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1, , Curriculum for, Diploma Programme in, , ELECTRICAL ENGINEERING, For the State of Uttar Pradesh, , Prepared by:, Curriculum Development Centre, , National Institute of, Technical Teachers Training and Research, Sector 26, Chandigarh - 160 019, , March, 2019, Approved and Implemented by B.T.E,U.P, (Effective from session 2019-20), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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2, , CONTENTS, Sr. No, Particulars, Preface, Acknowledgement, 1, Salient Features of the Diploma Programme, 2, Employment Opportunities, 3, Learning Outcomes of the Programme, 4, Deriving Curriculum Areas from Learning Outcomes of the Programme, 5, Abstract of Curriculum Areas, 6, Horizontal and Vertical Organization of the Subjects, 7, Study and Evaluation Scheme, 8, Guidelines for Assessment of Student Centered Activities, 9, Detailed Contents of Various Subjects, FIRST SEMESTER, 1.1, Communication Skills-I, 1.2, Applied Mathematics - I, 1.3, Applied Physics – I, 1.4, Applied Chemistry, 1.5, Engineering Drawing-I, 1.6, Basics of Information Technology, 1.7, General Workshop Practice-I, SECOND SEMESTER, 2.1, Applied Mathematics - II, 2.2, Applied Physics -II, 2.3, Basic Electrical Engineering, 2.4, Basics of Mechanical and Civil Engineering, 2.5, Analog Electronics, 2.6, General Workshop Practice-II, , Page No., (i), (ii), 1, 3, 5, 7, 10, 12, 13, 19, 20-164, 20, 22, 25, 30, 35, 39, 44, 48, 50, 55, 59, 63, 67, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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3, , THIRD SEMESTER, 3.1, Applied Mathematics -III, 3.2, Electrical Instrumentation and Measurement, 3.3, Electrical and Electronics Engineering Materials, 3.4, Digital Electronics, 3.5, Electrical Machine - I, 3.6, Environmental Studies, FOURTH SEMESTER, 4.1, Communication Skill- II, 4.2, Industrial Electronics and Control, 4.3, Electrical Design, Drawing and Estimating-I, 4.4, Power Plant Engineering, 4.5, Transmission and Distribution of Electrical Power, 4.6, Energy Conservation, 4.7, Universal Human Values, Industrial Training, FIFTH SEMESTER, 5.1, Industrial Management and Entrepreneurship Development, 5.2, Switchgear and Protection, 5.3, PLC, Microcontroller and SCADA, 5.4, Electrical Machine – II, 5.5, , Elective, , 70, 73, 78, 83, 86, 90, 93, 96, 100, 104, 108, 112, 117, 121, 122, 127, 130, 133, 137, , SIXTH SEMESTER, 6.1, Installation, Maintenance and Repair of Electrical Equipment, 6.2, Electrical Design, Drawing and Estimating II, 6.3, Utilization of Electrical Energy, 6.4, Application of Computer Software in Electrical Engineering, 6.5, Project Work, , 150, 154, 158, 162, 164, , 10., 11., 12., 13., , 169, 192, 195, 198, , Resource Requirement, Evaluation Strategy, Recommendations for Effective Implementation of Curriculum, List of Participants, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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4, , PREFACE, An important issue generally debated amongst the planners and educators world over is how technical, education can contribute to sustainable development of the societies struggling hard to come in the, same bracket as that of the developed nations. The rapid industrialization and globalization has, created an environment for free flow of information and technology through fast and efficient means., This has led to shrinking of the world, bringing people from different culture and environment together, and giving rise to the concept of world turning into a global village. In India, a shift has taken place, from the forgettable years of closed economy to knowledge based and open economy in the last few, decades. In order to cope with the challenges of handling new technologies, materials and methods,, we have to develop human resources having appropriate professional knowledge, skills and attitude., Technical education system is one of the significant components of the human resource development, and has grown phenomenally during all these years. Now it is time to consolidate and infuse quality, aspect through developing human resources, in the delivery system. Polytechnics play an important, role in meeting the requirements of trained technical manpower for industries and field organizations., The initiatives being taken by the State Board of Technical Education, UP to revise the existing curricula, of 6 diploma programmes as per the needs of the industry and making them NSQF compliant,are, laudable., In order to meet the requirements of future technical manpower, we will have to revamp our existing, technical education system and one of the most important requirements is to develop outcome-based, curricula of diploma programmes. The curricula for diploma programmes have been revised by, adopting time-tested and nationally acclaimed scientific method, laying emphasis on the identification, of learning outcomes of diploma programme., The real success of the diploma programme depends upon its effective implementation. However best, the curriculum document is designed, if that is not implemented properly, the output will not be as, expected. In addition to acquisition of appropriate physical resources, the availability of motivated,, competent and qualified faculty is essential for effective implementation of the curricula., It is expected of the polytechnics to carry out job market research on a continuous basis to identify the, new skill requirements, reduce or remove outdated and redundant courses, develop innovative, methods of course offering and thereby infuse the much needed dynamism in the system., , Dr. SS Pattnaik, Director, National Institute of, Technical Teachers Training & Research, Chandigarh, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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5, , ACKNOWLEDGEMENTS, We gratefully acknowledge the guidance and contribution received from the following persons:, , i), , Sh. Bhuvnesh Kumar , IAS, Secretary Govt. of UP, Technical Education Department,, Secretariat Lucknow., , ii), , Sh.R.C. Rajput,Director, Technical Education, UP for taking keen interest in the review, of this curriculum., , iii), , Sh.ManojKumar, Director, I.R.D.T.,Kanpur for entrusting this project of Curriculum, revision to NITTTR, Chandigarh., , iv), , Secretary, Board of Technical Education, UP for keen interest for this project of review, curriculum., , v), , Director, National Institute of Technical Teachers’ Training and Research, Chandigarh, for his support and academic freedom provided to Curriculum Development Centre., , vi), , All the participants from industry/field organizations, engineering colleges, polytechnics, and other technical institutions for their professional inputs during curriculum, workshops., , vii), , Sh. AshokKushwaha,TextBookOfficer/CDCOfficer,IRDT,Kanpur, , viii), , Faculty/SubjectExperts from U.P. Government polytechnics, , ix), , Faculty from different departments of NITTTR, Chandigarh for content updation., , x), , Ramesh Gupta, UDC for her support and secretarial assistance in the conduct of, Curriculum workshops at Chandigarh, , xi), , Amit Kumar Sachdeva, LDC, Curriculum Development Centre for word processing this, document, , Coordinator, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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6, , 1., , 1), , SALIENT FEATURES OF DIPLOMA PROGRAMME IN ELECTRICAL ENGINEERING, , Name of the Programme, , :, , Diploma Programme in Electrical, Engineering, , 2), 3), , Duration of the Programme :, Entry Qualification, :, , Three years (Six Semesters), Matriculation or equivalent NSQF Level as, Prescribed by State Board of Technical Education,, UP, , 4), 5), , Intake, Pattern of the Programme, , :, :, , 60 (or as prescribed by the Board), Semester Pattern, , 6), , NSQF Level, , :, , Level - 5, , 7), , Ratio between theory