minutes of meeting of bos in instrumentation and control engineering held at instrumentation...

Minutes of Meeting of BOS in Instrumentation and Control Engineering held atInstrumentation Engineering Department, VIT, Pune, on Monday 13thMay 2013

Venue: Room No. 4209, Instrumentation Engineering Department, VIT, Pune.

A meeting of the Board of Studies in Instrumentation and Control Engineering was held in InstrumentationEngineering Department, VIT, Pune, on Monday 13th May 20 13at 4.00pm.

The following members were present:

1. Prof. P. M. Kanjalkar ChairmanAsstt. Professor& Head, Instru. Engg. Deptt.

2. Prof.,P. V. Pol MemberAsstt. Professor, Instru. Engg. Deptt.

3. Prof. (Mrs.) M. R. Mhetre MemberAsstt.Professor, Instru. Engg. Deptt.

4. Prof. J. A. Gaikwad MemberAsstt.Professor, Instru. Engg. Deptt.

5. Prof. (Dr.) C.Y. Patil MemberChairman BOS, Instru. Engg., University ofPune

6. Prof. (Dr.) S.L. Patil, MemberHead, Instru. Engg Deptt, College of Engineering, Pune.

7. Mr. Shirish Chaphekar MemberVice President, Emerson Exports Engineering Centre, Pune.

8. Mr. Ajay NagarkarDirector, Mapyn Pune.

Member

The following invited members were also present:

1. Prof. (Mrs.) S. S. Patankar,Asstt. Professor, Instru. Engg. Deptt.2. Prof. (Mrs.) S. Y. Sondkar Asstt. Professor, Instru. Engg. Deptt.3. Prof. (Dr.) D. K. Maghade Asstt. Professor, Instru. Engg. Deptt.4. Prof. V. R. Bhanuse, Asstt. Professor, Instru. Engg. Deptt.5. Prof. K. G. Mundada, Asstt. Professor, Instru. Engg. Deptt.6. Prof. A. B. Kadu, Asstt. Professor, Instru. Engg. Deptt.7. Prof. T. G. Patil, Asstt. Professor, Instru. Engg. Deptt.8. Prof. P.S. Pachkhede, Asstt. Professor, Instru. Engg. Deptt.

1

The BOS considered the items of the agenda and the items permitted by the Chair and decided asfollows:

Item-I

Resolution 1:Proposed by -Seconded by-

Item-2

Reading and Confirmation of minutes of the Last Meeting

The minutes of the last meeting were read and confirmed.Prof. J. A. GaikwadMr. Shirish Chaphekar

Approval for PG Programstructure and syllabus

Resolution 1: Proposed PG course structure and syllabus is presentedStructure & Syllabus of M.E. (Instrumentation & Control) Program - Pattern' A-13', 2013-14

onwards(Annexure-I :Page No : 3 to 5, Syllabus Page No.1 to 53)Resolution 2: The PG program structure and syllabus (FY MTech and SY MTech) was

accepted and approvedProf. P. M. KanjalkarProf. (Dr.) C. Y. PatH

Proposed by -Seconded by-

Resolution unanimously passed.

Item-3

Resolution I:


Approval for minor modifications in UG structure

The syllabus of following four courses were presented, accepted andapproved.Technical writing (HS20108), Data Structures (IC26101), UnitOperations (IC26103), General Seminar - II (HS20307)Prof. Mrs. S. Y. SondkarMr. Shirish ChaphekarPro£ (Dr.) S.L. Patil,


Prof. P. M.KanjalkarBoS Chairman

2

------------------------------------ ------

Annexure: I

M.E. (Instrumentation & Control-Process Instrumentation) Structure with effect from AcademicYear 2013-14Semester I

Code Subject Type Teaching Assessment Scheme CreditScheme sL P ISA ESA

CT* MSE HA * CA ESEIC50101 EstimationTechniques Theory 3 - 10 30 10 - 50 3

IC50103 MeasurementSystems Theory 3 - 10 30 10 - 50 3IC50105 ProcessControl Theory 3 - 10 30 10 - 50 3

DepartmentElective-I# 3 - 10 30 10 - 50 3

DepartmentElective-IIt 3 - 10 30 10 - 50 3

IC50301 PG Lab-I Lab - 4 - - - 100 - 4IC50303 Communication& Soft Skill Lab - 2 - - - - 100 2IC50401 CW-I Oral - - - - - - 100 2IC57301 SemesterProject- I Project 6 - - - - 100 2

15 12 25Semester I

# DepartmentElective- I

IC52101 ModernControl Theory Theory 3 - 10 30 10 - 50 3

IC52103 CommunicationProtocol Theory 3 - 10 30 10 - 50 3

t DepartmentElective - II

IC52105 DiscreteTime Signal Theory 3 - 10 30 10 - 50 3Processing

IC52107 IndustrialAutomation Theory 3 - 10 30 10 - 50 3

* CT (Unit 1) 1 hour 30 marks converted to 10marks+ HA (minimum3) - Total 30 marks convertedto 10marks=20 marks

MSE- 2 hours60 marks converted to 30 marks (Unit 2 & 3) , ESE- 3 hours 100marks convertedto 50marks (Unit 1 to 6)

$ L- Lecture, P-Practical, ISA -In SemesterAssessment, ESA- End SemesterAssessment, CTClassTest,

MSE- Mid Semester Examination, HA- HomeAssignment, CA - ContinuousAssessment, ESE- EndSemesterExamination

3

Semester II

Code Subject Type Teaching Assessment Scheme Credit:Scheme

L p ISA ESACT* MSE HA * CA ESE

IC50102 Probabilityand Linear Theory 3 - 10 30 10 - 50 3Algebra

IC50104 InstrumentationSystem Theory 3 - 10 30 10 - 50 3Design

IC50106 Advanced ProcessControl Theory 3 - 10 30 10 - 50 3

DepartmentElective-III # Theory 3 - 10 30 10 - 50 3

DepartmentElective-IV t Theory 3 - 10 30 10 - 50 3

IC50302 PG Lab-II Lab - 4 - - - 100 - 4IC57302 TechnicalSeminar - I Lab - 2 - - - 100 - 4

IC50402 CW-II Lab - - - - - - 100 2IC57304 Semester Project -II Project 6 - - - - 100 2

15 12 27

# DepartmentElective-IIIIC52102 Modelingand Simulation Theory 3 - 10 30 10 - 50 3

IC52104 EmbeddedSystems Theory 3 - 10 30 10 - 50 3

t DepartmentElective - IVIC52106 Digital Image Processing Theory 3 - 10 30 10 - 50 3

IC52108 Mechatronics Theory 3 - 10 30 10 - 50 3

4

Semester III

Code Subject Type Teaching Assessment Scheme CreditScheme s

L P ISA ESA

CT MSE HA CA ESE

IC66102 Institute level Open Elective Theory 2 - 10 30 10 - 50 2

IC66104 Dept. level Open Elective: Theory 2 - 10 30 10 - 50 2Project Engineering&

Management

IC67301 Dissertation Stage I Lab - 4" - - - - 100 15

IC67303 Technical Seminar II Lab - 2 - - - - 100 4

4 6 23

# _Student is expected to work around 40 hours per week as Self Study

Semester IV

Code Subject Type Teaching Assessment Scheme CreditScheme s

L P ISA ESA

CT MSE HA CA ESE

IC67302 Dissertation Stage II Lab - 8" - - - - 100 25

# _Student is expected to work around 40 hours per week as Self Study

5

Minutes of Meeting of BOS in Instrumentation and Control Engineering held atInstrumentation Engineering Department, VIT, Pune, on Friday 16th August 2013


A meeting of the Board of Studies in Instrumentation and Control Engineering was held in InstrumentationEngineering Department, VIT, Pune, on Friday 16th August 2013 at 4.00pm.


1. Prof. P. M. Kanjalkar ChairmanAsstt. Professor& Head, Instru. Engg. Deptt.


3. Prof. (Mrs.) M. R. Mhetre MemberAsstt.Professor, Instru. Engg. Deptt.

4. Prof. J. A. Gaikwad MemberAsstt.Professor, Instru. Engg. Deptt.

5. Prof. (Dr.) D. K. Maghade MemberAsstt. Professor, Instru. Engg. Deptt.

6. Prof. (Mrs.) S. y. Sondkar MemberAsstt. Professor, Instru. Engg. Deptt.

7. Prof. (Dr.) C.Y. Patil MemberChairman BOS, Instru. Engg., University of Pune

8. Prof. (Dr.) S.L. Pati!, MemberHead, Instru. Engg Deptt, College of Engineering, Pune.


10. Mr. Ajay Nagarkar MemberDirector, Mapyn Pune.


1. Prof. (Mrs.) S. S. Patankar,Asstt. Professor, Instru. Engg. Deptt.2. Prof. V. R. Bhanuse, Asstt. Professor, Instru. Engg. Deptt.3. Prof. K.G. Mundada, Asstt. Professor, Instru. Engg. Deptt.4. Prof. A. B. Kadu, Asstt. Professor, Instru. Engg. Deptt.5. Prof. T. G. Patil, Asstt. Professor, Instru. Engg. Deptt.6. Prof. P.S. Pachkhede, Asstt. Professor, Instru. Engg. Deptt.7. Prof. (Mrs.) Deepali S. Dhande, Asstt. Professor, Instru. Engg. Deptt.

----------------------- ---- -

The BOS considered the items of the agenda and the items permitted by the Chair and decided asfollows:

Item-I


Item-2

Resolution 1:Resolution 2:Proposed by -Seconded by-

Reading and Confirmation of minutes of the Last Meeting

The minutes of the last meeting were read and confirmed.Prof. P. M. KanjalkarProf. (Dr.) S.L. PatH,

PG Programstructure and syllabus

Minor Modifications in the syllabus of some subject were suggested.The PO program and structure was accepted and approvedProf. P. M. KanjalkarProf. (Dr.) C. Y. PatH


Item-3

Resolution I:


Guidelines for PG Dissertation Pre-Submission

Rules and guidelines for Dissertation Pre-Submission decided byInstrumentation Department was acceptedProf. Mrs. S. Y. SondkarMr. Shirish Chaphekar


Item-4

Resolution 1:


Rules and Regulations for PG Program

Rules and Regulations for PO Program decided by Academic Board wasacceptedProf. P. M. KanjalkarProf. (Dr.) C. Y. PatH


Item-S


Increase in involvement of Alumni in Department activities.

Arranging Department Level meet twice in academic year.Prof. P. M. KanjalkarMr. Ajay Nagarkar


w/Prof. P. M. KanjalkarBoSChairman

--------- --- --- --

Bansilal Ramnath Agarwal Charitable Trust's

Vishwakarma Institute of Technology(An autonomous Institute affiliated to University OJPune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

The agenda ofBOS meeting dt. 21.02.2014

1. Review of previous meeting

2. Approval for the new PD courses

3. Approval for the new SD courses4. Approval to new PG elective courses from the academicyear 2014-15

5. Discussions about Vision,Mission statement,PEas and po of department

6. Course Feedback Semester -I, AcademicYear 2013-14

7. Discussions about the revisedDepartmentQuality Objectives

8. Efforts to improve internshipopportunitiesand possible help fromBaS

members

9. Execution ofP.G. SemesterProject

10. Any other point deemed appropriate for discussion in BaS

1

Bansilal RamnathAgarwalCharitableTrust's

Vishwakarma Institute of Technology(An autonomous Institute affiliated to University Of Pun e)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

Minutes of Meeting of BOS in Instrumentation and Control Engineering held atInstrumentation Engineering Department, VIT, Pune, on Friday 21st February 2014


A meeting of the Board of Studies in Instrumentation and Control Engineering was held inInstrumentation Engineering Department, VIT, Pune, on Friday 21st February 2014 at 3.30 pm.


1. Prof. P. M. Kanjalkar ChairmanAsstt. Professor & Head, Instru. Engg. Deptt.

2. Prof. (Dr.) C. Y. PatiI MemberChairman BOS, Instru. Engg., University ofPune

3. Prof. (Dr.) S. L. PatiI, MemberHead, Instru. Engg Deptt, College of Engineering, Pune.


S. Mr. Ajay Nagarkar MemberDirector, Mapyn Pune.


7. Prof. (Mrs.) M. R. MhetreAsstt.Professor, Instru. Engg. Deptt.

8. Prof. J. A. GaikwadAsstt. Professor, Instru. Engg. Deptt.

9. Prof. (Dr.) D. K. MaghadeAsso. Professor, Instru. Engg. Deptt.

10. Prof. (Mrs.) S. Y. SondkarAsstt. Professor, Instru. Engg. Deptt.

Member

Member

Member

Member


1. Prof. (Mrs.) S. S. Patankar, Asstt. Professor, Instru. Engg. Deptt.2. Prof. V. R. Bhanuse, Asstt. Professor, Instru. Engg. Deptt.3. Prof. K. G. Mundada, Asstt. Professor, Instru. Engg. Deptt.4. Prof. A. B. Kadu, Asstt. Professor, Instru. Engg. Deptt.5. Prof. T. G. Patil, Asstt. Professor, Instru. Engg. Deptt.6. Prof. P. A. Pachkhede, Asstt. Professor, Instru. Engg. Deptt.7. Prof. (Mrs.) Deepali S. Dhande, Asstt. Professor, Instru. Engg. Deptt.

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Prof. (Dr.) Mukul Chandolkar, lIT Bombay is chairman of GATE 2014 and busy with itsadministrative work and the leave has been granted.

The BOS considered the items of the agenda and the items permitted by the Chair anddecided as follows:Item-1 Reading and Confirmation of minutes of the Last Meeting

The new PO courses namely Graphical User Interface forEmbedded Systems, LabView Applications, and Joint TimeFrequency Analysis, were accepted and approved.(Annexure-I: Pg. No. 5-9)

Proposed by - Prof. (Dr.) O. K. MaghadeSeconded by- Mr. Shirish ChaphekarResolution unanimously passed.Item-3 Approval for the new SD coursesResolution 1: The new SO courses Circuit Simulation, Applications of Electronic

Instrumentation and Labview Programming were accepted andapproved. (Annexure-2: Pg. No.lO-12)

Proposed by - Prof. Mrs. M. R. MhetreSeconded by- Prof. (Dr.) C. Y. PatilResolution unanimously passedItem-4 Approval for the new PG elective courses from the academic

year 2014-15The new PG Elective courses Weather Instrumentation and FlightInstrumentation were accepted and approved.(Annexure-3: Pg. No. 13-14)

Proposed by - Prof. Mrs. Shilpa SondkarSeconded by- Prof. (Dr.) C. Y. PatilResolution unanimously passedItem-5 Discussions about Vision, Mission statement, PEOs and PO of

departmentThe Vision, Mission statement, PEOs, POs of UG and PGprogrammes was discussed. (Annexure-4: Pg. No. 15-18)Prof. J. A. GaikwadProf. (Dr.) S. L. Patil

Resolution 1:Proposed by -Seconded byItem-2

Resolution 1:

Resolution 1:

Resolution 1:


The minutes of the last meeting were read and confirmed.Prof. Mrs. Shilpa SondkarProf. (Dr.) S. L. Patil

Approval for the new PD courses

Resolution unanimously passed

3


Vishwakarma Institute of Technology(An autonomous Institute affiliated to University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411037.Department of Instrumentation Engineering

Item-6 Course Feedback Semester-I, Academic Year 2013-14As Course contents feedback received from Dean-Quality is nil, it isaccepted and decided to keep course contents as it is.(Annexure-5: Pg. No. 19)

Proposed by - Prof. J. A. GaikwadSeconded by- Prof. (Dr.) C. Y. PatilResolution unanimously passed.Item-7 Discussions about the revised Department Quality ObjectivesResolution 1: Revised Department Quality Objectives was discussed.

(Annexure-6: Pg. No. 20)Proposed by - Prof. P. V. PolSeconded by- Prof. (Dr.) C. Y. PatilResolution unanimously passed.Item-8 Efforts to improve internship opportunities and possible help

from BOS membersIndustry members shown interest to improve internshipopportunities to the students

Proposed by - Prof. Mrs. Manisha MhetreSeconded by- Mr. Ajay NagarkarResolution unanimously passed.Item-9 Execution of P.G. Semester ProjectResolution 1: Execution of P.G. Semester Project found satisfactory.Proposed by - Prof. Mrs. Shilpa SondkarSeconded by- Mr. Shirish ChaphekarResolution unanimously passed.Item-lO To establish "Industry Advisory Board"Resolution 1: To give technology path to the department, it is decided to establish

"Industry Advisory Board" with help of eminent industrialist.Proposed by - Prof. (Dr.) S. L. PatilSeconded by- Mr. Shirish ChaphekarResolution unanimously passed.Item-ll To improve PG placementResolution 1: To improve the PG placement it is suggested to look for Tier-2

(medium scale) industries along with multinational companies.Prof. Mrs. Shilpa SondkarMr. Ajay Nagarkar

Resolution 1:

Resolution 1:



Prof. P. M. KanjalkarBoS Chairman

4

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~VI


Vishwakarma Institute of Technology(An autonomous Institute affiliated to University Of Pune)666, Upper Indiranagar, Bibwewadi, Pune. - 411 037.

Department of Instrumentation Engineering

Professional t Courses to be offered in Sem-II of A. Y.2013-14Sr. Course Name of the Max. no. Schedule RemarksNo. Code Course Faculty of

Students

(Afternoon session) Offer to only

1. IC33301 Calibration and15 For TE-All- Instru

Standards Module- VI-P02 Students

(Morning session)ForTE-AI 1-

Module-V-POIfor afternoon students

4. Image Processing Prof.IC33309 with MATLAB P.A.Packhede 15

(Morning session)ForTE-All

Module-V-POIfor afternoon students

6.Flow

IC33307Measurements-I

Mr. ShrinivasanForbes Marshall 15

5


Vishwakarma Institute ofTechnology(An autonomous institute affiliated to University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

FFNo.: 654

IC 33311:: GRAPHICAL USER INTERFACE FOR EMBEDDED SYSTEMS II

Credits: 01 Teaching Scheme: - Lab. 2

I Prerequisites: Ni-l -I

-----_. ------

I Objectives: Upon completion of this course, student should be able to:

I • Understand the various graphical tools for generating GUI• Understand the use of VB and Java for creatingGUI.• Prepare GUls for Embedded Systems

List of Practicals:

1. Prepare a GUI using VB to control LEDs using Dial

2. Prepare a GUI using VB to generate a graph using on ADC output interface the ADC

output with LEDs

3. Prepare a GUI to accept data from the user and export it to XLS sheet using COM port for

communication

4. Prepare a GUI for Data Grabbing from COM port and displaying it on the console

5. Prepare a GUI for Data Grabbing from USB port and displaying it on the console

6. Prepare a GUI for a Embedded system using USB communication

Textbooks:

1. The Complete Reference Visual Basic 6 by Noel Jerke, Tata McGraw-Hill Education

2. Datasheet of RENESAS ic R8C26

3. Datasheet of E8 Emulator

6


Vishwakarma Institute of Technology(An autonomous Institute affiliated to University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

FFNo.: 654,-----------------------------

IC 33313:: LABVIEW APPLICATIONS

Credits: 01 Teaching Scheme: - Lab. 2 HrslWeek]

Prerequisites: NA

Outcomes: To learn following things

• Use of LabVIEW to create applications.

• Understand front panels, block diagrams, and icons and connector panes.

Use built-in VIs and functions.

Create applications that use plug-in DAQ devices understand the VI development process.

• Understand some common VI programming architectures.

• Design effective user interfaces (front panels).

• Use data management techniques in VIs.

• Use advanced file 110 techniques.

List of Practical's:

Expt. Aim of Experiment

No.

Introduction to LabVIEW

1 A. LabVIEW B. Virtual Instruments C. LabVIEW Environment

D. LabVIEW Help Options

2Creating, Editing, and Debugging a VI

A. Creating a VI B. Editing Techniques C. Debugging Techniques

3Loops and Charts

A. While Loops B. Waveform Charts C. Shift Registers D. For Loop

Arrays, Graphs, and Clusters

4 A. Arrays B. Creating Arrays with Loops C. Array Functions D. Polymorphism

E. Graphs F. Clusters G. Cluster Functions

5 Case and Sequence Structures

7

------------ --------- -- ---

~VI


Vishwakarma Institute of Technology(An autonomous Institute affiliated to University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.


A. Case Structure B. Sequence Structure C. Formula Node

D. Replacing Sequence Structures

Strings and File 110

6 A. Strings B. String Functions C. File VO D. Formatting Spreadsheet Strings E. High-Level

File VIs

Designing Front Panels

A. Basic User Interface Issues B. Using Boolean Clusters as Menus

8 C. Property Nodes Common Properties

Data Management Techniques

A. Data Management Techniques in LabVIEW

9 B. Local Variables C. Global Variables

D. Important Advice about Local and Global Variables

E. Data Socket

Advanced File 1/0 Techniques

10 A. Working with Byte Stream Files B. LabVIEW Datalog Files

C. Streaming Data to Disk

7

Data Acquisition and Waveforms

A. Overview and Configuration B. Data Acquisition VI Organization

C. Performing a Single Analog Input D. The DAQ Wizards

E. Waveform Analog Input F. Writing Waveform Data to File

G. Scanning Multiple Analog Input Channels

H. Analog Output I.Digital Input and Output

D. Graph and Chart Properties E. Control References

F. LabVIEW Run-Time Menus G. Intensity Plots

8



FFNo.: 654

IC 33313:: JOINT TIME FREQUENCY ANALYSIS""~~-~-~-""~---~"" ~-~- - ---~~"------~~~----

!credits: 01 -----r-~~~~~-~L::__ "_~,"" "_", ..._L"",,,,,,_ --,-,--",-------

--~~===-~==-~==__~Teaching Scheme:_- Lab. 2 Hrs/We~

Unit 1: Multiresolution AnalysisHaar Multiresolution analysis, MRA Axioms, Spanning Linear Subspaces, nested subspaces,Orthogonal Wavelets Bases, Scaling Functions, Conjugate Mirror Filters, Haar 2-band filter bank,Haar 2-band filter Banks, Study of upsamplers and downsamplers, Conditions for aliascancellation and perfect reconstruction, Discrete wavelet transform and relationship with filterbanks, Frequency analysis Haar 2-band filter banks, scaling and wavelet dilation equations in timeand frequency domains, case study of decomposition and reconstruction of given signal usingorthogonal framework of Haar 2-band filter bank.Unit 2: WaveletsDaubechies Wavelet Bases, Daubechies compactly supported family of wavelets; Daubechiesfilter coefficient calculations, Case study of Daub-4 filter design, Connection between Haar andDaub-4, Concept of Regularity, Vanishing moments, Other Classes of wavelets like Shannon,Meyer, Battle-LamarieUnit 3: Bi-orthogonal wavelets and ApplicationsConstruction and Design, Case study of bi-orthogonal 5/3 tap design and its use in JPEG 2000.Wavelet packet trees, Time frequency localization, compactly supported wavelet packets, casestudy of Walsh wavelet packet bases generated using Haar conjugate mirror filters till depth level3. Lifting schemes for generating orthogonal bases of second generation wavelets 23Note: Students must do 8 to 10 experiments based on above syllabus.

Text Books1. S. Mallat, "A Wavelet Tour of Signal Processing," Academic Press, Second Edition, 19992. L.Cohen, "Time-Frequency Analysis," Prentice Hall, 1995

Reference Books

1. G. Strang and T.Q. Nguyen, "Wavelets and Filter Banks," Wellesley-Cambridge Press,Revised Edition, 1998

2. 1.Daubechies, "Ten Lectures on Wavelets," SIAM, 19923. P. P. Vaidyanathan, "Multirate Systems and Filter Banks," Prentice Hall, 19934. M. Vetterli and J. Kovacevic, "Wavelets and Subband Coding," Prentice Hall, 1995

9




Department Specific Skills Development Courses

Pattern: Ell: S. E. Structure (Module III): A.Y. 2013-14 : Sem-II:SE-Q-Afternoon

Sub. Sub. Subject Name (SDJ) Teaching Scheme (Hrs/wk) CreditsNo. Code Lect. Tutorial PracticalSD3 IC24309 Circuit Simulation 0 0 2 1

SD3 IC24311 Applications of Electronic0 0 2 IInstrumentation

SD3 IC24307 VB & JAVA 0 0 2 1

Pattern: Ell: S. E. Structure (Module IV): A.Y. 2013-14 : Sem-IISE-R-Morning

Sub. Sub. Subject Name (SD4) Teaching Scheme (Hrs/wk) CreditsNo. Code Lect. Tutorial PracticalSD4 IC24302 LaTeX 0 0 2 1SD4 IC24310 Labview Programming 0 0 2 1SD4 IC24308 Analytical Instrumentation 0 0 2 1

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FF No.: 654

IC33303:: CIRCUIT SIMULATION LABORATORY

I Credits: 01

r--------,-------c--:- ---------------- ---- ----------------Prerequisites: NilObjectives: Upon completion of this course, student should be able to:

• Understand the use of MATLAB software for circuit and process simulation.• Understand the use of Matlab for engineeringapplications.• Can build suitable Matlab functions for simulation study.

-----~-- ---- - - --- -------------

List of Practicals

1 Introduction to simulation and required tools

2 To simulate logic gates (AND, OR, EX-OR, NAND) & clipper- clamper circuit'susing Multisim or PSPICE simulation tools.

3 To design and develop simulation of op-amp based open loop and closed loopamplifiers.

4 To design and simulate Schmitt trigger using Multisim.

5 Introduction to Matlab simulink.

6 To develop simulation of open and closed loop control systems using simulink

7 To obtain the impulse & step response of 1st order system using simulink.

8 To obtain the impulse & step response of higher order system's using simulink.

9 To simulatemass-spring-dampersystem in simulink

10 To simulate cruise control system in simulink

11 To developMatlab function to workwith simulation.

12 To design and simulate 3 bit ADC using Matlab.

13 To study and implement flow control statements using Matlab.

11



FFNo.: 654"-"""--"""--""--""---------"" ----"""-"--""- --- ------ --------------,L IC24311 :: APPLICATIONS O~_ELE~_T~~~~lCINSTRUMENTATION

Prerequisites: Nil""---'"----""-- -------"'-"""-------"

Objectives: Upon completion of this course, student should be able to:• Understand the various Electronic Instrumentation devices• Understand the engineeringapplicationsof Electronic Instrumentation.

List of Practicals :

1. Study of operation of CRO and its specifications.2. Electronic measurements using CRO - voltage, frequency, time period, phase

difference, peak value, peak to peak value and RMS value3. Study of operation ofDSO and its specifications.4. Study the use of DSO to store and analyse signals and measure frequency, time period,

phase difference, peak value, peak to peak value ,duty cycle and RMS values5. Study of Function Generator and its application. To find the output impedance of

function generator6. Study of operation ofDMM and its specifications7. Measurement of the input impedance and frequency response of DMM. Component

testing Resistor, Diode, Transistor using DMM8. Study the operation of Frequency Counter and its specifications9. Measurement of time, frequency using Frequency counter10. Study of Insulation tester for testing insulation of cables, transformer windings etc.11. Study of Power Supply and its various specifications12. Study of Distortion Meter and measurement of the distortion in various waveforms

Textbooksl. Electronic Instrumentationby H. S.Kalsi, TheMc-GrawHill Companies

2. Elements of Electronic Instrumentation and Measurement by Joseph J.Carr, Pearson

Education

3. A course in Electrical and Electronic Measurements and Instrumentation by A. K.Sawhney,Dhanpat Rai

4. Digital Instrumentation, by A. J. Bowens, Tata McGraw Hill Education.

12


Vishwakarma Institute ofTechnology(An autonomous Institute affiliated to University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

FFNo.: 654~-_ ._--_._---_. __ .

IC52109:: ATMOSPHERIC INSTRUMENTATION

Unit 1: Basics of weather instrumentation, introduction to basic weather parametersDifferent parameters of weather' like rain, wind, soil, humidity etc. which could be monitoredusing instrumentation systems, basic principles behind each of them

Unit 2: Environmental monitoringAir quality monitoring, (portable emissions measurement system (PEMS),water quality monitoring, Soil quality monitoring

Unit 3: Basics of RADAR systems and related communication principlesPrinciple, Working, Doppler RADARs, Calibrating intensity of return, Reflectivity (in decibelor dBZ) , How to read reflectivity on a radar display.

Unit 4: Weather RadarsHow a weather radar works, Wind Profiler (Ground based clear weather doppler radar), RadioAcoustic Sounding System (RASS) (Integrated with wind profiler, acoustic remote sensinggives temperature information)

UnitS: Basics of satellites and weather satellitesBasics of satellite, Principles, working, Classification of satellites, Introduction to weathersatellites, Types- Geostationary, Polar orbiting

Unit 6: Environmental catastrophe detection and management

Need of a disaster alert system, Urgent earthquake detection and alarm system, Tsunami EarlyWarning System

Reference Books :1. Rao K N Raja ,"Fundamentals of Satellite Communication", Prentice Hall Of India, New

Delhi, 2004.2. Society for Applied Microwave Electronics Engineering and Research (SAMEER, IITB)3. Yutaka Nakamura," Urgent earthquake detection and alarm system, now and future" 13th

World Conference on Earthquake Engineering Vancouver, B.C., Canada.

13



IC52110:: FLIGHT INSTRUMENTATION"- 1-- - ""-"--"--

_L "" _ Tea-citingScheme: 3 Hrs/Week I

Unit 1: Introduction to avionics, basics of aerodynamics:Components of an airplane and their functions, Airfoils and streamlines, forces acting on anairplane lift and drag types of Drag speed and power, International Standard atmosphere.

Unit 2: Air data instruments and synchro transmission systemsAir data instruments, airspeed, altitude, Vertical speed indicators. Static Air temperature, Angle ofattack measurement, Synchronous data transmission system

Unit 3: Gyroscopic instrumentsGyroscope and its properties, gyro system, Gyro horizon, Direction gyro-direction indicator, Rategyro-rate of turn and slip indicator, Turn coordinator, acceleration and turning errors.

Unit 4: Aircraft compass systems & flight management systemDirect reading compass, magnetic heading reference system-detector element, monitoredgyroscope system, DGU, RMI, deviation compensator. FMS- Flight planning-flight pathoptimization-operational modes-4D flight management

Unit 5: Power plant instrumentsPressure measurement, temperature measurement, fuel quantity measurement, engine power andcontrol instruments-measurement of RPM, manifold pressure, torque, exhaust gas temperature,EPR, fuel flow, engine vibration, monitoring.Unit 6: Multi Channel Instrumentation SystemDesign of a multi-channel instrumentation system: Technical Aspects in the Design of Multichannel Data Collection Systems, Onboard Recording and/or TelemetryThe Testing of Instrumentation Systems:_Environmental Testing, Functional Testing, Preflightand Postflight ChecksReference Books:1. A manual of advisory group for aerospace research & development (AGARD)2. Kermode, A.C, 'Mechanics of Flight' English Book Store, New Delhi, 1982.

Van Sickle Neil, D 'Modern Airmanship' VanNostrand Reinhol, New York, 1985.3. Pallet, E.H.J. "Aircraft Instruments & Integrated systems", Longman Scientific and

Technical, McGraw-Hill, 1992.4. Murthy, D.V.S., "Transducers and Measurements", McGraw-Hill, 19955. Doeblin.E.O, "Measurement Systems Application and Design", McGraw-Hill, New York,

1999.6. HarryL.Stilz, "Aerospace Telemetry", Vol I to IV, Prentice-Hall Space Technology

14


Vishwakarma Institute of Technology(An autonomous Institute affiliated to University Of Pune)666,Upper lndiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

Vision of the Department

Toprovide valuable resourcesfor industry and society throughexcellence in technical education and research

Mission statement of Department

To prepare competent creative engineers, innovative thinkersand entrepreneurs with professional ethics having excellentknowledge and technical skills suited for present and futureneeds of society, industries, academics and researchorganization

UG Programme Educational Objectives

PEO No. Description of the Objective

I Prepare students with multi disciplinary competency

II Prepare students having good balance between analyticalskills and hands-on skills

III The program cater the needs of industry and research

IV Prepare students competency in the area of Automation

V Prepare students with professional ethics and social values

15



UG Programme Outcomes

a. an ability to demonstrate basic knowledge in mathematics, SCIence andengmeenng

h. to be well versed with different sensors and transducersc. an ability to design and develop suitable measurement techniqued. an ability to analyze various electrical and electronics circuitse. an ability to understand, analyze and design of control systemf. an ability to apply automation solutions for industrial, environmental, social

and sustainable applicationsg. an ability to design and conduct experiments, interpret and analyze data, and

report resultsh. an ability to design and develop an instrumentation system that meets desired

specifications and requirementsi. an ability to use modern engineering tools, software and equipments to

analyze problemsj. an ability to visualize and work on multi-disciplinary tasksk. an ability to familiar with various standards and calibration methods used in

industryI. an ability to communicate effectively individually as well as in team in both

verbal and written formsm. an ability to participate and succeed in various competitive examinations like

GATE, GRE, etc.D. an ability to understand the impact of engineering solutions in a global,

economic, environmental, and societal contexto. an ability to be familiar with latest technical documentation softwarep. an ability to be familiar with different industrial project engineering and

management documents and softwareq. an ability to recognize the need of professional and ethical responsibility

16




PG Programme Educational Objectives

PEONo. Description of the Objective

Prepare students to have the broad knowledge of varIOUS

I engineering disciplines serving as a foundation for on-goinglifelong learning

II Prepare students to establish themselves as professionals who meetthe expectations of the industry

IIIPrepare students to have creative and critical reasoning skills tosolve technical problems for research and development

IVPrepare students with technical competency and expertise(specialization)

VPrepare students to communicate effectively in oral, written, andnewly developing modes and media.

