DEPARTMENT OF APPLIED ELECTRONICS &
Department of Applied Electronics &Instrumentation
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONRSET VISIONTo evolve into a premier technological and research institution,moulding eminent professionals with creative minds, innovativeideas and sound practical skill, and to shape a future wheretechnology works for the enrichment of mankind.RSET MISSIONTo impart state-of-the-art knowledge to individuals in varioustechnological disciplines and to inculcate in them a high degree ofsocial consciousness and human values, thereby enabling them toface the challenges of life with courage and conviction.COURSE HANDOUT: S6Page 2
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONDEPARTMENT VISIONTo evolve into a centre of academic excellence, developingprofessionals in the field of electronics and instrumentation toexcel in academia and industry.DEPARTMENTMISSIONFacilitate comprehensive knowledge transfer with latesttheoretical and practical concepts, developing good relationshipwith industrial, academic and research institutions therebymoulding competent professionals with social commitment.COURSE HANDOUT: S6Page 3
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONPROGRAMME EDUCATIONAL OBJECTIVESPEOI: Graduates will possess engineering skills, sound knowledge andprofessional attitude, in electronics and instrumentation to becomecompetent engineers.PEOII:Graduates will have confidence to design and develop instrumentsystems and to take up engineering challenges.PEOIII: Graduates will possess commendable leadership qualities, willmaintain the attitude to learn new things and will be capable to adaptthemselves to industrial scenario.PROGRAMME OUTCOMESEngineering Graduates will be able to:PO1. Engineering knowledge: Apply the knowledge of mathematics,science, engineering fundamentals, andan engineering specialization to thesolution of complex engineering problems.PO2. Problem analysis: Identify, formulate, review research literature, andanalyze complex engineeringproblems reaching substantiated conclusionsusing first principles of mathematics, natural sciences, andengineeringsciences.PO3. Design/development of solutions: Design solutions for complexengineering problems and designsystem components or processes thatmeet the specified needs with appropriate consideration for thepublichealth and safety, and the cultural, societal, and environmentalconsiderations.health and safety, and the cultural, societal, and environmentalconsiderations.PO4. Conduct investigations of complex problems: Use research-basedknowledge and research methodsincluding design of experiments, analysis and interpretation of data, andsynthesis of the information toCOURSE HANDOUT: S6provide valid conclusions.Page 4
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONPO4. Conduct investigations of complex problems: Use research-basedknowledge and research methodsincluding design of experiments, analysisand interpretation of data, and synthesis of the information toprovide validconclusions.PO5. Modern tool usage: Create, select, and apply appropriate techniques,resources, and modern engineeringand IT tools including prediction andmodeling to complex engineering activities with an understanding ofthelimitations.PO6. The engineer and society: Apply reasoning informed by the contextualknowledge to assess societal,health, safety, legal and cultural issues and theconsequent responsibilities relevant to the professionalengineering practice.PO7. Environment and sustainability: Understand the impact of theprofessional engineering solutions insocietal and environmental contexts,and demonstrate the knowledge of, and nee for sustainable development.PO8. Ethics: Apply ethical principles and commit to professional ethics andresponsibilities and norms of theengineering practice.PO9. Individual and team work: Function effectively as an individual, and as amember or leader in diverseteams, and in multidisciplinary settings.PO10. Communication: Communicate effectively on complex engineeringactivities with the engineeringcommunity and with society at large, such as,being able to comprehend and write effective reports anddesigndocumentation, make effective presentations, and give and receiveclear instructions.PO11. Project management and finance: Demonstrate knowledge andunderstanding of the engineering andmanagement principles and apply these to one’s own work, as a member andleader in a team, to manageprojects and in multidisciplinary environments.PO12. Life-long learning: Recognize the need for, and have the preparationand ability to engage inindependent and life-long learning in the broadest context of technologicalchange.COURSE HANDOUT: S6Page 5
