thuman Fairman Press Inc. Energy basis for man and nature by Howard T.Odum & Elisbeth.C.Odum.

106

SEMESTER VIII ELECTIVE II (DEPTT.) SYSTEMS AND OPERATIONS RESEARCH

Course Code

EE 8004 A
Credits : 4 L-3, T-1, P-0

EE 8004 A

Name of the Course SYSTEMS AND OPERATIONS RESEARCH Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Examination Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A INTRODUCTION: Development, characteristics, necessity and scope of operations research, classification and characteristics of models. SYSTEMS: Introduction of Systems approach for solving organizational problems. SECTION B LINEAR PROGRAMMING: Formulation of problems, Graphical solution, Simplex method, Big M method, two phase method. TRANSPORTATION MODEL: Formulation of models, Vogels approximation method. SECTION C ASSIGNMENT MODELS: Comparison with transportation model, solution of problems. GAME THEORY: Game strategies, stable games, unstable games, solution. SECTION D PERT/CPM: Phases of Project management, network logic, PERT computation, critical path, float, critical path method. BOOKS TEXT BOOK: 1. Operations Research by P.K.Gupta & D.S.Hira. REFERENCE BOOKS: 1. Operations Research: An Introduction by H.A.Taha. 2. Decision Making through Operations Research by R.J. Thieraut. 3. PERT CPM BY J.D.Wiest & F.K.Levy.

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SEMESTER VIII ELECTIVE II (DEPTT.) OPTIMIZATION TECHNIQUES EE 8004 B

Course Code Credits : 4 L-3, T-1, P-0 EE 8004 B Name of the Course OPTIMIZATION TECHNIQUES Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Examination Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A INTRODUCTION: Engineering applications of optimization, Statement of an optimization problem, classification of optimization problems, Optimization Techniques. CLASSICAL OPTIMIZATION TECHNIQUES: Single variable optimization, Multivariable optimization with no constraints, Multivariable optimization with equality constraints, Multivariable optimization with inequality constraints. SECTION B LINEAR PROGRAMMING: Simplex method, Revised Simplex method, Sensitivity Analysis, Linear complementary and fractional programming problems. SECTION C NON-LINEAR PROGRAMMING: Unimodel function, elimination methods, unrestricted search, Dichotomous search, Interpolation methods, Quadratic interpolation methods, Direct root method. SECTION D DYNAMIC PROGRAMMING: Multistage decision processes, concept of suboptimization and principle of optimality, computational procedure in dynamic programming, Illustrative examples, conversion of a Final value problem into an Initial value problem, Linear Programming as a case of Dynamic programming.

1.

BOOK Optimization theory and applications by S.S.Rao (Second Edition) Wiley Eastern Ltd., New Delhi.

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SEMESTER VIII ELECTIVE II (DEPTT.) REAL TIME SYSTEMS

Course Code Name of the Course Lectures to be delivered Semester End Examination EE 8004 C Credits : 4

EE 8004 C
L-3, T-1, P-0

REAL TIME SYSTEMS

52 (1 Hr Each) (L = 39, T = 13 for each semester) Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A INTRODUCTION TO REAL TIME SYSTEMS: Structure of a real - time system, issues in real time computers, Real time computers. CHARACTERISTICS OF REAL TIME SYSTEMS: Performance measures for real - time systems, Estimating program run times, Scheduling and Task Assignment. SECTION B TYPES OF SCHEDULING: Uniprocessor scheduling, Multiprocessor scheduling, fault tolerant scheduling, Task assignment algorithms, Introduction to mode changing concepts. PROGRAMMING LANGUAGES AND TOOLS: Desired Language characteristics, Date Typing, Control Structures, Hierarchical decomposition Run-Time Error handling (exception), overloading and generics, Multitasking, Low level programming, task scheduling, time specifications, Specific Language case studies such as Flex, Euclid and ADA, Programming environments including run time support. SECTION C REAL TIME COMMUNICATIONS: Communication media: Electrical, optical fibres, wireless, Network Topologies, Protocols. FAULT TOLERANCE TECHNIQUES: Definitions, causes of failures, fault types, fault detection, fault and error containment, redundancy, data diversity, reversal checks, malicious failures, Integrated failure handling. SECTION D CLOCK SYNCHRONIZATION: Concept of clocks, impact of faults, fault tolerant synchronization in hardware, synchronization in software. Application of Real Time concepts to power system operation and control. BOOKS Real Time System by C.M.Krishna and Kang G.Shin, MGH. Computer Aided Power Sytems Analysis and Control by A.K.Mahalanabis, D.P.Kothari, S.I.Ahson (TMH). MATLAB Target Language Compiler.

1. 2. 3.