17



PG Program Outcomes

a. An ability to apply knowledge of mathematics, science, and engineering.

h. An ability to design and conduct experiments, as well as to analyze andinterpret data.

c. An ability to design a system, component, or process to meet desiredneeds within realistic constraints such as economic, environmental, social,political, ethical, health and safety, manufacturability, and sustainability.

d. An ability to function on multidisciplinary teams.

e. An ability to identify, formulate, and solve engineering problems.

f. An understanding of professional and ethical responsibility.

g. An ability to communicate effectively.

h. The broad education necessary to understand the impact of engineeringsolutions in a global, economic, environmental, and societal context.

i. Recognition of the need for, and an ability to engage in life-long learning.

j. Knowledge of contemporary issues.

k. An ability to use the techniques, skills, and modern engineering toolsnecessary for engineering practice.

18

,.




Course Feedback Semester-I, Academic Year 2013---------------------------~-------------------~

1----

Bansilal RamnathAgarwal Charitable Trust'sV1SHWAKARMA INSTITUTEOF TECHNOLOGY - PUNE(An autonomous Instituteaffiliated to University of Pune)666. Upper Indiranagar.Bibwewadi.Pune -411037.

No. : VlIOQN13-14116 Date: 10.12.2013

Course Content Feedback

Students' Feedback on Course content (ISO FF 752) for respective theory coursesregistered for in Semester - I, Academic year 2013-14 was carried out alongwith theRegistrationactivity for the next Semester courses.

Based on the feedback given, a collection of responses given by the students arrangedin .pdf are sent to the chairman of respective Board of Studies. The feedback has beenanalyzed and for the following courses the student feedback indicates that a reconsideration bemadetowards the course content. The basis used is :

7. The total number of students giving feedback >=35

AND

8. No. of students choosing option 'a' + No. of students choosing option 'b'

Total no. of students giving feedback<- 0.65

The course codes are -

#[Prof.A.S.Marathe]

Dean - Quality Assurance

Copy to-1. Hon. Director for kind information2. DeanAcademics for klnd information3. Chairman, BOS Instrumentation

19




Programme Quality Objectives

1) 50% of the PD courses of every department to be offered by industry

2) To appoint one IIT Professor as a Department Mentor and to conduct at leastone meeting per semester from Semester II, A.Y. 2013-14

3) To conduct one Faculty Development Programme every year in core subjects

4) To depute at least 1I3rd of the Department faculty for Industrial training everyyear

5) Submit one research proposal per faculty every year

6) To conduct 100% lecture and practical every semester

7) 100% completion of syllabus of lecture and practical

20




The Agenda ofBOS meeting dt. 26.06.2014

1. Department Activities in Sem -II of A.Y. 2013-14


3. Approval of structure and syllabus of B. Tech. (Instrumentation andControl Engineering) Pattern F11_Revised and Pattern A14 Effective fromAcademic Year 2014-15.

4. Approval to the following PurdueNext Courses - as a Final Year B. Tech.

Elective-I courses along with Tutorials for pattern A-ll with effect from

Academic Year 2014-15

(a) Signal Processing for Embedded Systems

(b)Hybrid- Electric Vehicle - Power Electronics & Electric Machines

5. Course Feedback Semester -II,Academic Year 2013-14

6. Any other point deemed appropriate for discussion in BOS

1

Bansila!RamnathAgarwalCharitableTrust's


Minutes of Meeting of BOS in Instrumentation and Control Engineering held atInstrumentation Engineering Department, VIT, Pune, on Thursday 26th June 2014


A meeting of the Board of Studies in Instrumentation and Control Engineering was held inInstrumentation Engineering Department, VIT, Pune, on Friday 26th June 2014 at 3.30 pm.



2. Prof. (Dr.) S. L. Patil, MemberHead, Instru. Engg Deptt, College of Engineering, Pune.

3. Mr. Shirish Chaphekar MemberDirector, Emerson Exports Engineering Centre, Pune.

4. Mr. Ajay Nagarkar MemberDirector, Mapyn, Pune.

S. Prof. P. V. Pol MemberAsstt. Professor, Instru. Engg. Deptt.

6. Prof. (Mrs.) M. R.Mhetre MemberAsstt. Professor, Instru. Engg. Deptt.

7. Prof. (Mrs.) S. Y. Sondkar MemberAsstt. Professor, Instru. Engg. Deptt.

8. Prof. (Dr.) D. K. Maghade MemberAsso. Professor, Instru. Engg. Deptt.

9. Prof. J. A. Gaikwad Member SecretaryAsstt. Professor, Instru. Engg. Deptt.


1. Prof. (Mrs.) S. S. Patankar, Asstt. Professor, Instru. Engg. Deptt.2. Prof. V. R. Bhanuse, Asstt. Professor, Instru, Engg. Deptt.3. Prof. K. G. Mundada, Asstt. Professor, Instru. Engg. Deptt.4. Prof. (Mrs.) Archana K. Chaudhary, Asstt. Professor, Instru. Engg. Deptt.S. Prof. (Mrs.) Deepali S. Dhande, Asstt. Professor, Instru. Engg. Deptt.

Prof. (Dr.) Mukul Chandolkar, lIT Bombay is chairman of GATE 2014 and busy with itsadministrative work and the leave has been granted.Prof. (Dr.) C. Y. Patil, Chairman BOS, Instru. Engg., University of Pune is busy with itsadministrative work and the leave has been granted.

2



The BOS considered the items of the agenda and the items permitted by the Chair anddecided as follows:Item-I Department Activities in Sem -II of A.Y. 2013-14

The report of department activities was read and confirmed.Prof. (Dr.) D. K. MaghadeProf. (Dr.) S. L. Patil

Reading and Confirmation of minutes of the Last MeetingThe minutes of the last meeting were read and confirmed.

Prof. J. A. GaikwadProf. (Dr.) S. L. Patil

Approval of structure and syllabus of B. Tech. (Instrumentationand Control Engineering) Pattern Fll_Revised and Pattern A14Effective from Academic Year 2014-15.

The structure and syllabus of B. Tech. (Instrumentation andControl Engineering) Pattern Fll_Revised (Annexure-I Page No 1to 175 - S.Y. B. Tech. onwards) and Pattern A14 (Annexure-II PageNo 1 to 154 - F.Y. B. Tech. onwards) Effective from AcademicYear 2014-15 were accepted and approved. Annexure-I Page No 4to 44

Proposed by - Prof. J. A. GaikwadSeconded by- Mr. Shirish ChaphekarResolution unanimously passed.ltem-4 Approval to the following PurdueNext Courses - as a Final Year

B. Tech. Elective-I courses along with Tutorials for pattern A-llwitheffect from Academic Year 2014-15 and same to be continued toPattern F-ll Revised and A-14.(a) Signal Processing for Embedded Systems(b) Hybrid-Electric Vehicle - Power Electronics & Electric Machines

Resolution 1: The above PurdueNext courses (Annexure-IIl- Page No 45 to 40)were accepted and approved.

Proposed by - Prof. P. V. Pol and Prof. Mrs. Shilpa SondkarSeconded by- Prof. (Dr.) S. L. PatiJResolution unanimously passedltem-5 Course Feedback Semester-II, Academic Year 2013-14Resolution 1: As Course contents feedback received from Dean-Quality is nil, it is

accepted and decided to keep course contents as it is. (Annexure-IVPage No 51 of 51)

Proposed by - Prof. Mrs. Manisha MhetreSeconded by- Mr. Ajay Nagarkar \), __;Resolution unanimously passed. ~ .

Resolution 1:Proposed by -Seconded byltem-2Resolution 1:Proposed by -Seconded byltem-3

Resolution 1:

Prof. P. M. KanjalkarChairman, BOS

3

· .Bansilal Ramnath Agarwal Charitable Trust's


Department of Instrumentation EngineeringAnnexure- I

The structure and syllabus of B. Tech. (Instrumentation and ControlEngineering) Pattern Fll Revised from the academic year 2014-15

4



FFNo. 653 Issue 4, Rev. 1, Dt. 01/03/2014S.Y. B.Tech -Instrumentation and Control Engineering Structure with effect from Academic Year 2014-15

Module 3

Code Sub Type Subject Teaching Assessment Scheme CreditsScheme

L p Tut. ISA ESATest 1 Test 2 HA Tut. CA ESE

IC20101 SI Theory Signals & Systems 3 - 1 10 20 5 5 - 60 4core

S2 Theory Sensors & Transducers for Mechanical 3 - 15 20 5 - 60 3IC20103 core Measurements

IC20105 S3 Theory Electrical Circuits and Measurements 3 - - 15 20 5 - - 60 3core

IC20107 S4 Theory Electronic Devices and Circuits 3 - - 15 20 5 - - 60 3core

IC21101 S5 Theory Network Theory 2 - 1 10 20 5 5 - 60 3MD

IC20307Lab I Lab Core Sensors & Transducers for Mechanical

- 2 - - - - 70 30 1MeasurementsIC20303 Lab 2 Lab Core Electrical Circuits and Measurements - 2 - - - - 70 30 1IC20309 Lab 3 Lab Core Electronic Devices and Circuits - 2 - - - - 70 30 1IC24311 Lab 4 Lab- SD Applications of Electronic Instrumentation - 2 - - - - 70 30 1IC24307 VB & JAVA

IC27401 Mini Project Mini Project 4 70 30 2Proj. - - - - -IC20401 CVV oral Comprehensive Viva Voce - - - - - - - - 100 2

TOTAL 14 12 2 24

5



FFNo. 653 Issue 4, Rev. 1 , Dt. 01/03/2014s.y. B.Tech -Instrumentation and Control Engineering Structure with effect from Academic Year 2014-15

Module 4

Code Sub Type Subject Teaching Scheme Assessment Scheme Credits

L P Tut. ISA ESATest 1 Test 2 HA Tut. CA ESE

IC20102 SI Theory Process Parameter Measurements 3 - - 15 20 5 - - 60 3core

IC20104 S2 Theory Control Systems 3 - 1 10 20 5 5 - 60 4core

IC20106 S3 Theory Linear Integrated Circuits 3 - - 15 20 5 - - 60 3core

IC20108 S4 Theory Digital Electronics 3 - - 15 20 5 - - 60 3coreIC21102 S5 Theory Data Structures 2 - 1 10 20 5 5 - 60 3MD

IC20306 Lab 1 Lab Process Parameter Measurements - 2 - - - - 70 30 1Core

IC20308 Lab 2 Lab Linear Integrated Circuits - 2 - - - - 70 30 1Core

IC20310 Lab 3 Lab Digital Electronics - 2 - - - - 70 30 1Core

IC24302 Lab 4Lab-SD

LaTeXIC24310 Labview Programming - 2 - - - - 70 30 1

IC27402 Mini Mini Project 4 70 30 2Proj. - - - - -IC20402 CVV Comprehensive Viva Voce - - - - - - - - 100 2

TOTAL 14 12 2 24

6



FFNo. 653 Issue 4, Rev. 1, Dt. 01/03/2014

S.Y. B.Tech - Instrumentation and Control Engineering Structure with effect from Academic Year 2014-15Semester I - Irrespective of Module

Code Sub Subject Teaching Scheme Assessment Scheme Credits

TypeL p Tut. ISA ESA

Test 1 Test 2 HA Tut. CA ESE

HS20108 Lab Technical - 2 - - - - - 70 30 1Writing

TOTAL - 2 - 1

S.Y. B.Tech - Instrumentation and Control Engineering Structure with effect from Academic Year 2014-15Semester II - Irrespective of Module

Code Sub Subject Teaching Scheme Assessment Scheme Credits

TypeL p Tut. ISA ESA


HS20307 Lab General - 2 - - - - - 70 30 1Seminar-II

TOTAL - 2 - 1

7



FFNo. 653 Issue 4, Rev. 1, Dt. 01/03/2014

T.Y. B.Tech -Instrumentation and Control Engineering Structure with effect from Academic Year 2014-15Module 5



IC30105 Sl Theory Control System Components 3 - 1 10 20 5 5 - 60 4core

S2 Theory Electronic Instrument and System Design,., - 1 10 20 5 5 60 4

IC3ll0l.) -

core

IC30103 S3 Theory Microcontroller Based Systems 3 - - 15 20 5 - - 60 3core

IC30107 S4 Theory Digital Signal Processing 3 - - 15 20 5 - - 60 3core

IC31107 S5 Theory Unit Operations 2 - - 15 20 5 - - 60 2MD

IC30305Lab 1 Lab Core Control System Components &

Electronic Instrument and System Design - 2 - - - - 70 30 1

IC30307 Lab 2 Lab Core Microcontroller Based Systems - 2 - - - - 70 30 1

IC30309 Lab 3 Lab Core Digital Signal Processing - 2 - - - - 70 30 1

IC33301 Calibration and StandardsLab-4 Lab-PD Graphical User Interface for Embedded

IC33311 Systems - 2 - - - - 70 30 1

IC33313 LabView ApplicationsIC30401 CVV oral Comprehensive Viva Voce - - - - - - - - 100 2

TOTAL 14 8 2 22

8



FFNo. 653 Issue 4, Rev. 1, Dt. 01/03/2014

T.Y. B.Tech -Instrumentation and Control Engineering Structure with effect from Academic Year 2014-15Module 6



IC30102 SI Theory Process Loop Components 3 - - 15 20 5 - - 60 3core

IC30110 S2 Theory Industrial Automation 3 - 1 10 20 5 5 - 60 4core

IC30106 S3 Theory Biomedical Instrumentation 3 - - 15 20 5 - - 60 3core

IC30108 S4 Theory Modern Control Theory 3 - 1 10 20 5 5 - 60 4core

IC31108 S5 Theory Analytical Instrumentation 2 - - 15 20 5 - - 60 2MD

IC30306Lab 1 Lab core Biomedical Instrumentation & Analytical

Instrumentati on - 2 - - - - 70 30 1

IC30310 Lab 2 Lab Core Industrial Automation - 2 - - - - 70 30 1

IC30308 Lab 3 Lab Core Process Loop Components - 2 - - - - 70 30 1

IC33309 Image Processing with MATLABIC33315 Lab 4 Lab-PD Joint Time-Frequency Analysis - 2 - - - - 70 30 1

IC33307 Flow MeasurementIC30402 CVV oral Comprehensive Viva Voce - - - - - - - - 100 2

TOTAL 14 8 2 22

9



FFNo. 653 Issue4, Rev.1, Dt. 01/03/2014T.V. B.Tech -Instrumentation and Control Engineering Structure with effect from Academic Year 2014-15

Semester I -Irrespective of Module

Code Sub Subject Teaching Scheme Assessment Scheme CreditsType


IC37301 Seminar Seminar - 4 - - - - - 70 30 2

IC37401 Mini Project - 4 - - - - - 70 30 2Project

TOTAL - 8 - 4

T.Y. B.Tech -Instrumentation and Control Engineering Structure with effect from Academic Year 2014-15Semester II - Irrespective of Module



IC37302 Major Project- - 4 - - - - - 70 30 2Project Stage-I

TOTAL - 4 - 2

10



FFNo. 653 Issue 4, Rev.1, Dt.01/03/2014

Final Year B.Tech -Instrumentation and Control Engineering Structure with effect from Academic Year 2014-15Module 7

Code Subje Type Subject Teaching Scheme Assessment Scheme Credits

ctL P Tut. ISA ESA


Theory Project Engineering & 3 - - 15 20 5 - - 60 3IC40101 S1 core Management

IC40103 S2 Theory Process Control 3 - 15 20 5 - - 60 3core

IC42113 Hybrid-Electric Vehicle -Power Electronics &Electric Machines 5

IC42115 53 Theory Signal Processing for 3 - 1 10 20 5 - 60 4core Embedded Systems

IC42117 Biomedical SignalProcessing

IC42107 Control System DesignIC42109

S4 Theory Power Plant 3 - 1 10 20 5 5 - 60 4core Instrumentation

IC42111 VLSI Design

IC40301 Lab 1 Lab- Project Engineering & 2 70 30 1Management - - - - -

core

IC40303 Lab 2 Lab- Process Control - 2 - - - - 70 30 1core

TOTAL 12 4 2 16

11



FFNo. 653 Issue 4, Rev.1, Dt.01/03/2014

Final Year B.Tech -Instrumentation and Control Engineering Structure with effect from Academic Year 2014-15Module 8



IC40102 S1 Theory Process Instrumentation 3 - 15 20 5 - - 60 3

core

IC40106 S2 Theory Digital Control 3 - 15 20 5 - - 60 3

coreIC42102 RoboticsIC42104 S3 Theory Communication Protocols 3 - 1 10 20 5 5 - 60 4

IC42116core Batch Process Control

IC42108 Process Modeling &Optimization

IC42110S4 Theory Building Automation & 3 1 10 20 5 5 60 4

Security Systems - -core

IC42114 Industrial Flow MeasuringTechniques

IC40302 Lab 1 Lab- Process Instrumentation 2 70 30 1- - - - -core

IC40306 Lab 2 Lab- Digital Control - 2 - - - - 70 30 1

coreTOTAL 12 4 2 16

12



FFNo. 653 Issue 4, Rev.1, Dt.01/03/2014Final Year B.Tech -Instrumentation and Control Engineering Structure with effect from Academic Year 2014-15

Semester I - Irrespective of Module



IC47301 Major Project - 8 - - - - - 70 30 4Project Stage-II

TOTAL - 8 - 4

Final Year B.Tech - Instrumentation and Control Engineering Structure with effect from Academic Year 2014-15Semester II - Irrespective of Module



IC47304 Major Project - 12 - - - - - 70 30 6Project Stage-III

TOTAL - 12 - 6

13



Annexure - IIThe structure and syllabus of B. Tech. (Instrumentation and Control Engineering) Pattern A-14 from the academic year

2014-15

14


Vishwakarma Institute of Technology(An autonomous institute affiliated to University Of Pune)666,Upper lndiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

FFNo.: 654

I Credits: 02

Prerequisites: Basic electrical circuit concepts

Objectives: Upon completion of this course, student should be able to:• Understand all basic network concepts• Analyze any electrical circuit using network concepts

Unit I: Basic Circuit Analysis and Simplification Techniques 7 hrsA. Voltage and current sources, Kirchhoff's Current and Voltage Laws, Independent anddependent sources and their interconnection, and power calculations. Source transformation andsource shifting. Network Analysis: Mesh, Super-mesh, Node and Super Node analysis.B. Application based numericals on network analysis

Unit II: Network Theorems 5 hrsA. Superposition, Thevenin's, Norton's, Maximum Power Transfer, Millman's, Compensation,Tellegan's theoremsB. Reciprocity and Substitution theorems

Unit III: Passive Circuit Analysis 6 hrsA. Initial conditions, source free RL and RC circuits, properties of exponential response, DrivenRL and RC circuits, Passive filter analysisB. Introduction to Source free and driven series RLC circuit

Unit IV : Two Port Network Parameters and Functions 6 hrsA. Terminal characteristics of network, hand ABCD Parameters, Applications of the parameters.Introduction to four port network.B. Z and Y parameters of a network

Text Books1. D Roy Choudhury, Networks and Systems, New Age International Publishers2. A. Chakrabarti, Circuit Theory, Dhanpat Rai & Co.

Reference Books1. M. E. Van Valkenburg, Network Analysis, PHI/Pearson Education, 3rd Edition.

Reprint 20022. Franklin F. Kuo, Network analysis and Synthesis, , Wiley International Edition3. B.Somanahan Nair and S.R.Deepa, "Network analysis and Synthesis" Elsevier, 2012

15



FF No.: 654,-----------~--~------ ----------- -- ----- ---- -- - ~- ~~~

IC21201 :: Network Theory'---~- -~- -~- ------------- ---------------------------- ~-----------_____j

_~i ~ _---"",--.-- ...---"""".'---'-~-.-"--- ---

________Teaching Scheme: - Tutorial 1 HriweekJI Credits: 01

I Prerequisites: Basic-network anal~s~s=~~~~~~~~-===_-== ------1

II Objectives: Upon completion of this course:, • Students will be familiarized with various circuit analysis techniques

L Students' math,ematical and analytical skills of network analysis will get enhancedStudent will be able to apply network analysis concepts to actual circuits

..."._----""_ ..,"-_ .._ _", ".,.•.._.__ .__ ..__.,,,,---'""-_.,.,-----"'"

List of Tutorials to be completed:

1. Problems solving on KCL and KVL

2. Problem solving on Power Calculation3. NetworkAnalysis of any given circuit4. Problemsbased on Superpositionand Thevenin's theorem

5. ProblemsonMaximumPower Transfer Theorem

6. Problemsbased on Compensation,Tellegan's theorems

7. NetworkAnalysis ofRLC circuit8. Analysis of High Pass filter with RC andRL circuits

9. Analysis ofa Band Stop filter with RLC circuits.

10. Find the terminal characteristics of network

11. Find the ABCDparameters of a given network

12. Find the Y parameters of a given network

Text Books1. William H Hayt, Jack E Kimmerly and Steven M.Durbin, Engineering Circuit Analysis,

Tata McGraw Hill2. D Roy Choudhury, Networks and Systems, New Age International Publishers.

Reference Books1. John D. Ryder, Network Lines and Fields by, PHI

16



2. M. E. Van Valkenburg, Network Analysis, PHI/Pearson Education, 3rd Edition.Reprint 2002

3. Franklin F. Kuo, Network analysis and Synthesis, , Wiley International Edition4. B.Somanahan Nair and S.R.Deepa, " Network analysis and Synthesis" Elsevier"

FF No.: 654

I IC20307:: SENSORS AND TRANSDUCERS FOR MECHANICAL~cre~:~;'f i . !1=U_IlET¥~~¥Schcme:-Laborator 2 HrsIWeek._-_. ._----_ - _ .. -----_ .._- ---_ ..._ .....-

jPrerequisites: NilI Objectives: Upon co~pletion ofthi;-~-;;~~;-~~-;t~~d;;-ntsh~-~ldbe able to:

• Understand the fundamentals of sensors and transducers.• Can build suitable measurement technique.

-------_ .._.._- ---_ ... -----._-_. __--

List of Experiments:

1. To find the static characteristics of LVDT

2. Measurement of Angular and Linear displacement using encoder

3. Measurement of speed using optical sensor

4. Measurement of speed Tachometer.

5. To find characteristic of Load cell.

4. Study of different types of Proximity switches.

7. Measurement of vibration using Accelerometer.

8. To plot characteristic ofRTD sensor.

9. To plot characteristic of thermocouple.

10. Study of motor torque measurement technique.

11. To study various measurement circuits of strain gauge.

12 To study Hall effect senor----_.- _._. ---_ .. - --- -. - _. - _ .._-

Text Books

1. "Instrumentation Measurement and Analysis", Nakra-Chaudhary, Tata McGraw Hill IPublications. I

2. "Electrical and Electronic Measurements and Instrumentation", A. K. Sawhney, Dhanpat Rai II

and Sons Publications. I

17

Bansilal Ramnath AgarwalCharitableTrust's

Vlshwakarma Institute of Technology(An autonomous Institute affiliated to University Of Pun e)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

Reference Books I

1. "Process Measurement and Analysis", B. G. Liptak, Butterworth Heinemann. I2. "Measurement System Application and Design", E.O. Doebelin, McGraw-Hill International I

Publications. II

FF No.: 654IC20309:: ELECTRONIC DEVICES AND CIRCUITS LABORATORY

[ Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week

-----------------------------,Prerequisites: Nil

-----.---------------:-:--~------------,Objectives: Upon completion of this course, student should be able to:

• Understand behavior and properties of semiconductor devices.• Analyze working of given circuits.• Build basic circuits using semiconductor devices.

List of Practicals:

1. To study and verify of diode characteristics (Si and Ge).

2. To design and implement diode based clipper and c1amper.

3. Halfwave rectifier with and without filter.

4. Full wave rectifier with and without filter.

5. To design and implement analog low pass and high pass filters.

6. To Study and verify transistor Common Emitter characteristics.

7. Design and verify transistorized astable multivibrator.

8. To Study of transistor biasing circuits.

9. To Study and verify FET characteristics.

10. Design and verification of UJT relaxation oscillator.

11. To Study and verify SCR characteristics.

12. To determine Holding and Latching current (l and I ) for given SCR.H L

~oks---------------------------------------·---- --------------------------

I ~~~. ---:~lectronic Devices & Circuits", A. Mottershead, Prentice Hall ofIndia.------

18



I 2. Electronic Principles", A. P. Malvino Tata McGraw-Hill Publishing Company Limited

~~ndia~ .._ _. .___...... _. ._..__.._. .. _Reference Books1. "Semiconductor and Electronic Devices", A.Bar-Lev, Prentice Hall ofIndia.2. "Semiconductor devices and Circuit Theory", Robert Boylestad, Pearson edition.3. "Electronic Devices-Conventional Current Version", Floyd, Pearson Education.

FF No.: 654

IC21102:: Data Structures

i Credits: 02.. - _._-- ----._.... .._._---,------:--,

_________ !~~~11!_I1_gScheme: - Theory 2 Hrs/Week

I Prereq_uis~!es:~~~~_computer p~o~~a~'-~~I~~:~~I~-~==__··_--_--_·- _Objectives: Upon completion of this course:

• Students will be familiarized with detailed programming concepts• Programming skill set will enhance• Students will be able to represent data structures and algorithms using 'C' language.

'---------------_ ... _----------_ .._.__..- -------------

Unit I: Advanced 'C' Concepts and OOPs 6hrsA. Functions in C, Recursive functions, Pointers Basic concept, Pointer arithmeticArrays: ID and 2D Arrays, Arrays & Pointers, memory management, Functions & Pointers.Structures: Array of structures, Functions & structures, structures and pointers. Basics of OOPsB. Array of Structure and its operation: Addition, insertion, deletion and display, Sparse Matriximplementation

Unit II: Introduction to Data Structures & Linked Lists 6hrsA. Abstract Data Types, Types of Data Structures: Linear, Non-Linear Linked Lists: Singly andDoubly Linked List and its operationsB. Circular Linked List.

Unit III: Stacks and Queues 5hrsA. Stack and Queues using Arrays and Linked List and its operationsB. In-fix, Post-fix and Pre-fix Expressions

Unit IV: Trees and Sorting Algorithms 7hrsA. Trees: types, tree terminologies, tree traversals, Binary Search TreeSorting: Types of sorting, Sorting Efficiency, Bubble Sort, Insertion Sort, Selection SortIntroduction to Searching Algorithms: Space and Time Complexity, Big 0 notationB. Huffman's algorithm, Tree Sort, Merge Sort

Text Books:1. C Primer Plus - Stephen Prata

19



2. "Data structures using C and C++", Y. Langsam, MJ. Augenstein, A.M.Tenenbaum, Pearson Education, Second Edition, 2002, ISBN 81-7808-729-4.

3. "Fundamentals of Data Structures in C", E. Horwitz, S. Sahani, Anderson-Freed,Universities Press, Second Edition, 2008, ISBN 978-81-7371-605-8.

Reference Books1. "Data structures and Algorithm Analysis in C++", M. Weiss, Pearson Education,

2nd Edition, 2002 ,ISBN-81-7808-670-0.2. "An Introduction to data Structures with applications", 1. Tremblay, P. soresan,

TMH Publication, 2nd Edition, 1984, ISBN-0-07-46247 1-7.

FFNo.: 654

[ rc 21202:: Data Structures

,-------- ·----·r--~--····-

I Credits: 01 !

I

I

I Prerequisites: Basics of programming language

Objectives: Upon completion of this course, student should be able to:• Understand basic data structure concepts• Represent data structures and algorithms using programming language

List of Tutorials:1. Write a program to find an element in an array.

2. Write a program to find an element in an array of structures

3. Program using dynamic memory allocation for arrays.

4. Write a searching algorithm for a linked list.

5. Write a simple sorting algorithm for linked list

6. Write an algorithm for reversing a linked list

7. Comparison of stack and queue representation using arrays and linked list

8. Study of conversion of various expressions using Infix, Pre-fix, Post-fix.

9. Study of different types of queue representation

10. Study of various tree terminologies

II. Write an program for tree traversal using recursion

12. Comparison of various sorting algorithms.

20



Text Books:1. C Primer Plus - Stephen Prata2. "Data structures using C and C++", Y. Langsam, M.1. Augenstein, A.M.

Tenenbaum, Pearson Education, Second Edition, 2002, ISBN 81-7808-729-4.3. "Fundamentals of Data Structures in C", E. Horwitz, S. Sahani, Anderson-Freed,

Universities Press, Second Edition, 2008, ISBN 978-81-7371-605-8.

Reference Books1. "Data structures and Algorithm Analysis in C++", M. Weiss, Pearson Education,

2nd Edition, 2002 ,ISBN-81-7808-670-0.2. "An Introduction to data Structures with applications", 1. Tremblay, P. soresan,

TMH Publication, 2nd Edition, 1984, ISBN-0-07-46247 1-7.

._ ___:F::_::F:_No.: 654

IC20306 PROCESS PARAMETER MEASUREMENTS

Credits: 01--r-----.----I Teaching Scheme: - Laboratory 2 Hrs/Week

Prerequisites: Nil ~. - -- --'_ ..'-".-"_-.".'_."-

Objectives: Upon completion of this course, student should be able to:• Understand the fundamentals of sensors and transducers.• Can build suitable measurement technique.

L__ .__ ._.--

List of Experiments

1. Measurement of flow using: a) Orifice b) Venturi c) Rota meter.

2. To find the Characteristics of flow using electromagnetic flow meter.

3. To find the Characteristics of level using capacitive probe.

4. To study different types of Level switches

5. Measurement of Pressure using Bellows.

6. Study of Dead Weight Tester.

7. Measurement of pH ofa given solution.

8. Measurement ofEC ofa given solution.

9. Measurement of viscosity / density of given solution.

10. Measurement of Humidity using Humidity sensor

11. Air velocity measurement using anemometer.

12. Study of Vacuum gauge Tester.21

-------------------- - - -- -



I Text Booksi 1. "Instrumentation Devices and Systems", Rangan-Sharma, Tata McGrawHill

Publications.2. "Instrumentation Measurement and Analysis", Nakra-Chaudhary, Tata McGraw Hill

Publications.3. "Electrical and Electronic Measurements and Instrumentation", A. K. Sawhney,

Dhanpat Rai and Sons Publications.f-------~---~ -------

Reference Books

1. "Process Measurement and Analysis", B. G. Liptak, Butterworth Heinemann.2. "Measurement System Application and Design", E.O. Doebelin, McGraw-Hill

International Publications.

FF No.: 654

IC20308 :: LINEAR INTEGRATED CIRCUITS- --~-- - - ------ ------ ---- -----------------,

j

ILC_re_d_it_s_:O_l ~_l___ - ~=.--=Teilcj_~ini~cilcme: - Laboratory 2 Hrs/Week I

---- -- ----------_----------- -----~

Prerequisites: Basic knowledge of electronics devices and circuits.f-----=----- ----- ---------Objectives:Upon completion of this course, student should be able to:

• Know the fundamentals of op-amps and linear integrated circuits.• Design of analog circuits using or-amps and linear integrated circuits.• Select op-amps and learn applications of linear integrated circuits

List of Practicals

1. Design and implementation of a schm itt trigger circu it using op-amp.

2. Measurement of slew rate, input offset voltage and input bias current of an op-amp.

3. Design and implementation of an inverting, non-inverting

4. Design and implementation ofa differential amplifier.

5. Design and implementation of an integrator circuit.

6. Design and implementation of instrumentation amplifier.

7. Design of an active low pass filter.

8. Design and implementation of astable multivibrator using op-amp.

22


Vishwakarma Institute of Technology(An autonomous Institute affiliated to University Of Pun e)666,Upper Indiranagar, Bibwewadi, Pune. - 411037.Department of Instrumentation Engineering

9. Design and implementation of Wein bridge oscillator.

10. Design and implementation of astable multivibrator using IC-555.

11. Design and implementation of monos table multivibrator using IC-555.

12. Design and implementation of a voltage regulator using IC723.,--------- ------- -- ----- - -------- -----

ThrtBoob I1. "Op-amps & Linear Integrated Circuits", R. Gayakwad, Pearson Education Prentice

Hall of India.I 2. "Integrated Circuits", K. Botkar, Khanna Publishers. I13, ~~~~ ';;~ ~~~~i~~~::,lAmp~fl:_an~~n:l<lg,:egrated Circuits" S. Franco,Tata

Reference Boob1. "Operational Amplifiers", G. Clayton & S. Winder, Oxford Newnes.