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONPO11. Project management and finance: Demonstrate knowledge andunderstanding of the engineering and management principles and applythese to one’s own work, as a member and leader in a team, to manageprojects and in multidisciplinary environments.PO12. Life-long learning: Recognize the need for, and have the preparationand ability to engage in independent and life-long learning in the broadestcontext of technological change.COURSE HANDOUT: S6Page 6
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONProgram Specific OutcomeStudents of the programPSO 1: will have sound technical skills in electronics and instrumentation.PSO 2: will be capable of developing instrument systems and methodscomplying with standards.PSO 3: will be able to learn new concepts, exhibit leadership qualities andadapt to changing industrial scenariosCOURSE HANDOUT: S6Page 7
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONINDEX1234567ASSIGNMENT SCHEDULE, SEMESTER PLANSCHEMEAE402: ANLYTICAL INSTRUMENTATION3.1.COURSE INFORMATION SHEET3.2.COURSE PLAN3.3.ASSIGNMENTAE410 POWER PLANT INSTRUMENTATION4.1.COURSE INFORMATION SHEET4.2.COURSE PLAN4.3.ASSIGNMENT SHEETSELECTIVE 4:AE466 INDUSTRIAL ROBOTICS5.1.COURSE INFORMATION SHEET5.2.COURSE PLAN5.3.ASSIGNMENTELECTIVE 4: AE472 PETROLEUM TECHNOLOGY6.1.COURSE INFORMATION SHEET6.2.COURSE PLAN6.3.ASSIGNMENTAE492 PROJECT7.1.COURSE INFORMATION SHEET7.2.COURSE PLANCOURSE HANDOUT: S6Page 8
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONASSIGNMENT SCHEDULEWeek 4Week 5Week 5Week 6Week 7Week 8Week 8Week 9Week 9Week 12Week 12Week 13AE402: ANLYTICAL INSTRUMENTATIONAE410 POWER PLANT INSTRUMENTATIONELECTIVE 4:AE466 INDUSTRIAL ROBOTICSELECTIVE 4: AE472 PETROLEUM TECHNOLOGYAE402: ANLYTICAL INSTRUMENTATIONAE410 POWER PLANT INSTRUMENTATIONELECTIVE 4:AE466 INDUSTRIAL ROBOTICSELECTIVE 4: AE472 PETROLEUM TECHNOLOGYAE402: ANLYTICAL INSTRUMENTATIONAE410 POWER PLANT INSTRUMENTATIONELECTIVE 4:AE466 INDUSTRIAL ROBOTICSELECTIVE 4: AE472 PETROLEUM TECHNOLOGYSEMESTER PLANCOURSE HANDOUT: S6Page 9
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONSCHEMECOURSE HANDOUT: S6Page 10
DEPARTMENT OF APPLIED ELELCTRONICS & E HANDOUT: S6Page 11
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONCOURSE INFORMATION SHEETPROGRAMME: Applied Electronics &InstrumentationCOURSE: Analytical InstrumentationCOURSE CODE: AE 402REGULATION: KTUCOURSE AREA/DOMAIN: InstrumentationCORRESPONDING LAB COURSE CODE (IFANY):DEGREE: BTECHSEMESTER: 8thCOURSE TYPE: CORECREDITS: 3 0 0CONTACT HOURS: 4 hours/Week.LAB COURSE NAME: NILSYLLABUS:UNIT DETAILSIIntroduction to Analytical Instrumentation: Fundamentals of analyticalinstruments: Elements of an analytical instrument – PC based analyticalinstruments –Classification of instrumental techniques. Electromagneticradiation- Electromagnetic spectrum- Laws relating to absorption ofradiation. Absorption spectroscopy: Absorption instruments – Radiationsources- Optical filters- Monochromators- Detectors. Ultra violet andvisible absorption spectroscopy.IIColorimeters/ photometers: Single beam and double beam filterphotometer – Spectro photometers: Single beam and double beamspectro photo meters- Infra red spectroscopy: Basic componentsRadiation sources- Monochromators- Detectors. Flame Photometry:Principle and constructional details of flame photometer- Emissionsystem – Optical system – Detectors. Atomic absorptionspectrophotometers: Theoretical concepts, Instrumentation: Radiationsources – Burners and flames – Plasma excitation sources – Optical andelectronic system.IIIFluorescence spectroscopy: Principle of fluorescence – Measurement offluorescence – Single beam and double beam filter fluorimeter- Ratiofluorimeter. Spectro fluorimeters. Raman spectrometer- Basic theoryPhoto acoustic spectroscopy- Photo thermal spectroscopy. Massspectrometer: Principle of operation- Magnetic deflection massspectrometers- Components of a mass spectrometer – Inductivelycoupled plasma mass spectrometer.IVNuclear Magnetic Resonance spectroscopy: Basic principle –Constructional details of NMR spectrometer – Nuclear radiationdetectors. Electron Spin Resonance spectrometer: Basic ESRspectrometer – Electron spectroscopy: Instrumentation for electronspectroscopy. X- Ray spectrometers: X – ray spectrum –Instrumentationfor x –ray spectrometry. X-ray diffractometers- X-ray absorption metersX- ray fluorescence spectrometry.COURSE HANDOUT: S6HOURS910108Page 12
