Download the iStudy App for all syllabus and other updates.

For detailed syllabus of all the other subjects of ICE 6th Sem, 2021 curriculum do visit ICE 6th Sem subject syllabuses for 2021 regulation. For Instrumentation & Control Engineering 6th Sem semesters scheme and subjects, refer to ICE 6th Sem 2021 regulation scheme. The scheme details of Professional Elective-VI for ICE 6th Sem is as follows.

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For the results of Instrumentation & Control Engineering 6th Sem, kindly visit ICE 6th Sem direct results link.

For exam time table of Instrumentation & Control Engineering (ICE), kindly visit Anna University exam timetables.

For Instrumentation & Control Engineering (ICE) notices, kindly visit Anna University notices.

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For updated syllabus of Instrumentation & Control Engineering (ICE) 2021, kindly visit ICE updated syllabus.

Wishing you great luck ahead.

For Instrumentation & Control Engineering 6th Sem scheme and its subjects, do visit ICE 6th Sem 2021 regulation scheme. For Professional Elective-VI scheme and its subjects refer to ICE Professional Elective-VI syllabus scheme. The detailed syllabus of wireless sensor network design is as follows.

Course Objectives:

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Unit I

INTRODUCTION
Principle of Wireless Sensor Network -Introduction to wireless sensor networks- Challenges, Comparison with ad hoc network, Node architecture and Network architecture, design principles, Service interfaces, Gateway, Short range radio communication standards-IEEE 802.15.4, Zigbee and Bluetooth. Physical layer and transceiver design considerations.

Unit II

MAC AND ROUTING PROTOCOLS
MAC protocols – fundamentals, low duty cycle protocols and wakeup concepts, contention and Schedule-based protocols – SMAC, BMAC,TRAMA, Routing protocols – Requirements, Classification -SPIN, Directed Diffusion, COUGAR, ACQUIRE, LEACH, PEGASIS.

Unit III

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Unit IV

APPLICATION
Design Issues, Protocol Paradigms -End-to-end, Real-time streaming and sessions, Publish/subscribe, Web service paradigms, Common Protocols -Web service protocols, MQ telemetry transport for sensor networks (MQTT-S), ZigBee compact application protocol (CAP),Service discovery, Simple network management protocol (SNMP), Real-time transport and sessions, Industry- Specific protocols.

Unit V

TOOLS
TinyOS – Introduction, NesC, Interfaces, modules, configuration, Programming in TinyOS using NesC, TOSSIM, Contiki – Structure, Communication Stack, Simulation environment – Cooja simulator, Programming

Course Outcomes:

1. To be able to design solutions for WSNs applications
2. To be able to develop efficient MAC and Routing Protocols
3. To be able to design solutions for 6LOWPAN applications
4. To be able to develop efficient layered protocols in 6LOWPAN
5. To be able to use Tiny OS and Contiki OS in WSNs and 6LOWPAN applications

Reference Books:

Download the iStudy App for all syllabus and other updates.

For detailed syllabus of all the other subjects of Instrumentation & Control Engineering 6th Sem, visit ICE 6th Sem subject syllabuses for 2021 regulation.

For all Instrumentation & Control Engineering results, visit Anna University ICE all semester results direct link.

For Instrumentation & Control Engineering 6th Sem scheme and its subjects, do visit ICE 6th Sem 2021 regulation scheme. For Professional Elective-VI scheme and its subjects refer to ICE Professional Elective-VI syllabus scheme. The detailed syllabus of communication systems is as follows.

Course Objectives:

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Unit I

AMPLITUDE MODULATION
Review of signals and systems, Time and Frequency domain representation of signals, Principles of Amplitude Modulation Systems- DSB, SSB and VSB modulations. Angle Modulation, Representation of FM and PM signals, Spectral characteristics of angle modulated signals. SSB Generation – Filter and Phase Shift Methods, VSB Generation – Filter Method, Hilbert Transform, Pre-envelope & complex envelope AM techniques, Superheterodyne Receiver.