and, , :, , 50 : 50 (Approx.), , Practice, 8), Industrial Training:, Four weeks of industrial training is included after IV semester during summer vacation. Total, marks allotted to industrial training will be 50., , 9), , Ecology and Environment :, As per Govt. of India directives, a subject on Environmental Studies has been incorporated in, the curriculum., , 10), , Energy Conservation:, A subject on Energy Conservation has been incorporated in the curriculum., , 11), , Entrepreneurship Development:, A full subject on Industrial Management and Entrepreneurship Development has been, incorporated in the curriculum., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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7, , 12), , Student Centred Activities:, , A provision of 3-6 periods per week has been made for organizing Student Centred Activities, for overall personality development of students. Such activities will comprise of co–curricular, activities such as expert lectures, self study, games, hobby classes like photography, painting,, singing etc. seminars, declamation contests, educational field visits, NCC, NSS and other, cultural activities, disaster management and safety etc., , 13), , Project work, , A project work has been included in the curriculum to enable the student get familiarize with, the practices and procedures being followed in the industries and provide an opportunity to, work on some live projects in the industry., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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8, , 2., , EMPLOYMENT OPPORTUNITIES OF DIPLOMA HOLDERS IN ELECTRICAL ENGINEERING, (A), , EMPLOYMENT OPPORTUNITIES, , Keeping present scenario in view following employment opportunities are visualized in, different sectors of employment for diploma holders in Electrical Engineering, , (1) Manufacturing Industry, The Electrical diploma holder will be able to execute following activities:, -, , Planning and execution for Electrical installation, Electrical installations and Maintenance of DG Set, Electrical Power Distribution and Maintenance, Maintenance of Industrial Electrical System, Repair and Maintenance of Electrical Machines and Equipment, Quality Control for Electrical systems, Energy Conservation, Assistance in Research and Development, Assistance in Planning, Designing and Detailing, Shop-floor Management, Electrical Safety Measures, Estimate for Electrical Installations, Inventory Management, Marketing and Sales, Use of PLC and Microcontrollers., , (2), , Government Departments such as Electricity Board, MES, PWD, Railways,, Air bases, Airports, Defence, Thermal, Hydro and Nuclear Power Stations, and other Boards and Corporations, , The Electrical diploma holder will be able to execute following type of activities in, above mentioned Government Departments:, -, , Assistance in Planning and Design of Electrical generation, transmission,, distribution and protection system including testing, quality control, Estimating for electrical installation, Construction, erection and commissioning of lines and Sub-stations, Electrical Safety measures, Operation and Maintenance of Lines and Sub-stations/underground cables, Tariffs and Calculations of bills for consumption of electricity, Inventory Management, Repair and Maintenance of Electrical Machines/ Equipment, Assist in Operation and maintenance of Generating and sub-stations, Preventive maintenance and condition monitoring, Programming of PLC, Electric Traction Systems, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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9, , (3), , Hospitals, Commercial Complexes, Service Sector Organizations like Hotels,, Tourist-Resorts, high-rise buildings, Cinema/Theater Halls etc., , The diploma holder in electrical engineering will be involved in following type of, activities in above mentioned Service Sector Organizations:, -, , Layout of wiring circuit, planning and execution for Electrical Installation, Standby or captive Power Generation and its Distribution, Maintenance of Electrical and Electronic Equipment, Preventive maintenance of Electrical Systems of Lifts, Air-Conditioning Plants, etc., Inventory Management, Estimation for electrical repair and maintenance work, , (4), , Self Employment, , Following type of self employment opportunities are available to the diploma holder in, electrical engineering:, -, , -, , Trading of Electrical Goods, Establishing Repair and Maintenance Unit/ Centre, Free Lancer for Repair and Maintenance of House-hold Electrical and, Electronic Gadgets such as: Washing Machines, Geysers, Air Conditioners,, Coolers and electrical installations etc., Electrical contractor, Motor Winding Unit, Auto-electrical Work, Service sector (AMC), Microcontroller based systems for different applications, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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10, , 3., , LEARNING OUTCOMES OF THE PROGRAMME, , Sr., Learning Outcomes, No., After due completion of the course, a diploma holder in Electrical Engineering will be, able to:, 1., Communicate effectively in English with others, 2., Apply basic principles of mathematics to solve engineering problems, 3., Apply basic principles of physics and chemistry to solve engineering problems, 4., Prepare computerized reports, presentations using IT tools and computer, application software, 5., Prepare and interpret drawings of engineering components, 6., Use cutting tools and tooling for fabrication of jobs by following safe practices, during work, 7., Use energy conservation methods in various systems, 8., Use appropriate procedures for preventing environmental pollution and energy, conservation, 9., Analyze AC circuits and apply electromagnetic induction principles in various, electrical equipments and machines, 10. Test various active and passive components like resistor, inductor, capacitor,, diode, transistor and use them as an amplifier and voltage stabilizer, 11. Select and use right kind of quality of electrical material required for a particular, operation., 12. Plan and execute given task/project as team member/leader, 13. Read and interpret drawings related to electrical machines, equipment and wiring, installations, 14. Assemble distribution and extension boards and construct alarm and indicating, circuits using relays, bells and push buttons, 15. Operate and maintain DC shunt, series and compound motors and three phase, transformers, 16. Use measuring instruments, tools and testing devices for varied field applications, 17. Repair and maintain UPS and storage batteries and control speed of DC shunt, motor and universal motor, 18. Design and use flip-flops, A/D and D/A converters in digital circuits, 19., 20., 21., , Use MATLAB, SCILAB for designing and finding solutions to problems related, to electrical systems, Programme and develop microcontroller based systems, Use of PLC and make suitable ladder logic programmes for different applications, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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11, , 22., 23., 24., 25., 26., 27., 28., 29., 30., 31., 32., 33., , Operate and maintain indoor and outdoor substations and prepare estimate for, HT/LT (OH and underground cables) lines, Operate and demonstrate microcontroller and PLC based systems in electrical, control circuits for domestic and industrial processes, Design cable trenches, lay underground cables and find faults in transmission/, distribution system, Estimate and determine the cost of wiring installation, HT/LT overhead lines, Pole, mounted Substation and prepare a tender document for a particular job, Plan and execute minor projects related to electrical engineering, Handle electrical energy based equipments for electric traction systems, Manage resources effectively at the workplace, Use measuring instruments for measurement of