34271: Instrumentation System Design Instrumentation 5th Sem Syllabus for Diploma TNDTE M Scheme

Instrumentation System Design detail syllabus for Instrumentation And Control Engineering (102), M scheme is taken from TNDTE official website and presented for diploma students. The course code (34271), and for exam duration, Teaching Hr/week, Practical Hr/week, Total Marks, internal marks, theory marks, duration and credits do visit complete sem subjects post given below.

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.

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