Unit II

RANDOM PROCESS & SAMPLING
Review of probability and random process. Gaussian and white noise characteristics, Noise in amplitude modulation systems, Noise in Frequency modulation systems. Pre-emphasis and Deemphasis, Threshold effect in angle modulation.
Low pass sampling – Aliasing- Signal Reconstruction-Quantization – Uniform & non-uniform quantization – quantization noise – Nyquist criterion- Logarithmic Companding -PAM, PPM, PWM, PCM – TDM, FDM

Unit III

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Unit IV

DIGITAL MODULATION SCHEME
Geometric Representation of signals – Generation, detection, IQ representation, PSD & BER of Coherent BPSK, BFSK, & QPSK – QAM – Carrier Synchronization – Structure of Non-coherent Receivers Synchronization and Carrier Recovery for Digital modulation, Spectrum Analysis -Occupied bandwidth – Adjacent channel power, EVM, Principle of DPSK

Unit V

DEMODULATION TECHNIQUES
Elements of Detection Theory, Optimum detection of signals in noise, Coherent communication with waveforms- Probability of Error evaluations. Baseband Pulse Transmission- Inter symbol Interference, Optimum demodulation of digital signals over band-limited channels.

Course Outcomes:

At the end of the course students will be able to

1. Gain knowledge in amplitude modulation techniques
2. Understand the concepts of Random Process to the design of communication systems
3. Gain knowledge in digital techniques
4. Gain knowledge in sampling and quantization
5. Understand the importance of demodulation techniques

Text Books:

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Reference Books:

1. Wayner Tomasi, Electronic Communication System, 5th Edition, Pearson Education,2008.
2. D.Roody, J.Coolen, Electronic Communications, 4th edition PHI 2006
3. A.Papoulis, �Probability, Random variables and Stochastic Processes�, McGraw Hill, 3rd edition, 1991.
4. B.Sklar, �Digital Communications Fundamentals and Applications�, 2nd Edition Pearson Education 2007
5. H P Hsu, Schaum Outline Series – �Analog and Digital Communications� TMH 2006
6. Couch.L., “Modern Communication Systems”, Pearson, 2001

For detailed syllabus of all the other subjects of Instrumentation & Control Engineering 6th Sem, visit ICE 6th Sem subject syllabuses for 2021 regulation.

For all Instrumentation & Control Engineering results, visit Anna University ICE all semester results direct link.

For Instrumentation & Control Engineering 6th Sem scheme and its subjects, do visit ICE 6th Sem 2021 regulation scheme. For Professional Elective-VI scheme and its subjects refer to ICE Professional Elective-VI syllabus scheme. The detailed syllabus of solar pv fundamental and applications is as follows.

Course Objectives:

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Unit I

OVERVIEW OF SEMICONDUCTOR
Review of Semiconductor Physics, Charge carrier generation and recombination, p-n junction model and depletion capacitance, Current voltage characteristics in dark and light, Equivalent Circuits of Solar Cells, Fill Factor, Fabrication Process of Semiconductor Grade Silicon

Unit I

SOLAR PV TECHNOLOGY
Device Physics of Solar Cells ,Principle of solar energy conversion, Conversion efficiency, Single, Tandem multi-junction solar cells ,Numerical solar cell modelling Principle of cell design ,Crystalline silicon and III-V solar cells ,Thin film solar cells: Amorphous silicon ,Quantum Dot solar cells.

Unit III

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Unit IV

FABRICATION OF ORGANIC SOLAR CELLS
Introduction to Dye Sensitized Solar Cells, Fabrication of Dye Sensitized Solar Cells’ Design of novel dye, Design of solid electrolytes materials, Counter electrode engineering Introduction to Organic Solar Cells, Physics of Bulk Hetero junction (BHJ) Solar Cells ,Morphology and charge separation in BHJ , Design of low band gap polymers , Novel architecture in BHJ.

Unit V

FABRICATION OF PEROVSKITE SOLAR CELLS
Perovskite Solar Cells ,Fabrication of perovskite solar cells ,Photophysics in perovskite solar cells , Stability in perovskite solar cells , Lead free perovskite solar cells Photovoltaic system engineering , Thermo- Photovoltaic generation of electricity , Concentration and storage of electrical energy , Photovoltaics modules, system and application ,Green energy building.