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SEMESTER VIII ELECTIVE II (DEPTT.) DIRECT ENERGY CONVERSION EE 8004 D

Course Code EE 8004 D Credits : 4 L-3, T-1, P-0 Name of the Course DIRECT ENERGY CONVERSION Lectures to be delivered 52 (1 Hr Each) (L = 39, T = 13 for each semester) Semester End Examination Max. Time: 3 hrs. Max. Marks: 100 Min. Pass Marks: 40 Continuous Assessment (based on sessional tests 50%, Max. Marks: 50 Tutorials/Assignments 30%, Quiz/Seminar 10%, Attendance 10%) Instructions: 1. For Paper Setters: The question paper will consist of five sections A, B, C, D & E. Section E will be compulsory, it will consist of a single question with 10-20 subparts of short answer type, which will cover the entire syllabus and will carry 20% of the total marks of the semester end examination for the course. Section A, B, C & D will have two questions from the respective sections of the syllabus and each question will carry 20% of the total marks of the semester end examination for the course. 2. For candidates: Candidates are required to attempt five questions in all selecting one question from each of the sections A, B, C & D of the question paper and all the subparts of the questions in Section E. Use of non-programmable calculators is allowed.

SECTION A INTRODUCTION: Conventional generation, alternative generation processes, Topper devices, criteria for central power generation. THERMIONIC GENERATION: The basic thermionic diode generator and its analysis, Cross held devices, Anode and cathode materials, Experimental thermionic generator.
SECTION B

MHD GENERATION: Principles of MHD generation, electrical conditions, Faraday generator, Hall generator, comparison of generators, choice of generator parameters, other generator configurations. EXPERIMENTAL MHD GENERATION: Open cycle working, closed cycle operation, Liquid metal systems, alternating current system. SECTION C THERMOELECTRIC GENERATION: Seeback effect, Peltier effect, Thomson effect, EMF relationship, Generator analysis, Material selection, Experimental thermoelectric generation. SECTION D FUEL CELLS: Principles of fuel cells, Thermodynamics of the fuel cell, Choice of fuels and operating condition, Polarization and its effect, Redox cell, Overall efficiency, Practical Fuel cells various types. FURTHER CONVERSION PROCESS: Miscellaneous techniques radiation cell, ferromagnetic generation, ferroelectric generation, controlled thermo nuclear reactions, Practical devices.

1.

BOOK Direct Energy Conversion by R.A.Coombe.

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SEMESTER VIII
COMPUTER APPLICATIONS TO POWER SYSTEM ANALYSIS LAB Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory EE 8005 Credits : 2 EE 8005 L-0, T-0, P-2

COMPUTER APPLICATIONS TO POWER SYSTEM ANALYSIS LAB

26 hours of Lab sessions Max. Time = 3 hrs. Continuous Assessment (based on Lab work 30%, Lab record 25%, Viva 25%, Attendance 20%) Max. Marks : 100 Max. Marks: 50 Min. Pass Marks: 40 Min. Pass Marks: 25

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voce examination (25 marks). Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester.

LIST OF EXPERIMENTS APPLICATION OF STANDARD COMPUTER SOFTWARE FOR:

1. 2. 3. 4. 5.

Determination of sequence impedances of a transmission line. Fault calculation of power systems. Power Flow Studies. Power Flow control. Transient Stability Studies.

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SEMESTER VIII DIGITAL SIGNAL PROCESSING LAB Course Code Name of the Course Lectures to be delivered Semester End Examination Laboratory EC (ID) 8006 L-0, T-0, P-2

EC(ID) 8006 Credits : 2 DIGITAL SIGNAL PROCESSING LAB 26 hours of Lab sessions Max. Time = 3 hrs. Continuous Assessment (based on Lab work 30%, Lab record 25%, Viva 25%, Attendance 20%) Max. Marks : 50 Max. Marks: 50

Min. Pass Marks: 20 Min. Pass Marks: 25

Instructions for paper setter/Candidates Laboratory examination will consist of two parts: i) Performing a practical examination assigned by the examiner (25 marks). ii) Viva-voce examination (25 marks). Viva-voce examination will be related to the practicals performed/projects executed by the candidate related to the paper during the course of the semester. LIST OF EXPERIMENTS: Perform the experiments lab using MATLAB : 1. To represent basic signals (Unit step, unit impulse, ramp, exponential, sine and cosine) 2. To develop program for discrete convolution. 3. To develop program for discrete correlation. 4. To understand stability test. 5. To understand sampling theorem. 6. To design analog filter (low-pass, band-pass, band-stop). 7. To design digital IIR filters (low-pass, high pass, band-pass, band-stop ) 8. To design FIR filter using windows technique. 9. To design a program to compare direct realization values of IIR digital filter. 10. To develop a program for computing parallel realization values of IIR digital filter. 11. To develop a program for computing cascade realization values of IIR digital filter. 12. To develop a program for computing inverse Z-transform of a rational transfer function. Note: At least eight experiments to be done from the above list.

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