TNDTE Syllabus Instrumentation Diploma M Scheme

TNDTE Instrumentation 1st Sem Syllabus

TNDTE Instrumentation 2nd Sem Syllabus

TNDTE Instrumentation 3rd Sem Syllabus

TNDTE Instrumentation 4th Sem Syllabus

TNDTE Instrumentation 5th Sem Syllabus

TNDTE Instrumentation 6th Sem Syllabus

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For all other subjects of the semester you can visit Instrumentation 6th Sem syllabus & notices. For all other Instrumentation 6th Sem Syllabus for Diploma M Scheme TNDTE subjects do refer to Instrumentation 6th Sem Syllabus for Diploma M Scheme TNDTE. The detail syllabus for elective ii instrumentation 6th sem syllabus for diploma tndte m scheme is as follows.

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For all other subjects of the semester you can visit Instrumentation 5th Sem syllabus & notices. For all other Instrumentation 5th Sem Syllabus for Diploma M Scheme TNDTE subjects do refer to Instrumentation 5th Sem Syllabus for Diploma M Scheme TNDTE. The detail syllabus for elective i instrumentation 5th sem syllabus for diploma tndte m scheme is as follows.

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For all other instrumentation 6th sem syllabus for diploma m scheme tndte you can visit Instrumentation 6th Sem Syllabus for Diploma M Scheme TNDTE Subjects. For all other Elective II subjects do refer to Elective II. The detail syllabus for embedded systems is as follows.

Rationale:

Increasingly, embedded systems developers and system-on-chip designers select specific microprocessor cores and a family of tools, libraries, and off-the-shelf components to quickly develop embedded system-based products. A major processor in this industry is ARM. Since 1985, the ARM architecture has become the most pervasive 32-bit architecture in the world. ARM processors are embedded in products ranging from cell/mobile phones to automotive Braking systems. A worldwide community of ARM partners and third-party vendors has Developed among semiconductor and product design companies, including hardware engineers, System designers, and software developers. This course has been to describe the operation of the ARM core from a product developer’s perspective with a clear emphasis on its architecture by assuming no previous ARM experience.

Objectives:

On successful completion of the course, the students must be able to

1. Distinguish between CISC and RISC architecture
2. Understand the ARM design philosophy
3. Explain the ARM architecture and the pipeline structure Describe the little and big endian methods of representation
4. Explain the Instruction sets of ARM processor.
5. Understand various operational modes in ARM processor List the various exceptions and handling methods
6. Develop an assembly level code for basic arithmetic primitive operations
7. Understand the cache mechanism and cache policies
8. List and explain various cache mechanisms
9. Explain the essential of cache memory, write buffers and its policies
10. Explain the importance of Lockdown and its method.
11. Explain the importance of MPU and MMU Understand the functionality of virtual memory. Explain the architecture of LPC 2148 ARM processor Relate and distinguish between OS and RTOS in their functionality. Understand hard time and soft time RTOS.
12. Explain multitasking, scheduling, ITC, and synchronization.
13. Develop simple application in RTOS.

Unit 1

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Unit 2

Arm Instructions Sets And Interrupts

ARM and Thumb Instruction Sets, Data Processing Instructions- Branch Instructions, Load-Store Instructions -Software Interrupt Instruction, Program Status Register -Instructions, Conditional Execution, Stack Instructions.

Arm Processor Exceptions And Modes :

Vector table, Priorities, link Register offsets -Interrupts, and IRQ / FIQ exceptions interrupt-Stack design and implementation.

Simple Program:

Addition, Subtraction, Multiplication in assembly language 13

Unit 3

Cache Mechanism And Memory

Introduction to cache memory- memory hierarchy and Cache memory – Cache architecture and cache policies

Concept Of Flushing And Cleaning Cache :

Flushing and Cleaning ARM cache core.

Concept Of Cache Lockdown :

Locking Code and Data in Cache – Cache and write buffer – Stack and stack pointer – Comparison of cache and stack

Memory Protection And Management Unit :

Introduction to Protection unit, Protected Regions – Demonstration of an MPU system – Components of MPU – Importance of MPU – Memory management unit block diagram – Main components of MMU – Definition of Virtual Memory -Virtual Memory – working principle – Memory size & speed – Importance of MMU 13

Unit 4

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Unit 5

Embedded Os And Rtos

Fundamentals components to Embedded OS – Simple Little Operating System: Initialization – Memory model, interrupts and exceptions handling – Scheduler, and context switch

Introduction To Rtos :