II 2. "Operational Amplifiers with Linear Integrated Circuits", W.Stanley, Pearson

Education.'----------------- ---- ---- -------------------------' FF No. : 654

,-------------------- -------------------------------------,

IC20310 :: DIGITAL ELECTRONICS

,---------~ ----------

I Credits: 01

Prerequisites: Basic knowledgeObjectives:Upon completion of this course, student should be able to:

• Know the fundamentals of digital logic and their applications.• Design of digital circuits using IC's.

List of Practicals

1. Verification of truth tables of Basic gates, XOR, XNOR and universal gates, and

implementation of basic gates using universal gates.

2. Implementation of logic problems using gates

3. Design and performance of Half and full adders

4. Design and performance of Code converters.

5. Design and performance of Multiplexers and Mux tree

6. Design and performance of Demultiplexers/ Decoder and Demux tree23

------------- ----------- ------

Bansilal Rarnnath Agarwal Charitable Trust's


7. Design and interfacing of7 segment LED display

8. Design and implementation of Flip-flops and their conversions.

9. Design and implementation of synchronous and asynchronous counters.

10. Design and implementation of non-sequential synchronous counter.

11. Design and performance ofpre-settable up down counter.

12. Design and implementation of24 hours digital clock

Text Books

1. "Digital Systems Principles and Application", R. J. Tocci &N. S. Widmer, PrenticeHall India Publication.

I 2. "Digital Fundamentals", T. L. Floyd & R._~:_J<lin,Pe~rson Education India.I

I Reference Books .1. "Digital logic and Computer Design", M. M. Mano, Prentice Hall of India.2. "An Engineering Approach to Digital Design", W. I. Fletcher, Prentice Hall oflndia.3. "Digital design- Principles and Practices", J. F. Wakerly, Pearson Education India.4. "VHDL Primer", J. Bhasker,Pe~_r~()n~du~~!i2f1India.

FFNo.: 654r-------------.-.-----. ------~-.---

IC31107:: Unit Operations--_._--- -. ---- ....-.-.-~----

I Credits: 02 I1_ .._.. .__ T~~l~hi~gScheme: - Theory 2 Hrs/Week]

--- '..-'''''''~.'.-.'-''.--.-~--.-,--~--

Prerequisites: Nil

Objectives: Upon completion of this course:Students will understand basics of various unit operations used in process industriesStud~nts will be able to focus more on application of principles with respect to industry Ipractices.

'--------- --------_._---_. __...-_.._- .._----_..._- .------~----__j

••

Unit I: Introduction 5hrsA. Basic concepts and principles of commonly used unit operations and unit processes, MaterialBalance - Energy Balance, Batch and continuous process operations, Endothermic andExothermic reactions.Selection Materials, metals & alloys used in construction of field instruments.B. Properties like hardness, compression, tensile of alloys & metals. Heat and surface treatmentson metals

24

Bansilal Rarnnath AgarwalCharitableTrust's


Unit II: Heat Transfer and Heat Equiprncnts 7hrsA. Basic Laws and equations to calculate Heat transfer rates, heat transfer coefficientsHeat Transfer Equipments: Construction and working of Heat exchangers, boiler.B. Types of Heat Exchangers and Boilers

Unit III: Mass Transfer and Equipments 6hrsA. Basic laws of mass transfer, mass transfer coefficients,Operational Features, Construction and Working: Distillation, Batch Distillation, ContinuousDistillation, Evaporators: Types of Evaporators,.B. Working and Construction of: Multi-effect evaporators, Flash Distillation

Unit IV: Process Equipments 6hrsA. Operational Features, Construction and Working: Crystallizers, Humidifier and De-humdifier,Absorption column, Dryers, Membrane filtration, Leaching-ExtractionB. Construction and Working: Blowers and Compressors,

Text Books:1. McCabe W. L. Smith J. C., Peter J-Iarriot"Unit Operation of Chemical Engineering",

McGraw Hill Inc., 1993.2. B. G. Liptak "Instrumentation Engineers Handbook: Process Control" Chilton Book

Company3. Rober E. Trebal - Mass Transfer operations.

FF No. : 654

IC30107:: DIGITAL SIGNAL PROCESSING-"-----r----~-- ---

I Credits:""03 ________l _

Prerequisites: Signals and SystemsI---___::__------" --"-"----"""""""-"" -------""--"-----:--c--------------iObjectives: Upon completion of this course, student should be able to:• Analyze Signals and Systems.• Understand fun~~rI1__entals~f_d_~gi!(llfllt~rclesigl1_. " "" ---'

Unit I(6+2 Hrs)

Linear systemsA. Review of CT and DT Signals, Discrete Systems: Interconnections of Systems; Basic SystemProperties (Causality, Stability, Tirne-Invariance, Linearity, and Inevitability, systems with andwithout memory). Representation of Discrete Time Signals in Terms of impulse, ConvolutionSum, Properties of LTI Systems (Commutative, Distributive, Associative properties,

25


Vishwakarma Institute of Technology(An autonomous Institute affiliated to University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Inst rumentation Engineering

Inevitability, Causality, Stability).B. Time Shift and Time scaling operations on Discrete Time Signal

Unit II(6+2Hrs)

Fourier TransformA. Fourier series, convergence of Fourier series. CT Fourier transform, properties of CT Fouriertransform, DT Fourier transform, properties of DT Fourier transform, system function and itsanalysis using CTFT and DTFT. Review of Z Transform, Relation of Z transform with Fouriertransform. System function and its analysis using Z transform.

B. Computation of system function and analysis using Fourier transform. Sampling andits significance with system analysis.

Unit III(7+1Hrs)

Discrete Fourier Transform and Fast Fourier TransformA. Discrete Fourier Transform and its inverse, Relationship between the DTFT and theDFT and their inverses, Discrete Fourier Transform properties, Computation of the DFTof real sequences, DFT as Linear TransformationFast Fourier Transform(a) Decimation in time - Radix 2 FFT algorithm, butterfly structure for 8 point DFT,

Computational advantages, Radix 2 Inverse FFT algorithm.(b) Decimation in Frequency - Radix 2 FFT algorithm, butterfly structure for 8 pointDFT, Computational advantages, Radix 2 Inverse FFT algorithm.

B. Circular Convolution, Linear convolution using DFT, Cross correlation and Auto correlation.

Unit IV(7+1Hrs)

FIR Filter DesignA. FIR filter design using windowing techniques. Low pass, High pass, Band Pass, Bandstop filter design by windowing method, Frequency sampling technique.

B.

Unit V (8+2Hrs)Analog Filter design and IIR Filter designA. Analog filter design: Butterworth filters, Low pass Butterworth filter design.Digital IIR filter design: Bilinear transformation, Impulse invariant transformation, Lowpass IIR digital filtersB. Frequency Transformation in the analog domain, frequency transformation for Digital Filters

Text Books26


Vlshwakarma Institute of Technology(An autonomous Institute affiliated to University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411037.Department of Instrumentation Engineering

1. "Digital Signal Processing -Principles, Algorithms and Applications", J. G. Proakis& D. G. Manolakis, Prentice Hall of India.

2. "Digital Signal Processing- A Practical Approach", E. C. lfeachor & B. W. Jarvis,Pearson Education.

Reference Books1. "Digital Signal Processing- A Computer Based Approach", S. K. Mitra, Tata

McGraw Hill.2. "Discrete Time Signal Processing", A. V. Oppenheim, R, W, Schafer, Prentice-Hall

of India.

FF No. : 654

IC30307: MICROCONTROLLER BASED SYSTEMS

,-I C_r_e_di_ts_:_O_I __ -_--=='-:-_-==_---_-_--r-------:---,-------:c:-:--:----:--:------ - - -- - ---~--- -----------------------,Prerequisites: Familiarity with one of the Microsoft Windows operating systems(Windows 95/98/2000INT), Managing tiles within Windows, installing new application.Objectives: Upon completion of this course, student should be able to:• Learn to program microcontroller

List of Practicals

1. Write programs using MCS-SI instructions for:

1 to 4 Familiarization with Assembler and Programmer of MCS-51. Use of different

arithmetic and logical instructions in a program (4 experiments).

5. Square Wave Generation using timers.

6. Utilization of Pulse width measurement technique to control the speed of a DC Motor

through Microcontroller.

7. Interfacing of LED to 8051.

8. Interfacing seven segment LED display to 8051.27

-- _ ---------- - __ -_


Vishwakarrna Institute of Technology(An autonomous Institute affiliated to University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

9. Utilization of Serial Communication for LCD Display Module interfacing with 8051.

10. Interfacing of keyboard to 8051

11. Interfacing of ADC to 8051

12. Write a program to accept input from keyboard and display it on the monitorusing 8086 instructions

Text Books

1. "8051 Microcontroller and embedded systems", M. Mazidi, Pearson HigherEducation.

2. "The 8051 microcontroller", Kenneth J. Ayala, Penram International.

Reference Books

1. "Programming and customizing the 8051 microcontroller", Myke Predko, TataMcGraw Hill Publishing Company Ltd.

2. "Microcontroller Theory and Applications", A.Y. Deshmukh, Tata McGraw HillPublishing Company Ltd.

FF No.: 654

L.~~ IC_3_O_3_09::DIGITAL~~~~AL PROCESSING --_jI Credits: 01 ------,----"------- ------

-=j_~ilcl;i~i§cheme: - Laboratory 2 Hrs/Week I~-----------------.- --_--Prerequisites: Signals and SystemsObjectives: Upon completion of this course, student should be able to:• Analyze Signals and Systems.• Understand fundamentals of digital filter design.

List of Practicals

1. Plotting of Continuous time and Discrete time Signals to understand Sampling Theorem

2. Transformation on Signals

3. Convolution sum

4. Properties of Convolution

5. Discrete Fourier Transform

6. Study of Properties of DFT

28


Vishwakarrna Institute of Technology(An autonomous Institute affiliated to University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

7. To perform Fast Fourier transforms using radix 2 OtT, DtF algorithms.

8. FIR filter design by using windowing technique.

9. Analog Filter Design

10. IIR Filter Design by using Impulse Invariant Method.

11. IIR Filter Design by using Bilinear Transformations method.

12. Filter design using FDA Toolbox

Text Books1. "Digital Signal Processing -Principles, Algorithms and Applications", J. G. Proakis

& D. G. Manolakis, Prentice Hall of India.2. "Digital Signal Processing- A Practical Approach", E. C. Ifeachor & B. W. Jarvis,

Pearson Education.

Reference Books1. "Digital Signal Processing- A Computer Based Approach", S. K. Mitra, Tata

McGraw Hill.2. "Discrete Time Signal Processing", A. V. Oppenheim, R, W, Schafer, Prentice-Hall

of India.

FF No. : 654

IC30110:: INDUSTRIAL AUTOMATION~----------------------------- ---------------------------------~

I Credits: 03 H~-!~~-liI~~Scheme: Theory:; Hrs/Week I

,---------------:-,- -------------------- ---- - --------- - ------------------------------------------,Prerequisites: Nil

---------------------------------------------- ---------------1Objectives: Upon completion of this course, student should be able to:

• Know fundamentals ofPLC and DCS• Programming in PLC and DCS• Know Hardware structure of PLC and DCS

Unit IIntroduction to PLC

(8+1 Hrs)

29

Bansilal RarnnathAgarwalCharitableTrust's

Vishwakarma Institute of Technology(An autonomous Institute affiliated to University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumeutarion Engineering

A: Automation: fundamentals of industrial automation, need and role of automation, evolutionof automation. PLC introduction : types of processes, comparison, evolution of PLC,definition, functions, advantages, Architecture, DI-DO-AI-AO examples and ratings, I/Omodule, working of PLC, scan time, Installation of PLC, Rack installation; Grounding andshielding, physical, electrical, maintenance requirements, planning, verifying. Troubleshooting,Fault diagnosis techniques.B: Choosing PLC for application, Types and Specifications ofPLC

Unit IIPLC Programming and Interfacing

A: PLC programming: Development of Relay Logic Ladder Diagram, Introduction to PLCProgramming, Programming devices and languages as per IEC 61131-3 like IL, ST, FBD, CFC,SFC, PLC Timers and Counters, Installation and Troubleshooting. PLC Interfacing: PIDControl using PLC, PID instruction. PLC Interface to Hydraulic/Pneumatic circuits, solid-statedevices, Need of interfacing.B: PLC Selection, PLC interface to temperature control loop.

(7+2 Hrs)

Unit IIISCADA System

A: SCADA Concept of SCADA systems, Programming techniques for: Creation of pages,Sequencing of pages, Creating graphics & animation, Dynamos programming with variables,Trending, Historical data storage & Reporting, Alarm management, reporting of events andparameters. Comparison of different SCADA packages.

(8+1Hrs)

B: Application Development using SCADA system.

Unit IVIntroduction to DCS

A: DCS Introduction, Location of DCS in Plant, functions, advantages and limitations,Comparison of DCS with PLC,.DCS components/ block diagram, Architecture, Functionalrequirements at each level, Database management.

(7+2 Hrs)

B: Latest trends and developments of DCS, DCS Specification.

UnitV (8+1Hrs)

30


Vishwakarma Institute of Technology(An autonomous instil ute affiliated to University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

Des Hardware

A: Layout of DCS, Controller Details, Redundancy, I/O Card Details, Junction Box andMarshalling Cabinets, Operator Interface, Workstation Layout, different types of control panels,types of Operating Station,. Programming as per IEC 61131-3, Advantages, Overview ofProgramming Languages, Device Signal Tags, Configuration, Programming for Live Process.Introduction to Communication protocols like RS232/485, Fieldbus, Profibus.

B: power supply cards details, Various Display Configurations.

Text Books1. "Programmable Logic Controllers", John Webb, Prentice Hall ofIndia.2. "Introduction to Programmable Logic Controllers", Gary Dunning, Delmar Thomson

Learning.3. "Distributed Computer Control for Industrial Automation", Poppovik-Bhatkar, Dekkar

Publications.4. "Computer Aided Process Control", S. K. Singh, Prentice Hall ofIndia.5. "Com uter Based Process Contr()l'~,Krislll!a K~nt, ~~I]tice_Hall of India.

~~~~~~~~~~~~~Reference Books1. "Programmable Controllers", Richard Cox, International Thomson Computer Press.2. "Instrument Engineer's Handbook - Process Software and Digital Network", B. G. Liptak,

CRC Press, 2005.

FF No.: 654

IC30108:: MODEHNC-ONTROL THEORY _j'--~~~~~~~~~- -------- .... - ------------------- .~---~~~-

Prerequisites: Nil.. -- - ~."".--",,",.- ..-. -.""•..--..... -""'---, ..-".~

Objectives: Upon completion of this course, student should be able to:• Understand state space representation of continuous and discrete time control systems.• Analyse continuous and discrete time systems in state space.• Knowledge of basic concepts of digital control systems.• Mapping with PEOs: III (e)

--_- ----. ~~~--~~~~~~~~~~-------,

31


Vishwakarma Institute of Technology(An autonomous Institute affiliated 10 University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

Unit I: (8+1Hrs)

State space representation of continuous time systems

A. Terminology of state space representation, advantages of state space representation over

classical representation, physical variable form, phase variable forms: controllable canonical form

(companion I), observable canonical form (companion II), diagonal/Jordon canonical form

(parallel realization), cascade realization, conversion of state model to transfer function.

B. Similarity transformation for diagonalization ofa plant matrix, Vander Monde matrix.

Unit II: (8+IHrs)

Solution of state equation

A. Solution of homogeneous state equation, state transition matrix, its properties, computation of

state transition matrix by Laplace transform method, similarity transformations and Caley

Hamilton theorem, solution of non-homogeneous state equation.

B. Computation of state transition matrix by infinite power series method.

Unit III: (8+Hlrs)

Analysis and design of control system ill state space

A. Lyapunov stability analysis, state controllability, state observability, similarity transformation

for obtaining controllable canonical form of plant matrix, state feedback, pole placement design.

B. Principle of duality, similarity transformation for obtaining observable canonical form of plantmatrix.

Unit IV: (8+1Hrs)

Discrete time control systems

A. Analysis and design of discrete-data control system in state space

Controllability of LTI discrete-data systems, controllability of LTI discrete-data systems, concept

of stability in discrete time control systems: Jury Stability Test, bilinear transformation, Effect of

Sampling on stability. Lyapunov stability analysis of discrete time control systems. Poleplacement design.

B. Impulse and step response of discrete time control systems.

32


Vtshwakarma Institute of Technology(An autonomous Ins/illite affiliated to University Of Pun e)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

Unit V: (8+ IHrs)

State space representation of discrete time systems

A. Phase variable forms: controllable canonical form (companion I), observable canonical form

(companion II), diagonal! Jordon canonical form (parallel realization), cascade realization,

conversion of state model to transfer function (Pulse Tranfer Matrix).

B. Discrete state transition matrix, its properties and computation.

Text Books

1. "Modern Control Engineering", K. Ogata, Pearson education India.

2. "Discrete Time Control systems", K. Ogata Prentice Hall of India.

3. "Digital Control and State Variable Method" 1\1. Gopal, Tata McGraw Hill.

Reference Books

1. "Automatic control systems", B. C. Kuo, Prentice Hall of India.

2. "Control systems engineering", Norman S. Nise, John Wiley and sons, Inc, Singapore.

3. "Digital control of Dynamic Systems", J. David Powell, Michael Workman, G. F. Franklin,

Addison Wesley.

33

- - ----------

Bansiial Ramnath AgarwalCharitableTrust's

Vfshwakarma Institute of Technology(An autonomous Institute affiliated 10 University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

FF No.: 654~--- - --------

IC30208:: MODERN CONTROL THEORY-- --- -- ---- - -------------

I credits: 01 __~ - .__L_"_"' __ ~. ". _

, Prerequisites: MATLAB

Objectives: Upon -c-ompletion at-this course, student shol~ldbe able to:• To represent a system in state space.• To analyze and design the continuous time systems in state space.• To analyze stability of discrete time systems.• Mapping with PEOs: III (e)

List of Tutorials

1. To obtain state model of a given transfer function and vice-versa.

2. To obtain state transition matrix ofa given continuous time system.

3. To investigate controllability and observability of a given system.

4. To investigate the stability of continuous and discrete time systems using

Lyapunov stability test.

5. To obtain state feedback gain matrix for pole placement.

6.0btain the discrete-time state ant output equations and pulse transfer functions of the

continuous-time system.

7. To obtain the range of gain for the stability of discrete time system.

8. To obtain impulse and step response of discrete time control systems

9. To obtain the range of sampling time for the stability of discrete time system

TextBooks

1. "Modem Control Engineering", K. Ogata, Pearson education India.

2. "Discrete Time Control systems", K. Ogata Prentice Hall of India.

3. "Digital Control and State Variable Method" M. Gopal, Tata McGraw Hill.

Reference Books

1. "Automatic control systems", B. C. Kuo, Prentice Hall of India.

2. "Control systems engineering", Norman S. Nise, John Wiley and sons, Inc, Singapore.

34


Vishwakarma Institute of Technology(An autonomous Institute affiliated to University Of Pun e)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.

Department of Instrumentation Engineering3. "Digital control of Dynamic Systems", J. David Powell, Michael Workman, G. F. Franklin,Addison Wesley.

FF No.: 654

IC31108:: ANALYTICALINSTRUMENTATI-O-N------.

I Credits: 02 "-"- "-----~----:-:----==-----=--~-:------c-____ !_('a~hin~_Scheme : - Theory 2 Hrs/Week I

""--"-----,_'"-,-_. __ "----"----

Prerequisites: Applied Physics fundamentalsObjectives: Upon completion of this course, student should be able to:

• Understand analytical instruments and their applications.

Unit I: Introduction to Analytical Insrruments 6 HrsA. Basic components of Analytical Instruments. Generalized block diagram of Analyticalinstruments classification: Spectral, electro-analytical and separative methods, Differencebetween analytical and other instruments. Laws of photometry ( Beer and Lambart's Law)B. Introduction to Electro analytical methods.

Unit II: Optical Sources and Detectors 6HrsA. Optical sources: Electromagnetic spectrum, types of spectra- line, band and continuous lightsources, radiometry and photometry, natural sources, incandescent lamp, gas discharge lamp.Light-emitting diodes electroluminescent processOptical detectors: Thermal detectors and Quantum detectors, bolo meter, Photodiodes- PIN andavalanche photodiodes, phototransistors, lIZdetectors, CCO devices.Working of Filters, Gratings, PrismsB. Choice of LED materials. Infrared sources, semiconductor laser, photo multipliers, Solar cells

Unit III: U.V. and VIS instruments 5HrsA. Colorimeters, single beam and double beam spectrophotorneters, dual wavelengthand double monochromatic systems, IR spectrophotorneters.Flame Emission and Atomic Absorption Spectroscopy (flame Photometry)B. Direct reading multichannel spectrophotornetcrs, diode array rapid scanningspectrophotometers, Densitometers

Unit IV: Gas Analyzers, Chromatograph and Spectroscopy 7HrsA. Gas analyzers for measurement of Oxygen, N02, ammonia, carbon dioxide and hydrocarbonsGas Chromatograh, HPLC.Nuclear Magnetic Resonance Spectroscopy-Basic principles, types, constructional details,instrumental methods, detectors.B. Vehicle exhaust emission gas analyzers

35

Bansilal Ramnaih Agarwal Charitable Trust's


Department of Iustrumeutnrion EngineeringTextBooks:

1. Willard, Merritt, John AurieDean, "Instrumental Methods of Analysis", CBS Publishers &Distributors, New Delhi, Seventh cd., 1988.

2. R. S. Khandpur, "Handbook of Analytical Instruments", Tata McGraw-HilI Publications,Second ed., 2006.

Reference Books:1. Bela G Liptak, "Analytical Instrumentation Handbook", Chilton, Second ed., 1994.2. Skoog, Holler, Nieman, "Principles or Instrumental Analysis", Thomson books- Cole

publications, Sixth ed., 20063. Instrumental Methods of Chemical Analysis, Galen W. Ewing, McGraw-HilI Book

Company, Fifth edition

36


Vishwakarnla Institute of Technology(An autonomous Institute afJiliated to University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

FF No.: 654---~------ ----

IC 30306:: BIOMEDICAL INSTRUMENTATION AND ANALYTICALINSTnUlVIENTATTON

I Credits: 02 Te:!~hi_l1g_Scheme: - Lab 2 Hrs/Week]

I Prerequisites: Basic sensor a~deiectronics c~~cepts- ------------I

I Objectives: Upon completion ofth~ course should be ablet-~-------~-··------I • Understand biomedical instruments and their applications.I • Understand analytical instruments nnd~he!_rap~i~atiol~~_' __j

List of Experiments:1. Study of different electrodes used in biomedical applications2. Study of blood pressure measuring instrument and its calibration.3. Study of Electro Cardio Graph recorder4. Study of Phonocardiograph5. Study of pulse oximeter.6. Design of notch filter used in biomedical instruments.7. Study of Colorimeter.8. Study of flame photometer.9. Study ofUV-visible spectrophotometer.10. Study of Gas Chromatograph.11. Study ofHPLC.12. Study of Densitometer13. Visit to Analytical and Biomedical Laboratory

Text Books:1. R. S. Khandpur, "Handbook of Biomedical Instrumentation", 2nd Edition, TMH2. Willard, Merritt, John AurieDean, "Instrumental Methods of Analysis", CBS

Publishers & Distributors, Nl'W Delhi, Seventh ed., 1988.3. R. S. Khandpur, "Handbook of Analytical Instruments", Tata McGraw-Hili

Publications, Second ed., 2006.

Reference Books:1. Carr and Brown, "Introduction to Biomedical Equipment Technology", 4thEdition,

Pearson Education2. Bela G Liptak, "Analytical Instrumentation Handbook", Chilton, Second ed., 1994.

37


Vlshwakarma Institute of Technology(An autonomous Institute affiliated 10 University Of Pune)666,Upper Indiranagar, Bibwewadi, rune. - 411 037.Department of lust rumentatlon Engineering

FF No.: 654--~-~-"-,- .•.-•..----.".",,.

L____ IC_::_:3:_:o-=-3~10:: _IN D ustRi~L AUTOMATION-~~~-~~~_j

[--"------"-"--r---"-"----Credits: 01 _Teaci;i~g-Schcme:-:-Laboratory2 Rrs/Week ,--""-- ...-.---------'-~--~~------

I -~--"------------I Prerequisites: Nil -- -_--- --~-----~~~~~~~-~

Objectives: Upon completion of this COll~::~e,st~ldentshOll1dbe able to:• Know the operation of DCS and PLC.• Design control strategy for process control system.

- "--_~~~~~--~~~~~~~__j

List of Practicals : Students should perform at least 12 practicals from given list.

1. Development of Ladder program for simple on-off applications.

2. Development of Ladder program for Timing and counting applications

3. Use of advanced instructions for appl ication in PLC.

4. Development of SFC Program for batch applications.

5. Structure Text Programming for given process.

6. Creating and Configuring a Project and tags in SCADA

7. Configuring Screens and Graphics

8. Programming ofHMI interfacing with PLC

9. Study of Delta-V Explorer, Control Studio and Delta -V Operate.

10. Develop simulate programming using FBD in Delta-V

11. Development ofSLPC using Control Studio.

12. Tag Assignments to Field Devices in DCS.

13. DCS based PID control for temperature loop.

14. Communicate PLC with SCADA & DCS.

15. Development of Front-end and P & 10 diagram with Delta V Operate.

16. Develop serial communication using Delta-V DCS

Text Books1. "Programmable Logic Controllers",.I. Webb, Prentice Hall ofIndia.2. "Introduction to Programmable Logic Controllers", Gary Dunning, Delmar Thomson

Learning.3. "Distributed C~~l.I~r C<:J_ntrolforIndustrial Autol11ati()!!~_P.Bhatkar, Dekkar Publications~

38

Bansilal Rarnnnth Agarwal Charitable Trust's

Vishwakarn13 Institute of Technology(An autonomous fllstitllte affiliated to University Of Pune)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.Department of Iustrumentutinn Engineering

Reference Books1. "Programmable Controllers", Richard Cox, International Thomson Computer Press.2. "Instrument Engineer's Handbook - Process Software and Digital Network", B. G. Liptak,

CRC Press, 2005.'--------'---------------------

- --------------------------__j

FF No.: 654---- ----- --------------------=-=::__::_=-=--=--==-]IC30308:: PROCESS LOOP COMPONENTS

T('adlil~g§cheme: - Laboratory 2 Hrs/Week II Prerequisites: Nil ---- - -----------------~

---------------

--------------------jObjectives: Upon completion of this course, student should be able to:• Know the fundamentals of process loop components.• Check performance specifications of component.


Students should perform at least 12 practicals from given list.

1. Study and calibration of current to pressure converter.

2. Study and calibration of pressure to current converter.

3. Demonstration and study of square root extractor.

4. Demonstration and study of alarm annunciator.

5. Study of analog two-wire RTD and Thermocouple temperature transmitter.

6. Study of SMART temperature transmitter.

7. Study of D.P. transmitter and calibrate it using hand-held configurator for level.

8. Tuning ofPID controller for temperature/pressure control loop.

9. Tuning ofPID controller for level/flow control loop.

10. Study of control valve cut section, accessories, actuators and various types of valves

11. Design of intrinsic safety circuit.

12. Study of Flow Totalizer.

13. Plot installed characteristics of control valve.

14. Study of Two position control mock.

39

Bansilal Rarnnnth Agarwal Charitable Trust's

Vishwakarrnn Institute of Technology(An autonomous Illstitllte affiliated to University Of Pun e)666,Upper Indiranagar, Bibwewadi, Pune. - 411 037.

Department of Instrumentation EngineeringII Text BooksI

---~---- ------------------------1

1. "Process control and Instrument technology", C. D. Johnson, Tata McGraw HillPublications.

2. "Instrumentation for Process measurement and control", N.A. Anderson

I Reference Books

I 1. "Process Control, Instrument Engineering Hand book", B.G. Liptak.2. "Tuning of industrial control systems", ISA.3. "Control valve Handbo()_!c",ISA. _ _ _ _

---FF No.: 654

,-------------- -------- -- -- ---_--~--- --~ -----------~IC40106:: DIGITAL CONTROL

I Credits: 03 1-------- -----___L__ _

-- ----~-------~-lT('a~_~~~~Scheme: Theory 3 Hrs/Week

-c------ ------ __ --,

IPrerequisites: Control systems, Modern Control Theory, Z-transform

: Objectives: Upon completion of this course, student should be abc-:l-e-to-:------------iI- The students should able to study anf design discrete-time control systems by themselves.

I - Knowledge of basic concepts of digital control systems.

I - Mapping with PEOs: III (e)'------------------------ -

Unit I: (8+IHrs)

Introduction to Discrete Time Control System

Basic building blocks of Discrete time Control system, Sampling Theorem, Z transform and

Inverse Z transform for applications for solving differential equations, Mapping between the S

plane and the Z-plane, Impulse sampling and Data Hold.

Unit II: Pulse Transfer Function and Djgital PID Controllers (8+1Hrs)

The pulse transfer function, pulse transfer function of Closed Loop systems, Pulse transfer

function of Digital PID controller, Velocity & Position forms of Digital PID Controller,

Realization of Digital Controllers, Deadbeat response and ringing of poles.

Unit III: Design of Discrete Time Control System by conventional methods (8+1Hrs)

40


Vlshwakarmn Institute of Technology(An autonomous JIIS/i/1I1L' affiliated to University Of Pun e)666,Upper Indirall~lgar, Bibwewadi, rune. - 411 037.

the root locus method, Digital Controller Design using Analytical Design Method.

Stability analysis in Z-plane, Jury stability criterion, Bilinear transformations, Design based onDepartment of Instrumentation Engineering

Unit VI: State Space Analysis of Discrete Time Control System (8+ IHrs)

State space representation of discrete time systems, Solution of discrete time state space

equations, Pulse transfer function matrix, Eigen Values, Eigen Vectors and Matrix

Diagonalization, Discretization of continuous time state space equations, Similaritytransformations.

Unit V: Pole Placement, Observer Dcsiyn and Optimal Control (8+1Hrs)

Concept of Controllability and Observability, Useful transformations in state space analysis and

design, Stability improvement by state feedback, Design via pole placement, State observers.

Quadratic Optimal Control and Quadratic performance index, Optimal state regulator through the

matrix riccati equations, Steady State Quadratic Optimal Control.

TextBooks

1.Discrete Time Control systems by K. Ogata, Prentice Hall, Second Edition, 2003.

2. Digital Control and State Variable Methods by M. Gopnl, Tata McGraw Hill,2003.

Reference Books

1. Digital control of Dynamic Systems by G.F.Franklin, LDavid Powell, Michael Workman 3rd

Edition, Addison Wesley, 2000.

2. Digital Control Engineering by M. Gopal, Wiley Eastern Ltd, 1989.

3. Digital Control by Kannan Moudgalya, John Wiley and Sons, 2007.

4. Digital Control by Forsytheand W. and Goodall R.N McMillan,1991.

5. Digital Control Systems by Courant inc I I Houpis and Gary B. Lamont, Second Edition,McGraw-Hili International, 2002.

41


Vishwakarnl:l Institute of Technology(An autonomous Instit ut« affiliated 10 University Of Pun e)666,Upper Indir:1I1agar,Bibwewadi, Pune. - 411 037.Department of Instrumentation Engineering

FF No.: 654IC40306:: DlGITAL CONTROL

I Credits: 01 _ [~=~=-~~ Teaching Scheme: Lab 2 Hrs/Week II Prerequisites: Familiarit.)'_\Vith~ATLAB -_ -- - --- ---I Objectives: Upon completion of this course, si~;(fe;:;tsho~ddbe ab--:-Ie-to-:------------II • To analyze and ~~sign t~e discr~te time systems.i • To analyze stability of discrete time systems.I • Mapping with PEDs: III (e)

List of Experiments - --_-------------------'

1)Find the Response of the Discrete Time Control System for any two standard inputs.

2) Unit step Response of Discrete Time C0l1t1"01System using Digital PID controller.

3) Design of deadbeat controller for Discrete Time Control System.

4) Determine effect of sampling period Oil stability of Discrete Time Control System.

5) Discretization of continuous time state equation.

6) Investigation of the controllability and Observability ofa system.

7) Design of control system using pole placement technique.

8)Design of State observer.

9) Design of Discrete Time Control System based on minimization of quadratic performance index.

10)The solution of steady state quadratic optical control using riccati equation.

Text Books

1. Discrete Time Control systems by K. Ogata, Prentice J Iall, Second Edition, 2003.

2. Digital Control and State Variable Methods by M. Gopal, Tata McGraw Hill,2003.

Reference Books

1. Digital control of Dynamic Systems by G.F.Franklin, J.David Powell, Michael Workman 3rd

Edition, Addison Wesley, 2000.

2. Digital Control Engineering by M. Gopal, Wiley Eastern Ltd, 1989.

42


Vlshwakarmn Institute of Technology(An autonomous Institute affiliated to University Of Pun e)666,Upper Indirnnagar, Bibwewadi, Pune. - 411 037.

Department of Instrumentation Engineering~~~~~--~----~----------3. Digital Control by Kannan Moudgalya. Jol.n Wiley and Sons, 2007.

4. Digital Control by Forsytheand W. and Goodall R.N McMillan,1991.

FFNo.: 654

IC42117:: BIO SIGNAL PROCESSING

I Credits: 03---'- _._----- Teaching Scheme: Theory 3 Hrs/Week I

,------ ------- .._-_ ...._-----

Prerequisites: Control systems, Modern Control Theory, Z-transform-"--"'-'-'--~-"""""'--'-"'- ---..•. '--•.."'--~ ...---.--"'-

Objectives: The student will also be able to demonstrate the practical, subject specific skills to:

• Implement key biomedical signal and image processing tasks in Matlab.• Select and evaluate appropriate signal and image processing methods for specific

biomedical applications, and interpret results critically.• Synthesize results, discuss interpretations, and propose alternative algorithms.

'--------_._-_._------_._-_.

Unit I X-ray and CT

A: X-ray Machines- Radiation & interaction with matter, Generation of X-ray, X-ray machine,X-ray films, Fluorescence Screens, Image intensifier, Portable and mobile X-ray machinesComputed Tomography - Principle, Contrast Scale, CT scanning system, different CTgeneration, image reconstruction techniques

B: Dental X ray machines, digital Radiography, study of image reconstruction algorithm

Unit 2 MRI and Laser

A: Magnetic resonance imaging - Principal of NMR Imaging Systems, Image ReconstructionTechniques, Basic NMR Components, Biolouical Effects of MRI Imaging.

Laser applications in Medicine- Types 01' Lasers, Interaction of Lasers with Tissues, Laserapplications in biomedical

B: Study ofMRI image reconstruction techniques, Laser applications in Opthalmology

Unit3 Ultrasound and Nuclear Medicine

43


Vishwakarma Institute of Technology(An autonomous Institute affiliated 10 University Of Pun e)666,Upper Indiranagar, Bibwewadi, Pune, - 411 037.Department of Instrumentation Engineering

A: Ultra sound imaging - Physics or Ultrasonic Waves, Medical Ultrasound, A- Scan, B- Scan,M- Scan, Real time Ultrasonic Imaging Systems,Nuclear Medical Imaging System- Radiation detectors, Pulse Height analyzers, Radio- isotopeRectilinear Scanner, Gamma Camera, Emission Computed Tomography (ECT)B: Digital Scan Converter, Single -Photon Emission Computed Tomography (SPECT), PositronEmission Tomography(PET)

Unit 4 Biomedical Image Processing

A: Introduction to Image Processing, Image Formation Model, Image Sampling and Quantization,Representation of Digital Images, Basic Relationship between Pixels, Distance Measures,Introduction to Transforms like OFT, FI~T .Basics or Image Enhancement techniques, SpatialDomain Methods For enhancements, Frequency Domain Methods,B: Medical Image Segmentatiori - Histogram-based methods, Region growing and watersheds

Unit 5 Biomedical Signal Processing

A: Frequency domain analysis of ECG and EEG signal, ECG QRS detection: digital approach,IIR digital filter for ECG analysis, ECC signal averaging, 60HZ adaptive filter for ECG noiseremovalB: Review of linear systems: Fourier Transform and Time Frequency Analysis, Processing ofRandom & Stochastic signals, power spectral Estimation,

Text Books:

1.Carr & Brown,' Introduction To Biomedical Equipment Technology'2. R. S. Khandpur,' Handbook of Biomcdical lnstrumentation", TMH3. Willis J Tompkins, "Biomedical Sigll:11Processing" , ED, Prentice Hall, 19934. Gonzalez, woods, "Digital Image Proccssing",3rd edition, Pearson Publications.

Reference books:

1. D. C. Reddy ,"Biomedical Signal Processing: Principles and techniques" ,Tata McGrawHill, New Delhi, 2005

2. Bronzino,' The Biomedical Engineering Handbook', IEEE Press3. Rangaraj M. Rangayyan: "Biomedical Signal Analysis", IEEE Press/Wiley, New York,

NY, 2002

44


vtshwakarma Institute of Technology(An autonomous Institute affiliated 10 University Of Pun e)666,Upper Indiran.rgar, Bibwewadi, rune. - 411 037.Department or Instrumentation Engineering

--------------------~~---------A nucxure - IILPurdueNext Courses - as a Filial Year B. Tech. Elective-I courses along withTutorials for pattern A-II with effect from Academic Year 2014-15

Signal Processing for Eml1ellded Systems(ece.embed.i'l )

Course Objectives:Students wllIleam to design and analyze d,scre1e-time signal processing algorithms and to model and analyze

practical considerations. which present :i1~m ",l',,,s in embedc,8d systems. The course will begin with a review ofthe elements of continuous time systems I -. ~,5n1 to discr-ete lime systems and then thoroughly cover discretetime signal processing. Particular atten:ior, 0", paid. to mOdE-lIn~non-ideal effects.

Target Audience:

Undergraduate and graduate stuo ents pursuing degrees in electrical and computer engineeringProfessionals looking for a tech"i.: -,I retr-s,I, of the matHial

Course Outcomes:Students will learn

Analysis and design tools for time-clomsin and frequency-domain discrete-time systemsModels for non-ideal effects in1pO;"1~n:tOI practical eIT1\)Bd(led systems

Standard Course Features:• Course Lectures (Pre_Recorded)

Pre-recorded video lectures a'l3;1[< I~ tor each lessonLecture Slides (PDF Printabl"lUsed in conjunction with lectur" ,/iO"05Lecture Transcripts (PDF PrilltZ1i-i"iUsed to follow along with lectur." ',1(1,0':.5Homework Assignments (Modul'" homework)Used to practice lecture subjec:,Quizzes (L.evel Quizzes)Used to quiz student knowledge of courSE-material after each lectureTests (L.evel Quizzes)Used to test student knowledge Of cours e materia! after each module

! Additional Features:Interactive ElementUsed to support understanding of I~sson topicsSimulation Tools: MatlabUsed to support understanding of I~sson t opics,

; Grading System:Grades will be solely based on the answer s you provide for the Exam exercises: Exams are graded on an

absolute scete.

Page 11

45


vtshwakarma Institute of Technology(An autonomous Institiue affiliated to University Of Pun e)666,Upper Indiral1:igar. Bibwcwadi, rune. - 411 037.Department of Inst I'llmentation Engineering

Students who complete the course with a passing grade Viii! receive a "Proot of Completion- Award.

PurdueNExT is awarding digital badges to students who successfully complete courses. Digital badges arcertifiable icons that represent academic acr,ie'iements or skills smaller than a college degree.

IModular Outline:This course is broken into 5 modules. Each 1',lodulecovers specific topics listed below.

MODULE 1: OVERVIEW OF EMBEDDED SYSTEMS AND REVIEW OF CONTINUOUS-TIME (eT) SIGtPROCESSINGLectures:L 1.1: Overview of Embedded Systems - ,A,rchitectures, Applicetions & ExamplesL 1.2: Review of CT Signals - Abstracuons, r~eal-VVorldSi~nals, and NoiseL 1.3: Review of CT Systems - Examples cf ,~,;iseVVidth t'.lodulation and Noise FilteringL 1.4: Review of CT Systems - Circuit Exail';:,i.,.s. Differential Equations, and Numerical SimulationL 1.5: Review of CT Systems - ConvolutionL 1.6: Review of Signals and Systems in t',.,. Frequency Domain - Fourier SeriesL 1.7: Review of Signals and Systems in t:.~ ,=rsquency Domain - Fourier Transform Definitions and

Simple ExamplesL1:8: Review of Signals and Systems in the Frequency Domain - Fourier Transform Properties and PairsQuizzes:L 1.1: Overview of Embedded Systems - A.rchi'ectures. Applications, and ExamplesL 1.2: Review of CT Signals - Abstractions, F;.,.cli-VVor!d SiJnals. and NoiseL 1.3: Review of CT Systems - Examples of F' .!se VVi:Hhr,l)c:ulation and Noise FilteringEvaluation:Week 1Survey

MODULE 2: OVERVIEW OF EMBEDDED SYSTEMS AND REVIEW OF CONTINUOUS·TIME (CT) SIGtPROCESSING CONTINUEDLectures:L 2.1: Review of CT Systems - Circuit Examples, Differentia! Equations, and Numerical SimulationL 2.2: Review of CT Systems - ConvolutionL 2.3: Review of Signals and Systems in tne Frequency Domain - Fourier SeriesQuizzes:L 2.1: Review of CT Systems - Circuit Examples, Differential Equations, and Numerical SimulationL2.2: Review of CT Systems - ConvolutionL 2.3: Review of Signals and Systems ill (i,,,, Freqllency Domain - Fourier SeriesHomework:L 2.1: Review of CT Systems - Circuit Ey,arnpi.,.s,Differential Equations, and Numerical SimulationL 2.2: Review of CT Systems - ConvolutionL 2.3: Review of Signa~s and Systems in tne Frequency Domain - Fourier Series

MODULE 3: REVIEW OF CONTINUOUS·TIME (CT) SIGNAL PROCESSINGLectures:L 3.1 :Time and Frequency Dom ainsL 3.2: LTI FilteringL 3.3: Deterministic and Random SignalsQuiz Module 3

46


Vishwakarrun Institute of Technology(An autonomous lnstit ute affiliated 10 University Of Pun e)666,Upper Indiranagar, Bibwewadi, rune. - 411 037.Department of Instrumentation Engineering

MODULE 4.: INTRODUCTION TO DISCRETE TIME (DT) SIGNAL PROCESSINGLectures:L4.1: DT Signals-Abstractions and Real-VVorldSignalsL 4.2: DT Systems - Difference Equ::t:x;$ and Bleck DiagramsL 4.3: DT Systems - ConvolutionL 4.4: DT Signals and Systems in the Frequency Domain - Fourier Series and FFTL 4.5: DT Si.gnals and Systems in tl',,? Frequency ocmeln - DTFT Properties and PairsQuiz Module 4

MODULE 5: THE SAMPL1NG THEOREMLectures:L 5.1: Sampling by Pulses and lrnpuls.es, Frequency Domain Descriptions, and AliasingL 5.2: Ideal and Non-ideallnterpcla::::n FormulasL 5.3: Relationship Between CT Fe.: er and DT Fourier TransformsL 5.4: Numerical Examples with f..1.?: ~!)and Practical B,:'mdIimitednessQuiz Module 5

MODULE 6: USE OF OT METHODS TO EFFECT CT SIGNAL PROCESSINGLectures:L 6.1: LTI Filtering of CT Signals Using Cascade of sernpler, DT System. and tnterpolatotL 6.2: Finite Impulse Response (FiF 1 an:! Infinite lmpulss Response (IIR) FiltersL 6.3: Frequency Domain FilterinJL 6.4: Overlap-Add and overlap-s 3'/:: f',ls-thodsL 6.5: Frequency Conversions via :':::1"1);: e Rate ConversionsQuiz Module 6

MODULE 1:PRACTICAL AND NON·IDEAL CONSIDERATIONSLectures:L 7.1: Analog-to-Digital and Digit31-~>.tIl3Iog ConversionsL 7.2: Automatic Gain ControlL 1.3: Phase-Locked Loops 1L 7.4: Phase-Locked Loops 2L 1.5: Timing SynchronizationL 7.S: Finite PrecisionL 7.7: Summary and Wrap UpQuiz Module 7

Course Exam

47

--------------------- --- ---- ----------------------------


Vishwakarrna Institute of Technology.• (An autonomous lnstitut« affiliated 10 University Of Pun e)

""'4'"""~w,,VI 666,Upper Indira:l:lgar, Bibwewadi, Pune. - 411 037.__________ D_ep:._a_r_tm_e_n_t_o~·.lllstrumentationEngineering

PJJJlQ!lENExT

Hybrid-Electric Vehicles - PowerElectronics and Electric Machines(ece.power.i1 )

ICourse Objectives:The Hybrid Vehicles - Power Electronics and EI~ctricalMachines course will introduce students to operating

principles and fundamental parameters of ",:~,:"ic" and eiectrQn<':ct,anicalpower conversion system suitable forelectric and hybrid vehicles.

TargetAudience:• Undergraduate and graduate students pursulnq degrees in electrical and computer engineering• Professionals looking for a technical refre~n of the material

ICourse Outcomes:

Students will learn:About static and dynamic (switching) charecterlstlcs and device ratings for Diode, MOSFET and IGBTdevicesTo characterize steady state relationships betNeen input and output voltages and currents and quantifylosses/efficiency for DC-DC conven-ts .:>,,·:1six-step inverterTo characterize steady state and dynamic ;.oiationshipsi:elween input and output voltages and currentsof two-winding transformer and to qU3:"[if; i:sses/ettic.ency for magnet!cs . .. ..About fundamental operating princir::~s. :7 lee parameters and operating IlIr~ltationsutlllzln.gequivalentcircuits of each device for electrcmec:' a:~.::" energy conversion and to quantify losses/effiCiency

IStandard Course Features:• Course Lectures

Pre-recorded video lectures available for each lesson• Lecture Slides

Used in conjunction with lecture videos• Lecture Transcripts

Used to follow along with lecture videos• Downloadable Audio Files

Used to listen to the lecture videos

•e~!~~Squiz student knowledge of course material after each lectureFinal ProjectUsed to practice lecture subjects

•

IAdditional Features:• Interactive Elements .

Used to support understanding of lesson tOPICS• Simulation Tools Used: MatlabISII'lUIIIli •.

Used to support understanding cf I~:;::n toprcs

• Resources .Used to support understandinq of less8n tOPICS

48


Vishwakarmn Institute of Technology(An autonomous Instit ut« affiliated to University Of Pun e)666,Upper lndirauag.u; Bibwewadi, Pune. - 411 037.

Department of Insf nlluentation Engineering------------------~---------Grading System:

An overall score of 70% or greater is requlre,j to pass the class. Quizzes are worth 70% and the project i30% of the final grade.

Students wno complete the course wit!, a p,?1ssinggrade 'i/ill receive a "Proof of Completion" Award.

PurdueNExT is awarding digital badges to s'ucients who successtuny complete courses. Digital badges alcertifiable icons that represent academic a:ni2'iements or skills smaller than a college degree.

ICorresponding Courses in the Same Series:

• Introduction to Battery Technotocy tor Hybrid Electric Vehicles (ce.batt.l1)• Hybrid-Electric Vehicles - Perter "?':lce 3. Environment Impact (me.hysys.i1)

Modular Outline:This course is broken into 5 modules. Each ~\lodule covers specific topics listed below.

MODULE 1Lectures - Devices:

L 1.1: Power Electronics and serntccnouctcrsLectures - Dc/Dc Converters:

L 2.1: Buck ConverterL 2.2: Boost Converter & Bidirectiona! Ccm''Oiter

Quizzes:L 1.1: Power Electronics and SemlconductcrsL 2.1: Buck ConverterL 2.2: Boost Converter & Bldirectiona! C:m''?rter

MODULE 2Lectures:

L 3.1: Voltage Source InvertersL 3.2: Voltage Source Inverters (Part ~L 3.3: Voltage Source Inverters (Part:L 3.4: Voltage Source Inverters (Part .:.;

Quizzes:L 3: Voltage Source lnverters

MODULE 3Lectures:

L 4.1: Relevant Physics (Part 1)L 4.2: Relevant Physics (Part 2)

Quizzes: .L 4: Review of Relevant PhYSICS

49

Bansilal R:1I1lI1:1th Agarwal Charitable Trust's

Vtshwakarrua Institute of Technology(An autonomous Iustit ute affiliated 10 University Of Pun e)666,Upper Indiruuagur, Bibwewadi, Pune, - 411 037.Department of' !nst rumcntation Engineering

MODULE 4Lectures:

L 5.1: Permanent Magnet AC tvlac!lines (Part 1)L 5.2: Permanent Magnet AC tdaC!ii;:es (Part 2)L 5.3: Permanent Magnet AC r'"l,,::h ,""'$ =art 3)

Quizzes:L 5.1: PMAC Machines (Part 1)L 5.2: PMAC Machines (Part 2)L 5.3: PMAC Machines (Part 3)

MODULESLectures· Permanent Magnet AC Drives:

L 6.1: Permanent Magnet AC Drive:: 2JCi 1)L 6.2: Permanent Magnet AC Drive: :F':,rt 2)

Lectures -Induction and Switched ,:~.:lu~raneeDrives:L 7.1: Induction Motors and Drlver sL 7.2: Switched Reluctance Motors and Drives

Quizzes:L 6: Permanent Magnet AC DrivesL 7.1: Induction Motors and Drivers

Final Project:Project 1

50


Vlshwakarma Institute of Technology(An autonomous/"s/i/llli.' affiliated 10 University Of Pun e)666,Upper Indirunugar, Bibwewadi, Pune. - 411 037.Department of lust rumentation Engineering

!\IlileXUre - IVCourse Feedback Semester -II, Academic Year 2013-14

~ Vl

Bansilal Ramnath Agarwal Charitable Trust'sVISHWAKAh~.lA 1(~STlTUTEOF TECHNOLOGY - PUNS(An autoncn.cus Institute affi:;=,(edto University of Pune)666, Uppcllm;lrjnagar, Bibwewadl, Pune-411 037.

No. :VIJD0AI1s.;14/35 Date: 08.05.2014

f2LJ_~_S_Q~contentfeedbacK

Students' Feedback on Course content (ISO FF 752) for respective theory course~registered for in Semester - II, /<2i..k.llic year 2013-14 was carried out. alongwith theRegistration activity for the next Serr,cSk r courses.

Based on the feedback Sivc,n. a collection of responses given by the studentsarranged in .pdf are sent to the ch.: . nan of respective Board of Studies. The feedbackM$been analyzed and for the fOI,c.'; ;,9 courses tne student feedback indicates that a

, reconsi(;jerationbe made towards tr.e course content. The basis used is: ,

1. The total number of students feedback >=35

AND

2. No, of students choosing option 'a' + No. of students choosing option 'b' 5'__ --------~-----.-------------.------------- -- <= 0.6

Total no. of stuj;.;nts ;:,in9 feedback

The course codes are -