electrical or non-electrical, quantities, Apply the working principle of a mini hydro plant, fuel cells, thermo electric, power, geothermal and tidal energy conversion methods, Troubleshoot various auto electrical faults, Apply all the knowledge and skill gained through various courses in solving a live, problem/project in the industry, Test and install various electrical equipment and machines, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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12, , 4., , DERIVING CURRICULUM AREAS FROM LEARNING OUTCOMES OF THE, PROGRAMME, The following curriculum area subjects have been derived from learning outcomes:, Sr., No., 1., , Learning Outcomes, Communicate effectively in English, others, , Curriculum Areas/Subjects, with Communication Skill, , 2., , Apply basic principles of mathematics to Applied Mathematics, solve engineering problems, , 3., , Apply basic principles of physics and − Applied Physics, chemistry to solve engineering problems, − Applied Chemistry, , 4., , Prepare computerized reports, presentations Basics of Information Technology, using IT tools and computer application, software, , 5., , Prepare and interpret drawings of engineering Engineering Drawing, components, , 6., , Use cutting tools and tooling for fabrication General Workshop Practice, of jobs by following safe practices during, work, , 7., , Use energy conservation methods in various Energy Conservation, systems, , 8., , Use appropriate procedures for preventing, environmental, pollution, and, energy, conservation, Analyze, AC, circuits, and, apply, electromagnetic induction principles in, various electrical equipments and machines, Test various active and passive components, like resistor, inductor, capacitor, diode,, transistor and use them as an amplifier and, voltage stabilizer, Select and use right kind of quality of, electrical material required for a particular, operation., , 9., , 10., , 11., , Environmental Studies, , Basic Electrical Engineering, , Analog Electronics, , Electrical, and, Engineering Materials, , Electronics, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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13, , 12., , Plan and execute given task/project as team Project work, member/leader, , 13., , Read and interpret drawings related to Electrical Design,, electrical machines, equipment and wiring Estimating, installations, , 14., , Assemble distribution and extension boards General Workshop Practice, and construct alarm and indicating circuits, using relays, bells and push buttons, , 15., , Operate and maintain DC shunt, series and Electrical Machine, compound motors and three phase, transformers, , 16., , Use measuring instruments, tools and testing Installation, Maintenance and Repair, devices for varied field applications, of Electrical Equipment, , 17., , Repair and maintain UPS and storage Industrial Electronics and Control, batteries and control speed of DC shunt motor, and universal motor, , 18., , Design and use flip-flops, A/D and D/A Digital Electronics, converters in digital circuits, , 19., , Use MATLAB, SCILAB for designing and Applications of Computer Software, finding solutions to problems related to in Electrical Engineering, electrical systems, , 20., , Programme and, based systems, , 21., , Use of PLC and make suitable ladder logic Programmable, Logic, Control,, programmes for different applications, Microcontroller and SCADA, , 22., , Operate and maintain indoor and outdoor Power Plant Engineering, substations and prepare estimate for HT/LT, (OH and underground cables) lines, , 23., , Operate and demonstrate microcontroller and Programmable, Logic, Control,, PLC based systems in electrical control Microcontroller and SCADA, circuits for domestic and industrial processes, , develop, , Drawing, , and, , microcontroller Programmable, Logic, Control,, Microcontroller and SCADA, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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14, , 24., , Design cable trenches, lay underground − Installation Maintenance and, cables and find faults in transmission/, Repair of Electrical Equipment, distribution system, − Transmission and Distribution of, Electrical Power, , 25., , Estimate and determine the cost of wiring Electrical Design,, installation, HT/LT overhead lines, Pole Estimating, mounted Substation and prepare a tender, document for a particular job, , 26., , Plan and execute minor projects related to Project work, electrical engineering, , 27., , Handle electrical energy based equipments for Utilization of Electrical Energy, electric traction systems, , 28., , Manage resources, workplace, , effectively, , at, , Drawing, , and, , the − Industrial, Management, and, Entrepreneurship Development, − Utilization of Electrical Energy, − Energy Conservation, , 29., , Use measuring instruments for measurement Electrical, Instrumentation, of electrical or non-electrical quantities, Measurement, , 30., , Apply the working principle of a mini hydro Renewable Source of energy, plant, fuel cells, thermo electric power,, geothermal and tidal energy conversion, methods, , 31., , Troubleshoot various auto electrical faults, , 32., , Apply all the knowledge and skill gained Project Work, through various courses in solving a live, problem/project in the industry, , 33., , Test and install various electrical equipment Installation, Maintenance and Repair, and machines, of Electrical Equipment, , and, , Repair of Electrical Equipment, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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15, , 5., , ABSTRACT OF CURRICULUM AREAS, , a), , General Studies, , b), , c), , d), , 1., , Communication Skill, , 2., , Environmental Studies, , 3., , Energy Conservation, , 4., , Industrial Management and Entrepreneurship Development, , Applied Sciences, 5., , Applied Mathematics, , 6., , Applied Physics, , 7., , Applied Chemistry, , Basic Courses in Engineering/Technology, 8., , Engineering Drawing, , 9., , Basics of Information Technology, , 10., , General Workshop Practice, , 11., , Basics of Mechanical and Civil Engineering, , Applied Courses in Engineering/Technology, 12., , Basic Electrical Engineering, , 13., , Analog Electronics, , 14., , Electrical Instrumentation and Measurement, , 15., , Electrical and Electronics Engineering Materials, , 16., , Digital Electronics, , 17., , Electrical Machine, , 18., , PLC, Microcontroller and SCADA, , 19., , Electrical Design, Drawing and Estimating, , 20., , Power Plant Engineering, , 21., , Transmission and Distribution of Electrical Power, , 22., , Switchgear and Protection, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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16, , e), , 23., , Industrial Electronics and Control, , 24., , Installation, Maintenance and Repair of Electrical Machines, , 25., , Electrical Design, Drawing and Estimating, , 26., , Utilization of Electrical Energy, , 27., , Industrial Training, , 28., , Project Work, , Elective, 29., , Renewable Sources of Energy, , 30., , Electric Traction, , 31., , Control of Electrical Machine, , 32., , Energy Management, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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17, , 6. HORIZONTAL AND VERTICAL ORGANISATION OF THE SUBJECTS, Sr., Subjects, Distribution in Periods per, No., week in Various Semesters, 1., 2., 3., 4., 5., 6., 7., 8., 9., 10., 11., 12., 13., 14., 15., 16., 17., 18., 19., 20., 21., 22., 23., 24., 25., 26., 27., 28., 29., 30., , Communication Skill, Applied Mathematics, Applied Physics, Applied Chemistry, Engineering Drawing, Basics of Information Technology, General Workshop Practice, Basic Electrical Engineering, Basics of Mechanical and Civil Engineering, Analog Electronics, Electrical Instrumentation and Measurement, Electrical and Electronics Engineering, Materials, Digital