Real-time systems concepts, foreground/background systems – Critical sections, resources, multitasking – Context switching, scheduling, re-entrancy – Task priorities, mutual exclusion

Synchronization And Ipc :

Introduction to Semaphores and types – Inter process communication: pipes and message box. 12

Reference Books:

1. Microprocessor & Microcontroller B.P.Singa Reprint-Galgotia Publication Pvt Ltd.,
2. Real Time Concepts for Embedded System Qing Li and Caroline Yao
3. Embedded Systems- Architecture, Programming and Design Rajkamal TMH, 2nd Edition-2008
4. ARM System Developer’s Guide Designing and Optimizing Andrew N.Sloss Elsevier publication- 2004
5. MicroC/OS – II Jean J. Labrosse J. Labrosse Publisher- Second Edition
6. Embedded Systems B.Kanta Rao PHI publishers Eastern Economy Edition, 2011-
7. Embedded/Real Time Systems Dr. K.V.K.K PRASAD Curriculum Development Center – DOTE-2009
8. ARM System- On-Chip Architecture Steve Furbe Second Edition

For detail syllabus of all other subjects of BE Instrumentation, M scheme do visit Instrumentation 6 syllabus for M Scheme.

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For all other instrumentation 6th sem syllabus for diploma m scheme tndte you can visit Instrumentation 6th Sem Syllabus for Diploma M Scheme TNDTE Subjects. For all other Elective II subjects do refer to Elective II. The detail syllabus for robotics is as follows.

Rationale:

In Recent days robots are used in automation industries. Knowledge & Familiarization of robots will be considered as an added advantage in the field of Automation.

Objectives:

• Explain different components of robot
• compare various types of Robot
• Study the working of various robot controller.
• Differentiate various robot controller.
• Explain the kinematics of robot.
• Explain the working of vision system
• Appreciate the application of robot s in various industries.
• Compare the uses of various sensors & warning system

Unit 1

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Unit 2

Robot Controller, Servo Systems

Robot controller – level of controller – open loop and closed loop controller -servo systems — robot path control – point to point – continuous path control – sensor based path control – controller programming – actuators -dc servo motors – stepper motors – hydraulic and pneumatic drives -feedback devices – potentiometers – optical encoders – dc tachometers.

Unit 3

Robot Motion Analysis and Vision System

Robot motion analysis – robot kinematics – robot dynamics – end effectors -grippers and tools – gripper design – mechanical gripper – vacuum gripper -magnetic grippers – sensors – transducers – tactile sensors -proximity sensors and range sensors – force and moment sensors and its applications and problems photoelectric sensors – vision system – image processing and analysis -robotic applications – robot operation aids – teach pendent – MDI and computer control 14

Unit 4

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Unit 5

Robot Application in Manufacturing

Robot application in manufacturing – material handling -assembly finishing -adopting robots to work station – requisite and non – requisite robot characteristics -stages in selecting robot for individual application -precaution for robot -future of robotics. Economics analysis for robotics – cost data required for the analysis -methods of economic analysis – pay back method – equivalent uniform annual cost method – return on investment method. 14

Text Books:

1. Mikkel P.Groover, Mite chell weiss, Rogern Negal and Nicholes G.Odress, Industrial Robotics Technology- Programming and Applications
2. R.K.Mittal, I.J.Nagrath, Robotics and controls, Tata Mcgraw Hill Education Pvt.

Reference Books:

For complete syllabus and results, class timetable and more pls download iStudy. Its a light weight, easy to use, no images, no pdfs platform to make students life easier.

For detail syllabus of all other subjects of BE Instrumentation, M scheme do visit Instrumentation 6 syllabus for M Scheme.

Dont forget to download iStudy for latest syllabus and results, class timetable and more.

For all other instrumentation 6th sem syllabus for diploma m scheme tndte you can visit Instrumentation 6th Sem Syllabus for Diploma M Scheme TNDTE Subjects. For all other Elective II subjects do refer to Elective II. The detail syllabus for bio medical instrumentation is as follows.

Rationale:

Bio medical engineering education is in the growing stage. But every year, there is a tremendous increase in the use of modern medical equipment in the hospital and health care industry therefore it is necessary for every student to understand the functioning of various medical equipments. This subject to enable the students to learn the basic principles of different biomedical instruments vizClinical measurement, Bio -medical recorders, Therapeutic instruments, Biotelemetry and Modern imaging techniques instruments.