~~~~lDean - QuaUty Assurance

Copy to - , " ;1. Han. Director for kind information .2.. Dean AcademiCSfor kind i:'io:rna\lon3. Chairman, BOS InstrumcnUicll

51



The Agenda of BOS meeting dt. 09.12.2014


2. Approval to the following PurdueNext Courses - as a Final Year B. Tech.

Elective-III courses along with Tutorials for pattern F-llRevised and A-14

with effect from Academic Year 2014-15

(a) IC42118 : Mechanics ofMEMS and NEMS: Transduction and Related

topics and Tutorial (IC42218) for the same course

3. Any other point deemed appropriate for discussion in BOS

1



Minutes of Meeting of BOS in Instrumentation and Control Engineering held atInstrumentation Engineering Department, VIT, Pune, on Thursday 9th December2014


A meeting of the Board of Studies in Instrumentation and Control Engineering was held inInstrumentation Engineering Department, VIT, Pune, on Tuesday 9th December 2014 at 3.30 pm.


1. Prof. P. M. KanjalkarAsstt. Professor & Head, Instru. Engg. Deptt.


3. Prof. P. V. PolAsstt. Professor, Instru. Engg. Deptt.

4. Prof. (Mrs.) M. R. MhetreAsstt. Professor, Instru. Engg. Deptt.

5. Prof. (Mrs.) S. Y. SondkarAsstt. Professor, Instru. Engg. Deptt.

6. Prof. J. A. GaikwadAsstt. Professor, Instru. Engg. Deptt.

Chairman

Member

Member

Member

Member

Member Secretary


1. Prof. V. R. Bhanuse, Asstt. Professor, Instru. Engg. Deptt.2. Prof. K. G. Mundada, Asstt. Professor, Instru. Engg. Deptt.3. Prof. (Mrs.) Archana K. Chaudhary, Asstt. Professor, Instru. Engg. Deptt.4. Prof. (Mrs.) Deepali S. Dhande, Asstt. Professor, Instru. Engg. Deptt.5. Prof. T. G. Patil, Asstt. Professor, Instru. Engg. Deptt.6. Prof. R. R. Patel, Asstt. Professor, Instru. Engg. Deptt.7. Prof. S. M. Deokar, Asstt. Professor, Instru. Engg. Deptt.8. Prof. A. B. Kadu, Asstt. Professor, Instru. Engg. Deptt.

The Following members were absent and the leave has been granted.1. Prof. (Dr.) Mukul Chandolkar2. Prof. (Dr.) C. Y. Patil,3. Prof. (Dr.) S. L. Patil,4. Mr. Shirish Chaphekar5. Mr. Ajay Nagarkar

2



The BOS considered the items of the agenda and the items permitted by the Chair anddecided as follows:Item-1 Reading and Confirmation of minutes of the Last Meeting

The minutes of the last meeting were read and confirmed.Prof. 1. A. GaikwadProf. P. V. Pol

Resolution 1:Proposed by -Seconded byItem-2 Approval to the following PurdueNext Courses - as a Final Year B.

Tech. Elective-III courses along with Tutorials for A-ll with effectfrom Academic Year 2014-15 and same to be continue to pattern F-llRevised and A-14IC42118 : Mechanics of MEMS and NEMS: Transduction andRelated topics and Tutorial (IC42218) for the same course

Resolution 1: The above PurdueNext courses (Annexure-I - Page No 4 to 6)were accepted and approved.

Proposed by - Prof. Mrs. Manisha MhetreSeconded by- Prof. Mrs. Shilpa SondkarResolution unanimously passed

VProf. P. M. KanjalkarChairman, BOS

3



Annexure-IPurdueNext Courses - as a Final Year B. Tech. Elective-III coursesalong with Tutorials for pattern F-IIRevised and A-14 with effect fromAcademic Year 2014-15

(a) IC42118: Mechanics of MEMS and NEMS: Transductionand Related topics and Tutorial (IC42218) for the same course

FF No.: 654

IC42218:: MECHANICS OF MEMS ANDNEMS-TRANSDUCTIONANDRELATED TOPICS

Credits: 03 Teaching Scheme: Theory 3 Hours/Week

MODULE 1:ELECTROSTATIC TRANSDUCTION: PARALLEL-PLATE SYSTEMSReading:Chapter 7Lecture:Lecture 7Lecture Examples:Lecture Example 7.1ELECTROSTATIC TRANSDUCTION: COMB DRIVES AND TUNING MECHANISMSReading:Chapter 8Lecture:Lecture 8Lecture Examples:Lecture Example 8.1

PIEZORESISTIVE SENSINGReading:Chapter 9Lecture:Lecture 9Lecture Examples:Lecture Example 9.1Lecture Example 9.2PIEZOELECTRIC TRANSDUCTIONReading:Chapter 10Lecture:

4



Lecture 10Lecture Examples:Lecture Example 10.1Lecture Example 10.2MAGNETIC ANDELECTROMAGNETIC TRANSDUCTIONReading:Chapter 11Lecture:Lecture 11Lecture Examples:Lecture Example 11.1Lecture Example 11.2Lecture Example 11.3Lecture Example 1104

MODULE 4:THERMAL TRANSDUCTIONReading:Chapter 12Lecture:Lecture 12Lecture Examples:Lecture Example 12.1Lecture Example 12.2MODULE 5:NEAR-FIELD INTERACTIONSReading:Chapter 13Lecture:Lecture 13

Course Outcomes:Students will be able to

1. Understand basic principles ofMEMS sensor2. Comprehend mathematical modeling of electrostatic, piezoelectric, electromagnetic and

thermal conduction sensor3. Analyze the electrostatic, piezoelectric, electromagnetic and thermal conduction sensor4. Solve the problems related to the different mentioned sensors.5. Realize noise, nonlinearity and near field interaction in MEMS sensor design

5



FFNo.: 654C

IC42218:: MECHANICS OF MEMS ANDNEMS-TRANSDUCTIONANDRELATED TOPICS

Credits: 01 Teaching Scheme: 1 Hr/Week

List of Tutorials:Mechanics of MEMS and NEMS- Transduction and Related Topics

1. Derive the expression for plates and beams

2. Derive model of resonaters

3. Discuss the modeling and analysis of electrostatic conduction

4. Derive the Maxwell's equation for Electrostatic conduction

5. Using lumped model method derive the expression for combo drive and tuning

mechanism

6. Develop the equations for the lumped mass sensor and actuator.

7. Derive model of Electromagnetic transduction mechanism

8. Derive the expression for electromagnetic transduction using Lorentz forces, back emf,

and permanent magnet interaction

9. Derive the model for thermo elastic transducers

10. Comments on Fluidic dissipation in MEMS and NEMS

11. Discuss about nonlinearities in MEMS and NEMS system

Course Outcomes:Students will be able to

1. Understand basic principles of MEMS sensor2. Comprehend mathematical modeling of electrostatic, piezoelectric, electromagnetic and

thermal conduction sensor3. Analyze the electrostatic, piezoelectric, electromagnetic and thermal conduction sensor4. Solve the problems related to the different mentioned sensors.5. Realize noise, nonlinearity and near field interaction in MEMS sensor design

6

G


Vishwakartu.i Institute of Technology(An Autonomous Institute "'i/ji/iu/c'd to Savitribai I'ltule Pune University)

666, Upper Indir.uiagar, Bibwcwadi, rune 411 037Department of instrumentation Engineering

The agenda or 111(' meeting <It. 15.05.2015

1. Department Activities in of;\.Y. ~OI4-15


3. Presentation and discussion or Department Vision, Mission, PEOs, POs and COs

4. Presentation and discussion 01' Alumni Employer Survey and Industry Survey formats

5. Approval for new Honor course: Electronic Product Reliability and Testing

6. Approval for new Minor course: Industrial Automation

7. Approval for new Professional Development course "Water Engineering"

8. Any other point deemed appropriate for discussion in BoS

1

Bansilal Rarnnath AgarwalCharitableTrust'sVishwakarma Institute of Technology

(An Autonomous Institute Ajjil!(ilcd to Savitribai PIntle Pune University)666, Upper Indiranag.rr, Bibwcwadi, rune 411 037Department of instrumentation Engineering

Minutes of Meeting of BOS in Instrumentation and Control Engineering held atInstrumentation Engineering Dcpurtuu-nt, VIT, Puue, on Friday lSthMay 2015

Venue: Room No. 4304-A, Instrumentation Engineering Department, VIT, Pune.

A meeting of the Board of Studies in Instrumentation and Control Engineering was held inInstrumentation Engineering Department, VIT, Pune, on friday lSthMay 2015at 3.30 pm.



2. Prof. (Dr.) C. Y. Patil, MemberChairman BOS, Instru. Engg., University of Pune

3. Prof. (Dr.) S. L. Patil, MemberHead, Instru. Engg Deptt, College 01' Engineering, rune.

4. Mr. Shirish Chaphekar MemberDirector, Emerson Exports Engineering Centre, Pune.

5. Prof. P. V. Pol MemberAsstt. Professor, Instru. Engg. Dcptt.

6. Prof. (Mrs.) M. R. Mhetre MemberAsstt. Professor, Instru. Engg. Dcptt.

7. Prof. (Mrs.) S. Y. Sondkar MemberAsstt. Professor, Instru. Engg. Dcpu.

8. Prof. (Dr.) D. K. Maghade MemberAsso. Professor, Instru. Engg. Dcptt,

9. Prof. J. A. Gaikwad Member SecretaryAsstt. Professor, Instru. Engg. Dcptt.


1. Prof. (Mrs.) S. S. Patankar, Asstt. Prolessor, lnstru. Engg. Deptt.2. Prof. V. R. Bhanuse, Asstt. ProkSSOL lnstru. Engg. Dcptt.3. Prof. K. G. Mundada, Asstt. Professor, Instru. Engg. Deptt.4. Prof. (Mrs.) A. K. Chaudhary, Asstt. Professor, lnstru. Engg. Deptt.5. Prof. (Mrs.) D. S. Dhande, Asstt. !'mkssor, lnstru. Engg. Deptt.6. Prof. A. B. Kadu, Asstt. Professor. ln-tru. Engg. Deptt.7. Prof. T. G. Patil, Asstt. Professor. lnsiru. Engg. Dcptt,8. Prof. Rajendra Patel, Asstt. Professor, lnstru. Fngg. Deptt.9. Prof. S. M. Deokar, Asstt. Professor, lnstru. Engg. Deptt,

2

Bansilal Ramn.nh AgarwalCharitable Trust'sVishwakarnn Institute of Technology

(An Autonomous Institute Ait.liated to Savltribai Phule Pune University)666, Upper lndirau.rg.rr, Bibwcwa.li, Pune 411 037

Department or IilSI rUlllcntalion Engineering-------------------------------

Prof. (Dr.) Mukul Chandolkar, liT Bombay is busy with its administrative work and theleave has been granted.Mr. Ajay Nagarkar Director, Mapyn, rune is busy with its administrative work and theleave has been granted.

The BOS considered the items 01' the agenda and the items permitted by the Chair anddecided as follows:

Item-1Resolution 1:Proposed by -Seconded by-

ltem-2Resolution 1:Proposed by -Seconded by-

ltem-3

Resolution 1:


Department Activities ill Scm -II of A.Y. 2014-15The report ui' ckpartment activities was read and confirmed.

Prof. 1\1. I~, vlhetreProf. (lk) S. L. Patil

Reading and Confirmation of minutes of the Last MeetingThe minutes otrhe last meeting were read and confirmed.

Prof . .I. A. GaikwadProf. (Dr.) C. Y. Patil

Presentation und discussion of Department Vision, Mission,PEOs, POs uud COsDepartment Vision, Mission statement, Program EducationalObjectives, Pnlgral11l11eOutcomes and Course Outcomes werepresented :111d acccpted.t Annexure-I- PageNo.5 t06)Prof. I\lrs. >;. Y. SondkarMr. Shi:':s!l Chaphekar


ltem-4

Resolution 1:


Presentation uud discussion of Alumni Employer Survey andIndustrv Sl1l'Vl'V formats. .Department Alumni Employer Survey and Industry Survey formatswere prcscnicd and acccptcd.rAnnexure-Il - PageNo.7 to 8)

Prof. i\Jrs. S. S. PatankarMr. Sl1il-:;:1 Chaphekar


3

-------- - --

Bansilal Ramnnih Agarwal Charitable Trust'sVishwakarnn Institute of Technology

(An Autonomous Institute .1".'1i(/ledto Savitribai PIntle Pune University)666, Upper Indir:ili:i~':ir, Bibwewadi, Pune 411037

Department of inxt rumentatioll Engineering-----------------------------

Item-5

Resolution 1:


Approval Iur new Honor course: Electronic Product Reliabilityand Testiu:The Structure and Syllabus of above Honor CourseElectronicProduct p,,::; .hility and Testing with effect from Academic Year2015-16 were accepted and approved.(Annexure-lII - Page No.9to 17)Prof. P. V, PolProf. (Ik) ,;.!~.Patil


Item-6Resolution 1:


Approval for IICW Minor course: Industrial AutomationThe Structure .md Syllabus of aboveMinor Coursewith effect fromAcadcm ic \' ::11' 2015-16 were accepted and approved. (AnnexureIV - Page :';\). 1:-;to 29)Prof. J. ,\. C::ikwadProf. (Dr.) ~~.L. Patil


Item-7

Resolution 1:


Approval for new Profcsxlonal Development course: WaterEnginccri II';

The Syllabus of Professional Development course was acceptedand approved. (Annexurc-V - Page No. 30)Prof. P. V. PolProf. (Dr.) C. Y. Pal:l


Prof. P. M. KanjalkarChairman, BOS

4


Vishwakarma Institute of Technology(An Autonomous Institute Alii/ii/fed to Savitiibai PIntle Pune University)

666, Upper lndir.u.ng:.r, Bibwcwadi. Pune 411037Department of Ins! rument.uion Engineering

Annexure - IDepartment Vision, Mission sr: u-ment, Program Educational Objectives,

Programme Out cumes and Course Outcomes

Vision statement of InstituteTo be globally acclaimed Institute in Technical Education and Researchfor holistic Socio-economic d.-vc lopment

Mission s.utcmcnt or Institute• To impart knowledge and skill based Education in collaboration with

Industry, Academia and Rescnrch Organization• To strengthen global collaboration for Students, Faculty Exchange and

joint Research• To prepare competent Engineers with the spirit of Entrepreneurship• To Inculcate and Strength Research Aptitude amongst the Students and

Faculty

Vision statement of DepartrnentTo be recognized resource or globally competent professionals 111 thedomain of Instrumentation and Control Eng incering

Mission statement of Department• To excel in technical education of Instrumentation and Control

Engineering with active' ;)articip:ltion of National-InternationalUniversities and Industries for curricu lar and co-curricular activities

• To prepare globally competent Engineers to meet the demands ofInstrumentation and Control Industries

• To develop professionals with entrepreneurial skills to address socioeconomic Issues.