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONVVIChromatography: Chromatographic process – Classification- Terms in 8chromatography- Gas chromatography: Block diagram- Principle –Constructional details – Column details- GC detectors. LiquidChromatography: Types of liquid chromatography- High pressure LiquidChromatography (HPLC): Principle- Constructional details.Industrial Gas analyzers- pH meters- Conductivity meters - Dissolved 8oxygen meters- Sodium analyser– Gas analysers- Paramagnetic oxygenanalyser – CO analysers – Flue gas analysers- Blood PH measurement –Thin film technology for gas sensors- Basic concepts. Measurementtechniques and application of gas sensors. Thermal Sensors:- RadiationSensors, Mechanical Sensors and Bio-Chemical sensors.TOTAL HOURS 53TEXT/REFERENCE BOOKS:T/R BOOK TITLE/AUTHORS/PUBLICATION1Instrumental Methods of Analysis, Willard, Merritt, Dean, Settle, CBS Publishers &Distributors, New Delhi, Seventh edition.2Principles of Instrumental Analysis, Skoog, Holler, Nieman, Thomson books-colepublications, 5th edition.3Handbook of Analytical Instruments, R. S. Khandpur, Tata McGraw–Hill Publications,3rd editionInstrumental Methods of Chemical Analysis, Galen W. Ewing, McGraw-Hill BookCompany, Fifth edition.45Introduction to Instrumental Analysis, Robert D. Braun, McGraw-Hill Book CompanyCOURSE PRE-REQUISITES:C.CODE COURSE NAME1Sensors and transducersDESCRIPTIONCovers fundamentals ofinstrumentationCovers analytical chemistrySEM42Engineering Chemistry1COURSE OBJECTIVES:1 To impart a basic knowledge about analytical instruments, its concepts, and itstechnique.2 To give a vast knowledge about different types of spectroscopic analysis.3 To study about different types of chromatographic analysis.COURSE uate will be able to identify, understand and define the1,3fundamentals of Analytical instruments: can you illustrate theelements of Absorption SpectroscopyCOURSE HANDOUT: S6Page 13
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATION23456Graduate will able to sketch various types of photometryGraduates will be able to learn the fundamentals and applications offluorescence spectrometersGraduate will be able to compare and evaluate the performance ofMass, NMR, ESR, X-ray SpectrometersGraduate will be able to describe and articulate various aspects ofGas and Liquid ChromatographyGraduate will be able to deduce the relevance with deeperunderstanding of Gas analyzers, pH meters, conductivity meters,Dissolved Oxygen Meters :They will be able to choose theappropriate method2,31,34,52,34,6CO-PO AND CO-PSO MAPPINGPO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12 PSO1 PSO2 PSO3CO1 23CO23122CO3 21CO42CO5 322CO6 322COURSE HANDOUT: S623Page 14
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONGAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION REQUIREMENTS:SNODESCRIPTIONPROPOSEDRELEVANCE RELEVANCEACTIONSWITH POs WITH PSOsMappingCO1-PO1JustificationsFundamentals of analytical instrumentation requires basic knowledge of scienceand engineering in order to define complex engineering solutions in the field ofanalytical instrumentationCO1-PO3Consideration of health and environmental concerns are to be consideredCO1-PSO1Have capacity of deciding the various scenario where Analytical instrumentationis applicable and necessarily usedCO2-PO3Categorization of various types of photometry systems with their specifications isstudied. It helps to find out design solutions for complex engineering problems inthe fiel of analytical instrumentation and design system process.CO2-PO 7Selection criteria of different analytical systems takes into consideration ofenvironmental issues and sustainable notes.CO2-PSO2Knowledge about the specifications of and principles of operations equips studentsto develop instrument system and methods complying with standards.CO3-PO1Considering basic engineering