Electronics, Electrical Machine, Environmental Studies, PLC, Microcontroller and SCADA, Electrical Design, Drawing and Estimating, Power Plant Engineering, Transmission and Distribution of Electrical, Power, Energy Conservation, Industrial Management and Entrepreneurship, Development, Switchgear and Protection, Industrial Electronics and Control, Universal Human Values, Elective, Installation, Maintenance and Repair of, Electrical Equipment, Utilization of Electrical Energy, Applications of Computer Software in, Electrical Engineering, Project work, Student Centred Activities, Total, , I, , II, , III, , IV, , V, , VI, , 6, 5, 7, 7, 8, 6, 8, -, , 5, 7, 8, 9, 7, 8, -, , 5, 10, 6, , 6, -, , -, , -, , -, , -, , 9, 10, 3, -, , 11, 5, 7, , 13, 12, -, , 13, -, , -, , -, , -, , 5, -, , 6, , -, , -, , -, , -, , 6, -, , -, , -, , -, , -, , 10, 3, -, , 6, -, , 12, , -, , -, , -, , -, , -, , 5, 2, , 1, 48, , 4, 48, , 5, 48, , 1, 48, , 5, 48, , 12, 4, 48, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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18, , 7., , STUDY AND EVALUATION SCHEME FOR DIPLOMA PROGRAMME IN ELECTRICAL ENGINEERING, , FIRST SEMESTER, , Sr., No., , SUBJECTS, , STUDY, SCHEME, Periods/Week, , 1.1, , *Communication Skill-1, , L, 4, , T, -, , P, 2, , 1.2, , *Applied Mathematics -1, , 5, , -, , 1.3, , *Applied Physics -1, , 5, , 1.4, , *Applied Chemistry, , 1.5, 1.6, , 4, , INTERNAL, ASSESSMENT, Th, Pr, Tot, 20, 10, 30, , EXTERNAL, ASSESSMENT, Th, Hrs Pr, 50, 2 ½ 20, , Hrs, 3, , Tot, 70, , Total, Marks of, Internal, &, External, 100, , -, , 4, , 20, , -, , 20, , 50, , 2½, , -, , -, , 50, , 70, , -, , 2, , 5, , 20, , 10, , 30, , 50, , 2½, , 20, , 3, , 70, , 100, , 5, , -, , 2, , 5, , 20, , 10, , 30, , 50, , 2½, , 20, , 3, , 70, , 100, , *Engineering Drawing-I, , -, , -, , 8, , 2, , 40, , 40, , 60, , 3, , 60, , 100, , *Basics of Information, Technology, General Workshop Practice-1, , -, , -, , 6, , 2, , -, , 40, , 40, , -, , -, , 60, , 3, , 60, , 100, , -, , -, , 8, , 2, , -, , 40, , 40, , -, , -, , 60, , 4, , 60, , 100, , #Student Centred Activities, , -, , -, , 1, , 1, , -, , 30, , 30, , -, , -, , -, , -, , -, , 30, , Total, , 19, , -, , 29, , 25, , 120, , 140, , 260, , 260, , -, , 180, , -, , 440, , 700, , 1.7, , MARKS IN EVALUATION SCHEME, Credits, , * Common with other diploma programmes, # Student Centred Activities will comprise of co-curricular activities like extension lectures, games,, hobby clubs e.g. photography etc.,, seminars, declamation contests, educational field visits, N.C.C.,, NSS, Cultural Activities and self study etc., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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19, , SECOND SEMESTER, STUDY, SCHEME, Periods/Wee, k, L, T, P, , INTERNAL, ASSESSMENT, , EXTERNAL, ASSESSMENT, , Th, , Pr, , Tot, , Th, , Hr, s, , Pr, , Hr, s, , Tot, , 4, , 20, , -, , 20, , 50, , 2, ½, , -, , -, , 50, , Total, Marks, of, Internal, &, Externa, l, 70, , 2, , 5, , 20, , 10, , 30, , 50, , 20, , 3, , 70, , 100, , -, , 4, , 5, , 20, , 10, , 30, , 50, , 2, ½, 2, ½, , 20, , 3, , 70, , 100, , 5, , -, , 2, , 5, , 20, , 10, , 30, , 50, , 2, ½, , 20, , 3, , 70, , 100, , 4, , -, , 4, , 5, , 20, , 10, , 30, , 50, , 2, ½, , 20, , 3, , 70, , 100, , -, , -, , 8, , 2, , -, , 40, , 40, , -, , -, , 60, , 4, , 60, , 100, , -, , -, , 4, , 1, , 30, , 30, , -, , -, , -, , -, , -, , 30, , 24, , -, , 24, , 27, , 11, 0, , 21, 0, , 25, 0, , -, , 14, 0, , -, , 39, 0, , 600, , Sr., No, ., , SUBJECTS, , 2.1, , *Applied, Mathematic, s -II, *Applied, Physics-II, Basic, Electrical, Engineering, **Basics of, Mechanical, and Civil, Engineering, Analog, Electronics, , 5, , -, , -, , 5, , -, , 5, , General, Workshop, Practice-II, #Student Centred, Activities, Total, , 2.2, 2.3, , 2.4, , 2.5, 2.6, , MARKS IN EVALUATION SCHEME, Credit, s, , 10, 0, , * Common with other diploma programmes, ** Common with diploma in Chemical Engg., # Student Centred Activities will comprise of co-curricular activities like extension lectures, games,, hobby clubs e.g. photography etc.,, seminars, declamation contests, educational field visits, N.C.C.,, NSS, Cultural Activities and self study etc., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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20, , THIRD SEMESTER, STUDY, SCHEME, Periods/Week, , MARKS IN EVALUATION SCHEME, , 3.1, , *Applied Mathematics -III, , 5, , -, , -, , 4, , 20, , -, , 20, , 50, , 2½, , -, , -, , 50, , Total, Mark, s of, Inter, nal &, Exter, nal, 70, , 3.2, , Electrical Instrumentation and, Measurement, Electrical and Electronics, Engineering Materials, , 6, , -, , 4, , 6, , 20, , 20, , 40, , 50, , 2½, , 40, , 3, , 90, , 130, , 6, , -, , -, , 5, , 20, , -, , 20, , 50, , 2½, , -, , -, , 50, , 70, , 3.4, , Digital Electronics, , 5, , -, , 4, , 5, , 20, , 20, , 40, , 50, , 2½, , 40, , 3, , 90, , 130, , 3.5, , Electrical Machine - I, , 6, , -, , 4, , 6, , 20, , 20, , 40, , 50, , 2½, , 40, , 3, , 90, , 130, , 3.6, , *Environmental Studies, , 3, , -, , 2, , 3, , 20, , 10, , 30, , 50, , 2½, , 20, , 3, , 70, , 100, , #Student Centred Activities including, Energy Conservation Awareness, , -, , -, , 3, , 2, , 30, , 30, , -, , -, , -, , -, , -, , 30, , Total, , 31, , -, , 17, , 31, , 100, , 220, , 300, , -, , 140, , -, , 440, , 660, , Sr., No., , 3.3, , SUBJECTS, L, , T, , P, , Cr, ed, its, , INTERNAL, ASSESSMENT, Th, Pr, Tot, , EXTERNAL, ASSESSMENT, Th Hrs Pr, , Hrs, , Tot, , 120, , *, Common with other diploma programmes, # Student Centred Activities will comprise of co-curricular activities like extension lectures, games,, hobby clubs e.g. photography etc.,, seminars, declamation contests, educational field visits, N.C.C.,, NSS, Cultural Activities and self study etc., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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21, , FOURTH SEMESTER, , Sr., No., , SUBJECTS, , 4.1, 4.2, , STUDY, SCHEME, Periods/Week, L, , T, , P, , *Communication, Skill- II, , 4, , -, , 2, , Industrial, Electronics and, Control, Electrical Design,, Drawing and, Estimating-I, Power Plant, Engineering, , 5, , 1, , Transmission and, Distribution of, Electrical Power, 4.6 *Energy, Conservation, 4.7 Universal Human, Values, # Student Centred, Activities, Total, , 4.3, , 4.4, 4.5, , MARKS IN EVALUATION SCHEME, INTERNAL, ASSESSMENT, Th Pr, Tot, , EXTERNAL, ASSESSMENT, Th, Hrs Pr, , Hrs, , Tot, , 4, , 20, , 10, , 30, , 50, , 2½, , 20, , 3, , 70, , Total, Marks, of, Internal, &, External, 100, , 6, , 20, , 20, , 40, , 50, , 2½, , 40, , 3, , 90, , 130, , Credits, , 4, 3, , -, , 8, , 5, , 20, , 20, , 40, , 50, , 3, , 40, , 4, , 90, , 130, , 5, , -, , -, , 4, , 20, , -, , 20, , 50, , 2½, , -, , -, , 50, , 70, , 6, , 1, , -, , 5, , 20, , -, , 20, , 50, , 2½, , -, , -, , 50, , 70, , 3, , -, , 2, , 3, , 20, , 10, , 30, , 50, , 2½, , 20, , 3, , 70, , 100, , 2, , -, , 1, , -, , 20, , 20, , -, , -, , 30, , 3, , 30, , 50, , -, , -, , 1, , 1, , -, , 30, , 30, , -, , -, , -, , -, , -, , 30, , 28, , 2, , 18, , 29, , 120, , 110, , 230, , 300, , -, , 150, , -, , 450, , 680, , 1, , Note: Industrial Training for 4 weeks after fourth semester during summer vacation., # Student Centred Activities will comprise of co-curricular activities like extension lectures, games,, hobby clubs e.g. photography etc.,, seminars, declamation contests, educational field visits, N.C.C.,, NSS, Cultural Activities and self study etc., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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22, , FIFTH SEMESTER, , Sr., No., , SUBJECTS, , STUDY, SCHEME, Periods/Week, L, , T, , P, , MARKS IN EVALUATION SCHEME, Credits, , INTERNAL, ASSESSMENT, Th Pr, Tot, , EXTERNAL, ASSESSMENT, Th, Hrs Pr, , Hrs, , Tot, , -, , -, , 50, , 3, , 50, , Total, Marks, of, Internal, &, External, 50, , -, , Industrial, Training, , -, , -, , -, , 2, , -, , 5.1, , *Industrial, Management