Skill Development Activities

(Group Seminar/Mini Project/Assignment/Content 10 Preparation / Quiz/ Surprise Test / Solving GATE questions/ etc)

1. Interpretation of Data Sheet of solar cells.
2. Familiarization of any one relevant software tool (MATLAB/ SCILAB/ LABVIEW/ Proteus/ PV system design Software https://www.pvsyst.com/

https://www.homerenergy.com/homer/software
https://solargis.com/ Equivalent open source software)

3. Design and verification of simple signal conditioning circuit thro simulation.
4. Realization of signal conditioning circuit in hardware
5. Introduction to other advanced solar cells not covered in the above syllabus

Course Outcomes:

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Text Books:

1. Jasprit Singh, �Semiconductor Devices, Basic Principles�, Wiley,2001
2. Jenny Nelson, �The Physics of Solar Cells�, Imperial College Press, 2003.

Reference Books:

1. A . Luque and S. Hegedus, :Handbook of Photovoltaic Science & Engineering”, Wiley Tsakalakos, L.; “Nanotechnology for Photovoltaics”, CRC Solar Photovoltaics: Fundamentals Technologies And Applications, Chetan Singh Solanki, PHI Learning, July 2015.
2. Chapter 02, 04, 6-11, C. S. Solanki, Solar Photovoltaics – Fundamentals, Technologies and Applications, 3rd Ed. Prentice Hall of India, 2016
3. C. S. Solanki, Solar Photovoltaic Technology and Systems: A Manual for Technicians, Trainers and Engineers, Prentice Hall of India, 2013

List of Open Source Software/ Learning Website:

1. https://www.nrel.gov/docs/legosti/old/16319.pdf
2. https://www.slideshare.net/kunalmunshi/fundamentals-of-solar-pv-system
3. https://www.uprm.edu/aret/docs/Ch_5_PV_systems.pdf
4. https://archive.nptel.ac.in/courses/115/107/115107116/

For detailed syllabus of all the other subjects of Instrumentation & Control Engineering 6th Sem, visit ICE 6th Sem subject syllabuses for 2021 regulation.

For all Instrumentation & Control Engineering results, visit Anna University ICE all semester results direct link.

For Instrumentation & Control Engineering 6th Sem scheme and its subjects, do visit ICE 6th Sem 2021 regulation scheme. For Professional Elective-VI scheme and its subjects refer to ICE Professional Elective-VI syllabus scheme. The detailed syllabus of real time embedded systems is as follows.

Course Objectives:

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Unit I

INTRODUCTION TO EMBEDDED COMPUTING AND ARM PROCESSORS
Complex systems and microprocessors – Embedded system design process – Formalism for system design- Design example: Model train controller- ARM Processor Fundamentals-Instruction Set and Programming using ARM Processor.

Unit II

COMPUTING PLATFORM
CPU: Programming input and output – Supervisor mode, exception and traps – Coprocessor -Memory system mechanism – CPU performance – CPU power consumption- CPU buses -Memory devices – I/O devices – Component interfacing- System Level Performance AnalysisParallelism. Design Example: Data Compressor.

Unit III

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Unit IV

PROCESS AND OPERATING SYSTEMS
Multiple tasks and Multi processes – Processes – Context Switching – Operating Systems -Priority based Scheduling- RMS and EDF – Inter Process Communication mechanisms -Evaluating operating system performance – Power optimization strategies for processes.

Unit V

HARDWARE ACCELERATORS & NETWORKS
Multiprocessors- CPUs and Accelerators – Performance Analysis- Distributed Embedded Architecture – Networks for Embedded Systems: – I2C, CAN Bus, Ethernet, Myrinet – Network based design – Internet enabled systems. Design Example: Elevator Controller.
TOTAL PERIODS 45

Skill Development Activities

(Group Seminar/Mini Project/Assignment/Content Preparation / Quiz/ Surprise Test / Solving GATE questions/ etc)

1. Interpretation of Processors.
2. Selection of Processor for applications.
3. Familiarization of any one relevant software tool (MATLAB/ SCILAB/ LABVIEW/ Proteus/ Equivalent open source software)
4. Design and verification of simple signal conditioning circuit thro simulation.
5. Realization of signal conditioning circuit in hardware
6. Introduction to other advanced Processors not covered in the above syllabus

Course Outcomes:

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Text Books:

1. Wayne Wolf, “Computers as Components – Principles of Embedded Computing System Design”, Morgan Kaufmann Publisher (An imprint of Elsevier), 3rd Edition, 2008.
2. Andrew N Sloss, Dominic Symes, Chris Wright, “ARM System Developer�s Guide- Designing and Optimizing System Software”, Elsevier/Morgan Kaufmann Publisher, 2008

Reference Books:

1. DavidE-Simon,”AnEmbeddedSoftwarePrime”,PearsonEducation,2010.
2. TammyNoergaard,”EmbeddedSystemsArchitecture”,Elsevier,2006.
3. Jane.W.S.Liu,”Real-TimeSystems”,PearsonEducationAsia,2011

List of Open Source Software/ Learning Website:

1. https://nptel.ac.in/courses/117106111
2. https://onlinecourses.nptel.ac.in/noc20_cs16/preview
3. https://archive.nptel.ac.in/courses/108/105/108105057/
4. https://mrcet.com/downloads/digital_notes/ECE/IV%20Year/EMBEDDED%20SYSTEMS%20 DESIGN.pdf
5. https://nptel.ac.in/courses/117106112

For detailed syllabus of all the other subjects of Instrumentation & Control Engineering 6th Sem, visit ICE 6th Sem subject syllabuses for 2021 regulation.

For all Instrumentation & Control Engineering results, visit Anna University ICE all semester results direct link.

For Instrumentation & Control Engineering 6th Sem scheme and its subjects, do visit ICE 6th Sem 2021 regulation scheme. For Professional Elective-VI scheme and its subjects refer to ICE Professional Elective-VI syllabus scheme. The detailed syllabus of green electronics is as follows.

Course Objectives:

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Unit I

INTRODUCTION TO GREEN ELECTRONICS
Environmental concerns of the modern society- Overview of electronics industry and their relevant regulations in China, European Union and other key countries- global and regional strategy and policy on green electronics industry. Restriction of Hazardous substances (RoHS) – Waste Electrical and electronic equipment (WEEE – Energy using Product (EuP) and Registration – Evaluation, Authorization and Restriction of Chemical substances (REACH).

Unit II

GREEN ELECTRONICS MATERIALS AND PRODUCTS
Basics of IC manufacturing and its process – Electronics with Lead (Pb) -free solder pastes, conductive adhesives, Introduction to green electronic materials and products – halogen-free substrates and components. Substitution of non-recyclable thermosetting polymer based composites with recyclable materials X-Ray Fluorescence (XRF) for identifying hazardous substances in electronic products.

Unit III

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Unit IV

FLIP-CHIP ASSEMBLY AND BONDING FOR LEAD-FREE ELECTRONICS(7+2SKILL)
Flip-Chip Assembly Process – Placement and Under fill stage-FEM of Die stress – Gold stud Bump Bonding – Materials and Process Variations – Integrating Flip Chip into a Standard SMT Lead-Free Reflow soldering Techniques and Analytical Methods – Electro migration Analysis for Mean-Time-to-Failure Calculations – Gold-Tin Solder Integrating Vertical-Cavity Surface Emitting Lasers onto Integrated Circuits – Design and Processing of Flip-Chip Bonding Structures – Opto-Electronic Integration.

Unit V

CASE STUDIES
Lead-Free Electronic Design – Selection of the Package Type – Substrate or Die Attachment FR4 -Electrical Connections from Die to FR4 – Assess Impact of CTE Mismatch on Stress and Fatigue Life – Design Solder Balls for External Connection to PCB – Thermal Analysis of Flip-Chip Packaging -RLC for Flip-Chip Packages – Drop Test of Flip-Chip Packaging – Wei bull Distribution for Life Testing and Analysis of Test Data.

Skill Development Activities

(Group Seminar/Mini Project/Assignment/Content 10 Preparation / Quiz/ Surprise Test / Solving GATE questions/ etc)

1. Interpretation of Data Sheet of electronics with respect to their Static and Dynamic Characteristics.
2. Selection of green electronics for product design.
3. Familiarization of any one relevant software tool (MATLAB/ SCILAB/ LABVIEW/ Proteus/ Equivalent open source software)
4. Design and verification of simple signal conditioning circuit thro simulation.
5. Realization of signal conditioning circuit in hardware
6. Introduction to other advanced green electronics not covered in the above syllabus

Course Outcomes:

Download the iStudy App for all syllabus and other updates.