problems the functions of various spectrometers arestudied in detail.CO3-PO5established technology for different types of spectrometers is well discussedCO3-PSO3Open discussion for new concepts and technologies and other modifications forspectrometry adept to the industrial scenario is doneCO4-PO5Appropriate techniques, resources and modern engineering tools for analyticalinstrumentation are discussed. Design methods are somewhat discussedCO4-PSO1Technical skills for analytical instrumentation systems are reviewed.CO5-PO1Basic understanding of science behind Gas and Liquid Chromatography isrefreshed.CO5-PO5Appropriate technique for Gas and liquid Chromatography is well discussed.CO5-PSO3Concept of chromatography and its relevance is well studiedCO6-PO1The concept behind Gas Analyzers and its different types is well discussedCO6-PO5Measurement techniques and application of gas sensors is well discussedCO6-PSO3Technical skills for analytical sensors are reviewed.COURSE HANDOUT: S6Page 15
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATION123Fundamentals and methods of greenanalyticalchemistry/instrumentationDetailed Applications of AnalyticalInstruments: Medical,Environmental, Defense and securityetc.Safety measures andimplementation in analyticalinstrumentation 31,21Readingassignment/videoTOPICS BEYOND SYLLABUS/ADVANCED nable Analytical Chemistry- Writtenconcerns more than greenAssignment2Automated nt3Portability in analytical chemistry: Class seminargreen and democratic way for PresentationsustainabilityRELEVANCEWITH POs6,7,8RELEVANCEWITH PSOs11,5,121,36,7,81,3WEB SOURCE / yokogawa.com/Analytical Product ulty.rmu.edu/ trumentacion%20Industrial/Instrument Engineers Handbook Process Measurement and rocess%20Measurement%20and%20Analysis/1083ch8 1.pdf10 ideLine/04Chapter3.pdfCOURSE HANDOUT: S6Page 16
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONDELIVERY/INSTRUCTIONAL METHODOLOGIES: CHALK & TALK STUD. ASSIGNMENT WEB RESOURCES STUD. ADD-ON COURSESSEMINARS LCD/SMARTBOARDS ASSESSMENT METHODOLOGIES-DIRECT ASSIGNMENTS STUD. SEMINARS TESTS/MODELEXAMS UNIV.EXAMINATION STUD. LABPRACTICES STUD. VIVA CERTIFICATIONS ADD-ON OTHERS MINI/MAJORPROJECTSCOURSESASSESSMENT METHODOLOGIES-INDIRECT ASSESSMENT OF COURSE OUTCOMES (BYFEEDBACK, ONCE) STUDENT FEEDBACK ON FACULTY(TWICE) ASSESSMENT OF MINI/MAJOR PROJECTSBY EXT. EXPERTS OTHERSPrepared byFr. Thomas PJ(Faculty)COURSE HANDOUT: S6Approved byMs. Liza Annie Joseph(HOD)Page 17
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONCOURSE 44334COURSE HANDOUT: S6PlannedIntroduction to Analytical InstrumentationFundamentals of analytical instrumentsFluorescence spectroscopy: Principle of fluorescenceElectromagnetic radiation- Electromagnetic spectrumLaws relating to absorption of radiation. AbsorptionspectroscopyAbsorption instruments – Radiation sources- OpticalfiltersMonochromators- Detectors.Ultra violet and visible absorption spectroscopyRevision/discussion/ classColorimeters/ photometers: Single beam and double beamfilter photometerSpectro photometers: Single beam and double beamspectro photo metersInfra red spectroscopy,Basic components- Radiationsources- Monochromators- DetectorsFlame Photometry: Principle and constructional details offlame photometerEmission system – Optical system – Detectors.Atomic absorption spectrophotometers: Theoreticalconcepts, InstrumentationRadiation sources - Burners and flamesPlasma excitation sources - Optical and electronic systemPlasma excitation sources - Optical and electronic systemRevisionFluorescence spectroscopy: Principle of fluorescenceMeasurement of fluorescence – Single beam and doublebeam filter fluorimeterRatio fluorimeter. Spectro fluorimeters.Raman spectrometer- Basic theoryPhoto acoustic spectroscopy- Photo thermal spectroscopyMass spectrometer: Principle of operationMagnetic deflection mass spectrometersComponents of a mass spectrometerInductively coupled plasma mass spectrometer.RevisionNuclear Magnetic Resonance spectroscopy: Basic principle– Constructional details of NMR spectrometerNuclear radiation detectors.Electron spectroscopy: Instrumentation for electronspectroscopyElectron Spin Resonance spectrometer: Basic ESRspectrometerPage 18