and, Entrepreneurship, Development, Switchgear, andProtection, , 5, , -, , -, , 4, , 20, , -, , 20, , 50, , 2½, , -, , -, , 50, , 70, , 5, , 1, , -, , 5, , 20, , -, , 20, , 50, , 2½, , -, , -, , 50, , 70, , PLC,, Microcontroller, and SCADA, 5.4 Electrical, Machine – II, , 6, , -, , 6, , 7, , 20, , 35, , 55, , 50, , 2½, , 70, , 3, , 120, , 175, , 6, , 1, , 6, , 8, , 20, , 35, , 55, , 50, , 2½, , 70, , 3, , 120, , 175, , 5.5, , 6, , -, , -, , 5, , 20, , -, , 20, , 50, , 2½, , -, , -, , 50, , 70, , -, , -, , 6, , 2, , -, , 30, , 30, , -, , -, , -, , -, , -, , 30, , 28, , 2, , 18, , 33, , 100, , 100, , 200, , 250, , -, , 190, , -, , 440, , 640, , 5.2, 5.3, , **Elective, , #Student Centred, Activities(SCA), Total, , * Common with other diploma programmes, ** Elective (Any one out of the following), 5.5.1 Renewable Sources of Energy, 5.5.2 Electric Traction, 5.5.3 Control of Electrical Machine, 5.5.4 Energy Management, # Student Centred Activities will comprise of co-curricular activities like extension lectures, games,, hobby clubs e.g. photography etc.,, seminars, declamation contests, educational field visits, N.C.C.,, NSS, Cultural Activities and self study etc., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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23, , SIXTH SEMESTER, , Sr., No., , 6.1, , 6.2, , 6.3, 6.4, , 6.5, , STUDY, SCHEME, Periods/Week, , MARKS IN EVALUATION SCHEME, , L, , T, , P, , Installation,, 6, Maintenance and, Repair of, ElectricalEquipment, Electrical Design,, 5, Drawing and, Estimating II, Utilization of, 5, Electrical Energy, , -, , 6, , 7, , 20, , 35, , 55, , 50, , 2, ½, , 70, , Total, Marks, of, Internal, Hrs Tot, &, External, 3, 120 175, , -, , 8, , 7, , 20, , 20, , 40, , 50, , 3, , 40, , 4, , 90, , 130, , -, , -, , 4, , 20, , -, , 20, , 50, , 2.5, , -, , -, , 50, , 70, , Application of, Computer Software, in Electrical, Engineering, Project Work, , -, , -, , 2, , 1, , -, , 20, , 20, , -, , -, , 30, , 3, , 30, , 50, , -, , -, , 12, , 5, , -, , 50, , 50, , -, , -, , 100, , 3, , 100, , 150, , -, , -, , 4, , 2, , -, , 30, , 30, , -, , -, , -, , -, , -, , 30, , 16, , -, , 32, , 26, , 60, , 155 215, , 240, , -, , 390, , 605, , SUBJECTS, , #Student Centred, Activities, Total, , Credits, , INTERNAL, ASSESSMENT, Th Pr, Tot, , EXTERNAL, ASSESSMENT, Th Hrs Pr, , 150 -, , # Student Centred Activities will comprise of co-curricular activities like extension lectures, games,, hobby clubs e.g. photography etc.,, seminars, declamation contests, educationalfield visits, N.C.C.,, NSS, Cultural Activities and self study etc., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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24, , 8., , GUIDELINES FOR ASSESSMENT OF STUDENT CENTRED ACTIVITIES (SCA), , It was discussed and decided that the maximum marks for SCA should be 30 as it involves a lot, of subjectivity in the evaluation. The marks may be distributed as follows:, i., 10 Marks for general behavior and discipline, (by HODs in consultation with all the teachers of the department), ii., 5 Marks for attendance as per following:, (by HODs in consultation with all the teachers of the department), a), b), c), , 75 - 80%, 80 - 85%, Above 85%, , 2 Marks, 4 Marks, 5 Marks, , iii., , 15 Marks maximum for Sports/NCC/Cultural/Co-curricular/ NSS activities as per following:, (by In-charge Sports/NCC/Cultural/Co-curricular/NSS), , a), b), c), , 15, 10, 5, , -, , State/National Level participation, Participation in two of above activities, Inter-Polytechnic level participation, , Note: There should be no marks for attendance in the internal sessional of different subjects., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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25, , 1.1, , COMMUNICATION SKILLS – I, L, 4, , T P, - 2, , RATIONALE, Knowledge of English Language plays an important role in career development. This subject, aims at introducing basic concepts of communication besides laying emphasis on developing, listening, speaking, reading and writing skills as parts of Communication Skill., LEARNING OUTCOMES, After undergoing the subject, the students will be able to:, ., • Understand the importance of effective communication, • Describe the process of communication, • Communicate effectively in different contexts, • Identify parts of speech, • Write correct sentences using appropriate vocabulary, • Reproduce and match words and sentences in a paragraph, • Write various types of paragraphs, notices for different purposes and composition on, picture with appropriate format, • Read unseen texts with comprehension, ., DETAILED CONTENTS, 1, , Basics of Communication, 1.1, 1.2, 1.3, 1.4, , 2, , (13 periods), , Definition and process of communication, Types of communication - formal and informal, oral and written, verbal and, non-verbal, Communications barriers and how to overcome them, Barriers to Communication, Tools of Communication, , Application of Grammar, , (18 periods), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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26, , 2.1, 2.2, 2.3, 2.4, 2.5, 2.6, , 3, , Parts of Speech (Noun, verb, adjective, adverb) and modals, Sentences and its types, Tenses, Active and Passive Voice, Punctuation, Direct and Indirect Speech, , Reading Skill, , (10, , periods), , Unseen passage for comprehension (one word substitution, prefixes, suffixes,, antonyms, synonyms etc. based upon the passage to be covered under this topic), 4, , Writing Skill, 4.1, 4.2, 4.3, , (15 periods), , Picture composition, Writing paragraph, Notice writing, , LIST OF PRACTICALS, Note: Teaching Learning Process should be focused on the use of the language in writing, reports and making presentations., Topics such as Effective listening, effective note taking, group discussions and regular, presentations by the students need to be taught in a project oriented manner where the, learning happens as a byproduct., Listening and Speaking Exercises, 1. Self and peer introduction, 2. Newspaper reading, 3. Just a minute session-Extempore, 4. Greeting and starting a conversation, 5. Leave taking, 6. Thanking, 7. Wishing well, 8. Talking about likes and dislikes, 9. Group Discussion, 10. Listening Exercises., INSTRUCTIONAL STRATEGY, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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27, , Student should be encouraged to participate in role play and other student centred activities in, class room and actively participate in listening exercises, MEANS OF ASSESSMENT, − Assignments and quiz/class tests, mid-semester and end-semester written tests, − Actual practical work, exercises and viva-voce, − Presentation and viva-voce, RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., 7., , Communicating Effectively in English, Book-I by RevathiSrinivas; Abhishek Publications,, Chandigarh., Communication Techniques and Skills by R. K. Chadha; DhanpatRai Publications,, New Delhi., High School English Grammar and Composition by Wren & Martin; S. Chand &, Company Ltd., Delhi., Excellent General English-R.B.Varshnay, R.K. Bansal, Mittal Book Depot, Malhotra, The Functional aspects of Communication Skills – Dr. P. Prsad, S.K. Katria & Sons,, New Delhi, Q. Skills for success – Level & Margaret Books, Oxford University Press., E-books/e-tools/relevant, software, to, be, used, as, recommended, by, AICTE/UPBTE/NITTTR., , Websites for Reference:, 1., 2., 3., 4., 5., , http://www.mindtools.com/ page 8.html – 99k, http://www.letstalk.com.in, http://www.englishlearning.com, http://learnenglish.britishcouncil.org/en/, http://swayam.gov.in, SUGGESTED DISTRIBUTION OF MARKS, Topic No., 1, , Time Allotted, (Periods), 13, , Marks Allotted, (%), 24, , 2, , 18, , 32, , 3, , 10, , 16, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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28, , 4, Total, , 15, 56, , 28, 