Objectives:

After learning this subject the student will be able to understand the about

• The generation of Bio-potential and its measurement using various electrodes.
• The measurement of blood pressure.
• The measurement of lung volume.
• The measurement of respiration rate.
• The measurement of body temperature and skin temperature.
• The principles of operations of ECG recorder.
• The principles of operations of EEG recorder.
• The principles of operations of ENG recorder.
• The working principles of audio meter.
• The principles of operations of pacemaker.
• The basic principle of dialysis.
• The basic principle of short wave diathermy.
• The basic principle of ventilators.
• The working principles of telemetry.
• The basic principle of telemedicine.
• To learn about patient safety.
• The various methods of accident prevention.
• The basic principle of various types of lasers.
• The basic principle of CT and MRI scanner.
• The principle of operation of various imaging techniques.

Unit 1

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Unit 2

Bio – Medical Recorders:

Electro cardiograph (ECG) – Lead system – ECG electrodes – ECG amplifiers – ECG recording units – analysis of ECG curves. Nervous system – EEG recorder – 10-20 lead system – recording techniques -EEG wave types – Clinical use of EEG – brain tumour Electro -myograph (EMG) – EMG waves – measurement of conduction velocity – EMG recording techniques – Electro – retinograph (ERG) Audiometer – principle – types – Basics audiometer working. 13

Unit 3

Therapeutic Instruments:

Cardiac pacemaker – classification – External pace makers -implantable pacemaker – pacing techniques – programmable pacemaker – Cardiac defibrillators – types – AC and DC defibrillators -Heart lung machine with Block diagram. Dialysis – Hemo dialysis -peritoneal dialysis. Endoscopes Endoscopic laser coagulator and applications – physiotherapy equipment – short wave diathermy -micro wave diathermy – ultrasonic therapy unit (block / circuit) -Ventilators – types – modern ventilator block diagram. 13

Unit 4

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Unit 5

Modern Imaging Techniques:

LASER beam properties – block diagram – operation of CO2 and NDYag LASER – applications of LASER in medicine. X ray apparatus -block diagram – operation – special techniques in X-ray imaging -Tomogram – computerized Axial tomography – Ultrasonic imaging techniques – Echo cardiography – Angiography – CT scanner -Magnetic resonance imaging techniques. 12

Text Books:

Dr.M. Arumugam – Biomedical Instrumentation ,Anuradha publications, chennai (Page no. 1-15, 21-33, 117-136,142-159,164-179, 182-195, 202-209, 212-215, 255 – 256, 274-277, 285-286, 266-268, 293-297, 299- 310, 319-320, 329 – 340, 347-358, 360-367, 374-390, 390400

Reference Books:

For complete syllabus and results, class timetable and more pls download iStudy. Its a light weight, easy to use, no images, no pdfs platform to make students life easier.

For detail syllabus of all other subjects of BE Instrumentation, M scheme do visit Instrumentation 6 syllabus for M Scheme.

Dont forget to download iStudy for latest syllabus and results, class timetable and more.

For all other instrumentation 5th sem syllabus for diploma m scheme tndte you can visit Instrumentation 5th Sem Syllabus for Diploma M Scheme TNDTE Subjects. For all other Elective I subjects do refer to Elective I. The detail syllabus for industrial power electronics is as follows.

Rationale:

Objectives:

• To Study working principle of power devices.
• To Study the methods of triggering
• To know about use of pulse transformer & opto isolator.
• To learn about converters and its types.
• To understand commutation concepts in SCR
• To Learn about choppers.
• To Study about inverters and types.
• To understand the concept of HVDC.
• To know about UPS and its types.
• To understand about PLC.
• To learn about logic functions & instrutions.
• To discuss about ladder diagrams.
• To study about basics of numerical control of machines.
• To learn about CNC ,DNC systems.
• To know about the basics of Robotics

Unit 1

For complete syllabus and results, class timetable and more pls download iStudy. Its a light weight, easy to use, no images, no pdfs platform to make students life easier.