DEPARTMENT OF APPLIED ELELCTRONICS & 4647485666495066515253666X- Ray spectrometers: X – ray spectrum –Instrumentationfor x –ray spectrometry.X-ray diffractometers- X-ray absorption metersX- ray fluorescence spectrometryRevisionChromatography: Chromatographic processClassification- Terms in chromatographyGas chromatography: Block diagramPrinciple - Constructional detailsColumn details- GC detectorsLiquid Chromatography: Types of liquid chromatographyHigh pressure Liquid Chromatography (HPLC):Principle,Constructional detailsRevisionIndustrial Gas analyzers- pH meters- Conductivity metersDissolved oxygen meters- Sodium analyserGas analysers- Paramagnetic oxygen analyser – COanalysersFlue gas analysers -Blood PH measurementThin film technology for gas sensors- Basic conceptsMeasurement techniques and application of gas sensors.Thermal Sensors:- Radiation Sensors,Mechanical Sensors and Bio-Chemical sensors.RevisionAssignment QuestionsAssignment IDetailed Applications of Analytical Instruments: Medical, Environmental, Defense andsecurity etc.Assignment IISustainable Analytical Chemistry-concerns more than green analyticalchemistry/InstrumentationCOURSE HANDOUT: S6Page 19
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONAE410POWER PLANTINSTRUMENTATIONCOURSE HANDOUT: S6Page 20
DEPARTMENT OF APPLIED ELELCTRONICS & INSTRUMENTATIONCOURSE INFORMATION SHEETPROGRAMME: APPLIED ELECTRONICS ANDINSTRUMENTATIONCOURSE: POWER PLANT INSTRUMENTATIONCOURSE CODE: AE 410REGULATION:2016COURSE AREA/DOMAIN: INSTRUMENTATIONCOR
department of applied elelctronics & instrumentation course handout: s6 page 9 assignment schedule week 4 ae402: anlytical instrumentation week 5 ae410 power plant instrumentation week 5 elective 4:ae466 industrial robotics week 6 elective 4: ae472 petroleum technology week 7 ae402: anlytical instrumentation
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Medical Electronics Lab This Lab facilitates two major skills development: 1. Basic Analog & Digital Electronics 2. Medical Electronics ( Application of electronics in biomedical ) For Basic Electronics skills development the Lab is equipped with Com3 Kits which have electronics trainer boards interfaced with software on PC. This
1 Opto Electronics PG (Opto Electronics & Communication Systems) 2 Fibre Optics PG (Opto Electronics & Communication Systems) 3 Optical Communication Technology PG (Opto Electronics & Communication Systems) 4 Power Electronics B Tech Electrical & Electronics Engg. (CUSAT) 5 DC Machines and Transformers B Tech
Analogue Electronics: 24 hours of lectures and tutorials (12 weeks 2 hours/week) Assessment for analogue electronics: Mid-semester test in November, analogue electronics only, 1 hour, 8% of the final mark. Final examination in January, analogue & digital electronics, 2 hours, 50% of the final mark.
Accelerators and Electronics Many accelerators have aging infrastructures, including their electronics While this might be a problem on many other fronts, the older electronics are better suited to high radiation environments than modern electronics As many accelerators are modernizing their electronics or are significantly changing their infrastructures, facilities are finding .
Electronics Code A.2 Conceptualize, Analyze & Design A.2.1 Signal Processing System A.2.2 Analog and Digital Electronics System. A.2.3 Communication Systems A2.4 Electro-Acoustics System A.2.5 Broadcast System A 2.6 Instrument ation A.2.7 Control System. A 2.8 Industrial Electronics A.2.9 Power Electronics A.2.10 Electronics Devices and Systems .
Tyvek Fluid Applied products should be applied when air and surface temperatures are between 25 F – 100 F. 5. Skin time of fluid applied product is 1-2 hrs. at 70 F and 50% RH. Wait 24 hrs. between coats of Fluid applied product and before applying facade. 6. Unopened fluid applied product should be stored at temperatures between 50 FFile Size: 2MBPage Count: 12Explore furtherTyvek Fluid Applied WB - Home DuPontwww.dupont.comTyvek Fluid Applied WB - Home DuPontwww.dupont.comDuPont Weather Barrier Commercial Installation Guidelinessweets.construction.comDuPont Tyvek Water-Resistive and Air Barriers Residing .www.dupont.comDuPont Tyvek StuccoWrap Data Sheet - Construction .constructioninstruction.comRecommended to you b
DEPARTMENT OF ENERGY TECHNOLOGY 3 APPLIED INDUSTRIAL ELECTRONICS Automation, robots, power electronics, electrical machines and instrumentation play key roles in our society today. With an education in Applied