• To enhance students' involvement in collaborative research projectsfrom industry and research organizations.

5

--------------------------- - -- -_.

Bansilal Ramn.nh Agarwal Charitable Trust's

Vishwakarrna Institute of Technology(An Autonomous Instil lite ilicttcc! to Savltribai PIll tie Pune University)

666, Upper lndirunagar, Bibwcwadi, rune 411 037Department of lnsr rument.u iun Engineering

Program Educational Objectives (PEOs) forundergraduate programme in instrumentation and Control Engineering

PEOs are broad statements that describe the career and professionalaccomplishments that the progr.unme is preparing graduate to achieve.

The major objectives of B.Tech. (Instrumentation and Control Engineering)programme are to prepare students:

1. To provide professional services tolnstrumentation and allied

organizations.

2. With multidisciplinary competency for Higher Education in India and

Abroad in the field of Engineering and Management

3. To grow as Entrepreneurs

4. To be responsible citizen with social, moral and professional ethics

6

Bansilal Ramn.uh Agarwal Charitable Trust's

Vlshwakarma Institute of Technology(An Autonomous Institute A//:!iull!d 10 Savitribai Pliule Pune University)

666, Upper Indiranagar, Bibwewa.Ii, rune 411 037Department 01" l nst rument.u ion Engincering

Annexure - II-....--- --Alumni Employer Su !'Vl'.\' and lud ustry Survey formats

Alumni Employer Survey

Sr. Question Satisfied PartiallyUnsatisfied Remarks if

No. Satisfied any1. Do the employees demonstrate 3(jr":quclte

technical competency in terms of C_"I11Z1inknowledge of Instrumentation / f\lliedEngineering?

2. Are the employee able to app:) t':efundamental concepts for analyz.nq Lieproblems and able to device a p!,:!JsiL!esolution?

3. Is the employee capable of working on toprojects involving complex technicalinvestigations?

4. Are the employees proficient in a();:llyin~modern tools?

5. Is the employee exhibit leadership qua": es?6. Do the employees possess strong ethi ':'i7. Do the employees exhibit good team ' ';

8. Overall Soft-skills of the employees?9. Number of employee exhibit Man::;"'IIH?nt

skills and understanding of finance ;2!:;t::~dissues?

10. Are the employees active in environrnci t aridcommunity welfare related initiatives?

Nameof the Organization

No. of Students placed till dateNameand Designation ofthe person filling the form

Signaturewith Date

7

- - - - - - ----------------------------------

Bansilal Rarnnath Agarwa] Charitable Trust's

Vlshwakarrna Institute of Technology(An Autonomous Institute .1/i.'!iuled to Savitribai Nil de Pune University)

666, Upper Indirunagar, Bibwcw.«!i. Pune 411 037Department of 1;;-;trul11clltal ion Engineering

lndust.v Survey formatPleasegive your valuable suggestions Oil:

1. Core Competency................................................................................................................................................................................................................................................................................................................................................................................................................................................

2. Necessary Skills Set................................................................................................................................................................................................................................................................................................................................................................................................................................................

3. Technical Proficiency................................................................................................................................................................................................................................................................................................................................................................................................................................................

4. Soft Skills................................................................................................................................................................................................................................................................................................................................................................................................................................................

5. Overall expectations from students to be placed in your organisation................................................................................................................................................................................................................................................................................................................................................................................................................................................

Nameof the Organization

Nameand Designation ofthe person filling the formSignaturewith Date

8


Vlshwakarma institute of Technology(An Autonomous Institute Affil.cued to Savitribai Pltule Pune University)

666, Upper Indira: :l~ar, Bibwcwudi, Pune 411 037Department of I.ixtrumentnt iUII F.ngineering

---------------------------- .----------------------------Annexure-Ill

The Structure nu i Syllabus uf Ilonor CourseElectronic Proi: tid Reliability and Tcsting

Structure for Honors in El-ctronic Product Reliability & Testingwith effect froid Academic Year 2015-16

Code Subject Type Tl'::;:Ling :\SSl'SSllll'nt Scheme CreditsSc h ; .n e

L '. 'I'll t ISA ESAi

~i\'~~~1 ESE

- Semester IIntroduction to Theory 2 i5 20 5 60 2Reliability of Devices Core

'TOTAL 2 2

T.Y. B.Tech. - Semester IIIC38106 Reliability for Electrical Theory 2 15 20 5 60 2

Interferences Core

IC38306 Reliability for Electrical Lab 70 30 1Interferences Core

TOTAL 2 ,1 3

Final Year B.Tech. - Semester IIC48105 Reliability against Theory 2 i5 20 5 60 2

Environmental Impact Core

IC48305 Reliability against Lab ") \ 70 30 1I -

Environmental Impact Core

TOTAL 2 1 3..

Final Year B.Tech. - Semester IIIC48308 Mini Project Lab 70 30 2

Core

TOTAL , 2-

9

Bansilal Rarnn.uh Agarwal Charitable Trust'sVishwakarrn.: institute of Technology

(An Autonomous Instil lite .(1 .liated to Suvitribai Phule Pune University)666, Upper lndiruuauar, Bibwcw.rdi. Pune 411037

Department of luxt rumeutut iun Engineering

IC38105:: Introduction to ReE::bility of Devices~~~~~~~~~~~

I Credits: 02.-_._-.-"_."'_".-.-..'..

Course Outcomes: Upon completion of this course the studentswill be able to:• Understand the significance and mca-urcment orrclinbilitv of electronic devices and standards

used• Apply the concepts of reliability in product design.

Unit I: Introduction to Reliability ElI~,illl'l'rillg 6 hrs

A. Introduction to Reliability, Basics and need of Rcliabi! ity engineering: understanding need ofSystem availability and mission readiness analysis ami related reliability and maintenancerequirement allocation. Mathematics and suuistical distribution used in Reliability

Reliability concepts: bath tub curve, MTTF, ;\ITI3F ctc., quality and reliability. Failures - itstype and causes. Availability and maintainability, Redundancy and redundant systems.

Functional System Failure analysis and derived requirements specification. Inherent (system)Design Reliability Analysis and derived rc.juircments specification: for both Hardware- andSoftware design. System Diagnostics dcsi gn. I:conol11icsor Reliabil ity Engineering

B.Listing relevant unreliability "hazards"

Unit II: Significance and Measurement of Relinbilitv and Applications 6 hrs

A. Reliability at component and assembly level, Basic selection criteria of components

B. Failure modes, Failure Mechanisms, f\1 [i\ and fall It Tree Analysis - Significance methodsand examples

Unit III: Reliability Demonstration And Qu:t1itic:ttioll 6 hrs

A. Introduction to standards e.g. MIL, IFe Reliability Demonstration Testing

B. Reliability growth modeling and testing. failure reponing and analysis

10

--------------------- -- - - - - -- --------------

Bansilal Ramn.uh Agarwal CIl:lritabie Trust's

Vishwakarma .n stitute o;'Technology(An Autonomous Institute /1I.'iliuled to Saviiriliai l'liule Pune University)

666, Upper lndiran.igar, Bibwcwadi, Pune 411 037Department of Ins! rurnent.uiou Engineering

------------------------------- ._---------------------------Unit IV:Reliability of devices for elcctr ivul n nrl euviruumcntul deployment 6 hrs

A. Design Iselection of parts lassemblies :tg:tillst environmental deployment, performanceparameters, manufacturing quality, technology, long term behavior of performance parameters

B. Examples offield deployment for electronic cquipmcnts

TextBooks

1. "Reliability engineering", E Balagurus.uuy, Tata McGrnvv lIill.

Reference Books

1. "Applied Instrumentation in Process lndustrics", Andrew, Williams, Gulf PublicationsCompany.2. "Measurement System Application and Design", E. 0, Docbclin, McGraw-HillInternational Publications.3. "Noise Reduction Techniques in Electronic System", II. Ott, John Wiley & Sons.4. Reliability engineering for Electronic design - Norman Fuqua5. Practical Reliability Engineering - P:III-:k lJ'connor

11

Bansilal Ramn.uh Agarwa] CharitableTrust'sVisbwakarrna ;nstitute of Technology

(An Autonomous Institute .cl/:i;iu/I.'c/to Savitr.h«! Phule Pune University)666, Upper lndir.u.auur, Bibwcw.r.li. Pune 4 11037

Department of •,,'it rnment:d iUiI Engineering-------------------------------

IC38106 :: Reliabili: y fur Elect r ical InterferencesL-_________________ -----------~

- - ----~----- -----------~

I ---"-,----"-- --"-I Credits: 02 I __ ".__

------------"-~~~veeklTl':II:hing Scheme: ~Theory 2 Hrs/Week

- --

Course Outcomes: Upon completion 01' t his course the students will be able to:• Understand EMIIEMC interference ill electronic devices• Apply methods for checking, test: ;",and acceptance for electronic devices with

reference EMIIEMC aspectk. Design ~duct with~MIIEMC !':qllircmel1ts

Unit I: Introduction to EMIIEMC interferences 6hrs

A. Technical principles of EMI, F\ Ie and RFI, Sources of electromagnetic signals:Electromagnetic emissions, noise form rv.uys and switches, non-linearity in circuits, passiveinter modulation, transients in power su: ply lines, 1·:\11fro 11 1 rower electronic equipment, EMIas combination of radiation and condu.rion. Physics or [i\II/EMC interference sources, pathsand receptors, Noise, Noise coupling mechanisms, E!'!(.'ct of EMIIEMC/ESD on electroniccomponents, Electrostatic discharge, i\k,.·il:!llisIllS«f F\ll generation, EMl testing, Methods ofelimination of EMI and Biological effect, d' 1-:\11, Shielding and CablingB.Aspects ofEMl/EMC with examples

Unit II: Standards for EMIIEMC 6hrs

A. IEC standards, NEMA standards, DIN standard, M!L standards, FCC standardsB. Standards applicable for any particular lk\!icc

Unit III: Check, Acceptance and Test elj 1Iipmcnts 6hrs

A. Selection oftest procedures for a parli':~ibr device, F:VIIIEMCtest setups, Acceptance criteriafor various electronic products. Generat ::1.' L'st reports :l1ld interpretation of results.B. Case study for reliability test result iii ,'i'prdatioll

Unit IV: Product Design and Test Procv.Iu res for E\ Il!El\ICA. Enclosure design guidelines, PCB dc-.'. I guidcliill'c;,B. Make Enclosure designs for various C'i:JlI"'.JIlcrs

6hrs

12

Bansilal Rnmnath Agarwal Charitable Trust's

Vishwakarma Institut e of Technology(An Autonomous Institute ",1;' 'iiu/c'd to S/I'i'ri/J(/i l'ltule Pune University)

666, Upper [l1dil·:II:';~':lr.13ibwcwadi, rune 411 037Department of I :Isl 1'1I1llCIl1:11iun EIl~incering

.---------------------------Text Books:1. "Electronic Instrument design- Architecture for Life cycle"- Kim Fowler, OxfordUniversity Press2. "Reliability engineering", E Balngurusamy, Tata McGraw I[ill.

Reference Books1. ''Noise Reduction Techniques in Electronic System", [I. Ott, John Wiley & Sons.

13

-------- ---------------------------------------

Bansilal R3I11I1:tlh Agarwal Charitable Trust's

Vishwakarma institute of Technology(An Autonomous Institute ,un iated to Savitriba! 1'1/lI/ePune University)

666, Upper Inclir:lIJ:i~:lr,Bibwcwadi, Pune411 037Department of Ius i ru mcutu t iou Engineering

,---------_._._-_.-

IC38306 :: ReliaQility for Electr icul Interferences_... _._._._---------,

L[ C_-_re_-d_ft_s_:_o_l __ l__________ __ Teaching ~cheme: - Lab 2 Hrs/Week 1

Practicals will be based on study or EMIIG,lC interference sources, Test Procedures,Test setups and interpretation 0 f l:~~.kst rcsul IS !~,)I"measuring the reliability of electronicdevices

14

Bansilal Ramn.uh Agarwal Charitable Trust's

Vishwakarm« .ustltutc of Technology(An Autonomous Institute ,If/i'iuic'd to Savitribui 1'IIIIIePune University)

666, Upper lnd ir:u: 19:1r, Bibwcwacli, 1'1I11e411037

Department of L.sI rumcnta! ion Engineering----------------------------

.. _. - --.~----~~---------.....,

IC48105 :: Reliability a~J:lillst Environmental Im____Qact_..--- ----~---__j

I Credits: 02 ---r-j_ --.-~ ~--. - ..L. ~. . __ ---

I Course Outcomes: Upon completion ofthis course thestll(kl1ts will be able to:

I • Understand Environmental parameters ill be considered in electronic product designApply methods for checking, testin» ::ll.! acceptance Ior electronic devices with environmentalaspectDesign a product with enviro_l1ment:dconsidcrniions

•

•....•.. _ -

Unit I: Introduction to Environmental pai:tllil'(crS for p rud uct reliability 6hrsA. Effects of following parameters: Tempcr.uure, humi.lir,'. Thermal shock, Multi effect overstress,Ingress protection, offshore / corrosive enviror.mcnt application in product reliabilityB. Effect of following parameters - Vibration. shock, drop and impact with demonstration

Unit II: Standards for Environmental tcst:I;:'" Test Procedure/set up and acceptance 6hrsA. IP standards, JESD 22, MIL standards, ;';(), IEC SI:: Ii.lards. Interpretation of relevant standardstowards test parameter selection based Oil d.'Ilk_.ment :lI1d :ll'c','pl:l11cecriteria. Selection of suitable testprocedures and setups for environmental kSI :1,' !)r a given ,ko\ icc

B. Generating test reports and interpretation (Ii' results.

Unit III: Accelerated Testing 6hrsA. Accelerated Testing - Concept of Accelerated Testing, its benefits and limitations, Basic strategy anddetails of Accelerated Testing like HALTB. Theory and examples of Accelerated I::': test (Accelerated cycling - Time compression strategies,Stress-life relationship at two different stlL"'; level); St.ui.aic.rl method for evaluating life verses stressvariable relationship; Examples

Unit IV: Case Study 6hrsA. Analysis for Environmental testing for given test dura and possible recommendations. Applying thereliability concept into product design OR cII:':il,','rillg (ksi':'11 by I<L'liailitymethodologyB. Evaluation of Factor of safety

Text Books:

1. "Reliability engineering", E Balauurusamy, T:II:I i\lcGrnw Hill.

Reference Books

1. Reliability Verification, Testing and /vnnlvsis in EngillL'eringdesign -Garry Wasseman

15

Bansilal Rammth Agarwal Charitable Trust's

Vishwakarrnn In stit.ut e o f Technology(An Autonomous Institute ,,1/ Ii' i'c,d 10 Savitribai Pltule Pune University)

666, Upper Indir:II,:lc':li', l+ibwc« a.li, Pune411 037Department or 1."iil'lIIllCllhiiUlI Ellgineering

---------------------------- ----------------------------

I Credits: 01 I.j_-_..__.,..

Practicals will be based on study of Environmental Test parameters, Test Procedures,Test setups and interpretation o:' 1::..' test results 1'01' measuring reliability of electronicdevices.

16

- . -- . - - - - ------------

Bansilal Ramnaih Agarwal Charitable Trust'sVishwakarma institute of Technology

(An Autonomous institute A!!ilill/c'd to Savitribai Phule Pune University)666, Upper Indiranau:.r, Bibwc« :Idi, Pune 411 037Department of In';! rumen t:li ion Engineering

-----------------------------_.~__ .!C48J03 :: Mini Project

ILC_re_d_i_ts_:_O_2 Tj__-----~~=-~ Tl'!H'lling_Scheme: - Lab 2 Hrs/Week I

I Course Ou~comes: Upon ~ompleti~:n of tilis cOl,"'setill' stlldl'I;ts~~Tfi~e able to:! • Design a product with electrical ~llldcuviroruucnt.il considerations

-_ .. --- -- .~~~~~~~~~~___j

Students will perform various tests on their project developed in regular curriculum,select test procedures, generate l\:Sl reports and analyze the test results for deciding theproduct reliabi lity.

17

Bansilal Rnrnnath Agarwal Charitable Trust's

Vlshwakarma Institute Ui'Technology(An Autonomous Institute Atliliated 10 Sm';{1'':;'u;l'liule PZlI1eUniversity)

666, Upper lnd ir.ruagur, Bibwc« udi, Pune 411 037Department or inst rumcnl:1l ;UlI Engineering

---------------------------Auncxu rc+ IV

The Structure nml Syllabus \,;. Minor Course

Ind ust rial Autumn lion

T.Y. B.Tech Structure for Minor in lndustr.a: Automation with effect fromAcademic Year 2._··;;~-1G

Semester - !

2 30

3

core 70 1

TOTAL 2 2

Semester - II

core70 24 30

4TOTAL 2 4

18

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(N!S.l<Jt1!Ufl <JW1J ;J1'1i1d f'Nlf·i/!.WS' 0/ P,1/IJ!/I/lf.· ;J/11/j/SUI snotuouoms/ uv)

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BansilaI Ramn.uh Agarwal Charitable Trust's

Vlshwakarn.-, .n st itu te ofTechnology(An Autonomous Institute ,!/(!iuled In S:II'if/";I"i l'hule Pune University)

666, Upper Indira l:i~':lr.Bibwcwa.li, Pune 411 037

__________ D_e...::p:...a_r_t_m_e_n_t_o_I'~.~ll,~~I ell t :~~.~,~~l,~._~~IIgin eering------~-----------FF No.: 654

I Credits: 03 Tl':It..'llin!',Schemer Theory 3 Hrs/Week I

Unit I (6+1Hrs)Introduction to Industrial Automation an d Elcctr icnl cnntrnl devices

A: Industrial Automation: Fundamentals of Industria] Automation, Need and role ofAutomation, Evolution of Automation, Elements .if process control loop, Current Trends,Automation Strategy evolution, Control S\sL.'1l1audit, /\ utomation Tools and strategiesand their location in plant.Electrical control devices:Switches: Construction, working and applications or different types of switches, toggle,slide, selector, rotary, thurnbwhecl, Dl!', pushbuttons, limit, proximity, tilt, reed, foot,temperature, pressure, flow and level switches, fun.l.uncntnls of electrical wiringdiagrams.Development of wiring diagr:ill1 !'drgiV,'ll applic.uion using above switches.Relays: Electro-mechanical relay, terminologies, :'jlL'cil;,::llioIlS,reed relay, solid staterelay, Development of wiring diagram !'\'I' giv,'n npplic:lti'lil using relay.Contactor: construction, workinp. comparison with relay, specifications,Troubleshooting, Development of wirin : diugram rUI' given application using contactor.B: construction and working ofrockcr.druu., key, micro. Ilowswitches, specifications ofswitches, reed relay, Hermetically SC:i:CC: relay, problems on development of wiringdiagram.

Unit II (6+1Hrs)

Special Purpose Motors and control circuitsA: Stepper motor:principle, types, tcr.uiuologics, half-stepping and micro-steppingtechniques, characteristics, specifications, ::i)p!ic~l:i();IS,\<'ci(v motor for application.Servomotors:construction, working, !'__'~ltl',~':;,~Idv::lltag\.·s,disadvantages, characteristicsof AC and DC servomotor, cornpurison \. itll st'-'Pill'r motor. AC and DC position andspeed control. . .DC Micro motors: construction, working. speed and direction controls and applications.Motor Control Circuits: Electrical wiring di:lgr:1I11for .ili~..'ging/ inching, sequencing andinterlocking of motors, starting, Slllppillg, 1\:'vel':-;:l1g.iircction of rotation, braking,variable frequency drive, Alarm Annunciator.B: Stepper motor control circuits, Sr._':1i),:r1110tor interface with micro-controller,Synchros for error detector, position mc.tsurcment :lild coutrol, Motor control Centre.

20

Bansilal Ramnaih Agarwal Charitable Trust's

Vlshwakarrna Institute of'.'L'cbnology(An Autonomous Institute ,1((,iated /0 Sll'ilri/;ui I'hule rune University)

666, Upper Indir.u.agnr, Bibwcwad., Pune 411 037Department of l:islnllHelitati{d Engineering

Unit III (6+1 Hrs)

Hydraulic Control ComponentsA: Hydraulics: principle, block di3gr:II11,advantages, disadvantages, applications, hydraulicfluid properties.Hydraulic components: hydraulic power pack, piping, Iiltcrs, pumps, cylinders, motors, valves.Hydraulic circuits: development 01' 11:- iruulic circuits using standard symbols, hydrauliccircuits like meter in, meter out, reciproc.r: ing, sill','.! control. sequencing of cylinders, directioncontrol, regenerative circuit, etc. troubl.shooting in hv.lruulic circuits. Sizing of hydrauliccomponents.B: Types of hydraulic oil, selection, hydraulic components likefilters, piping, heat exchangersand motors.

Unit IVPneumatic and Mechanical Control COllipOllelJ ts

(6+1 Hrs)

A: Pneumatics: principle, block diagrruu, advantages, disadvantages, applications.Pneumatic components: pneumatic PO\\ ,'.' Supply, FI{L unit, valves, cylinders and air motors.Pneumatic circuits.development of pnvummic circuits using standard symbols, sequencediagrams, pneumatic circuits like recipr 'atiilg, s,:qLll'lil'lng, block transfer, speed regulation,job sorting, electro-pneumatic circu its, CL',Mechanical components: Springs and C::lrs

B: Fluidic elements and its applications, .icvcloprncnt of pneumatic circuits, troubleshooting inpneumatic circuits.

Outcomes: Upon the completion of this course, the students will have ability to:COl: Explain the working of electrical. :,,:cll:mic,l, hydraulic and pneumatic components.C02: Develop electrical wiring diagrams. "Yll[':llliic .uid pneumatic circuits for given application.C03: Select and size the electrical, Il1l',':,:illi,'al,ilYl;r:llIli_' :llld pneumatic components to solve a

problem.

Text Books1. "Pneumatic Systems: Principles alld Maintenance", Majumdar,2. "Industrial Electronics", Petruzcl ::1,3. "Electrical Technology~~I.3. L. T::,':'aj:1.

Reference Books1. "Modern Control Technology: Components 8: Systems", C. T. Kilian, 2nd Edition.2. "Industrial Hydraulic Technolov. rarker Motion s: Control, Training Department.

21

Bansilal Rarnn.uh Agarwal Ch.nitable Trust'sVlshwakarm.i lust l; ut e or Technology

(An Autonomous Institute '.'ii(lh'd tn Sovitrib.)! l'hule Pune University)666, Upper Inclir'lii:lg:lr, Bibwcw:u!'. I'une 411037

Department 01' ; .lsl ru meu lnt iuu Engineering----------------~--------. ------------------------FF No. : 654

~---------.-~~---

IC39301 :: INQ_(J§TRIAL CONTl{OL CO:\lr9NE~TS ~~_~

I Credits: 01


1. Study and implementation of logic circuits using switches.

2. Study and implementation of rcl.iv logic \\ irillg I()I"giv\.'n application.

3. Implementation of latching, sequencing ami interlocking wiring for given application

using relay.

4. Implementation of latching, sequencing and interlocking wmng for given application

using contactor.

5. Implementation and testing of hv.lraulic circuit.

6. Implementation and testing of pncumutic circuit.

7. Testing of hydraulic logic circuit ll..;illg l l-simul.uor.

8. Testing of pneumatic logic circuit li<;ing [l-si:nubtor.

9. Study of variable speed drive.

10. Study ofSynchro Transmitter Receiver.

11. Demonstration of Alarm Annunc i.uor.

12. Study of Motor Control Centre bused on industry visit.

Outcomes: Upon the completion of this course, tile students will have ability to:COl: Implement electrical wiring ::,;J pneuuuu..: ci: I.'liih to solve the real industry problem.C02: Use modern simulation tools III (kvclop hvdra..lic and pn~ll_l_naticcir:___:c___;__u_it:_::_s.:_.__ -,

I Text Books .-~~ -- _-- -

1. "Pneumatic Systems: Principles and i\bintl'!l:lllcl''', Majumdar.I 2. "Industrial Electroni_c~",- ~etJ'lI7\.·II:I, _n __ ~~ __ • ----I

I Reference BooksII

I1. "Modern Control Technology: Components and Systems", C. T. Kilian, Second I

Edition. \2. "Industrial Hydraulic Technolll<!Y P~il"h'i" ~\l()tion & Control, Training I

De artment. .

22

Bansilal R::lI11l1~thAgarwal Charitable Trust's

Vlshwakartun In st itut e o.Tcchnology(An Autonomous Institute ,'1(/;;:.11,,,1 /0 S.IFi/rij',li l'liule Pune University)

666, Upper II1c1il':II1~I~'::I',llil)\\l'w:l.i:. Pune 411 037Department or lnst rtuucututi.... FIl(_J.inecring--------------------

FF No.: 654

IC39J02:: lJLC A"'~D LfVl[L _.__ _.__ _ ____ _ _ _.._ ___ _ w •••••••••••••••••••--- •••---.-.-.-.--------------

Unit IIntroduction to Programmable Logic Couf rullvr

A. PLC Hardware: Types of Processes, Comparison, Evolution of PLC, Definition,Functions, Advantages, Architecture, !)!-DO-!\I-AU l'.\:il~lJ1!CSand ratings, l/O module,working of PLC, Scan time, Types ~111! Spccificat.ons. Cliu()sing PLC for application.Installation of PLC, Rack installation. Grounding :lI1d shielding, physical, Electrical,Maintenance requirements, planning. verifying, Troubleshooting, Fault diagnosistechniques. PLC Interface to llydraulic/Pncumatic circuits, Choosing PLC forapplication, PLC system documental ion.B. Choosing PLC for application, Type" :111d Spcci fic.uions or PLC.

(6+1 Hrs)

Unit IIPLC ProgrammingA. Development of Relay Logic Ladder Dingrnm. lnrroduction to PLC Programming,Programming devices and languages :IS IKT II~C G: !.31<) like IL, ST, FBD, CFC, SFC,PLC Timers and Counters in details, 1):\,gr:i111ll1i:l'~ Lil' giVl'n applications using PLCTimers and Counters.

(6+1 Hrs)

B. Programming for given applications lISi!lg PLC Timers :11\(.1Counters.

Unit IIIAdvanced PLC instructions (6+1 Hrs)A: Advanced PLC instructions like, Progrum control. comparison, mathematical, logical,communication, shift registers, sequencers, (\:11:1 h:!::.!:::l-2. a.lvanccd mathematical, PIDControl using PLC, PID instruction, I'!:) for tempvruturc control loop. PLC interfacingwith HMI, Drives, hydraulic and pncun uic systems.B: PLC programming for industrial applications usin : advanced instructions.

23

Bansilal Rnmnaih Agarwcll Chnr.tul-lc Trust's

Vlshwakarma In stitu: e o;··;\.'i.:lJnology(An Autonomous Institute .1j/i/iuled I() Suvltrihui l'ltu!e Pune University)

666, Upper Indiran.rgar. [~:b\""\:i,!:, I'une 411037DepaI"'men' or Ll ,II"Ul1ll·l.la';u.i FlI~~il1eering

Unit IV (6+1 Hrs)Human-Machine Interface and COlli 11111 II icution l'ro((l\:o)sA: HMI programming. Need, vvorl.i.u: prillc!::i:, I',::lclions and types of HMI.Programming techniques for Text disp:'<:".Vuriab l.: parumctcr display and setting alarmmessages, Pages Generation, Sequence uj' P:li'l'';. (;:':,:,l1ic display. Communicationaspects of PLC and HMI.

B: PLC-HMI communication using CC-Li::k protocol

Outcomes: Upon the completion of this course, tile students will have ability to:COl: Comprehend the architecture .u.d ope: .u.ou 01' I'LC and IIMlC02: Develop PLC programmes r\li' ~;\ell :lppl:,,:ttidll.

Text Books:

1. "Programmable Logic Controllers", John \V\..'bh,Prentice 11allof India,2. "Programmable Controllers", l~i'_·:I:II·'.!Cux.3. "Introduction to Programrnab:c Lugic Controllers", Gary Dunning, Delmar

Thomson Learning.

Reference Books:1. "Instrument Engineer's Handbook - Process Software and Digital Network", B.

G. Liptak, CRC Press2. "Programmable Logic Controller", Fi':!I1i: D. Pctruzella, Tata McGraw-Hill

Education, 2005.

24

Bansilal Rarnnath i\~ar\V~t1 Chariruble Trust's

Vlshwakarm.. Inst ituu- v;",'c'chno}ogy(An Autonomous Institute A "ili;lled 10 ,\';II'ilr;'/;,'1 l'hule PI/lie University)

666, Upper lndi: ::l~ar, Bibwcwu.ii. Pune 411 037Department or lnst rurucutut iun Engineering----------=----- ,_--_._..._--,------------

FF No. : 654

_-------=1C3 9302 PLC A:\ D 1:.\ II

'I -=-----c:-,--~-:-----r----·-----<:redits: 02


1. Study the hardware aspects of different PI.Cs lib: .vllcn Bradley, Mitsubishi, Messung,Siemens, Omron, Delta, etc.2. Development of Ladder program for S::11:11l'on-offapplicatinns on Messung PLC.3. Development of Ladder program for s.mpl« on-otfupplicntions on Allen Bradley PLC.4. Development of Ladder program for Si:!l[)k ()IH)'L1P!j!;~':lti()nson Omron PLC.5. Development of Ladder program 1'01' simple on-oif :q,plications on Mitsubishi PLC.6. Development of Ladder program for Till:i:lg :l:~:)l:,':,li\;tl';ll'>ingMessung PLC.7. Development of Ladder program 1'01' Tuning app::c'::tiull'; ll~illgAllen Bradley PLC.8. Development of Ladder program for Timing apph_':ltiow; using Mitsubishi PLC.9. Development of Ladder program tor counting :lPi,::c:lt:uns using Allen Bradley PLC.10. Development of Ladder program Ior COlll1tillY:1;, lic.u.ous using Messung PLC.11.Advanced instructions using Mitsuhishi, \kS~;~l:;C!:lIld /\Ikn Bradley PLC.12. PLC based PID control for temperature loop list .. :_> ;\,:::1 [~I':ldlcyPLC.13. Development ofsimpJe Functional block diagl':I:iISon ~;i,,':lll.'I1SPLC.14. Instruction List programming on f\1:\~illllgPLC :',)1' gi\,'11 process,15. Structure Text Programming on f\kS'>1I11gPLC I'ul'gi\ ,'11 process.16.Development ofSFC Program 011 i\k:;'~lll~! PI C iZU' b.uch applications.17. Development of Visualization under I: C (II.~ 1-3 Oil \kssung PLC.18. Interface input and output devices to t:1,' PI C.19. PLC-HMI interfacing using Mitsubis: i / Allen 1~;':ldk};PLC,20. PLC-HMI interfacing using Messunv I'LC,21. Interfacing Omron PLC wi th Pneum :1\ic system !(ir S,,''luCllcing appl ication.22. Interfacing of Encoders, Stepper 111\)\\)"S. l)isp::I:--; \\ ie"~ IVlitsuhishi PLC.23. Study the communication aspects or ;'1 c.24. Programming for given small industr: I; :lppli~':lt:'\llu<ilg PLC.

Outcomes: Upon the completion of tilis course, the slucki:lS will have ability to:COl: Comprehend the architecture :,:1(Il)pCI'~ll:Ullu:' :'LC and !-IMIC02: Develop PLC programmes 1',)1' 'c'i\l'll :qJ)i:,':i", 1.

25


Vishwakarma ;usti: u: L' c;.·'.' ...-clmology(An Autonomous Instlt utc ,1f;i/iuIl'd io', lI'ilri/'cii l'liul e Pune University)

666, Upper Illdir:lIl:i":lr.Il:~).\'''·.\:I,":, l'lll1\..'411 037Department or LstnlJlii..',.i:i;ii,;; fii\'.incering

------------------------------ ------------------------Text Books:

1. "Programmable Logic Controllers' . Jolin Webb. Prentice 11:111of India.2. "Programmable Controllers", l~i.·kil\1 Cox.3. "Introduction to Programmable UH.>IC C\lI1tl"O! l.-rs", Gary Dunning, Delmar

Thomson Learning.

Reference Books:1. "Instrument Engineer's Handbook - Process Sofiwnrc ,1I1d Digital Network", B.

G. Liptak, CRC Press2. "Programmable Logic Controller", Fr.u.k I). l'ctruzcl!a, Tata McGraw-Hill

Education, 2005.

2G

Bansilal Ramn.uh Agarwal CI1:11·:t:tI,!", Trust'sVishwakaru.a Jnstit ut e lJC'~'echllology

(An Autonomous Institute .Wi/lolc'e! tu ,1.,',/\ ,'/1'.:/'01 l'liule Pune University)666, Upper Illdil-:lllag:lr,l!:1J\\',",\ .r.ii. PUJ11..' ~ II 037Department or IllSlrul:,\._·i.l:ii:"d F!lgiIH.'cring---------------- ------_------_.-----------------

FF No. : 654

IC4910 I:: Des A:<U :-;C.\ D:\L_ . .:=

I Credits: 03

Unit IIntroduction to DCS and DeS Hardware

(6+1Hrs)

A:.DCS components/ block diagram, Architecture, Functional requirements at each level,Database management, Latest trends and dl,_'\cIUi):~"'::~:) Dr UCS. Layout of DCS,Controller Details, Redundancy, I/U Curd D,'l~li:·;. U,','I':I[nr Interface, WorkstationLayout, different types of control panc!s, types 0:' ; j;L'i lill',' Station.Junctlon Box andMarshalling Cabinets, DCS Selection.B: Types and Specifications ofDCS. Various Displ.iv Coufigurations.