Text Books:

1. John X.Wang �Green Electronics Manufacturing�, CRC Press Indian Prentice Hall, 2012
2. Sammy G. Shina, �Green Electronics Design and Manufacturing�, McGraw Hill., 2008.

Reference Books:

1. Lee Goldberg, �Green Electronics/Green Bottom Line, Newnes Publications 2000
2. Green Communications and Networks, by Yuhang yang and Maode Ma, Springer Publication.

List of Open Source Software/ Learning Website:

1. http://tid.uio.no/kurs/fys4260/4260-Green_electronics.pdf
2. https://web.stanford.edu/class/ee152/resources/Course_Notes_092416.pdf

For detailed syllabus of all the other subjects of Instrumentation & Control Engineering 6th Sem, visit ICE 6th Sem subject syllabuses for 2021 regulation.

For all Instrumentation & Control Engineering results, visit Anna University ICE all semester results direct link.

For Instrumentation & Control Engineering 6th Sem scheme and its subjects, do visit ICE 6th Sem 2021 regulation scheme. For Professional Elective-VI scheme and its subjects refer to ICE Professional Elective-VI syllabus scheme. The detailed syllabus of automotive electronics is as follows.

Course Objectives:

Download the iStudy App for all syllabus and other updates.

Unit I

INTRODUCTION AND AUTOMOTIVE BATTERIES
Introduction – Overview of vehicle electrical systems- Electrical circuits – Electrical power supply in conventional vehicle- Dimensioning of wires- Circuit diagrams and symbols -Electromagnetic Compatibility and interference suppression. Batteries – Battery design -Method of operation – Lead acid battery construction – Battery ratings and testingMaintenance -free batteries – Battery – Substitute, versions, special cases

Unit II

STARTING AND CHARGING SYSTEM
Alternators – Generation of electrical energy in vehicle- physical principles- Alternator and voltage regulations versions – power losses – characteristics curve- Alternator operation in the vehicle- Alternator circuitry. Starter Motors – Development and Starting requirements in the IC engines- starter motor design – Starter motor design variations – starter motor control and power circuits

Unit III

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Unit IV

AUTOMOTIVE ELECTRONICS AND SENSORS AND ACTUATORS
Automotive Electronics- overview and demands- Basic principles of semiconductor technology -Electronic Components- semiconductor components- Microcontrollers – Sensor-Signal Processing – Data Processing in the vehicle – Glossary for automotive microelectronics. Automotive Sensors – Basics – Sensors : Position, speed, Acceleration/Vibrational , Force/Torque, Flow meters, Gas/ Concentration , Temperature- Measured Quantities, Measuring Principles and automotive applications Automotive Actuators – Electromechanical actuators- Fluid-mechanical actuators- Electrical machines- Direct-current machines- Three-phase machines- Single-phase alternating-current Machines – Duty-type ratings for electrical machines

Unit V

VEHICLE NETWORKING
Data transfer between automotive Electronics systems – Basic principles of networkingNetwork topology- Network organization- OSI reference model- Control mechanisms -communication protocols in embedded systems– Vehicle Communication Protocols – Crosssystem functions – Requirements for bus systems- Classification of bus systems- Applications in the vehicle – Coupling of networks- Examples of networked Vehicles – Bus system- CAN, LIN, Flexray – MOST etc.

Course Outcomes:

1. Define the glossary related to vehicle electrical and electronic system
2. Understand the need for starter batteries, starter motor and alternator in the vehicle.
3. Differentiate the conventional and modern vehicle architecture and the data transfer among the different electronic control unit using different communication protocols
4. List common types of sensor and actuators used in vehicles
5. Understand networking in vehicles.

Text Books:

Download the iStudy App for all syllabus and other updates.

Reference Books:

1. Barry Holembeak, “Automotive Electrical and Electronics” , Delmar Publishers, Clifton Park,USA,2010
2. James D Halderman, “ Automotive Electrical and Electronics” , Prentice Hall, USA, 2013
3. Tom Denton, “Automotive Electrical and Electronics Systems,” Third Edition, 2004, SAE International
4. William Ribbens, “Understanding Automotive Electronics – An Engineering Perspective,” 7th Edition, Elsevier Butterworth-Heinemann Publishers, 2012.

