313331: Sensor Technology Syllabus for Automation & Robotics 3rd Sem K Scheme MSBTE PDF

Sensor Technology detailed Syllabus for Automation & Robotics (AO), K scheme PDF has been taken from the MSBTE official website and presented for the diploma students. For Subject Code, Subject Name, Lectures, Tutorial, Practical/Drawing, Credits, Theory (Max & Min) Marks, Practical (Max & Min) Marks, Total Marks, and other information, do visit full semester subjects post given below.

For all other MSBTE Automation & Robotics 3rd Sem K Scheme Syllabus PDF, do visit MSBTE Automation & Robotics 3rd Sem K Scheme Syllabus PDF Subjects. The detailed Syllabus for sensor technology is as follows.

Rationale

For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.
.

Course Outcomes:

Students will be able to achieve & demonstrate the following COs on completion of course based learning

– Interpret various characteristics of sensors.
– Develop signal conditioning circuits using relevant analog ICs.
– Select appropriate sensor for given application.
– Describe the latest trends in the field of sensor.
– Develop an application employing various sensor technologies.

Unit I

Fundamentals of Sensors 1.1 Transducer, sensor and actuator-definition and its comparison 1.2 Need of sensor, classification of sensors -analog and digital, active and passive, scalar and vector 1.3 Characteristics of sensors : Range, resolution, sensitivity, error, repeatability, linearity and accuracy, impedance, backlash, response time, dead band 1.4 Criteria to choose a sensor: Accuracy, environmental condition, range, calibration, resolution , cost and repeatability Lecture Using Chalk-Board Video Demonstrations Presentations

Unit II

Unit III

Mechanical and Electromechanical Sensors 3.1 Mechanical and electromechanical sensors: Definition, basic principle and applications 3.2 Mechanical sensors: Pressure sensor- C shape bourdon tube, bellows and diaphragm, Pressure measurement in ancient time (IKS) , flow sensor -rotameter, venturi meter and orifice plate 3.3 Electro-mechanical sensors: Resistive (potentiometric type), strain gauge, inductive sensor-LVDT, capacitive sensors, thermal (RTD-PT100, thermocouple (J,K,R,S,T)), proximity sensors (inductive, optical, capacitive, magnetic, ultrasonic) Lecture Using Chalk-Board Presentations Video Demonstrations

Unit IV

Advance Sensors 4.1 Development of sensor technology 4.2 Semiconductor sensors: Material and technique, types of semiconductor sensors (thermistor, gas sensor), biomedical sensor: magnetic biosensor 4.3 Smart sensors: Definition, configuration of smart sensor, Microsensors: Micro size microphone, inertial sensor, hall effect sensor 4.4 Colour sensor, IR radiation sensor, thermal detectors, ultrasonic sensors (flow and level sensor), fiberoptic sensors (displacement sensor and humidity sensor) Lecture Using Chalk-Board Demonstration Video Demonstrations

Unit V

Suggested Micro Project / Assignment

Micro project

Use a fire sensor make a small electronic alarm circuit.
Make a small circuit using LDR as a sensing device.
Make a power point presentation describing smart garbage segregation systems using sensors.
Develop a chart depicting the classification table of various types of sensors.
Make temperature control circuit using thermistor.
Develop Schmitt trigger using IC555.
Using a touch sensor make a small electronic circuit.
Make a astable multivibrator using IC555.

Assignment

Describe different sensors used in escalator.
Explain different sensors used in dish washer system.
Explain Smart traffic management systems using its block diagram.
Describe different sensors used in biometric readers.
Explore any car company’s website, record various sensors and their functions used in high-end cars.

Field visit

Visit any of the Mall/Electronic showroom and record different sensors used there,from entry to exit .

Activity

Explore Nadi Pariksha Device and make a descriptive report on how this device is correlated with ancient medical parameter sensing (*IKS).
Simulate the performance of a bio-sensor and record responses for different inputs using V-Lab.

Laboratory Equipment / Instruments

Models and charts of various sensors and actuators 1
Thermocouple Trainer Kit Complete with thermocouple sensor, thermometer, glass beaker , instruction manual,inbuilt regulated power supply Â±12 volts DC, null balance and amplification circuit. 10
Simulation software any open source software for interfacing Arduino uno or software like Proteus 12
Computer Processor Intel i5 or equivalent AMD, memory: 8 GB RAM minimum, storage: 500 GB ) minimum, with Web camera and mic 12
Mobile phone having smart phone characteristics 13
Colour Sensor Trainer Advance Technology provides RGB color sensor which is 8051 compatible which can detect different color up to 10 colors,16*2 LCD display to show value of color,on board power supply section with power indicator and test point 15
Proximity Sensor Trainer On board proximity sensor, on board DC motor,test points to analyse the signal, variable supply to vary the speed of DC motor ON/OFF switch and LED for power indication. 16
CRO Sensitivity in 1, 2, 5 sequence : 5mv/cm to 10 v/m, band width : dc to 15 m hz/, rise time : 24 ns, accuracy : Â±3%, max. input voltage dc + ac peak : 400 v, input impedance : 1 m/35 pf 2,3,4,5,14
Operational Amplifier Trainer Inbuilt variable/fixed DC regulated power supplies output voltages : 0-5VDC (variable) (2Nos.), +12VDC (fixed) , transistor & components Provided IC : 741, transistor : CL 100 (NPN), resistors, capacitors, power requirement : 230 VAC, 10%, 50Hz 2,3,5
Multivibrator using 555 timer trainer kit On board includes: Monostable mutivibrator, astable mutivibrator, bistable mutivibrator circuits Fuse for short circuit protection, instruction manual, connections are brought out through 2mm colored sockets, patch cords 2mm. 4,14
Bourdon Pressure Gauge Trainer Parameter Measured: Pressure, type : C type bourdon tube and spring loaded core type LVDT, Measurement Range : 0 to 10 Kg, Operating Voltage : 230V, + 10%, accessories: chamber for pressure developing and releasing, Foot pump to develop pressure in chamber 6,7
Strain gauge trainer Parameter measured: Strain in terms of kilograms Wheatstone bridge principle range: 0 – 500 grams, actual strain: by weights placed in a plate fixed on the beam, excitation source: DC regulated source 8
RTD trainer kit Digital meters: Voltmeter 200mv, DC power supplies: DC supply IC regulated +12v DC, 150MA, operated on mains power 230v, 50HZ 9

Suggested Learning Materials / Books

Learning Websites & Portals

https://www.farnell.com/datasheets/1504633.pdf Touch screen sensor design guide.
https://www.bosch-mobility.com/en/solutions/electronic-compo nents/mems-sensors/ MEMS sensors information
https://nptel.ac.in/courses/117105082 MEMS sensors overview
https://sl-coep.vlabs.ac.in/List%20of%20experiments.html Sensor simulation using virtual lab
https://www.bharathuniv.ac.in/page_images/pdf/courseware_eee /Notes/NE3/BEE026%20MEMS.pdf MEMS sensors introduction
https://courses.cs.washington.edu/courses/cse466/15au/pdfs/l ectures/MEMS%20Sensors.pdf MEMS sensors course
https://www.classcentral.com/course/youtube-electronics-mems -microsystems-47673 Short duration online course for MEMS sensors
https://nptel.ac.in/courses/108108147 Sensors and actuators overview
https://nptel.ac.in/courses/117107094 Operational amplifier information

For detail Syllabus of all other subjects of Automation & Robotics, K scheme do visit Automation & Robotics 3rd Sem Syllabus for K scheme.

For all Automation & Robotics results, visit MSBTE Automation & Robotics all semester results direct links.

InI MH