Unit II

DCS software

(6+1 Hrs)

A: Programming as per IEC GII ~I-J, Advant.rgcs. Overview of ProgrammingLanguages, Device Signal Tags, Clilliguraliuli. iJ:-,)~r:ltnllling for Live ProcessProgramming devices and languages :IS 1",'1':;.:c: (,: i.Z 1-.', likl', FI3D, SFC, DCS Timersand Counters, graphical interface ill DCS. LI~I,_' o!·~;,:::d~control, Advanced control andenergy metering FBD block.B: Implement one application using Des by FI3[) 0\' s!:c :'_lll~'LI:lges

Unit IIISCADA System

(6+1Hrs)

A: Objectives of a SCADA, components of' SCI\ 1)/\ system, communication media forSCADA system, type of networking !uj)u!\)gy ... :. ;,'t"-'nt software system forSCADA,data acquisition mechanisms ill ~;Ci\:)I'.SC, ~ .. systems, Programmingtechniques for: Creation of pages, S~'qt!CnCi!lg01' p~,,=,...':),; :'l'~,\;llggraphics & animation,Dynamos programming with variables. Tr~'ih\iJ1g. : ,i:;l\jl-;,'~dd~lla storage & Reporting,Alarm management reporting of events und P:I:::ltl,'[,'rs. Comparison of differentSCADA packages.B: Specification list of different SCAD,,\ SYSll'l11wit;; their manufacturer

27

Bansila] R~lIlln:llh/\gar\\al C!I:1ril:lbk Trust's

Vishwal{arllla ~llsli,Ul:,_' u.' '.',·'::lllOlogy(An Autonomous Institute .Wi/ii/led II! ,)'ul'ill'ii ii /'/ill/<.' Pune University)

666, Upper Illdi:':lii:i.",~lr.13ilml'w:l,Ji. Punc '-l I I 037D t r of I "~"epar men 0, .l:;!rlIIL,-'i,l:Ii,,,.i LllgllH'ermg---------------- -----'--------'---------------

Unit IV(6+1 Hrs)

Communication Protocols :HART, Field bus and l'rol";flls

A. Introduction, Communications Oil'! Ii Ipcratur/lullg ,:iSl:Illce), OSI / ISO Model,Cables, Network topologies, Routers, s .',itches. Ill:~)~,! ::.lllst ri:d Protocols: FoundationField bus, HART, Profibus, Device Ill'l. 11Il!L!st!'i:l:I'~:_','ll,'l. l\S-i. TCP/fP, IndustrialNetwork security. Design, lnstallatio». .::t!;br: tion. l\i111111issiolling, Application inHazardous and Non-Hazardous arcu ,ii' IL\!:1'. :';,-;" i ',I, l'rotocol and Profibuscommunication protocol.B. Study of CAN BUS and C-C Link protocols.

Outcomes: Upon the completion of this course, tile stlidr:::ts will have ability to:COl: Comprehend the architecture .r.id opcr.ui.in \I,'; j('_-) :111(1 SCADAC02: Develop control strategy Ior pr :ess (_'(),::,;1 S\L'lll,

Text Books

1. Distributed Computer Control for lndustrinl Auto.nation", P. Bhatkar, DekkarPublication.

2. "Computer Aided Process Control", S, Singh, Pr,'I1\;,': 11:111 of India.3. "Computer Based Process Control", l:.. K ::11, ;'1',,::t::: : l:iil olIndia.

Reference Books

1. "Instrument Engineer's Handbook- Process So!'t\\':\!'" and Digital Network", B.Liptak, CRC Press. '. '

2. "Handbook of SCADA Systems lor tile Oil :II](! ,::IS Industries", R. Williams,Elsevier Advanced Technol()gy_ Limited. _

28

•

~

Bansilal Ramnajh f\g:lrIl';ti Ch:tl-:l:thk' Trust'sVishwakar'~l" '!·l...·t' I.. " '. • I• J.~ '-I.i ...., .J.~i..,;._~ tJ~ JO \.!"L~111)() ogy

• (AnAutonomolis/nstl/llit'.!/'i/;i1Ic'cilu.\' ,;.," .. "'"I) "~ •. ' 666 Upper II1l·!;,.t·'I"!()'II'Bib ,'\ ", ., .,; , iulc ] [me University}

VI"., i. _, .), IV'"\''' I, ..• '11037,-' \. \ .1~j • J , Ilc -t

_ ________ ..::D:....:.e~p.:a:...r.::t':.::n:.:e:n:..:t~u;' III ,; ( rum n.· :" " . I." •__ .... ,,,' ''':~_•. I!~IIH'('rrng----~~---------FF No.: 654

r------------~'---- ~~ _!_~4930] I) CSAN l~: I.: ," I n \

• J.1. J 1..__.. ,." iiJ,'

I Cr_edits:01 r---~---I

List of Practicals

Des:1.2.3.4.5.6.7.

Study of~elta-V Explorer, ~o!l(rol Studio nnd I):,'!t:l -V Operate,Develop simulate programrmng li~iilg H31J ill i ):::., -V.Development ofSLPC using (.'U:::I\); Studio.Tag Assignments to Field Devil',-'~ iDeS.DCS based PID control for tel1111c'ralll rl' loonDevelopme~t of Front-end and 'I),,\:J.) di:I~:r:':1llwith [):...Ita V Operate.Develop senal communication lI.;in::,1),,'11:1- \ ,)( ";

SCADA:

1. Creating and Configuring a Project alld taus2. Configuring Screens and Graphics _3. Configuring Task Worksheets4. Configuring a Security System5. Configuring a Web Solution6. Importing a database and communication7. Communication between PLC, DC:";~I lei SC\ 1),\ 1~1I-simple application.

Outcomes: Upon the completion of this course. tile' :iluJ:!ltswill have ability to:Cal: Comprehend the architecture ::::J l'j)l':':il'UI: (:i'DCS und SCADAC02: Develop control strategy fur Pi'u,',SS Cl):ll:·"l SVSklll.

~.e~~~::uted Computer Control 1(,,' lndustri«! '\lIl''''''';OIl'''--P- Bhatkar, Oekkar IPublication.

2. "Computer Aided Process Control", S. Singh, !,:.~,:::':_. I !:!ll of India.13. "Computer Based_Pr()~~~~Control" I':. ,:~I!:Lh.',:t:,'l' 11~Li or Indi'!- ..__ --i

I Reference Books\ 1. "Instrument Engineer's Handbook- I'l'Ocess sOn\\':li'l' :1I1d Digital Network", B.

Liptak, CRC Press.2. "Handbook of SCADA Systems Cor tile Oil ~md C~IS

\ Elsevier Advance~ Tech_nology_LirniL'd.Il1dus~'_ies'"R. Williams, \

29

•

Bansilal R:lI11Il:1th i\garw:i! C!l:U-:I:lhk Trust's

Vishwakarm. lusti: U..e 0.' ':'~cllllology(An Autonomous /I1S{ itiu (' . 1 '/i/;", cdt, .\" \';,'! ' ,; i j 'lilt!(' Pline University)

666, Upper Ill(lir:l:I:\~':lr,ll:h\'~'\\:i"i, j'till~' -111037Department or lnst ru u.c •. l:\.:".i l~lI~)ill(,'('ring--------------------"_ .. "-"".,,,, '------------

.\ I!II CXII L' - \ '

The Suuctu re :.r:u :;ylhbus ofProfessional Dl·\'V;ullllH.'L[ ,'u,;;',;,:: \\':1(('" Engineering

Course Code: IC 33317 Course ,\:1,1..': \\':,:.:,' ;':";;;"l'l'riw!Credits: 2 'l\':Il.'liillg Scheme: 2 Hours / Week

List of Practical:1. Introduction of Water Engineering2. Basic Instrumentation in Water Engineering3. Water Layout (WTP, ETP & STP) :I!,,; i..twcrk l!i:lgl':1I11(Distribution network)4. Basics of pumping, motors and COIIII;):s,'l!,·,ll\.'; (i,' W:,[,'i' supply and distribution5. Water Auditing,Water balance, bCIh:llltl:lrkiilg ,-.: <:: '.. ,':I!,',,:l:ltions6. Measurements of various pararnctcrs ; ;,h,:::ltcli\, :::, \, "l,-'i l)',l:t1ityMeasurement8. Projects:

Project on filter bed automationProject on DO controlProject on water distribution networkProject on ESR controlProject on smart water management in PITIl1;S(,S

Project on NRW calculationsAutomation of distribution net \\ (IIl., STP 8.: \\'TP

Text Books:1.Donald P Eickman; Industrial Instrumcntuuon: \\':ky l.nstcm2. R.S.Khandpur, Handbook or Analytic'::! Ilhtl"l!!l',':ilS3. B.G. Liptak, Process Measurements :i1, i ,\I1:1!) .is.Reference Books:

r: Ii .\,;

1.Basics of water resources-Course hook: UNCSCO: PCCI>Publications2. A. Lambert, and Dr W Hirner, Loss l':'UIl1 W:Il..T,~l!:j:i:y systems: Standard Terminology andperformance measures; International W::L'i",\:;sll-'i:I.:u::: ..3. JE VAN JYL; Introduction to Intcgr::L'd \\ :11-:: ,\ : ,'[\.'!' ., Lll1:lgeIl1Cnt,Edition 1

Course Outcomes:The student will be able to -1.Draw a layout and network diagram2. Analyze the water auditing and NRW concepts3. Measure various parameters associate.' \\ it') \\::kr qll~d:ly 1l1l':tsurement.

30

7

Bansilal RamnathAgarwal CharitableTrust's

Vishwakarma Institute of Technology(An Autonomous Institute Affiliated to Savitribai Phule Pune University)

666, Upper Indiranagar, Bibwewadi, Pune 411 037Department of Instrumentation Engineering


1. Department activities in the Academic Year 2015-16


3. Approval for six months internship for Final Year B.Tech. Students

4. Approval for new Honor course: VLSI

5. Approval for new Professional Development courses:

1. Advance Factory Automation

1. in association with Mitsubishi Electric India, Pune

2. DeS Programming

3. Approval for modified UG courses


1




Minutes of Meeting of BOS in Instrumentation and Control Engineering held atInstrumentation Engineering Department, VIT, Pune, on Saturday 16th April2016

Venue: Room No. 4209-Department Library, Instrumentation Engineering Department, VIT,Pune.

A meeting of the Board of Studies in Instrumentation and Control Engineering was held inInstrumentation Engineering Department, VIT, Pune, on Saturday 16th April 2016 at10.00 am.

The following members were present:1. Prof. (Dr.) S. Y. Sondkar Chairman

Asso. Professor & Head, Instru. Engg. Deptt.2. Prof. (Dr.) C. Y. Patil, Member

Chairman BOS, Instru. Engg., University of Pune3. Mr. Shirish Chaphekar Member

Director, Emerson Exports Engineering Centre, Pune.4. Mr. Ajay Nagarkar Member

Director, Mapyn, Pune5. Prof. (Dr.) D. K.Maghade Member

Asso. Professor, Instru. Engg. Deptt.6. Prof. P. V. Pol Member

Asstt. Professor, Instru. Engg. Deptt.7. Prof. (Mrs.) M. R. Mhetre Member

Asstt. Professor, Instru. Engg. Deptt.8. Prof. (Dr.) S. S. Patankar, Member

Asstt. Professor, Instru. Engg. Deptt.9. Prof. J. A. Gaikwad Member Secretary

Asstt. Professor, Instru. Engg. Deptt.

The following invited members were also present:1. Prof. (Dr.) J. V. Kulkarni, Professor, Instru. Engg. Deptt.2. Prof. P. M. Kanjalkar, Asso. Professor, Instru. Engg. Deptt.3. Prof. V. R. Bhanuse, Asstt. Professor, Instru. Engg. Deptt.4. Prof. A. B. Kadu, Asstt. Professor, Instru. Engg. Deptt.5. Prof. T. G. Patil, Asstt. Professor, Instru. Engg. Deptt.6. Prof. Rajendra Patel, Asstt. Professor, Instru. Engg. Deptt.7. Prof. S. M. Deokar, Asstt. Professor, Instru. Engg. Deptt.

2




Prof. (Dr.) Mukul Chandolkar, liT Bombay and Prof. (Dr.) S. L. Patil is busy with itsadministrative work and the leave has been granted.

The BOS considered the items of the agenda and the items permitted by the Chair anddecided as follows:



Item-3

Resolution 1:


Department Activities in the Academic Year 2015-16The report of department activities was read and confirmed.Prof. M. R. MhetreMr. Ajay Nagarkar

Review of previous MeetingThe minutes of the last meeting were read and confirmed.Prof. J. A. GaikwadProf. (Dr.) C. Y. Patil

Approval for six months internship for Final Year B.Tech.StudentsThe structure and execution plan of One Semester IndustryInternship for Final Year B.Tech. students (pattern F-II Revisedonwards) from academic year 2016-17 is presented and approved.(Annexure-I- PageNo.5)Prof. Mrs. S. Y. SondkarMr. Shirish Chaphekar


ltem-4Resolution 1:


Approval for new Honor course: VLSIThe Structure and Syllabus of above Honor Course VLSI witheffect from Academic Year 2016-17 were accepted and approved.(Annexure-II - Page No.6 to 12)Prof. P. V. PolProf. (Dr.) C. Y. Patil


ltem-5 Approval for new Professional Development coursesI. Advance Factory Automation2. DCS Programming

Resolution 1: The Syllabus of above Professional Development CourseAdvanced Factory Automation with effect from Academic Year2016-17 were accepted and approved. (Annexure-III-Page No. 13)

3





Prof. J. A. GaikwadProf. (Dr.) C. Y. Patil

Resolution unanimously passedResolution 2: The Structure and Syllabus of above Professional Development

Course DCS Programming with effect from Academic Year 2016-17 were accepted and approved. (Annexure-III - Page No. 14)Prof. D. K.MaghadeMr. Shirish Chaphekar

Proposed by -Seconded by-Resolution unanimously passed

ltem-6Resolution 1:


Approval for modified UG CoursesThe Syllabus of following Course with effect from Academic Year2016-17 were accepted and approved. (Annexure-IV - Page No.15 to 22)

1. Graphical User Interface for Embedded Systems (lC24315)2. Water Engineering (lC33319)3. Biomedical Signal Processing (lC42117)4. Digital Control (lC40106 & IC40306)5. Batch Process Control (lC42116)

Prof. M. R. MhetreMr. Ajay Nagarkar


Prof. (Dr.) S. Y. SondkarChairman, BOS

4

VI




Annexure -I

One Semester Industry Internship for Final Year B.Tech. Students

(Course Code: IC47312)

Internship proposed plan

1. Period for internship is six months2. Schedule: 8th semester (Jan-June)3. Industry invited by department

4. May have their own selection procedure which will complete before 31st October5. Backlog and defaulter students will not be allowed6. Concert of Parents will be taken7. Guide from Industry and college8. Weekly e-report has to be sent to the college guide9. Monthly review and presentation10. For Students going for Internship term will end in 31st August11. Project Stage III - 12 credits equivalence for internship, assessment for mid sem and end sem12. Summer term after internship13. July - August - 2 Course (PI+DC) +Labs = 8 credits14. 6 credits of the elective subjects and project stage-III will be waved off

Expectations from Industry Side

1. Allocation one guide/mentor/supervisor for the interns2. Preferably paid interns - expect at least TAIDA

5




Annexure -II

Structure for Honors in VLSI with effect from Academic Year 2016-17

Code Subject Type Teaching Assessment Scheme CreditsSchemeL p Tut ESA

Testl CA ESET.Y. B.Tech. - Semester I: 2016 - 17IC38107 VLSIDesign - Theory 2 15 20 5 60 2MOS Cor

eTOTAL 2

2

T.Y. B.Tech. - Semester II: 2016 - 17IC38108 VLSIDesign - Theory 2 15 20 5 60 2Circuit Cor

Characteriza etion

IC38308 VLSIDesign Lab 2 70 30Simulation Core

TOTAL 2 23

Final Year B.Tech. - Semester I: 2017 - 18IC48107 AdvancedVLSI Theory 2 15 20 5 60 2Design Cor

eIC48307 AdvancedVLSI Lab 2 70 30 1Design Cor

Simulation eTOTAL 2 2

3

Final Year B.Tech. - Semester II: 2016 -17IC48310 Mini Project in Lab 2 70 30 2Advanced Cor

VLSI eDesign

TOTAL 22

6




Syllabus for Honors in VLSI with effect from Academic Year 2016-17FF No.: 654

IC38107:: VLSI DESIGN - MOS THEORY

CourseOutcomes:Upon the completion of this course, the students will have ability to:COl: Understand Fundamentals of Digital logic and MOSFETs

Unit I (7 + 1Hrs)

Logic Design fundamentalsA. Boolean Algebra, Logic gates and truth tables - Inverter, Buffer, NAND, NOR, XOR,XNOR, Minterms (AOI), Maxterms (OAI), Multiplexers, Tristates, Latches and FlipflopsB. Draw various logic gates based on given boolean expressions

Unit IIMOSFET fundamentals (7 + 1 Hrs)

A. Introduction to current, voltage fundamentals, Diode operation, Introduction toMOSFET, I-V Characteristics of NMOS and PMOS, MOSFET capacitances,Introduction to Second order effects - CLM, Body bias, Short Channel Effects, DIBL,Mobility DegradationB. Deduce operating regions of MOSFET for various voltage conditions

Unit IIIComplementary CMOS InverterA. DC characteristics, Beta Ratio, Noise margin, Ratioed Inverters and LoadlinesB. Tristate Inverter study

(7+ 1Hrs)

Unit IVVLSI Design Flow fundamentalsA. Introduction to Design Cycle - Architecture, Behavioral description, Circuit Design,Verification, Layout (Physical) Design - Floorplanning, Placement, Routing, LVS, DRC,Static timing Analysis, Power Analysis etc.B. Study of Simple design cycle of a circuit

(7+ 1Hrs)

TextBooks"CMOS VLSI Design", N. Weste and David Harris, Addison Wesley."CMOS Digital Integrated Circuits", S. M. Kang, Tata McGraw Hill

7




r-- ---------.---.-.----.-..-. . ...... ._. . _'--------IC38108:: VLSI DESIGN- CIRCUIT CHARACTERIZATIQ_N___I

FF No.: 654

Credits: 02 - - ---'..-.-----------.-'---.-- ..--.-----.-------~-----.----------._---_-_

Teachi~cheme: - Theory 2 Hrs/WeeFl

Course Outcomes: Upon the completion of this course, the students will have ability to:COl: Simulate Basic Circuits

C02: Correlate estimated RC delays with SimulationsC03: Understand how chips are manufactured

Unit IHrs)

MOSFET Delay modelsA. Introduction to the concept of modeling, Switch level transistor models, RC delaymodels, Transistor sizing, Fanout concepts, Introduction to NLDM, Vt dropsB. Estimate Delay of logic gate

(7 + 1

Unit IICircuit SimulationsA. Schematic capture, Netlisting, BSIM Transistor models, Parasitics _ Rand C,Transient simulations - RC circuit, rise time, fall time, Delay, Power Currentmeasurements ofMOSFETsB. Study of BSIM models

(7 + 1Hrs)

Unit IIILayout and FabricationA. Fabrication steps, Layout Design rules, Stick diagrams and Euler paths, AntennaRules, Layout Density RulesB. Stick diagram of logic gate

(7+ 1Hrs)

Unit IVWire EngineeringA. Interconnect RC, Elmore delay, Cross talk control, RepeatersB. Elmore delay calculation

(7+ 1Hrs)

Text Books"CMOS VLSI Design", N. Weste and David Harris, Addison Wesley."CMOS Digital Integrated Circuits", S. M. Kang, Tata McGraw Hi1l

8




FF No.: 654

IC38308 :: VLSI DESIGN SIMULATION

Credits: 01•.__ ---L..., •.. ~_

Course Outcomes: Upon the completion of this course, the students will have ability to:CO1: Simulate Basic Circuits

C02: Correlate estimated RC delays with SimulationsC03: Understand how chips are manufactured


1. Simulation of Basic RC circuit2. Schematic capture (drawing) of CMOS Inverter3. Transient Simulation of CMOS Inverter4. Transient Simulation of Inverter with .meas statements5. DC simulation of Inverter for Beta ratio = 16. DC simulation of Inverter for Beta ratio < 1 and> 17. Schematic capture ofNAND2 gate8. Schematic capture ofNOR2 gate9. NAND2IN0R2path simulation for equal rise and fall times10.Draw layout of CMOS inverter - 3 hours/3 weeks

Text Books"CMOS VLSI Design", N. Weste and David Harris, Addison Wesley."CMOS Digital Integrated Circuits", S. M. Kang, Tata McGraw Hill

9




------------------------------1

Ii-'-.----.--."---------,-~"---,.~ .•--""-.'"-."-.-------.,"'----"'-""-,_, •. •.__""'_J

Course Outcomes: Upon the completion of this course, the students will have ability to:COl: Simulate critical and mintime paths

C02: Run basic power checksC03: Simulate Dynamic circuits

UnitI (7 + 1Hrs)

Timing Concepts

A. Introduction to the concept of Microprocessor pipelines, Critical and mintime paths,Setup and Hold times of flip flops and latches, DeratingB. Study of flip flip set/hold time

Unit IIPower ConceptsA. Design margining, PVT, Static and Dynamic Power dissipation, Low power designtechniquesB. Power calculation of logic gate

(7+ 1Hrs)

Unit IIIDynamic CircuitsA. Operation - Precharge and Evaluate, Monotonicity, Connectivity issues, footed andunfooted designs, Advantages and DisadvantagesB. Leakage study of dynamic gates

(7 + 1 Hrs)

Unit IVPower Supply gridA. IR drops, EM, L(di/dt) noise, decoupling capacitorsB. DFM study of power grid layout

(7 + 1Hrs)


10

---- --------------------------



666, Upper Indiranagar, Bibwewadi, Pune 41 I 037Department of Instrumentation Engineering

FFNo.: 654

I IC48307:: ADVANCE.-D-VL-S-I-D-E-S-I-G-N-S-I-M-U-LAT-ION------;L . -- .._._. __ ._. ._._ ..._......_ .._.__._..._....._.I

,-··------·~--r·--···--·-·-···-·-···--..- ..-..-.---- - - --- -----__._.._..__._._.__ _.._ .1__ ._CreEitsi__Ql_.___l________._ ._..._ _ _. Te~.l!.i!l:_g.~~h~!!1~~-.l~~o_ra.t_o~y_~J:I~s!}y~~kj

Course Outcomes: Upon the completion of this course, the students will have ability to:CO1: Simulate critical and mintime paths

C02: Run basic power checksC03: Simulate Dynamic circuits

List of Practicals :1. Schematic capture of Logic path2. Schematic capture of basic flip flop3. Setup time of flip flop4. Hold time of flip flop5. Critical path simulation6. Critical path simulation with .meas statements7. Mintime path simulation at fast comer8. Mintime path simulation with .meas statements at fast corner9. Power simulation of basic gates10. Power simulation of loaded gates11. Schematic capture of Dynamic gate12. Simulation of Dynamic gate


11




FFNo.: 654

Course Outcomes:The student will be able toCO I. Design solutions for given engineering problemC02. Demonstrate practical knowledge by constructing circuit blocksC03. Express effectively in written and oral communicationC04. Exhibit the skills to work in a team

Students will be given a mini project topic to design a mini circuit block using the entireVLSI design flow from architectural description, circuit construction to backend timingand power analysis. Working on a mini project encompasses following steps:

1. Group formation2. Mini project statement3. Functional review4. Critical path review5. Post layout timing analysis6. Backend checks - Power, Timing, IR drop etc.7. Presentation and Demonstration

12




Annexure -IIIProfessional Development courses:

1. Advanced Factory Automation2. DCS Programming

FF No.: 654

IC33320 :: ADVANCED FACTORY AUTOMATION

Course Outcomes: Upon the completion of this course, the students will have ability to:CO1:Comprehend the architecture and operation of PLC, GOT and DrivesC02: Develop PLC programmes for given application.


1. Study the hardware aspects of FX, Q and R-series Mitsubishi PLC.2. Development of Ladder program for simple on-off, timer and counter applications on

Mitsubishi PLC.3. Development ofFBD, SFC programming for given applications.4. Advanced instructions like data transfer, comparison, arithmetic, program flow control

using Mitsubishi PLC.5. Advanced Programming using interrupts and analog 1/0 handling.6. Interfacing GOT Hardware and its programming.7. Interfacing of Encoders, Stepper motors, Displays with Mitsubishi PLC.8. Study the communication aspects and advanced networking ofPLC.9. Study ofVFD I Inverter control using PLC10. Interfacing Motion Control I Servo systems to PLC11. Development of Visualization under IEC 61131-3 on Messung PLC.12. Development of IL, ST, FBD, SFC Programming on Nextgen 5000 PLC

Text Books:

1. "Programmable Logic Controllers", John Webb, Prentice Hall ofIndia.2. "Programmable Controllers", Richard Cox.3. "Introduction to Programmable Logic Controllers", Gary Dunning, Delmar

Thomson Learning.

Reference Books:1. "Instrument Engineer's Handbook - Process Software and Digital Network", B.

G. Liptak, CRC Press2. "Programmable Logic Controller", Frank D. Petruzella, Tata McGraw-Hill

Education, 2005.3. Mitsubishi PLC user manuals.

13




FF No.: 654

IC33322 :: DCS PROGRAMMINGL- _

Outcomes: Upon the completion of this course, the students will have ability to:COl: Comprehend the architecture and operation ofDCS.

C02: Develop control strategies for process control system.List of Practicals :

1. Develop and implement any DCS program using FBD /SFC programming language.2. Developing and implementing any control loop using DCS system3. Developing and configuring Graphic User Interface for any control loop.4. Developing Boiler interlock using DCS5. Developing simulation of distillation column using DCS6. Configuration of HART device to DCS system.7. Developing Cascade control loop using DCS8. Configure and implement different alarms in DCS system9. Interfacing ofPLC to a DCS system through Modbus and/or OPC10. Configuration of any Fieldbus device to DCS system.11. Configuring and implementing Advance process control function MPC in a DCS system

12. Configuring and implementing Advance process control function Fuzzy/ ANN in a DCSsystem

I TextBooksill. "DistributedPublication.

I 2. "Computer Aided Process Control", S. Singh, Prentice Hall ofIndia.L_~'gomp~er B~se<!_r_r_o__£~~_sCon1!'~!_",_K~~nt,_p~e_Q!t~Hall of India.

Computer Control for Industrial Automation", P. Bhatkar,

--------------------------------------l!

Dekkar lI

i

IL____________________ ____ _

Reference BooksI

"Instrument Engineer's Handbook- Process Software and Digital Network", B. !Liptak, CRC Press.

14




Annexure -IV

Approval for modified UG courses

FFNo.: 654B

IC 24315:: GRAPHICAL USER INTERFACE FOR EMBEDDED SYSTEMS

Credits: 01 Teaching Scheme: Lab 2 Hours/Week

Course Outcomes:The student will be able to

1. Identify and classify various GUI components.2. Build a GUI for specific application3. Write a program for given GUI application

List of Practicals:1. Prepare a GUI using VB to control LEDs using Dial

2. Prepare a GUI using VB to generate a graph using on ADC output interface the ADC

output with LEDs

3. Prepare a GUI to accept data from the user and export it to XLS sheet using COM port

for communication

4. Prepare a GUI for Data Grabbing from COM port and displaying it on the console

5. Prepare a GUI for Data Grabbing from USB port and displaying it on the console

6. Prepare a GUI for a Embedded system using USB communication

Textbooks:

1. The Complete Reference Visual Basic 6 by Noel Jerke, Tata McGraw-Hill Education2. Datasheet ofRENESAS IC R8C263. Datasheet ofE8 Emulator

15

-_.-------------------------------------------------------




FF No.: 654A

IC 40106 :: DIGITAL CONTROL

Credits: 03 Teaching Scheme: Theory 3 Hrs/Week

Prerequisites: Control systems, Modern Control Theory, Z-transform,

Course Outcomes:The students will be able to:1. Analyze the discrete systems through the use of Z- Transform and will have the knowledge of

Z- Transform.2. Determine the transfer function of a system containing a sampler and zero-order-hold.3. Design a digital process control systems.4. Determine the time and frequency domain responses of sampled-data control systems to

arbitrary inputs.5. Determine the stability of discrete-time control systems.

Unit I: Introduction to Discrete Time Control System (8+Hlrs)Part A. Basic building blocks of Discrete time Control system, Sampling Theorem, Z transform

and Inverse Z transform for applications for solving differential equations, Mapping betweenthe S-plane and the Z-plane, Impulse sampling and Data Hold.

Part B. Advantages, Disadvantages and Examples of Discrete time Control system,

Unit II: Pulse Transfer Function and Digital PID Controllers (8+1Hrs)Part A. Discretization of continuous time state space equations, The pulse transfer function, pulse

transfer function of Closed Loop systems, Pulse transfer function of Digital PID controller,Solution of discrete time state space, Velocity & Position forms of Digital PID Controller,

Part B. Realization of Digital Controllers

Unit III: Design of Discrete Time Control System by conventional methods (8+1Hrs)Part A. Design based on the root locus method, Deadbeat response and ringing of poles, Digital

Controller Design using Analytical Design Method.Part B. Effects of adding Poles and Zeros to open loop transfer function

Unit IV: State Space Analysis of Discrete Time Control System (8+1Hrs)A. Analysis and design of discrete-data control system in state spacePart A. Controllability of LTI discrete-data systems, Observability of LTI discrete-data systems,

Relation between Controllability and Observabilty and Transfer functions, Concept of stability

16




in discrete time control systems: Jury Stability Test, bilinear transformation, Effect of Samplingon stability, Lyapunov stability analysis of discrete time control systems.

Part B. Impulse and step response of discrete time control systemsUnit V: Pole Placement, Observer Design and Optimal Control (8+1Hrs)Part A. Stability improvement by state feedback, Design via pole placement, State observers.

Examples of Practical Digital control system designPart B. Quadratic Optimal Control and Quadratic performance index, Optimal state regulator

through the matrix riccati equations, Steady State Quadratic Optimal Control.

TextBooks

1. Discrete Time Control systems by K. Ogata, Prentice Hall, Second Edition, 2003.2. Digital Control and State Variable Methods by M. Gopal, Tata McGraw HiII,2003.

Reference Books

1. Digital control of Dynamic Systems by G.F.Franklin, J.David Powell, Michael Workman 3rdEdition, Addison Wesley, 2000.

2. Digital Control Engineering by M. Gopal, Wiley Eastern Ltd, 1989.3. Digital Control by Kannan Moudgalya, John Wiley and Sons, 2007.4. Digital Control by Forsytheand W. and Goodall R.N McMillan, 1991.5. Digital Control Systems by Contantine H Houpis and Gary B. Lamont, Second Edition,

McGraw-HilI International, 2002.

17

---------------------------------------




FFNo.: 654B

IC40306:: DIGITAL CONTROL

Credits: 01 Teaching Scheme: Lab 2 Hours/Week

Course Outcomes:The student will be able to:

1. To analyze and design the discrete time systems.2. To analyze stability of discrete time systems.

List of Experiments

1. Find the Response of the Discrete Time Control System for any two standard inputs.2. Unit step Response of Discrete Time Control System using Digital PID controller.3. Design of deadbeat controller for Discrete Time Control System.4. Determine effect of sampling period on stability of Discrete Time Control System.5. Discretization of continuous time state equation.6. Investigation of the controllability and Observability of a system.7. Design of control system using pole placement technique.8. Design of State observer.9. Design of Discrete Time Control System based on minimization of quadratic

performance index.10. The solution of steady state quadratic optical control using riccati equation.

Text Books

l. K. Ogata, "Discrete Time Control systems", Prentice Hall, Second Edition, 2003.2. M. Gopal, "Digital Control and State Variable Methods", Tata McGraw Hill,2003.

Reference Books

l. G.F.Franklin, J.David Powell, " Digital control of Dynamic Systems", Michael Workman3rd Edition, Addison Wesley, 2000.

2. M. Gopal, "Digital Control Engineering", Wiley Eastern Ltd, 1989.3. Kannan Moudgalya, John Wiley and Sons, "Digital Control", 2007.4. Forsytheand W. and Goodall R.N McMillan, "Digital Control", 1991.