Unit 2

Converters

Converters – Definition – Single phase Half controlled bridge converter with resistive load and resistive inductive loadimportance of flywheel diode – Single phase fully controlled bridge converter with resistive load – voltage and current waveforms – Single phase fully controlled bridge converter with RL load –voltage and current waveforms. Commutation- Natural commutation – Forced commutation – Types of forced commutation (mention the types only) 3 phase half controlled bridge converter with resistive load -current and voltage waveform -3 phase fully controlled bridge with resistive load – current and voltage waveforms. Dual converter – modes of Dual converter 13 hrs

Unit 3

Choppers

Introduction – applications -principle of chopper-control strategies (time ratio and current limit control)-types of choppertype A, B, C, D, and E – step up chopper -Jones chopper – Morgan chopper-chopper using MOSFET – PWM control circuit for driving MOSFET in chopper. DC Transmission- principle – advantages – drawbacks. 13 hrs

Unit 4

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Unit 5

Numerically Controlled Systems

Basic concepts of numerical control- Block diagram of numerical control system- Advantages, disadvantages , applications of numerical control system – Driving devices -Hydraulic system , Stepper motor – Programming systems ( mention the names only ) – Data processing unit – Data reading -Part programming – steps – Post processor Introduction to CNC / DNC – Basic concepts of CNC , DNC and AC system – Types of AC system – -Block diagram of ACO , ACC – Comparison between NC & CNC – Typical CNC system – Block diagram – Advantages of CNC system . 13 HRS

Reference Books:

1. Industrial & Power Electronics -Harish C. Rai – Umesh Publication -5th edition- 1994
2. Power Electronics – Dr.P.S. Bimbhra -Khanna publishers -2nd edition-1998
3. Power Electronics -M.H.Rashid-PHI Publication-3rd edition 2005
4. Programmable Logic Controller -Pradeep Kumar& Srivashtava-BPB Publications

Reference Books:

For complete syllabus and results, class timetable and more pls download iStudy. Its a light weight, easy to use, no images, no pdfs platform to make students life easier.

For detail syllabus of all other subjects of BE Instrumentation, M scheme do visit Instrumentation 5 syllabus for M Scheme.

Dont forget to download iStudy for latest syllabus and results, class timetable and more.

For all other instrumentation 5th sem syllabus for diploma m scheme tndte you can visit Instrumentation 5th Sem Syllabus for Diploma M Scheme TNDTE Subjects. For all other Elective I subjects do refer to Elective I. The detail syllabus for programmable logic controller is as follows.

Rationale:

Programmable Logic Controller is the mandatory for the control Engineers in any Process Industry. As it is the default controller being used in the industries in automation of process such as packing, discrete control etc., It is obvious for the instrumentation and control Engineer to understand Hardware and programming the PLC.

Objectives:

• To understand the detailed Hardware of PLC and its parts
• To understand the working of PLC and scan cycle
• T o understand the program and data memory organization
• To know the Different timers of PLC and programming them
• To know the different counters of PLC and its parameters
• To understand the Ladder logic programming of PLC
• To develop simple ladder programs
• To study the Advanced instructions of PLC
• To understand the communication module of PLC

Unit 1

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Unit 2

Programming Of Plc

PLC Programming languages -Standard languages-Ladder diagram (LD) – Function block diagram (FBD) Sequential function chart(SFC)- Statement List(STL) (each one example program)-Symbols of a PLC Input and output contact graphical languages(IES)- program format – Typical Numbering mode – Equivalent ladder diagram of AND, OR, NOT, XOR, NAND AND NOR gate equivalent ladder diagram to demonstrates De Morgan’s theorem, Ladder design switches- Develop elementary program design of a 4:1 Multiplexer using ladder logic programming wired level logic instructions input, output, flag, timer, counter, latch.

Unit 3

Plc Timers And Counters

Definition and Classification of a timer. Characteristics of a PLC timer – functions in a timer – resetting -retentive functions and function block format- non-retentive -classification – Timer ON-delay- Timer-OFF delaySimple problems using timer PLC counter – Operation of a PLC counter – Counter parameters – Format of counter instruction and counter data file – count up (CTU)- count down(CTD) simple problems using counter.

Unit 4

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Unit 5

I/O Module Communication And Networking

Introduction – classification of I/O Input – Output system – Direct I/O, parallel I/O – Sourcing and sinking of serial I/O system. PLC interfacing-Discrete Input module -DC – AC – Discrete output module – Analog input module single ended and output module – RTD input modules- Thermocouple- High speed Encoder-Stepper motor- RS-232 interface module-Differential input module. Types of Communication Interface. Parallel -serial – Parallel – IEEE 488 BUS- Serial _ balanced -unbalanced- communication mode- simplex – Half duplex – full duplex features of good interface. Serial interface RS 232c. DB-9 connection of Rs232C Network Topology, Bus Ring, Star, Tree.

Reference Books:

1. Madhuchhanda Mitra ,Samarjit sen Gupta,PLC and Industrial Automation and introduction, Penram international Publishing (India) Pvt Ltd.
2. Pradeep Kumar Srivastava, Exploring Programmable Logic Controller with applications, BPB Publication
3. W. Bolton, Programmable logic controller IV Edition Reed Elsevier India pvt ltd.
4. Gary Dunning, Introduction to PLC, IIIrd edition Thomson del mar learning.