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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29, , 1.2, , APPLIED MATHEMATICS - I, L, 5, , T P, - -, , RATIONALE, Contents of this course provide fundamental base for understanding elementary mathematics, and their uses in solving engineering problems. Contents of this course will enable students to, use basic mathematical function like logarithms, partial fractions, matrices and basic 2D,, curves in solving various engineering problems of all fields., LEARNING OUTCOMES, After undergoing this course, the students will be able to:, •, •, •, •, •, •, , Apply Binomial theorem to solve engineering problems, Apply determinants properties and Crammer’s rule to solve engineering problems, Apply dot & cross product of vectors to find the solution of engineering problems, Use complex numbers in various engineering problems, Apply differential calculus and higher order to solve engineering problems, Find velocity, acceleration, errors and approximation in engineering problems with, application of derivatives., DETAILED CONTENTS, , 1., , Algebra -I, 1.1, 1.2, 1.3, , 2., , Series : AP and GP; Sum, nth term, Mean, Binomial theorem for positive, negative and fractional index (without proof)., Application of Binomial theorem., Determinants : Elementary properties of determinant of order 2 and 3,, Multiplication system of algebraic equation,, Consistency of equation,, Crammer's rule, , Algebra- II, 2.1, 2.2, , (12 Periods), , (12 Periods ), , Vector algebra : Dot and Cross product, Scaler and vector triple product., Complex number., Complex numbers, Representation, Modulus and amplitude Demoivre, theorem, its application in solving algebraic, equations, Mod. function, and its properties.., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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30, , 3., , Trigonometry, 3.1, 3.2, , 4., , 4.2, , 5., , Relation between sides and angles of a triangle : Statement of various formulae, showing relationship between sides and angle of a triangle., Inverse circular functions: Simple case only, , Differential Calculus - I, 4.1, , 5.2, , (18 Periods), , Functions, limits, continuity, - functions and their graphs, range and domain,, elementary methods of finding limits (right and left), elementary test for, continuity and differentiability., Methods of finding derivative, Trigonometric functions, exponential function,, Function of a function, Logaritimic differentiation, Differentiation of Inverse, trigonometric function, Differentiation of implicit functions., , Differential Calculus - II, 5.1, , (10 Periods ), , (18 Periods), , Higher order derivatives, Leibnitz theorem (without proof). Simple, applications., Application - Finding Tangents, Normal, Points of, Maxima/Minima,, Increasing/Decreasing functions, Rate,, Measure, velocity, Acceleration,, Errors and approximation., , INSTRUCTONAL STRATEGY, The basic instructional strategy to teach basic mathematics, Binomial theorem, trigonometry,, differential equations etc. should be conceptual with real world applications of relevant branch., More numerical and theory examples can be used for clear understanding of the content., MEANS OF ASSESSMENT, -, , Assignments and Quiz/Class Tests, Mid-term and End-term Written Tests, Model/Prototype Making, , RECOMMENDED BOOKS, 1., 2., 3, , Elementary Engineering Mathematics by BS Grewal, Khanna Publishers, New Delhi, Engineering Mathematics, Vol I & II by SS Sastry, Prentice Hall of India Pvt. Ltd.,, Applied Mathematics-I by Chauhan and Chauhan, Krishna Publications, Meerut., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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32, , SUGGESTED DISTRIBUTION OF MARKS, Topic, , Time Allotted, (Periods), , Marks Allotted, (%), , 1., 2., 3., 4, 5, Total, , 12, 12, 10, 18, 18, 70, , 20, 20, 12, 24, 24, 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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33, , 1.3 APPLIED PHYSICS – I, L T P, 5 - 2, RATIONALE, Applied physics includes the study of a diversified topics related to the world around us. It, aims to give an understanding of this world both by observation and by prediction of the way, in which objects behave. Concrete knowledge of physical laws, analysis and applications in, various fields of engineering and technology are given prominence in this course content., Note: Teachers should give examples of engineering/technology applications of various, concepts and principles in each topic so that students are able to learn and appreciate, these concepts and principles. In all contents, SI units should be followed., LEARNING OUTCOMES, After undergoing this course, the students must be able to:, •, •, •, •, •, •, •, •, •, •, •, •, •, , Identify the use of S.I. system of measurement with accuracy and how it is used in, engineering, Represent physical quantities as scalars and vectors, applying the physical laws and, concepts of linear and circular motion in everyday life., Solve difficult problems (walking of man, horse and cart problem, flying of bird/, aircraft, etc.), Analyse and design banking of roads/railway tracks and apply conservation of, momentum principle to Explain rocket propulsion, recoil of gun etc., Derive work, power and energy relationship and solve problems about work and power., Define work, energy and power and their units., Describe conservation of energy and its applications, Understand the concept of rotational motion of a rigid body and its applications, Apply the physical laws and concepts of gravity, its variation with longitude and, latitude and its uses in space satellite etc., ., Understand the concept of elasticity, surface tension, pressure and the laws governing, movement of fluids., Express physical work in term of heat and temperature; Measure temperature in various, processes on different scales (Celsius, Kelvin, Fahrenheit etc.), Distinguish between conduction, convection and radiation, identify the different, methods for reducing heat losses, Understand the laws of thermodynamics, Carnot cycle and their applications., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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34, , DETAILED CONTENTS, 1., , Units and Dimensions, 1.1, 1.2, 1.3, 1.4, , 1.5, 1.6, , 1.7, , 2., , Need of Measurement in engineering and science, unit of a physical quantities fundamental and derived units, systems of units (FPS, CGS and SI units), Dimensions and dimensional formulae of physical quantities., Principle of homogeneity of dimensions, Dimensional equations and their applications, conversion of numerical values, of physical quantities from one system of units into another, checking the, correctness of physical equations and deriving relations among various physical, quantities, Limitations of dimensional analysis, Error in measurement, accuracy and precision of instruments, random and, systematic errors, absolute error, relative error, and percentage error, Estimation, of probable errors in the results of measurement (combination of errors in, addition, subtraction, multiplication, division and powers), rules for, representing significant figures in calculation., Application of units and dimensions in measuring length, diameter,, circumference, volume, surface area etc. of metallic and non metallic blocks,, wires, pipes etc (at least two each)., , Force and Motion, 2.1, 2.2, 2.3, 2.4, 2.5, 2.6, 2.7, 2.8, , 2.9, , (10 Periods), , (10 periods), , Scalar and vector quantities – examples, representation of vector, types of, vectors, Addition and Subtraction of Vectors, Triangle and Parallelogram law, (Statement only), Scalar and Vector Product., Resolution of Vectors and its application to lawn roller., Force, Momentum, Statement and Derivation of Conservation of linear, momentum, its applications such as recoil of gun., Impulse and its Applications, Circular motion (Uniform and Non-uniform), definition of