PROJECT BASED LEARNING

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Presentation transcript:

PROJECT BASED LEARNING COURSE CODE & NAME: EIB1212 – ELECTRON DEVICES FACULTY HANDLING: Dr. T.R. RANGASWAMY, Professor & Dean (Academic Affairs)

EIB1212 - Electron Devices Assessment scheme Project Design and Fabrication - 10 marks (CAT 2) Implementation of the Project - 15 marks (CAT 3)

Project details (EIB1212 ) BATCH RRN Name PROJECT NAME I 150061601013 MOHAMED UZAER A Silicon Controlled Rectifier Motor Control 150061601016 NAZEER AHAMED S 150061601032 SARAVANA PRASHANTH A 150061601015 NAVEETH IMARAN A II 150061601017 RAGHUL KANTH C Water Level Alarm using Transistor 150061601012 MOHAMED SYED ALI J 150061601022 SHAHID KHAN.H 150061601023 SHRIKANTH R S III 150061601003 ASHIKA S FET application(Timer) 150061601021 RASEENA PARVEEN J 150061601025 TASLEEM BEEMA S 150061601034 SHAMA PEER MOHAMMED IV 150061601020 RASEEM AHAMED A Cell Phone Charger Circuit 150061601009 MOHAMED FAISAL 150061601010 MOHAMED FAISAL M S 150061601011 MOHAMED RIYAZ S 150061601019 RANJANKRISHNA R

Project details (EIB1212 ) BATCH RRN Name PROJECT NAME V 150061601001 AJAY VIKRAM .S Electronic Mosquito Repellent Circuit 150061601002 ASHIF RAHMAN M 150061601004 ASLAM SAMEER M B 150061601005 IMTHYAS AHAMED SHERIEFF T VI 150061601006 JAVID KHAN N Home Security Alarm 150061601007 MOHAMED AMMAR A 150061601008 MOHAMED ASHIK J 150061601014 MOHAMMED SALMAN J 150061601018 RAMSINGH A VII 150061601027 VARSHAN V Voltage Regulation 150061601031 MOHAMED RAIYAN M 140061601026 SYED SHAMEER.S.H. VIII 150061601026 THAHIRANAZREEN. S Mobile / Battery Charger LED interface 150061601028 VASANTHE B 150061601033 SASIKALA C

Sample Project Details (EIB1212 ) CLICK TO VIEW VIDEO FULL SCREEN Water Level Alarm using Transistor CLICK TO VIEW VIDEO FULL SCREEN

Motor Control using Silicon Controlled Rectifier Sample Project Details (EIB1212 ) Motor Control using Silicon Controlled Rectifier CLICK TO VIEW VIDEO FULL SCREEN

Sample Project Details (EIB1212 ) FET application (Timer) CLICK TO VIEW VIDEO FULL SCREEN

Sample Project Details (EIB1212 ) CLICK TO VIEW VIDEO FULL SCREEN Cell Phone Charger CLICK TO VIEW VIDEO FULL SCREEN

Evaluation of project (EIB1212 ) BATCH RRN Name PROJECT NAME Marks Awarded I 150061601013 MOHAMED UZAER A Motor Control using Silicon Controlled Rectifier (SCR) Design - 10 Marks (CAT2) Implementation - 15 Marks (CAT3) 150061601016 NAZEER AHAMED S 150061601032 SARAVANA PRASHANTH A 150061601015 NAVEETH IMARAN A II 150061601017 RAGHUL KANTH C Water Level Alarm using Transistor 150061601012 MOHAMED SYED ALI J 150061601022 SHAHID KHAN.H 150061601023 SHRIKANTH R S III 150061601003 ASHIKA S Timer using FET 150061601021 RASEENA PARVEEN J 150061601025 TASLEEM BEEMA S 150061601034 SHAMA PEER MOHAMMED IV 150061601020 RASEEM AHAMED A Cell Phone Charger 150061601009 MOHAMED FAISAL 150061601010 MOHAMED FAISAL M S 150061601011 MOHAMED RIYAZ S 150061601019 RANJANKRISHNA R

Evaluation of project (EIB1212 ) BATCH RRN Name PROJECT NAME Marks Awarded V 150061601001 AJAY VIKRAM .S Electronic Mosquito Repellent Circuit Design - 10 Marks (CAT2) Implementation - 15 Marks (CAT3) 150061601002 ASHIF RAHMAN M 150061601004 ASLAM SAMEER M B 150061601005 IMTHYAS AHAMED SHERIEFF T VI 150061601006 JAVID KHAN N Home Security Alarm 150061601007 MOHAMED AMMAR A 150061601008 MOHAMED ASHIK J 150061601014 MOHAMMED SALMAN J 150061601018 RAMSINGH A VII 150061601027 VARSHAN V Voltage Regulation 150061601031 MOHAMED RAIYAN M 140061601026 SYED SHAMEER.S.H. VIII 150061601026 THAHIRANAZREEN. S Mobile / Battery Charger LED interface 150061601028 VASANTHE B 150061601033 SASIKALA C

Attainment of Course Outcome (EIB1212 ) Students can able to design and analyze ATTAINED THROUGH PROJECT Rectifier and filters circuits Project on Battery Charger Regulated power supplies Voltage Regulators using Zener Diode Amplifiers and other applications of BJT Project on Water Level Indicator using BJT Amplifiers and other applications of FET Project on Timer using FET Application using special diodes Project on Motor Controlled using SCR Application using LED, photo diodes, photo transistors etc. Project on (1) Relay Circuits using Photo Sensors (LDR) (2) LED Interface

Attainment of Programme outcome (EIB1212 ) Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex Electronics and Instrumentation engineering problems. 2. Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences. 3. Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations. Yes 4. Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions. 5. Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations. 6. Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice. 7 Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.

Attainment of Programme outcome (EIB1212 ) 9. Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings. Yes 10. Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions. 11. Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments. 12. Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change. 13. Test, Calibrate and Select measuring Instruments and analyzers for different Industrial applications. 14. Design & fabricate signal conditioning circuits for measurement systems 15. Design, simulate and implement conventional, multiloop, intelligent and model based controllers for Industrial Automation.