FFNo.: 654 A18




Credits: 03IC42116:: BATCH PROCESS CONTROL

Teaching Scheme: Theory 3 Hours/WeekCourse Outcomes:The student will be able to-

1. Understand the fundamentals of batch control system2. Comprehend the control aspects of batch processes3. Design control strategies to batch processes4. Specify controls and data management system5. Implement control system for any given batch process

Unit I:Introduction to batch control system (8+1 Hours)Part A: Batch control system terminology, characteristics of batch processes, hierarchical

batch model, control structure for batch systems. Role of standards in batch controlsystems, study of international standards and practices.

Part B: Study of international standards and practices such as S88.

Unit 2: Control of batch Process (8+1Hours)Part A: General control requirements, safety interlocking, regulatory & discrete controls,

sequential control of batch processes, control activities and process management,information handling for a batch process.

Part B: Study of international standards and practices such as S95.

Unit 3: Design of batch control systems (8+1Hours)Part A: Batch management, recipe management, and production scheduling & informationmanagement. batch control system design, system requirements, system

hardware/reliability requirement.Part B: Study of USA FDA regulation, 21CFR 11.

Unit 4: Specifications and data managementPart A: Batch control system specifications and implementation,

requirements, cost justification and benefits, data management.Part B: Collection of specifications for any batch control application.

Unit 5: Implementation & case studies (8+1 Hours)Part A: Generic implementation of batch processes, case study of batch control system

implementation for applications in food and beverages, pharmaceuticals etc.Part B: Case study of batch control system.

(8+1 Hours)Information/ disp lay

Text Books

Thomas .G. Fisher William M. Hawkins, -Batch Control Systems, ISA series, 1st ed., 2008

Reference Books1. Thomas .G. Fisher William M. Hawkins, -Batch Control Systems, ISA series, 2nd ed., 2012.

19




FFNo.: 654B

Credits: 2IC 33319:: WATER ENGINEERING

Teaching Scheme: 2 Hours/ Week

Course Outcomes:The student will be able to1. Draw a layout and network diagram2. Implement the concept of water auditing3. Articulate NRW concepts4.Measure various parameters associated with water quality measurement

List of Practical:1. Introduction of Water Engineering2. Basic Instrumentation in Water Engineering3. Water Layout (WTP, ETP & STP) and network diagram (Distribution network)4. Basics of pumping, motors and control schemes of water supply and distribution5. Water Auditing, Water balance, benchmarking & NRW calculations6. Measurements of various parameters associated with Water Quality Measurement8. Projects:

Project on filter bed automationProject on DO controlProject on water distribution networkProject on ESR controlProject on smart water management in premisesProject on NRW calculationsAutomation of distribution network, STP & WTP

Text Books:1. Donald P Eickman ; Industrial Instrumentation; Wiley Eastern2. 4. R.S.Khandpur, Handbook of Analytical Instruments3. B.G. Liptak, Process Measurements and Analysis, 3rd Ed

Reference Books:1. Basics of water resources-Course book; UNESCO; PCCP Publications2. Mr A. Lambert, and Dr W Hirner, Loss from water supply systems: Standard Terminology

and performance measures; International Water Association;3. IE VAN IYL; Introduction to Integrated Water Meter Management, Ed 1

20




FF No.: 654A

IC42117:: BIOMEDICAL SIGNAL PROCESSING

Credits: 03 Teaching Scheme: Theory 3 Hours/WeekCourse Outcomes:The student will be able to :

1. Understand components and processing of X ray and CT as bioimaging modalities.2. Study hardware aspects of typical NMR systems and lasers and analyse reconstruction

techniques in NMR images.3. Study ultrasound and nuclear medicine imaging systems.4. Implement basic image processing functions.5. Analyse ECG and EEG signals using signal processing methods.

Unit 1: X-ray and CTPart A: X-ray Machines- Radiation & interaction with matter, Generation of X-ray, X-raymachine, X-ray films, Fluorescence Screens, Image intensifier, Portable and mobile X-raymachinesComputed Tomography - Principle, Contrast Scale, CT scanning system, different CTgeneration, image reconstruction techniquesPart B: Dental X ray machines, digital Radiography, study of image reconstruction algorithm

Unit 2: MRI and LaserPart A: Magnetic resonance imaging - Principal of NMR Imaging Systems, ImageReconstruction Techniques, Basic NMR Components, Biological Effects of MRI Imaging.Laser applications in Medicine- Types of Lasers, Interaction of Lasers with Tissues, Laserapplications in biomedicalPart B: Study ofMRI image reconstruction techniques, Laser applications in Opthalmology

Unit 3: Ultrasound and Nuclear MedicinePart A: Ultra sound imaging - Physics of Ultrasonic Waves, Medical Ultrasound, A- Scan, BScan, M- Scan, Real time Ultrasonic Imaging Systems,Nuclear Medical Imaging System- Radiation detectors, Pulse Height analyzers, Radio- isotopeRectilinear Scanner, Gamma Camera, Emission Computed Tomography (ECT)Part B: Digital Scan Converter, Single -Photon Emission Computed Tomography (SPECT),Positron Emission Tomography(PET)

Unit 4: Biomedical Image ProcessingPart A: Introduction to Image Processing, Image Formation Model, Image Sampling and

Quantization, Representation of Digital Images, Basic Relationship between Pixels,Distance Measures ,Introduction to Transforms like DFT, FFT ,Basics of ImageEnhancement techniques, Spatial Domain Methods For enhancements, FrequencyDomain Methods,

21

-- - -- --- -- -----




Part B: Medical Image Segmentation - Histogram-based methods, Region growing andwatersheds

Unit 5: Biomedical Signal ProcessingPart A: Frequency domain analysis of ECG and EEG signal, ECG QRS detection: digital

approach, IIR digital filter for ECG analysis, ECG signal averaging, 60HZ adaptive filterfor ECG noise removal

Part B: Review of linear systems: Fourier Transform and Time Frequency Analysis,Processing of Random & Stochastic signals, power spectral Estimation,

Text Books:

I.Carr & Brown, Introduction To Biomedical Equipment Technology'2. R. S. Khandpur,' Handbook of Biomedical Instrumentation', TMH3. Willis J Tompkins, "Biomedical Signal Processing" , ED, Prentice Hall, 19934. Gonzalez, woods, "Digital Image Processing't.S" edition, Pearson Publications.

Referencebooks:

1. D. C. Reddy ,"Biomedical Signal Processing: Principles and techniques" ,Tata McGrawHill, New Delhi, 2005

2. Bronzino,' The Biomedical Engineering Handbook', IEEE Press .3. Rangaraj M. Rangayyan: "Biomedical Signal Analysis", IEEE Press/WIley, New York,

NY, 2002

22


Vishwakarma Institute of Technology .(An Autonomous Institute Affiliated to Savitribai Phule Pune University)



1. Department activities in the Academic Year 2016-17


3. Review of Six months internship activity for Final Year B.Tech Students and

approval for its assessment scheme

4. Approval for new UG Structures and syllabus from AY 2017-18

5. Approval for new PG Diploma course on Industrial Automation

6. Approval for COs for PG progamme

7. Attainment of COs in Sem-1 of AY 2016-17 and proposed action planned for

non-attainment of COs


Page lof44




Minutes of Meeting of BOS in Instrumentation and Control Engineering held atInstrumentation Engineering Department, VIT, Pune, on Saturday 2SthMarch 2017Venue: Room No.4209-Department Library, Instrumentation Engineering Department, VIT,Pune.

A meeting of the Board of Studies in Instrumentation and Control Engineering was held inInstrumentation Engineering Department, VIT, Pune, on Saturday 25thMarch 2017at 10.00 am.The following members were present:

1. Prof. (Dr.) S. Y. Sondkar ChairmanAsso. Professor & Head, Instru. Engg. Deptt.

2. Prof. (Dr.) S. L. Patil,Dean Students Activities andProfessor, Instru. Engg., College of Engineering, Pune

3. Mr. Abhay BansodDirector, Emerson Exports Engineering Centre, Pune.

4. Mr. Ajay NagarkarDirector, Axonet Emsys Pvt. Ltd., Pune


6. Prof. P. V. PolAsstt. Professor, Instru. Engg. Deptt.

7. Prof. (Mrs.) M. R. MhetreAsstt. Professor, Instru. Engg. Deptt.

8. Prof. 1. A. GaikwadAsstt. Professor, Instru. Engg. Deptt.

Member

Member

Member

Member

Member

Member

Member Secretary

The following invited members were also present:1. Prof. V. R. Bhanuse, Asstt. Professor, Instru. Engg. Deptt.2. Prof. A. B. Kadu, Asstt. Professor, Instru. Engg. Deptt.3. Prof. Archana Chaudhary, Asstt. Professor, Instru. Engg. Deptt.4. Prof. S. M. Deokar, Asstt. Professor, Instru. Engg. Deptt.5. Mr. Siddarth Gurav, Student, Final Year BTech Instru. Engg. Deptt.6. Ms. Janhavi Chaudhary, Student, Third Year BTech Instru. Engg. Deptt. '

Prof. (Dr.) P.S.V. Natraj, lIT Bombay and Prof. (Dr.) C. Y. Patil Head, Instru. Engg COEPune is busy with its administrative work and the leave has been granted.Prof. (Dr.) S. S. Patankar, Asstt. Professor, Instru. Engg. Deptt. was on leave.

Page 2 of 44




The BOS considered the items of the agenda and the items permitted by the Chair anddecided as follows:Item-1Resolution 1:


Item-2Resolution I:Proposed by -Seconded byItem-3

Resolution I:


Department Activities in the Academic Year 2016-17The report of department activities wasconfirmed.(Annexure-I - Page No.5 to IS)Prof. M. R. Mhetre

read and

Mr. Ajay NagarkarReview of previous Meeting

The minutes of the last meeting were read and confirmed.Prof. J. A. GaikwadProf. (Dr.) S. L. PatilReview of Six months internship activity for Final Year B.TechStudents and approval for its assessment schemeSix months internship activity report for Finai Year B.Tech.students (pattern F- I IRevised) from academic year 2016-17 IS

presented and assessment scheme for the same isapproved.(Annexure-II - PageNo. 16t019)Prof. Dr. Mrs. S. Y. SondkarMr. Abhay Bansod

Resolution unanimously passed.Item-4 Approval for new UG & PG Structures and syllabus from AY.2017-18Resolution I: The Structure and Syllabus of undergraduate programme of Pattern

A-16 with effect from Academic Year 2017-18were accepted andapproved. (Annexure-III - Page No. 20 to 26)

• SY BTech Syllabus Page No.1 to 38• TY BTech Syllabus Page No.1 to 38• Final Year BTech Syllabus Page No. 1 to 54

Prof. Dr. Mrs. S. Y. SondkarProf. (Dr.) S. L. Patil

Proposed by -Seconded by-Resolution unanimously passedResolution 2: The Structure and Syllabus of undergraduate programme of Pattern

B-14 (Revised) with effect from Academic Year 2017-18 wereaccepted and approved.(Annexure-III-Page No. 27 t031)

• TY BTech Syllabus Page No.1 to 38• Final Year BTech Syllabus Page No. 1 to 54

Prof. Dr. Mrs. S. Y. SondkarProposed by -Seconded by-Resolution unanimously passed

Mr. Abhay Bansod

Page30f44




Resolution 3:


The Structure and Syllabus of undergraduate programme of PatternA-14 (Revised) with effect from Academic Year 2017-18 wereaccepted and approved.(Annexure-IlI-Page No. 32 to 34)

• Final Year BTech Syllabus Page No. 1 to 54Prof. Dr. Mrs. S. Y. SondkarMr. Ajay Nagarkar

Resolution unanimously passedResolution 4: The Structure and Syllabus of Postgraduate programme of Pattern

A-17 with effect from Academic Year 2017-18 were accepted andapproved.(Annexure-IlI-Page No. 35 to 37)

• FY and SY MTech Syllabus Page No. 1 to 40Prof. Dr. Mrs. S. Y. SondkarMr. Abhay Bansod


Item-5 Approval for new PG Diploma course on IndustrialAutomationThe Structure and Syllabus of abovePG Diploma course onIndustrial Automationwith effect from Academic Year 2017-18were accepted and approved.(Annexure-IV-Page No. 38 to 39)Prof. J. A. Gaikwad

Resolution 1:

Proposed by -Seconded by- Mr. Abhay BansodResolution unanimously passedItem-6 Approval for COs for PG progammeResolution 1:


The course outcomes of all courses of PG programme werepresented, accepted and approved. (Annexure- V - Page No. 40 to42)Prof. P. V. PolMr. Ajay Nagarkar

Resolution unanimously passedItem-7Attainment of COs in Sem-1 of AY 2016-17 and proposed action planned for

non-attainment of COsThe attainment levels of sample COs of Sem- I of undergraduatecourses were presented and proposed action planned for nonattainment of COswas accepted and approved. (Annexure- VI - PageNo. 43 to 44)Prof. J. A. GaikwadMr. Ajay Nagarkar

Resolution 1:


Page4 of44


Vishwakarma Institute ofTechnology(An Autonomous Institute Affiliated to Savitribai Phule Pune University)


The meeting concluded with a vote ofthanks to the BoS members and invited faculty.

/1JProf. (Dr.) S. Y. SondkarChairman, BOS

Annexure -I .Department activities in the Academic Year 2016-17

WELCOMETO

NEW BOS MEMBER AND

DEPARTMENT MENTOR

Prof. P S V NatarajHead,System and Control, Electric~1

Engg. Dept.Indian Institute of Technology, Bombay

Mr. Abhay BansodDirector,Emerson Exports Engineering

Centre

Page 5 of 44




1. Departmentactivities in the AcademicYear 2016-17

S.No.Month Achievement Details 1Remark1 Aug 2016 Received BCUD Research funding grant of Prof. Dr. S. Y. Sondkar-Rs. 1. 65 lakhs Experimental, Set up for

Adaptive Control of Non LinearSystem Component2016-20182 Oct 2016 Received grant ofRs 1000001- from BCUD Prof. Mrs. M. R.Mhetre

for FDP on Biomedical Devices, Signal anImage Processing: Challengeand OpportunitiesConducted 2~ - 25 Feb 2017

S.No. Course Name Industry conducting the course1 Project Engineering and Management Emerson Exports Engg. Centre, Pune2 Water Engineering Forbes Marshall, Pune3 Batch Process Control Emerson Exports Engg. Centre, Pune4 Industrial Flow Measurement techniques Forbes Marshall, Pune

Welcome address by Head of Department along with experts from Emerson Export Engg

Page6of44




Inauguration and welcome of experts from Emerson Export Engg for Batch Process Control Elective Course

S. Date/ Resource Person Topic of Lecture ClassNo. Month Name and Designation1 2na Aug Mr. Vaibhav Joshi, Life after Graduation TYand

2016 Chief Executive Spider,VGlobaITech.com, Final Yearsoftware development company,USA, BTechTechnical Fellow Fedex,USA2 8thOct Mr. Rajendra Dhage , Reliability SYand TY

2016 Global Reliability Specialist. BTechCumminsGlobalAnalyticsCenter (GAC)3 7th Feb Mr. Rajesh Laturkar, Latest trends in Instrumentation TY

2017 Forbes Marshall, Pune and automation in Industry BTech4 8thFeb Mr. Anant Murari The importance of soft skills for SYand TY

2017 success in the Corporate world BTech5 14th Feb Dr. Sanjeevani Gogawale Role of Reliability in SYand TY

2017 Instrumentation Engineering (Honors)6 17thFeb Mr. Chandrashekhar Dhamankar Training for pass out Final Year

2017 ForbesMarshall, Pune unemployed students through BTechCII

7 lih Feb Mr. Chandrashekhar Dhamankar Employability (How COE SY BTech2017 ForbesMarshall, Pune Output can be Industry Input?)

Page 7 of 44




Mr. Anant Murari interacting with studentsduring lecture

- - - --_ - -II

Mr. Rajesh Laturkar along with Third Year student

Dr. Sannjeevani Gogawale conducted lecture on ReliabilityLecture by Mr. Dhamankar,Forbes Marshall, Pune for Final year students

Sr. No. Industry Visited Facu!!y 0'Xanizer Class visited Date1 Electronet Equipment Pvt. Ltd. Vijaykumar Bhanuse TY 11tnSept 20162 PCMC Water Treatment Plant Kapil Mundada TY 9tn Nov 2016

-------------------------------- ---- ----

Page 8 of 44



666, Upper Indiranagar, Bibwewadi, Pune 411037Department of Instrumentation Engineering

Sr. No Name of the Student Class Rank! Achievement

1 Yasin Khan, Akshay Randive, Final Year First Runner up for State Level ProjectTushar Londhe, B Tech Competition in association with InternationalPradnyanad Patil Society for Automation on 2nd June 2016

2 Tejas Karewar, Final Year Second Runner up for State Level ProjectRohit Mulmule B Tech Competition in association with International

Society for Automation on 2nd June 2016

Sr.No. Achievements Number1 Workshops/ Seminars Attended 82 Workshop/ Seminar Organized 13 Workshops Conducted 14 Ongoing Funded Research Projects 15 Ongoing Consultancy Projects 3

On 17th Jan, 2017 the ISA team of VIT, Pune along with ISA coordinator Prof. Archana Chaudhariand the Head of the Department of Instrumentation Engineering Prof. (Dr.) Shilpa Sondkar visitedthe Janaseva Foundation for the noble cause of cloth donation. Janaseva Foundation is located inBhilarewadi, Pune.

Page 9 of 44




'1:..~CDc;''!!I''I::I:~II,:''lr.#);Nll''I;ll~I_[ACjwpr,....':;:'~IIIII:II;UI!II.I!i"l~jIB:I\lIWTT#"i·''''I'",llllllllf1:~'.L:j.C",,~..._~_II~~a~$:~--~N'7B,I":.Lx;w~-,;,*SI;,~",<:, ,~~"I"" i~~i<;":~:'~,,,,,,mw.--=- -~"¥.I~~"",~~P-.J1I1L"""'M>."""""""'"»:<it'~%-...,;,,,,,,v~~m!aIll!l _On 15th Feb 2017, Mr. Tokunaga, General Manager, Mitsubishi Electric, Japan visitedInstrumentation Engineering Department.Few glimpses of the event

Felicitationof the Mr. Tokunaga at the hands of Head of Demonstrationof students projects to Mr. To unagaDepartment,Dr. Shilpa Sondkar

Demonstrationof students projects to Mr. Tokunaga Demonstrationof students projects to Mr. Tokunaga

Demonstrationof students projects to Mr. Tokunaga Demonstrationof students projects to Mr. Tokunaga

Page 10 of 44




Department of Instrumentation Engineering organized three day State Level Workshop on"Biomedical Devices, Signal and Image Processing: Challenges and Opportunities organized in thedepartment from 23rd Feb 2017 to 25th Feb 2017.The function was inaugurated by Mr. Paknikar, Director, Agharkar Institute and Guest of Honor forInaugural function was Prof. Dr. Virendra Bhavsar, Brunswick University, Canada.

Following eminent experts were invited as speakers for the workshop1. Mr. Sanjeev Kubakaddi, ITIE, Konwlede solutions, Bangalore2. Dr. Niranjan Khambete, Deenanath Mangeshkar Hospital, Pune3. Dr. Rahul Kodgule by Chest Research system, Pune4. Mr. Mukund Joshi, Pridex Medicare5. Mr. Ameya Mundhe and Mr. Rahul Chavanke, ARK solutions6. Mr. Makarand Deo ,Norfolk State university ,USA (Skype call)7. Dr. Manasi Patwardhan, Dean R&D, VIT, Pune8. Dr. Siddharth Jabade, Dean International relation, VIT,IPR9. Dr. A. V. Deshmukah, Principal, Baja Institute, Wardha

Around 40 students and academicians took benefit of the workshop.

Glimpses of Inaugural Function

Felicitation of Guest of Honor Mr. Pakinakar byDean Quality Assurance, Prof. Ashutosh Marathe and

Head of Department Dr. Shilpa Sondkar

Felicitation of Chief Honor Dr. Virendra Bhavsar byDean Quality Assurance, Prof. Ashutosh Marathe and

Head of Department Dr. Shilpa Sondkar

Page 11 of 44




1. Prof. Dr. Jayant Kulkarni, Prof. Jitendra Gaikwad, Prof. Vijaykumar' Bhanuse attendedworkshop on Condition Monitoring of Rotating machine using Vibration Analysis at Kopergaonon 6th Oct 2016.2. Prof. Anil Kadu attended skill development training conducted by Mitsubishi from 26-28Sept 2016.3. Prof. Manisha Mhetre attended one week STTP on Multimedia Signal Processing from 8-12Aug 2016 held at VIT, Pune4. Prof. Ani! Kadu attended Hands on workshop on real time interfacing using Matlab,Simulink and Guide for Process Control Application at Manipal from 11-15 July 2016.5. Prof. Kapil Mundada attended STTP on Statistical Techniques for Data Analysis from 4- 8July 2016 held at VIT, Pune6. Prof. Jitendra Gaikwad, Prof. Vijaykumar Bhanuse and Prof. Anil Kadu attended PLCprogramming workshop conducted by Mitsubishi Electric, held in June 2016 at VIT, Pune7. Prof. Pramod Kanjalkar and Prof. Kapil Mundada attended one week AICTE sponsored QIPon "New Trends in Biomedical Signal Processing" held during 16-21 Jan 2017, organized byVJTI, Matunga, Mumbai.

k, Faculty Achievements

I. Prof. Dr. Shilpa Sondkar received the Gunvant Adhyapak Puraskar form Savitribai PhulePune University on 10th Feb 2017.

Felicitation of Dr. Shilpa Sondkar at Savitribai Phule Pune University ,

Page 12 of 44




2. Training course conducted on Automation and Control at SSASIT, Surat by Dr. Jayant

Kulkarni and Jitendra Gaikwad on 16-17 September 2016.

Felicitation of Prof. Jitendra Gaikwad at SSASIT, Surat

1. Yogesh Patil, Mrs. M. R. Mhetre" Design and evaluation of turbine spirometer: A newapproach", Innovations in Electronics and communication Engineering ICIECE, HyderabadJuly 2016.

2. Rashmi Dandge, Mrs. Manisha Mhetre "Evaluating broadband ultrasound Attenuation usingpiezo transducer", Innovations in Electronics and communication Engineering ICIECE,Hyderabad, July 2016.

3. Sujit Deokar, "Abnormality detection in ECG Signal Using Wavelets and FourierTransform", American Journal of Engineering and research, Vol. 5, Issue 5, May 2016.

4. Ajay Ladket, Prof. (Dr.) J.V. Kulkarni, Prof. (Dr.) S. S. Patankar "Modified Matched FilterKernel for Classification of Hard Exudates" ICICT -16 Coimbatore, Tamilnadu, Aug 2016.

5. Abhishek Taori, Prof. (Dr.) J.V. Kulkarni Prof. (Dr. ) S.S. Patankar, Prof. A. K. Chaudhari"Segmentation of Macula in Retinal Images using Automated Seeding Region GrowingTechnique" ICICT -16 Coimbatore, Tamilnadu, Aug 2016.

6. Nachiket Patki, Prof. (Dr.) 1. V. Kulkarni Prof. (Dr. ) S. S. Patankar "Registration of FacialImages with Out of Plane Rotation for Surveillance Application" ICICT -16 Coimbatore,Tamilnadu, Aug 2016.

7. Venketesh, Prof. (Dr.) J. V. Kulkarni, Prof. V. R. Bhanuse "Vibration analysis of crackedbeam using Fuzzy logic technique" ICACDOT -16 Hinjawadi, Pune, Sept 2016.

Page 13 of 44




8. Swatik Bhandhri, Prof. (Dr.) D. K. Maghade "Solid Fuel Fired Boiler Combustion Controlusing Fuzzy Logic Algorithm" ICACDOT -16 Hinjawadi, Pune, Sept 2016

9. Sunil Zode, Prof.(Dr.) D. K. Maghade" Gamma Radiation Source Identification AlgorithmFor Multisource Radiation Environment" ICACDOT -16 Hinjawadi, Pune, Sept 2016.

10. Aditi Patil, J. A. Gaikwad, Dr. J.V.Kulkarni "Bearing Fault Diagnosis Using DiscreteWavelet Transform And Artificial Neural Network, IEEE International Conference onApplied and Theoretical Computing and Communication Technology (iCATccT), June2016.

11. Smita Chopade, J. A. Gaikwad, Dr. J.V.Kulkarni "Bearing Fault Detection using PCA andWavelet based Envelope Analysis, IEEE International Conference on Applied andTheoretical Computing and Communication Technology (iCATccT), June 2016.

12. Priyanka Mehta, J. A. Gaikwad, Dr. lV.Kulkarni "Roller bearing fault detection usingMulti-scale Fuzzy Entropy and classification based on VPMCD under varying speed, IEEEInternational Conference on Recent Trends in Electronics, Information & CommunicationTechnology(RTEICT), May 2016.

13. Parman and Jadhav, Sanika Patankar, Vijay Bhanuse, J. A. Gaikwad, Jayant Kulkarniand Determination of Steel Plate Deformation Using Vibration of Impact Testing,International Conference on Automatic Control and Dynamic Optimization Techniques(ICACDOT), July 2016.

14. Adwait Borwankar, Prof.(Dr).Shilpa Y. Sondkar, Neville Fernandes, " LabVIEW BasedAdaptive Modeling of Piezo Actuators Used in Electro Pneumatic Positioner",International Conference on Advanced Communication Control and ComputingTechnologies (ICACCCT) 2016, Ramanathapuram, Tamilnadu, India ,May 2016

15. Neha Narkhede, A.B.Kadu, Prof(Dr).S.Y.Sondkar "Lab VIEW based system for PIDTuning and implementation for a flow control loop, IEEE International Conference onAdvanced communication control and computing Technologies (ICACCCT)Ramanathapuram, Tamilnadu, India, May 2016.

16. Ketan Mahajan, Prof. R. R. Patel, Prof. P. M. Kanjalkar, Prof. K. G. Mundada"Identification of Lightning Electric Field using HHT and Time Domain ApproachInternational Conference on Advanced Communication Control and ComputingTechnologies (ICACCCT) 2016, Ramanathapuram, Tamilnadu, India, May 2016.

17. Amarsing Deshmukh, Prof. K. G. Mundada, Prof. P. M. Kanjalkar "Endoscopic ImageEnhancement Using Blind Denoising" ICIECE-16 Hyderabad, July 2016.'

18. Pratik Parate, Prof. P. M. Kanjalkar, "Compressive Sensing Approach for Data RecoveryFrom Incomplete Measurements for One Dimensional Signal". International Conference onAdvanced Communication Control and Computing Technologies (ICACCCT) 2016,Ramanathapuram, Tamilnadu, India, May 2016.

Page 14 of 44

19. Pravin Pol, S. L .Pati!, "A Simple and Novel Technique for driving Silicon Carbide PowerMosfet with Unipolar Supply Voltage", IEEE Conference PEDES 2016, Tiruananthpuram,Kerala, Dec 2016

BansilaIRamnathAgarwalCharitableTrust's



m. Details of Consultancy work

Sr. No Name of Company No of faculty Total Amountinvolved (Rs)1 Ambica Diagnostics (1.35) 3 8,05,00012 Liebherr appliances Ltd (Project no II) (1.1+ 1.4)

3 Pridex Medical System (0.70+3.5)

n. Placement

Sr. No. Name of Company No of students Placed1 Emerson 52 Vanderlande 53 Honeywell 34 Accenture 95 Johnson Control 36 MuSigma 17 Principal Global 18 Praj Industries 19 Sudarshan Chemicals 1

Total 29

o. Workshop conducted for students

1. Workshop on Proteus was conducted for SY B. Tech students on 13th Aug 2016.2. Workshop on Power supply design conducted by Prof. Praveen Pol for Second Year students

on 19th Aug 2016.

3. Workshop on Power supply design conducted by Prof. Rajendra Patel for Third Yearstudents in Sept 2016.

Page 15 of 44

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Internship Assessment

Course: Industry Internship (IC 47312)Course Outcomes (CO):

~~~~~~~f~~b~~~PIY;tt~~rent~~, ..--.- ..--- ..--- ;-.-.--.._ ;.-.-.-- ; ;- -.- - - ; ;············_··-·__·_ _·_..·_..·_..·_ ..·-1 '

~~~~~~~~_~_~ ::~:!,PS~~L...._.._..~)_.J..~.~9..~i~~=~~~::~~y.=~T~~e-~~?~~~!.i~~:=:=:::~::=:::=:::=:::::::.-.:::::.:::.:::=::=.=:=:==~-.-.---_.-:I e) I Analyze or visualize data to create information - ----1I--..--·-----r- --· · ·..· · - __ _.___.-.__- ;I I Example for CO 1: iI I 1. Working on DCSIPLC/embedded systems projects in some capacity

I I 2. Working on InstrumentsNalves etc.13. Working in various departments of industry to understand working,

I I responsibilities and co.ordination. . .

I, I 4. Any other work which can be clearly correlated to studies with consent of~~~d~~~~~~==~~=~~..~a: arn modern engineering tools i PO-5 I

::~::==~fu....4__ ..._ ..._~!.~i~~~~~~~Ito~is..~ndiE.j_p_a.ct~~~~~it.~TI.~1!y.!.~.ff.f~I~~~.Y;=::=:::::~=:.::~::·~.:::=:~:::1·PSO-I, PSO-2c) I Effectively utilize modern engineering tools necessary for good ' I .