angular, displacement, angular velocity, angular acceleration, frequency, time period., Relation between linear and angular velocity, linear acceleration and angular, acceleration (related numerical), Central force, Expression and Applications of Centripetal and centrifugal forces, with examples such as banking of roads and bending of cyclist, Principle of, centrifuge., Application of various forces in lifts, cranes, large steam engines and turbines, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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35, , 3., , Work, Power and Energy, 3.1, 3.2, 3.3, 3.4, 3.5, 3.6, 3.7, , 4, , 4.4, , 4.5, 4.6, 4.7, 5, , Work: and its units, examples of zero work, positive work and negative work,, conservative and non-conservative force,, Friction: modern concept, types, laws of limiting friction, Coefficient of friction, and its Engineering Applications., Work done in moving an object on horizontal and inclined plane for rough and, plane surfaces with its applications, Energy and its units: Kinetic energy and potential energy with examples and, their derivation, work energy theorem., Principle of conservation of mechanical energy for freely falling bodies,, examples of transformation of energy., Power and its units, calculation of power in numerical problems, Application of Friction in brake system of moving vehicles, bicycle, scooter, car, trains etc., , Rotational Motion, 4.1, 4.2, 4.3, , (10 periods), , Concept of translatory and rotatory motions with examples, Definition of torque with examples, Angular momentum, Conservation of angular momentum (quantitative) and, its examples, Moment of inertia and its physical significance, radius of gyration for rigid, body, Theorems of parallel and perpendicular axes (statements only), Moment, of inertia of rod, disc, ring and sphere (hollow and solid) (Formulae only)., Concept of Fly wheel., Rotational kinetic energy, Rolling of sphere on the slant plane, Comparison of linear motion and rotational motion., Application of rotational motions in transport vehicles, and machines., , Motion of planets and satellites, 5.1, 5.2, 5.3, 5.4, , (10 periods), , (08 periods), , Gravitational force, Kepler’s law of planetary motion, Acceleration due gravity and its variation, Gravitational Potential and Gravitational potential energy, Motion of satellite, orbital velocity and time period of satellite, Total energy, and Binding energy of a satellite, Escape energy and escape velocity, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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36, , 5.5, 5.6, , 6., , Types of satellites, Geo-stationary satellite, semi-synchronous, polar, (concept only) and their uses in science and technology, Concept of Black Holes, , Properties of Matter, 6.1, 6.2, 6.3, , 6.4, 6.5, , 7., , satellite, , (12 periods), , Elasticity: definition of stress and strain, different types of modulii of elasticity,, Hooke’s law, significance of stress strain curve, Pressure: definition, its units, atmospheric pressure, gauge pressure, absolute, pressure, Fortin’s Barometer and its applications, Surface tension: concept, its units, angle of contact, Capillary action and, determination of surface tension from capillary rise method, applications of, surface tension, effect of temperature and impurity on surface tension, Viscosity and coefficient of viscosity: Terminal velocity, Stoke’s law and effect, of temperature on viscosity, application in hydraulic systems., Concept of fluid motion, stream line and turbulent flow, Reynold’s number, Equation of continuity, Bernoulli’s Theorem and their applications., , Heat and Thermodynamics, (10 periods), 7.1, Difference between heat and temperature, 7.2, Modes of transfer of heat (Conduction, convection and radiation with examples), 7.3, Different scales of temperature and their relationship, 7.4, Expansion of solids, liquids and gases, coefficient of linear, surface and cubical, expansions and relation amongst them, 7.5, Heat conduction in a metal rod, Temperature gradient, Concept of Co-efficient, of thermal conductivity, Uses and effects of Heat conduction in Daily life., 7.6, Isothermal and Adibatic process, 7.7, Zeroth, First and second law of thermodynamics, Heat engine (concept Only),, Carnot cycle., 7.8, Application of various systems of thermometry in refrigeration and airconditioning etc., , LIST OF PRACTICALS, 1, 2, 3, 4, , To find radius of wire and its volume and the maximum permissible error in these, quantities by using both vernier calipers and screw gauge., To find the value of acceleration due to gravity on the surface of earth by using a, simple pendulum., To determine the Radius of curvature of (i) convex mirror, (ii) concave mirror by, spherometer, To verify parallelogram law of forces, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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37, , 5 To study conservation of energy of a ball or cylinder rolling down an inclined plane., 6 To find the Moment of Inertia of a flywheel about its axis of rotation, 7 To determine the atmospheric pressure at a place using Fortin’s Barometer, 8 To determine the viscosity of glycerin by Stoke’s method, 9 To determine the coefficient of linear expansion of a metal rod, 10 To determine force constant of spring using Hooks law, INSTRUCTIONAL STATREGY, Teacher may use various teaching aids like live models, charts, graphs and experimental kits, etc. for imparting effective instructions in the subject. The teacher should explain about field, applications before teaching the basics to develop proper understanding of the physical, phenomenon. Use of demonstration and animations can make the subject interesting and may, develop scientific temper in the students. Teacher must plan a tour of Science Park/planetarium, available in nearby areas in order to enhance the interest in this course., MEANS OF ASSEMENTS, −, −, −, −, −, , Assignment & Quiz,, Mid-Term and End-Term written test,, Model Making,, Actual Lab & Practical Work,, VivaVoice, , RECOMMENDED BOOKS, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, , Text Book of Physics for Class XI (Part-I, Part-II); N.C.E.R.T., Delhi, Concepts in Physics by HC Verma, Vol. I & II, Bharti Bhawan Ltd. New Delhi, Comprehensive Practical Physics, Vol, I & II, JN Jaiswal, Laxmi Publications (P) Ltd.,, New Delhi, B.Sc.Practical Physics by C L Arora, S. Chand Publication.., Engineering Physics by PV Naik, Pearson Education Pvt. Ltd, New Delhi, Engineering Physics by DK Bhhatacharya & Poonam Tandan; Oxford University Press,, New Delhi, Modern Engineering Physics by SL Gupta, Sanjeev Gupta, Dhanpat Rai Publications, V. Rajendran,physics-I, Tata McGraw-Hill raw Hill publication, New Delhi, Arthur Beiser, Applied Physics, Tata McGraw-Hill raw Hill publication, New Delhi, Physics Volume 1, 5th edition, Haliday Resnick and Krane, Wiley publication, SUGGESTED DISTRIBUTION OF MARKS, Topic No., Time Allotted, Marks Allotted, (Periods), (%), 1, 10, 15, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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38, , 2, 3, 4, 5, 6, 7, Total, , 10, 10, 10, 08, 12, 10, 70, , 1.4, , 15, 15, 15, 10, 16, 14, 100, , APPLIED CHEMISTRY, L T P, 5 - 2, , RATIONALE, The use of various chemicals and chemical products in diverse technical and engineering fields, have repeatedly proved the importance of Applied Chemistry, which enhances its role to a new, peak. On the other hand, ever increasing use of such materials will compel engineers,, technocrats to acquire essential applied chemistry knowledge in order to select engineering, materials, which not only suit them but also provide more environmental compatibility. This, situation demands principles of Applied Chemistry in diploma-engineering courses. Principles, of Applied Chemistry will enable budding engineers and technocrats to develop scientific, temper and