For detailed syllabus of all the other subjects of Instrumentation & Control Engineering 6th Sem, visit ICE 6th Sem subject syllabuses for 2021 regulation.

For all Instrumentation & Control Engineering results, visit Anna University ICE all semester results direct link.

For Instrumentation & Control Engineering 6th Sem scheme and its subjects, do visit ICE 6th Sem 2021 regulation scheme. For Professional Elective-VI scheme and its subjects refer to ICE Professional Elective-VI syllabus scheme. The detailed syllabus of semiconductor manufacturing is as follows.

Course Objectives:

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Unit I

INTRODUCTION TO SEMICONDUCTOR MANUFACTURING
Historical perspective, processing overview, semiconductor materials, semiconductor devices, process technology, fabrication steps.

Unit II

MANUFACTURING PROCESS: CRYSTAL GROWTH, SILICON OXIDATION, PHOTOLITHOGRAPHY
Silicon crystal growth, material characterization, thermal oxidation process, impurity redistribution, masking properties of silicon dioxide, oxidation thickness characteristics.

Unit III

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Unit IV

PROCESS INTEGRATION
Passive components, bipolar technology, MOSFET Technology, MESFET Technology, MEMS Technology.

Unit V

IC MANUFACTURING
Electrical testing, packing, statistical process control, computer integrated manufacturing, challenges for integration, system-on-a-chip.

Skill Development Activities

(Group Seminar/Mini Project/Assignment/Content Preparation / Quiz/ Surprise Test / Solving
GATE questions/ etc)

• Interpretation of Data Sheet of transistors and ICs with respect to their Static and Dynamic Characteristics.
• Familiarization of any one relevant software tool (MATLAB/ SCILAB/ LABVIEW/ Proteus/Equivalent open source software)
• Design and verification of simple signal conditioning circuit through simulation
• *Realization of signal conditioning circuit in hardware
• Introduction to other advanced logic circuits not covered in the above syllabus

Course Outcomes:

Download the iStudy App for all syllabus and other updates.

Text Books:

1. G. S. May and S. M. Sze, Fundamentals of Semiconductor Fabrication, Wiley India, 2004.
2. Hong Xiao, Introduction to Semiconductor Manufacturing Technology – Second Edition, SPIE Press, 2012.

Reference Books:

1. W. R. Runyan and K. E. Bean, Semiconductor Integrated Circuit Processing Technology, Addison Wesley Publishing Company, 1990
2. S. A. Campbell, The Science and Engineering of Microelectronic Fabrication, Oxford University Press, 1996.
3. M. J. Madou, Fundamentals of Micro fabrication, 2nd Edition, CRC Press, 2011.
4. S. M. Sze, Semiconductor Devices: Physics and Technology, 2nd Ed., Wiley India,2011

List of Open Source Software/ Learning Website:

1. https://nptel.ac.in/courses/108106181
2. https://nptel.ac.in/courses/117102061
3. https://www.hitachi-hightech.com/global/products/device/semiconductor/process.html
4. https://nptel.ac.in/courses/108108112
5. https://www.semiconductors.org/turning-the-tide-for-semiconductor-manufacturing-in-the-u-s/

For detailed syllabus of all the other subjects of Instrumentation & Control Engineering 6th Sem, visit ICE 6th Sem subject syllabuses for 2021 regulation.

For all Instrumentation & Control Engineering results, visit Anna University ICE all semester results direct link.

For Instrumentation & Control Engineering 6th Sem scheme and its subjects, do visit ICE 6th Sem 2021 regulation scheme. For Professional Elective-VI scheme and its subjects refer to ICE Professional Elective-VI syllabus scheme. The detailed syllabus of digital vlsi is as follows.

Course Objectives:

Download the iStudy App for all syllabus and other updates.