I I ,

~~~lk~~~~---===l .. ~

....................................... - ~ - _ .

I •~r_e,,~~~~~~~--==--=-~=---==:j/ a) I Demonstrate understanding of professional customs and practices. (like I PO-8, PO-12 II i?u~~tu_'.l.!.itY_[...E~g~l~~l~_.L..___.__._ . ._ .._ _____ _.._.__.._ _ .f=~:~t£-!~~J.~e.~a~~~t~~~~:t::~·~~h·--~Of~ssio·n·a·rs-ta~·da~d·;..· ·..........·--·..-- -..-··..·--..··-..if.- - --; - Y. -- __..__.2 - - - - ..--.- - - ..- ---- -..-- - - -.iL-- -q)-J.~~~~.Y.~.P~~f.e.~~!g.!:1.~~Jx~~..~_~~_~~~J!Y._.._.__ _ _ _ _............... _ l _ __. __ ._. __ ._j

Page 17 of 44



666, Upper Indiranagar, Bibwewadi, Pune 411 037

Department of Instrumentation Engineeringr·--------- _! !f--··-····--·-·-·············-···-·············-···--- ..- ..---- ..------..---- ..-..-.- - -.-- - - -.--- _ __.._ - - - -.- ..--JI COS: Technical Writing: Abili!):to Ir.- ..- ..-~j-.L~~~:~:!.~q~I~~ii!i~ts~~~.~~ri!.~!r~~::·.~::::.::::~:::::..:...:::::.=..:: ..:.:~::==-=.. ~.... ..- .. "'''''rp'o=io~''pb-li!i b) I WriteMaintenance and troubleshoot report

[..::~::..£j]I~~£~~=~~£~·~~~~!!9.:~9.Ii~~.k..~~ii.jp.I~~~~:~:..·==."~~======-~'~=:~:::.:=-:':'......1. ! Examples for COSI

I What is Document, record?! What are different types of documents ( design, Implementation, test)I Document categories (Internal, Restricted use, confidential etc.)i Reports ( Based on assignment it could be maintenance, shift, progress, Quality

I 1 etc.)I I Exposure to Technical writing

L _.._.._.l..1.~!.~rn~ip....!:.~p~~: .._..____ _ _ - --.-.._- ..__ ..-.. .._ _ _L _

VI

Broad categories of COs are marked in bold. Evaluators may select sub categories asapplicable

Page 18 of 44




Internship Assessment(Jan. 2017 to May I June 2017)

MidSem Review SeminarRegula rity ,Punctualit ESE Review

y& Report

Cal to COS C03, COS C04, COS Cal to COS

20 marks each CO 25 marks each CO 25 marks each CO 20 marks each CO Total Grade

Sr. GR Roll Name of studentSignature

No No No of studentIndustry

College Industry College Industry College Industry College Guide I

Guide Guide Guide Guide Guide Guide Guide ExternalExaminer

100 100 50 50 50 50 100 100 600

_Signature of Examiners - - - -

Date

Name of Guide Name of IndustryGuide Name of External Examiner

Page 19 of 44

Bansilal RamnathAgarwal Charitable Trust's



Annexure -III

S.Y. B.Tech - Instrumentation and Control Engineering Structure Pattern A-16with effect from Academic Year 2017-18 Semester -I

Teaching Learning Scheme Assessment Scheme (100 mark scale)Th Lal Projec Hrs./ Credits ISA MSE ESE-I00

Course Course Lab Week THP-30 marks -100 marksCode Type Course Name THL- 100 marks converted to 30 marks converted

rrH - 5 HA of 6 marks each converted to 35to 35

PI P2 P3 CA MSj ESA HAIC20lTHP THP Signals and Systems 3 2 5 4 10 10 10 --- --- --- --- 35 35IC203THP THP Mechanical Measurements 3 2 5 4 10 10 10 --- --- --- --- 35 35IC205THP THP Control Systems 3 2 5 4 10 10 10 --- --- --- --- 35 35IC207THP THP Analog Circuits 3 2 5 4 10 10 10 --- --- --- --- 35 35IC20lTH TH Probability and Statistics 3 3 3 --- --- --- --- --- --- 30 35 35HS251TH TH Engineering &Managerial 2 2 2 --- --- --- --- --- --- 30 35 35EconomicsIC201SD JAVAand PythonIC203SD LAB/ LabView Programming

2 2 2 30 20 50--- --- --- --- --- ---IC205SD INT Graphical User InterfaceIC201INT Summer Training . - -Total 17 2 8 27 23 --- --- --- --- --- --- --- --- ---

Page 20 of 44




S.Y. B.Tech - Instrumentation and Control Engineering Structure Pattern A-16with effect from Academic Year 2017-18 Semester -II

Teachina Learninz Scheme Assessment Scheme (100 mark scale)Th Lab Projec Hrs./ Credits ISA MSE ESE-100

Course Course Course Name Lab Week THP-30 marks -100 marks marksCode Type THL-100 marks converted to 30 converted converted

TH - 5 HA of 6 marks each to 35 to 35PI P2 P3 CA MSA ESA HA

IC202THP THP Process Measurements 3 2 5 4 10 10 10 --- --- --- --- 35 35IC204THP THP Control System Components 3 2 5 4 10 10 10 --- --- --- --- 35 35IC206THP THP Digital Systems 3 2 5 4 10 10 10 --- --- --- --- 35 35IC202THL THL Data Structures 3 2 5 4 --- --- --- 30 20 50 --- 35 35IC202TH TH Linear Algebra 3 3 3 --- --- --- --- --- --- 30 35 35HS252TH TH Costing and Cost Control 2 2 2 --- --- --- --- --- --- 30 35 35IC202PRJ PRJ Mini Project 2 2 2 --- --- --- 30 20 50 --- --- ---

Total 17 2 8 27 23 --- --- --- --- --- --- --- --- ---

Page 21 of 44




T.Y. B.Tech - Instrumentation and Control Engineering Structure Pattern A-16

with effect from Academic Year 2018-19 Semester -I

Teaching Learning Scheme Assessment Scheme (100mark scalt1Th Lab Project Hrs./ Credits ISA MSE ESE-IOOmarks

Course Course Course Name Lab Week THP-30 marks (CT) converted to 50Code Type THL-IOO marks converted to 30 20

IrH - 5 HA of 6 marks eachPI P2 P3 CA M~ ESA HA

IC302001 THL Process Loop Components 3 2 5 4 --- --- --- 30 20 50 --- 20 100IC302003 THL Industrial Automation 3 2 5 4 --- --- --- 30 20 50 --- 20 100IC303001 THP Microcontrollers and 3 2 5 4 10 10 10 --- --- --- --- 20 100

ApplicationsIC303003 THP Digital Signal Processing_ 3 2 5 4 10 10 10 --- --- --- --- 20 100IC301001 TH Analytical Instrumentation 3 3 3 --- --- --- --- --- --- 30 20 100HS307004 TH Employability Skills 2 2 2 --- --- --- --- --- --- 30 20 100

DevelopmentIC306001 Calibration and StandardsIC306003 Water EngineeringLAB 2 2 2 --- --- --- 30 20 50 --- --- ---IC306005 Internet of ThingsIC306007 Advanced Factory Automation

Total 17 6 4 27 23 --- --- --- --- --- --- --- --- ---

Page 22 of 44




T.Y. B.Tech - Instrumentation and Control Engineering Structure Pattern A-16

with effect from Academic Year 2018-19 Semester -II

Teaching Learning Scheme Assessment Scheme (100mark scale)Th LalJ Project Hrs./ Credits ISA MSE ESE-I00 marks

Course Course Course Name Lab Week THP-30 marks (CT) converted to 50Code Type THL- 100 marks converted to 30 20

T_H- 5 HA of 6 marks eachPI P2 P3 CA MSA ESA HA

IC303002 THP Instrumentation Project 3 2 5 4 10 10 10 --- --- --- --- 20 100Engineering

IC303004 THP Industrial Electronics 3 2 5 4 10 10 10 --- --- --- --- 20 100IC303006 THP Electronic Instrumentation 3 2 5 4 10 10 10 --- --- --- --- 20 100IC302002 THL Distributed Control Systems 3 2 5 4 --- --- --- 30 20 50 --- 20 100IC301002 TH Modem Control Theory 3 3 3 --- --- --- --- --- --- 30 20 100HS307001 TH Project Management 2 2 2 --- --- --- --- --- --- 30 20 100IC309002 Mini ProjectPRJ 2 2 2 --- --- --- 30 20 50 --- --- ---IC311002 Summer Internship

Total 17 4 6 27 23 --- --- --- --- --- --- --- --- ---

Page 23 of 44




Final Year B.Tech - Instrumentation and Control Engineering Structure Pattern A-16

with effect from Academic Year 2019-20 Semester -I - Regular Module

Teaching Learninz Scheme Assessment Scheme (100mark scale)Th Lab Project Hrs./ Credits ISA MSE ESE-IOO

Course Course Course NameLab Week THP-30 marks (CT) marks

Code Type THL- 100marks converted to 30 20 convertedTH - 5 HA of 6 marks each to 50PI P2 P3 CA MSA ESA HA

IC403001 THP Digital Control 3 2 5 4 10 10 10 --- --- --- --- 20 100

IC403003 THP Process Instrumentation & Control 3 2 5 4 10 10 10 --- --- --- --- 20 100

IC407001 Batch Process ControlIC407003 Building Automation & Security

Elective- Systems 3 2 5 4 10 10 10 20 100IC407005

--- --- --- ---I Embedded Systems

IC407007 Power Plant InstrumentationIC407009 Control System DesignIC407011 Wireless Sensor NetworkIC407013 RoboticsIC407015 Elective- Biomedical Image Processing 3 2 5 4 10 10 10 20 100--- --- --- ---IC407017

2 Renewable Energy SystemsIC407019 Biomedical Instrumentation

..

IC409001 Project 5 30 20 50PRJ 2 2 --- --- --- --- --- ---

IC411001 Summer InternshipTotal 12 2 8 22 21 --- --- --- --- --- --- --- --- ---

Page 24 of 44

BansilalRamnathAgarwal Charitable Trust's



Final Year B.Tech - Instrumentation and Control Engineering Structure Pattern A-16

with effect from Academic Year 2019-20 Semester -II- Internship module

Teaching Learning Scheme Assessment Scheme (100mark scale)Course CourseCourse Name Th Lab Project Hrs. / Credits ISA - 100marks MSE ESE-I00 marksCode Type Lab Week converted to 30 (CT) converted to 50

CA MSA ESAIC41 1002 INT Industry Internship 15 30 20 50 20 100Open Elective : 3 creditsInternship / Research Activities: 8creditsDefense: 4 creditsORGlobal Internship: 15 credits

Total 15 --- --- --- --- ---

OR

Page 25 of 44




Teaching Learning Scheme Assessment Scheme (l00 mark scale)Th Lab Project Hrs. / Credits ISA MSE ESE-IOO



IC407002 Building Automation &

OPE-lSecurity Systems 3 3 3 --- --- --- --- --- --- 30 20 100

IC407004 Industrial AutomationIC407006 Wireless Sensor NetworksIC407008 Embedded SystemsIC407010 OPE-2 Biomedical Image Processing 3 3 3 --- --- --- --- --- --- 30 20 100

IC407012 Internet of ThingsIC407014 Industrial ElectronicsIC407016 OPE-3 Power Plant Instrumentation 3 3 3 --- --- --- --- --- --- 30 20 100

IC407018 Biomedical InstrumentationIC409002 PRJ Project 2 2 4 --- --- --- 30 20 50 --- --- ---IC410002 SEM Seminar 2 2 2 --- --- --- 30 20 50 --- --- ---

Total 9 4 11 15 --- --- --- --- --- --- --- --- ---

Page 26 of 44

Bansilal Ramnath Agarwal CharitableTrust's



T.Y. B.Tech - Instrumentation and Control Engineering Structure Pattern B-14 Revisedwith effect from Academic Year 2017-18 Semester -I .

Teaching Learning Scheme Assessment Scheme (100 mark scale)Th Lab Project Hrs./ Credits ISA MSE ESE-100

Course CourseCourse Name Lab Week rrHP-30 marks 100 marks marks

Code Type rrHL- 100 marks converted to 30 converted convertedtru - 5 HA of 6 marks each to 35 to 35

PI P2 P3 CA MSA ESA HAIC305THP THP Control System Components 3 2 5 4 10 10 10 --- --- --- --- 35 35IC303THL THL Industrial Automation 3 2 5 4 --- --- --- 30 20 50 --- 35 35IC301THP THP Microcontrollers and 3 2 5 4 10 10 10 --- --- --- --- 35 35

ApplicationsIC303THP THP Digital Signal Processing 3 2 5 4 10 10 10 --- --- --- --- 35 35IC30lTH TH Analytical Instrumentation 3 3 3 --- --- --- --- --- --- 30 35 35HS351TH TH Quantitative Aptitude - I 2 2 2 --- --- --- --- --- --- 30 35 35

IC301PD Calibration and StandardsIC303PD Water EngineeringIC305PD Internet of ThingsPD/INT 2 2 2 --- --- --- 30 20 50 --- --- ---IC307PD Advanced Factory

- Automation -IC30lINT Industrial Training

Total 17 4 6 27 23 --- --- --- --- --- --- --- --- ---

Page 27 of 44




T.Y. B.Tech - Instrumentation and Control Engineering Structure B-14 Revisedwith effect from Academic Year 2017-18 Semester -II

Teaching Leaminz Scheme Assessment Scheme (100 mark scale)Th Lal Project Hrs./ Credits ISA MSE ESE-100

Course Course Course Name Lab Week [rHP-30 marks -100 marks marksCode Type [rHL- 100 marks converted to 30 converted converted

lrn- 5 HA of 6 marks each to 35 to 35P1 P2 P3 CA MSA ESA HA

IC302THP THP Instrumentation Project 3 2 5 4 10 10 10 --- --- --- --- 35 35Engineering

IC301THL THL Process Loop Components 3 2 5 4 --- --- --- 30 20 50 --- 35 35IC306THP THP Electronic Instrumentation 3 2 5 4 10 10 10 --- --- --- --- 35 35IC302THL THL Distributed Control Systems 3 2 5 4 --- --- --- 30 20 50 --- 35 35IC302TH TH Modem Control Theory 3 3 3 --- --- --- --- --- --- 30 35 35HS352TH TH Quantitative Aptitude - II 2 2 2 --- --- --- --- --- --- 30 35 35IC302PRJ PRJ Mini Project 2 2 2 --- --- --- 30 20 50 --- --- ---

Total 17 6 4 27 23 --- --- --- --- --- --- --- --- ---

Page 28 of 44




Final Year B.Tech - Instrumentation and Control Engineering Structure B-14 Revised

with effect from Academic Year 2018-19 Semester -I

Teaching Learning Scheme Assessment Scheme (100mark scale)Th Lab Project Hrs./ Credits ISA MSE ESE-I00





IC407001 Batch Process ControlIC407003 Building Automation & Security

Elective Systems3 2 5 4 10 10 10 20 100

IC407005 Embedded Systems--- --- --- ---

-IIC407007 Power Plant InstrumentationIC407009 Control System DesignIC407011 Wireless Sensor NetworkIC407013 RoboticsIC407015 Elective- Biomedical Image Processing 3 2 5 4 10 10 10 20 100--- --- --- ---IC407017

2 Renewable Energy SystemsIC407019 Biomedical Instrumentation - -

IC409001 Project 30 20 50PRJ 2 2 5 --- --- --- --- --- ---IC411001 Summer Internship

Total 12 2 8 22 21 --- --- --- --- --- --- --- --- ---

Page 29 of 44




Final Year B.Tech - Instrumentation and Control Engineering Structure B-14 Revised

with effect from Academic Year 2018-19 Semester -II

Teaching LearniJ!.gScheme Assessment Scheme (l00 mark scal~Course Course Course Name Th Lab Project Hrs./ Credits ISA -100 marks MSE ESE-lOOmarksCode Type Lab Week converted to 30 (CT) converted to 50

CA MSA ESAIC411002 INT Industry Internship 15 30 20 50 20 100

Open Elective: 3 creditsInternship / Research Activities: 8creditsDefense : 4 creditsORGlobal Internship: 15 credits

Total 15 --- --- --- --- ---OR

Page 30 of 44




Teaching Learning Scheme Assessment Scheme (100mark scale)Th Lab Project Hrs. I Credits ISA MSE ESE-100


Code Type THL-100 marks converted to 30 20 convertedTH - 5 HA of 6 marks each to 50PI P2 P3 CA MSA ESA HA

IC407002 Building Automation &

OPE-ISecurity Systems 3 3 3 --- --- --- --- --- --- 3D 20 100

IC407004 Industrial AutomationIC407006 Wireless Sensor NetworksIC407008 Embedded SystemsIC407010 OPE-2 Biomedical Image Processing 3 3 3 --- --- --- --- --- --- 30 20 100IC407012 Internet of ThingsIC407014 Industrial ElectronicsIC407016 OPE-3 Power Plant Instrumentation 3 3 3 --- --- --- --- --- --- 3D 20 100IC407018 Biomedical InstrumentationIC409002 PRJ Project 2 2 4 --- --- --- 30 20 50 --- --- ---IC410002 SEM Seminar 2 2 2 --- --- --- 30 20 50 --- --- ---

Total 9 4 11 15 --- --- --- --- --- --- --- --- ---

Page 31 of 44




Final Year B.Tech - Instrumentation and Control Engineering Structure A-14 Revised

with effect from Academic Year 2017-18 Semester -I - Regular module

Teaching Learning Scheme Assessment Scheme (100mark scale)Th LalJ Project Hrs./ Credits ISA MSE ESE-I00


Code Type THL-I00 marks converted to 30 20 convertedTH - 5 HA of 6 marks each to 50PI P2 P3 CA MSA ESA HA

IC403005 THP Instrumentation Project Engineering 3 2 5 4 10 10 10 --- --- --- --- 20 100



IC402001 THL Industrial Electronics 3 2 5 4 --- --- --- 30 20 50 --- 20 100

IC409001 PRJ Project 2 2 5 --- --- --- 30 20 50 --- --- ---Total 12 4 6 22 21 --- --- --- --- --- --- --- --- ---

Page32 of 44




Final Year B.Tech - Instrumentation and Control Engineering Structure A-14 Revised

with effect from Academic Year 2017-18 Semester -II- Internship Module

Teachinz Learning Scheme Assessment Scheme (100 mark scale)

Course Course Course NameTh Lab Project Hrs. I Credits ISA -100 marks MSE ESE-lOOmarks

Code Type Lab Week converted to 30 (CT) converted to 50CA MSA ESA

IC411004 INT Industry Internship 21 30 20 50 20 100

Total 21 --- --- --- --- ---

OR

Page33 of 44




Teaching Learning Scheme Assessment Scheme (100mark scale)Th lLab Project Hrs. / Credits ISA MSE ESE-I00

Course Course Course Name Lab Week THP-30 marks (CT) marksCode Type THL- 100marks converted to 30 20 converted

TH - 5 HA of 6 marks each to 50PI P2 P3 CA MSA ESA HA

IC407011 Wireless Sensor NetworkIC407007 Elective Power Plant InstrumentationIC407023 3 2 5 4 10 10 10 --- --- --- --- 20 100-1 Internet of ThingsIC407001 Batch Process ControlIC407017 Renewable Energy SystemsIC407005 Elective- Embedded Systems

3 2 5 4 10 10 10 --- --- --- --- 20 100IC407003 2 Building Automation & Security SystemsIC407029 Process Modeling and OptimizationIC407031 Communication ProtocolsIC407015 Elective- Biomedical Image Processing

3 2 5 4 10 10 10 --- --- --- --- 20 100IC407013 3 RoboticsIC407009 Control System DesignIC407035 Biomedical Signal ProcessingIC407037 Elective- Industrial Flow Measuring Techniques

20Real Time Operating System 3 2 5 4 10 10 10 --- --- --- --- 100IC407033 4IC407027 Condition MonitoringIC409002 PRJ Project 2 2 5 --- --- --- 30 20 50 --- --- ---

Total 12 --- 10 22 21 --- --- --- --- --- --- --- --- ---

Final Year B.Tech - Instrumentation and Control Engineering Structure A-14 Revisedwith effect from Academic Year 2017-18 Semester -II or for Internship module

Page34 of 44

BansilalRamnathAgarwal Charitable Trust's



F.Y. M.Tech - Instrumentation and Control Engineering Structure Pattern A-17with effect from Academic Year 2017-18 Semester -I

Teaching Learning Scheme Assessment Scheme (100 mark scale)Th lLab Projec Hrs./ ICredits ISA MSE-I00 ESE-I00

Course CourseCourse Name Lab Week trHP-30 marks marks marks

Code Type trHL- 100 marks converted to 30 converted convertedtrH - 5 HA of 6 marks each to 35 to 35

PI P2 P3 CA MSA ESA HAIC50lTHP THP Measurement System 3 2 5 4 10 10 10 --- --- --- --- 35 35

DesignIC503THP THP Process Control 3 2 5 4 10 10 10 --- --- --- --- 35 35IC505THP THP Industrial Automation 3 2 5 4 10 10 10 --- --- --- --- 35 35ES50lTH TH Linear Algebra and 4 4 4 --- --- --- --- --- --- 30 35 35

StatisticsHS55lTH TH Quantitative Aptitude - I 2 2 2 --- --- --- --- --- --- 30 35 35ES502TH TH Research Methodology 2 2 2 --- --- --- --- --- --- 30 35 35

Total 17 6 23 20 --- --- --- --- --- --- --- --- ---

Page 35 of 44




F.Y. M.Tech - Instrumentation and Control Engineering Structure Pattern A-17with effect from Academic Year 2017-18 Semester-II

Teaching Learning Scheme Assessment Scheme (100 mark scale)Th lLab Projec Hrs./ ICredits ISA MSE-100 ESE-100

Course Course Course Name Lab Week rrHP-30 marks marks marksCode Type rrHL-100 marks converted to 30 converted converted

rrH - 5 HA of 6 marks each to 35 to 35PI P2 P3 CA MSA ESA HA

IC502THP THP Control Theory 3 2 5 4 10 10 10 --- --- --- --- 35 35

IC504THP THP Process Dynamics and 3 2 5 4 10 10 10 35 35Identification --- --- --- ---

IC506THP Real Time Signal 35 35Processing

IC508THP THP Batch Process Control 3 2 5 4 10 10 10 --- --- --- ---IC510THP Estimation TechniquesIC512THP Mechatronics 35 35IC514THP THP Digital Image Processing 3 2 5 4 10 10 10 --- --- --- ---IC516THP Internet of ThingsHS552TH TH Quantitative Aptitude - II 2 --- 2 2 --- --- --- --- --- --- 30 35 35HS553TH TH Engineering Economics 2 - --- 2 2 --- --- --- --- --- --- 30 -35 35

Total 16 8 22 20 --- --- --- --- --- --- --- --- ---

Page 36 of 44

BansilalRamnathAgarwal CharitableTrust's


666,UpperIndiranagar,Bibwewadi,Pune411 037Department of Instrumentation Engineering

Page 37 of 44

Second Year M.Tech - Instrumentation and Control Engineering Structure Pattern A-17with effect from Academic Year 2018-19 Semester -I

Teaching Learning Scheme Assessment Scheme (100 mark scale)Course Course Course Name Th ~ab Projec Hrs. / Credits ISA -100 marks MSE ESE-I00 marksCode Type Lab Week converted to 30 converted to 50

CA MSA ESAIC601PRJ PRJ DissertationIC601INT INT Industry Internship 25IC603INT INT Dissertationcum Internship

Total 25 --- --- --- --- ---

Second Year M.Tech - Instrumentation and Control Engineering Structure Pattern A-17with effect from Academic Year 2018-19 Semester -II

Teaching Learning Scheme Assessment Scheme (100 mark scale)Course Course Course Name Th lLab Projec Hrs. / Credits ISA -100 marks MSE ESE-I00 marksCode Type Lab Week converted to 30 converted to 50

CA MSA ESAIC602PRJ PRJ DissertationIC602INT INT Industry Internship 25IC604INT INT Dissertation cum Internship

Total 25 --- --- --- --- ---




Annexure - IV

Approval for new PG Diploma course on Industrial Automation

PG Diploma Course on Industrial Automation Structure Pattern 2017 with effect from Academic Year 2017-18 Semester - I

Teaching Learning Scheme Assessment SchemeCourse Course Course Name Th La! Project Hrs./ Credits ISA MSE ESECode Type Lab Week (Pro.ilLab)

IC704001 TLP Computer Programming 3 2 2 7 5 40 20 40IC701001 TH Business Communication 3 3 3 20 30 50IC703001 THP Industrial Instrumentation 3 2 5 4 30 20 50IC703003 THP Process Control Components 3 2 5 4 30 20 50IC704003 TLP Industrial Automation 2 2 2 6 4 30 20 50IC709001 PRO] Mini Project 2 2 2 50 50

Total 14 06 08 28 22

Page 38 of 44


Vishwakarma Institute of Technology(An Autonomous Institute AjJiliated to Savitribai Phule Pune University)


PG Di lorna Course on Industrial Automation Structure Pattern 2017 with effect from Academic Year 2017-18 Semester _II

Teachin2 Learnin2 Scheme Assessment SchemeCourse CourseCourse Name Th Lab Project Hrs./ Credits ISA MSE ESECode Type

Lab Week (Pro_i/Lab)

IC701002 TH Project Engineering and3 3 3 20 30 50Management

IC703002 THP DCS and Communication3 2 5 4 30 20 50Protocols

IC703004 THP Advanced Microcontrollers 3 2 5 4 30 20 50IC703006 THP Internet of Things 3 2 5 4 30 20 50IC709002 PRO] Project Work 6 6 6 50 50Total 12 12 24 21

Page39 of 44


Vishwakarma Institute ofTechnology(An Autonomous Institute Affiliated to Savitribai Phule Pune University)


Annexure-V

Approval for COs for PG progamme(Pattern B-13)

IC 50101 : Estimation Techniques1. Understand random variables and their distribution functions.2. Apply nonparametric methods of system identification to real world systems.3. Understand parametric methods of system identification.4. Analyse real world systems using parametric methods of system identiflcation,5. Apply integral transforms for analysing real life systems.6. Design solutions for real life case studies using above techniques for estimations.

IC50103: Measurement system1. Able to understand measurement system components with sensor static and dynamic

characteristic.

2. Comprehend mathematical analysis of different sensors.

3. Knowledge of pressure, flow, temperature and level sensors with its mathematical analysisand applications.

4. Knowledge of clean room instrumentation5. Aware designing concept of measurement system using sensor.

IC50104 :: Instrumentation System Design1. Ability to select suitable sensor with specifications for given application.2. Ability to Design signal conditioning circuit for given application.3. Comprehend designing of measurement system design.4. Knowledge of different enclosure types5. Aware reliability concepts.

IC 50105: Process Control1. Determine process dynamics for systems2. Design controllers for different process control applications3. Investigate the stability of systems4. Apply control strategies to single and multivariable processes5. Analyze multivariable systems6. Design decouplers for multivariable systems

Page 40 of 44




IC 50106 : Advanced Process Control1. Select process equipment based on the industrial application2. Identify different models used for System Identification3. Understand the theoretical basis of a Model Predictive Control used in real time

applications4. Apply adaptive control strategies for control of plants in different industries5. Design controllers using fuzzy logic or neural networks for real time applications6. Demonstrate a clear understanding of the principles of statistical process control (SPC)

used in control industries

IC 52101: Modern Control Theory1. Understand space representation of continuous time systems, particularly for SISO and

MIMO linear systems.2. Find the time response of linear time-invariant systems stability, controllability, and

Observability concept for linear systems for continuous time systems.3. Design controllers using state space design methods for continuous time systems.4. Understand state-space representation of discrete time systems, particularly for SISO and

MIMO linear systems5. Design controllers using state space design methods for discrete time systems.6. Understand multi variable and Optimal control for digital control systems.

IC 52101:Modeling and Simulation1. Develop mathematical models of chemical systems by applying fundamental laws.2. Develop mathematical models of physical systems by applying fundamental laws.3. Obtain solutions for chemical systems using computational methods.4. Apply computational methods and curve fitting methods for solving algebraic equations5. Design computer simulation for physical systems.6. Design computer simulation for chemical systems.

IC52108: Mechatronics1. Explain the working of mechanical, hydraulic, pneumatic and robotic components.2. Develop hydraulic and pneumatic circuits for given application.3. Select and size the hydraulic and pneumatic components to solve a problem.4. Identify, formulate and solve a problem using mechanical, hydraulic, pneumatic system

and robot kinematics5. Estimate the robotic trajectory planning and robot dynamics parameters for given

application.

Page41 of 44

•Bansilal RamnathAgarwalCharitableTrust's



IC66104: PROJECT ENGINEERING AND MANAGEMENT

1. Describe the concept of project engineering and management.2. Prepare Project Engineering and Management documents using standard3. Discuss the procurement and construction activities of project. ,4. Understand the importance of management and financial functions and tools.5. Explain different types of control panels for various applications and prepare their Test and

Inspection reports.

Page 42 of 44



666, Upper Indiranagar, Bibwewadi, Pune 411 037 .Department of Instrumentation Engineering

Annexi.Ure - VI

Attainment of COs in Sem-1 of AY 2016-17 and proposed action planned for non-attainment of COs

1:···::·~:~··~:~··:·~:·::~:::::icJ.QiQs.":;·;:[CQ.NfRQI·~:YS.j:E~M"C:QMr:QNENTS·:·"~·:""~~:="=·~=~=·:=··=:·~··=='1I IICredits:.03.-.-----.--.--..-.-..-.-------..-r-.---- ...----·-···-·-----···-·-----·---··-··--··--···--···-··Teachiiig-S·che~e-:·-···-Theo~y-3··j=iours7week-1'-,-----·-··----·---·-··-··-··-·-·---·-f-···-··----···-------.-..-------.-.---- ..-------- ...- ...-- ..-.-.--..-- ..'--"---"'--"'---'--"'-"---"'--"---"'-'---"1Iiir-··------ _.._.._..___.._..__..__.__._._···--···-i-··_··_..__···_···-.__._ ___._.--.---- --- ..-- ..-.--.- ..----.-.- _._ .._ _.._.._.------.- ..--.-- ----.---.---- ..- -- ..--.--1I Course Outcomes: I .j --.- -..-..- -..- -.- - - - - - - - - - - - --.-..- - - - - -..- - -.- - -..- -..-..- - -..- - - - -..- -..- -.--..- - -..- - - - - -..- - - - - - - -.--..- - - -- - ···-···-···-··--·····1i The students will be able to:I 1. Explain the working of electrical, mechanical, hydraulic and Pneumatic components.I (PO-I, 2, 3,4,10, PSO-I,2,3)'Ii 2. Develop electrical wiring diagrams, hydraulic and pneumatic circuits for' given application. (PO-

1,2,3,4, PSO-I,2,3)3. Select and size the electrical, mechanical, hydraulic and pneumatic components to solve a

problem. (PO-I, 2,3, PSO-I,2,3) j

4. Identify, formulate and solve a problem using electrical, mechanical, hydraulic and pneumatic isystem. (PO-I, 2, 3,4, PSO-I,2,3) I

5. Comprehend the working of special purpose motors. (PO-I, 2, 3, PSO-I,2,3) I•..-._ •.--- ..- ••.-- •••- ..-- ..- ••- --- .•- ••.- - ..-.- •..- ..--- - .•- -- .••- •.- ..- ..-.- - ..--.- - - .••- ..- - - ..- -.---- - ••- ..- -.- •••- ..- •••-- - - .•.- ..- --- .•- ..-.-.- .•- ..-.- - •••-.- - - ••.- ..- -.- .•- - •.•-.- - - ••- •.--- ..- ..•-- - ..-- ••.- ..- --._ ••_ _ _.._•••__._.._ _..1AY 2016-17 Sem-lNo of Students: (N) : 81

COl CO2 C03 C04 COSNo. of Studentswith score> 67 61 56 76 63Threshold (n)

nIN 0.83 0.75 0.69 0~94 0.78Attainment Yes Yes No Yes YesYes/No

Corrective action planned:

• Assign sizing and selection based projects to the students for mechanical,

hydraulic, pneumatic and electrical components.

Page43 of 44




IC203004:: CONTROL SYSTEM COMPONENTS!:..i.~!~!!!:~J.~~.!~.~ _ _................... . _ _ _ .._ _.. _ _ _................... _ ,..__ ._..1__....!!!!p!~m.fo!_I!!~.~i~_I_l..._~[!~g~~g~tes usin ._ _ __.._.._..__ _ _ _ _._.._ _ _.___.S'!!fetySy'.~!_~.!!.l_~.._..._......_.._ ...._ .. ...... _.!:l_~!ler_~~na_~~entsy~.~.:'.!1_..._ _.. .._. __ ..~Auto-Manual station ater level control system I~!~!~~~~~~ii~~g'" . -.-........ ~~i?~~~~~~·i·~~·~!~9.Cs.ys.i~·~:·:··:··::~·:·:···:··:..:.::==.:~:.:.:::..]DC Motor direction control um_Q_control system . I._f~~k~Q~~~!~£.~.~.~~t..~9.~C~==~~~..:·..~..::.~--··--J O~£!_~un!!~i. ..on_co~~Y.~£..~~!!..~..:..::=~:~~::=~····T;g.·~~~~I!~~f-~~~1r~r~~~~~·~···..· ····'T..··s-~que~·~i~"!i..··of·i~~ps..··~~..d····moto~s···- ··..··..·..·1

Interlocki~g ..oil~~psa~·dmotors ..·..-- ..-····-- S-~q~-enci~gof fmoto~susi~gti~e ..·del~y·..··--..·-..·-..-..l----.- - ••••••--- •••- -- •••- ••----.-.-.--.-.-_·_·_···· __ ..M••_ : --------- ••- ---- --.------.--.- •••- __••_ ••_ ••-"-----"'----"'--"'--iFurnace control system I Safety Alarm system i···Ref~y·-ie·s~..§~I~..::::::::::::··::~:..===~~._=.:==:=::=:::..=·:··..-=·'r··~if~.~II(~~TC~~!!.~if~~=:=:~::::.==:::~:':=..~-=~~==.:.~=]

3. Con..tac!Q!:...l.!~.~ed.P!_Qi~£~._..__ ......_......,_.. ._._. __ ..__.__ .._.....".._. ____;Semi-automatic contactor testing jig i Sequencing of two 3-phase motors with time i

I delay Ifut~rlOc"kT~g..oTt~o-3=ph~se··~oto·is--"..·....··....···..·..·..-""TDT~e~tT~~"co'~t~olof 3-ph~se'''~oto'r~'''--'---'---'''-''lLatching'ofS~rt~'dDOL St~rte~'-'-""--""----- i Sta~-Delta"Starter-·---- ..--·-··-···----- ..- i··~·~~:=~4:~~~§!~p.·p~i::~!.:~!.~~:z::~~~!.~:M~~!~~.z.:I~~1~!~~~~!~}~i~~~·~~~-Ie·cf~::~~::~·=.==··=:=:::=··~::='::==:.:~=:::=JRobotic trolley for geometrical shapes Speed control of DC motor using PWM i--_ _ _ _ __ _-----_ _ __._.._..__. -_ _._.._-_._ .._ ..__ .__ __ .__..___-_ .._--j

Sun-tracking of solar panel i Direction control of DC motor using H-Bridge I"-pf~ka~d·pi~~~·-~o~·t~of··· -......... ············..-··.."r··3·=D·..p·i"i~~~·..···-··-·..···..··..-· -.- - - ..- ·-··-···..·..··..···..·····..······..1.- - - ----- ..-- -- - - _ _-__ _ ······---····------···---··--·····-·····-·..-t--·-··--·..- -.-..-----.- -..-.-..--.-----.-- ..--- - --.-- ---.--..--- -.- -.--..-..-.-- ..---- ..- - -.-..----;Robotic arm ! Line Tracer IMotor faultySiniuiato~-·---····" ..··-..--·-··-·..--- ..-IMotor Protectio-;" circuits-'--'''''''"---''-'--'"'''---i

.......-.- -- - - - - .•••- - - " - ........•..•.•••••••••.•.....- , - - - -- - - - --.- - - - •••- - -.- - ''''''''''''''1

Gea~ box design for speed and torque I Spring Design for given application Irequirements I I1---'--_ .._ _---_ __.._-_ __._--_ _.._.._--'-..__ ._ .. .._ ....

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fety press mechanismcircuit

Commodity centre automation_····..· _··_H _ __HN _ .._ __ __

Paper cup folding mechanismMaterial handling applicationsReciprocating the cylinder

Can / bottle sealing mechanism

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minutes of meeting of bos in instrumentation and control engineering held at instrumentation...

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