For detail syllabus of all other subjects of BE Instrumentation, M scheme do visit Instrumentation 5 syllabus for M Scheme.

Dont forget to download iStudy for latest syllabus and results, class timetable and more.

For all other instrumentation 5th sem syllabus for diploma m scheme tndte you can visit Instrumentation 5th Sem Syllabus for Diploma M Scheme TNDTE Subjects. For all other Elective I subjects do refer to Elective I. The detail syllabus for instrumentation system design is as follows.

Rationale:

Instrumentation engineers must be conversant with the basic design of instrumentation systems. This subject covers the basic design procedure of transducers and signal conditioning circuits, transmitters and controllers. It also includes the concept of Control Valve Selection, Engineering design criteria and Safety in instrumentation and control systems. This subject provides an opportunity to the students to opt for a career in the Design department of instrument manufacturing companies.

Objectives:

On completion of the following units of syllabus, the students must be able to

• Understand the design of Thermocouple circuit with Cold junction compensation.
• Understand the design of RTD bridge circuit with Lead wire compensation.
• Know about the design of flow measurement devices such as Orifice Plate, Venturi meter and Flow Nozzle.
• Know about the design of Charge amplifier and Instrumentation amplifier.
• Acquire knowledge about the design of 2 wire and 4 wire transmitters.
• Know about the design of Pneumatic and Electronic PID Controller.
• Acquire knowledge about the design of annunciators.
• Understand the Control Valve selection in detail.
• Acquire knowledge about the Engineering design criteria.
• Know about the specifications for various measurement and control systems.
• Understand about the Safety in Instrumentation and Control Systems.
• Know about the design of Intrinsically safe systems.

Unit 1

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Unit 2

Design Of Transmitters And Controllers

Design of two and four wire transmitters with 4-20 mA output -Smart Transmitters -Design of On-Off Controller – Design of Pneumatic and Electronic PID Controller – Design of annunciators -Low Level and High Level annunciators 13 hrs

Unit 3

Control Valve Selection

Function in the system -Pressure drop requirements for good control – Capacity requirements -Valve Rangeability- Choosing the Flow Characteristic – Choosing the Body Design – Body materials – End Connections – Choice of Single Seat Versus Double Seat design – Selection of Actuators – Split ranging Control Valves – Control Valve Sizing Equations – Constant Pressure System -Variable Pressure system -Valve selection guidelines. 13 hrs

Unit 4

For complete syllabus and results, class timetable and more pls download iStudy. Its a light weight, easy to use, no images, no pdfs platform to make students life easier.

Unit 5

Safety In Instrumentation And Control Systems

Area and Material Classification – International Electro technical Commission (IEC)- Classifying a Hazardous Location -Techniques used to reduce Explosion Hazards – Explosion proof Housings – Sealing – Pressurization Systems – Intrinsic Safety -Definition – Design of Intrinsically Safe Systems – Basic techniques in the design of intrinsically safe apparatus -Mechanical and Electrical Isolation – Current and Voltage Limiting – Shunt Elements – System design using Commercially available Intrinsically safe and associated apparatus 11 hrs

Reference Books:

1. Sheingold D.H, Transducer interfacing Handbook – A guide to analog signal conditioning’.
2. Anderson N.A, Instrumentation for Process Measurement and Control’, Chilton book company, 1980.
3. Andrew W, Applied Instrumentation in Process Industries’, Vol.II Gulf Publications.
4. C.D. Johnson, Process Control Instrumentation Technology, Prentice Hall of India.
5. Doebelin E.O. Measurement Systems, applications and design, McGrawHill.
6. Douglas M. Considine, Gregory K. Mcmillan, Process/Industrial Instruments and Controls Handbook’, McGraw Hill, Fifth Edition.

For detail syllabus of all other subjects of BE Instrumentation, M scheme do visit Instrumentation 5 syllabus for M Scheme.

Dont forget to download iStudy for latest syllabus and results, class timetable and more.

For all other subjects of the semester you can visit Instrumentation 6th Sem Syllabus for Diploma M Scheme TNDTE. The instrumentation 6th sem syllabus for diploma m scheme tndte is as follows.

Dont forget to download iStudy for latest syllabus and results, class timetable and more. Incase of questions dont hesitate to leave a comment or leave a feedback in iStudy app for faster response.

Wish you a great luck ahead.