Unit I

MOS TRANSISTOR PRINCIPLES
MOS Technology and VLSI, Pass transistors, NMOS, CMOS Fabrication process and Electrical properties of CMOS circuits and Device modelling. Characteristics of CMOS inverter, Scaling principles and fundamental limits. Propagation Delays, CMOS inverter scaling, Stick diagram, Layout diagrams, Elmore�s constant, Logical Effort. Case study: Study of technology development in MOS

Unit II

COMBINATIONAL LOGIC CIRCUITS
Static CMOS logic Design, Design techniques to improve the speed, power dissipation of CMOS logic, low power circuit techniques, Ratioed logic, Pass transistor Logic, Transmission CPL,DCVSL, Dynamic CMOS logic, Domino logic, Dual Rail logic, NP CMOS logic and NORA logic

Unit III

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Unit IV

DESIGNING ARITHMETIC BUILDING BLOCKS & TESTING
Data path circuits, Architectures for Adders, Accumulators, Multipliers, Barrel Shifters, Need for testingManufacturing test principles- Design for testability. Case study: Analysis of area, power and delay for 16 bit adder and 8 bit multiplier.

Unit V

IMPLEMENTATION STRATEGIES
Full Custom and Semicustom Design, Standard Cell design and cell libraries, FPGA building block architectures, FPGA interconnect routing procedures. Demo: Complete ASIC flow using Backend tool and fabrication flow Overall case study: Development of IC in commercial aspects (design, testing and fabrication cost)

Skill Development Activities

(Group Seminar/Mini Project/Assignment/Content Preparation / Quiz/ Surprise Test / Solving GATE questions/ etc)

1. Interpretation of Data Sheet of transistors and ICs with respect to their Static and Dynamic Characteristics.
2. Familiarization of any one relevant software tool (MATLAB/ SCILAB/ LABVIEW/ Proteus/ Equivalent open source software)
3. Design and verification of simple signal conditioning circuit thro simulation.
4. Realization of signal conditioning circuit in hardware Introduction to other advanced logic circuits not covered in the above syllabus

Course Outcomes:

Download the iStudy App for all syllabus and other updates.

Text Books:

1. Jan Rabaey, Anantha Chandrakasan, B.Nikolic, �Digital Integrated circuits: A DesignPerspective�, Prentice Hall of India, 2nd Edition, 2003.
2. N.Weste, K.Eshraghian, �Principles of CMOS VLSI DESIGN�, A system Perspective, 2nd Edition, Addision Wesley, 2004.

Reference Books:

1. A.Pucknell, Kamran Eshraghian, �BASIC VLSI DESIGN�, Prentice Hall of India, 3rd Edition, 2007.
2. M.J. Smith, �Application Specific Integrated Circuits�, Addisson Wesley, 1997.
3. R.Jacob Baker, Harry W.LI., David E.Boyee, �CMOS Circuit Design, Layout and Simulation�, Prentice Hall of India, 2005.

List of Open Source Software/ Learning Website:

1. https://lecturenotes.in/subject/1159/digital-vlsi
2. https://edurev.in/studytube/Digital-VLSI-design–Lecture-Notes–ECE–Engineeri/7565abc5-b92d-4f7b-bc7c-6e029807cdab p
3. https://nptel.ac.in/courses/117103066
4. https://nptel.ac.in/courses/117106086
5. https://archive.nptel.ac.in/courses/117/101/117101004/

For detailed syllabus of all the other subjects of Instrumentation & Control Engineering 6th Sem, visit ICE 6th Sem subject syllabuses for 2021 regulation.

For all Instrumentation & Control Engineering results, visit Anna University ICE all semester results direct link.

Download the iStudy App for all syllabus and other updates.

For detailed syllabus of all the other subjects of ICE 6th Sem, 2021 curriculum do visit ICE 6th Sem subject syllabuses for 2021 regulation. For Instrumentation & Control Engineering 6th Sem semesters scheme and subjects, refer to ICE 6th Sem 2021 regulation scheme. The scheme details of Professional Elective-V for ICE 6th Sem is as follows.

Don’t forget to download iStudy App for the latest syllabus, results, class timetable and many more features. In case of questions, don’t feel shy to leave a comment or leave feedback in the iStudy app for faster response.

For the results of Instrumentation & Control Engineering 6th Sem, kindly visit ICE 6th Sem direct results link.

For exam time table of Instrumentation & Control Engineering (ICE), kindly visit Anna University exam timetables.

For Instrumentation & Control Engineering (ICE) notices, kindly visit Anna University notices.

Download the iStudy App for all syllabus and other updates.

For updated syllabus of Instrumentation & Control Engineering (ICE) 2021, kindly visit ICE updated syllabus.

Wishing you great luck ahead.