appreciate physical, chemical and engineering properties of materials. Hence the, subject of Applied Chemistry., LEARNING OUTCOMES, After undergoing this subject, the student will be able to:, •, •, •, •, •, •, •, •, •, •, •, •, , Classify various substances based on state of aggregation, Substantiate the laws and principles on which structure of atom is established., Explain and predict properties of substances., Explain sources of water and various characteristics of water (quantitatively)., Explain cause and factors which can adversely affecting natural water quality and, remedial measures available for water purification, Think critically, develop and adapt water conservation techniques., Explain corrosion of metal and their preventive measures., explain chemical nature and causes of corrosion, apply correct and efficient methods of corrosion prevention., explain chemistry of fuels and their relative advantages., select most efficient fuel for the engine and engineering applications., suggest how to subside air pollution caused by the use of fossil fuels, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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39, , •, •, , explain the chemistry of various polymers and plastics, verify suitability and select polymer/rubber/plastic materials for engineering, applications., DETAILED CONTENTS, , 1., , Atomic Structure, Periodic Table and Chemical Bonding, 1.1, 1.2, 1.3, 1.4, 1.5, , 1.6, 1.7, , 1.8, , 2., , Fundamental particles- mass and charges of electrons, protons and neutrons, with names of the scientists who discovered these fundamental particles., Bohr’s model of atom and successes and limitations of atomic theory, (qualitative treatment only)., Atomic number, atomic mass number isotopes and isobars., Definition of orbit and orbitals, shapes of s and p orbitals only, quantum, numbers and their significance,, Aufbau’s principle, Pauli’s exclusion principle and Hund’s rule electronic, configuration of elements with atomic number (Z) = 30 only. (Electronic, configurations of elements with atomic number greater than 30 are excluded)., Modern periodic law and periodic table, groups and periods, classification of, elements into s, p, d and f blocks (periodicity in properties - excluded), Chemical bonding and cause of bonding and types such as ionic bond in NaCl, sigma (σ) and pi (π) covalent bonds in H2, HCl, Cl2, elementary idea of, hybridization in BeCl2, BF3, CH4, NH3 and H2O, VSEPR, Molecular orbital, Theory, States of Matter: Solid, Liquid & Gas, Metallic bonding- explanation with the, help of electron gas (sea) model., , Fuelsand Lubricants, 2.1, 2.2, , 2.3, 2.4, 2.5, 2.6, 2.7, , (14 periods), , (18 periods), , Definition of fuel, classification of fuels, characteristics of good fuel, relative, merits of gaseous, liquid and solid fuels, Calorific value-higher calorific value, lower calorific value, determination of, calorific value of solid or liquid fuel using Bomb calorimeter and numerical, examples., Coal - types of coal and proximate analysis of coal, Fuel rating – Octane number and Cetane number, fuel-structural influence on, Octane and Cetane numbers, Gaseous fuels – chemical composition, calorific value and applications of, natural gas (CNG), LPG, producer gas, water gas and biogas., Elementary ideal on – hydrogen as future fuels, nuclear fuels., Lubricants: Definition and properties, mechanism, industrial application and its, function in bearings., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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40, , 2.8, 3., , Water, 3.1, 3.2, , 3.3, 3.4, 3.5, , 3.6, 3.7, 4., , Synthetic lubricants and cutting fluids., (14 periods), Demonstration of water resources on Earth using pie chart., Classification of water – soft water and hard water, action of soap on hard, water, types of hardness, causes of hardness, units of hardness – mg per liter, (mgL-1) and part per million (ppm) and simple numerical, pH and buffer, solutions and their applications., Disadvantages caused by the use of hard water in domestic and boiler feed, water. Primming and foaming and caustic embrittlement in boilers., Removal of hardness -Permutit process and Ion-exchange process., Physico-Chemical methods for Water Quality Testing, a) Determination of pH using pH meter, total dissolved solids (TDS), b) Testing and Estimation of- alkalinity, indicator their types and application, total hardness by EDTA method and O’Hener’s Method. (chemical reaction, of EDTA method are excluded)., c) Understanding of Indian Water Quality standards as per WHO, Natural water sterilization by chlorine and UV radiation and reverse osmosis., Municipality waste water treatment. Definition of B.O.D and C.O.D., , Electrochemistry, , (4 periods), , Redox Reaction, Electrode Potential, Nernst equation, Electrochemical cell (Galvanic, and Electrobytes); Nernst equation., 5., , Corrosion and its Control, 5.1, 5.2, , 5.3, 5.4, , (10 periods), , Definition of corrosion and factors affecting corrosion rate., Theories of, a), Dry (chemical) corrosion- Pilling Bedworth rule, b), Wet corrosion in acidic atmosphere by hydrogen evolution mechanism, Definition of passivity and galvanic series, Corrosion control:, a), Metal coatings – Cathodic protection, Cementation on Base Metal Steel, –Application of Metal Zn (Sheradizing),Cr (Chromozing) and Al, (Calorizing), Sacrificial protection and impressed current voltage, b), Inorganic coatings – Anodizing and phosphating,, c), Organic coatings - use of paints varnishes and enamels, d), Internal corrosion preventive measures- alloying (with reference to, passivating, neutralizing and inhibition) and heat treatment (quenching,, annealing), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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41, , 6., , Organic compounds, Polymers and Plastics, 6.1, 6.2, 6.3, 6.4, 6.5, , (10 periods), , Classification of organic compounds and IUPAC Nomenclature, Definition of polymer, monomer and degree of polymerization, Brief introduction to addition and condensation polymers with suitable, examples (PE, PS, PVC, Teflon, Nylon -66 and Bakelite), Definition of plastics, thermo plastics and thermo setting plastics with suitable, examples, distinctions between thermo and thermo setting plastics, Applications of polymers in industry and daily life, , LIST OF PRACTICALS, 1., , 3., 4., 5., , Estimation of total hardness of water using standard EDTA solution, Estimation of total alkalinity of given water sample by titrating it against standard, sulphuric acid solution, Proximate analysis of solid fuel), Estimation of temporary hardness of water sample by O’ Hener’s Method., Determination of flash and fire point of given lubricating oil using Able’s flash point, apparatus, , INSTRUCTIONAL STRATEGY, Teachers may take help of various models and charts while imparting instructions to make the, concept clear. More emphasis should be laid on discussing and explaining practical, applications of various chemical process and reactions. In addition, students should be, encouraged or motivated to study those processes in more details, which may find practical, application in their future professional career., MEANS OF ASSEMENTS, −, −, −, −, −, , Assignment & Quiz,, Mid-Term and End-Term written test,, Model Making,, Actual Lab & Practical Work,, VivaVoice, , RECOMMENDED BOOKS, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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42, , 1., 2., 3., 4., 5., 6., , Chemistry in Engineering by J.C. Kuricose & J. Rajaram, Tata McGraw Hill,, Publishing Company Limited, New Delhi., Engineering Chemistry by P.C. Jain & Monika Jain, Dhanapat Rai Publishing, Company, New Delhi., Eagle’s Applied Chemistry - I by S. C. Ahuja & G. H. Hugar, Eagle Prakashan,, Jalandhar., Engineering Chemistry – A Text Book by H. K. Chopra & A. Parmar, Narosa, Publishing House, New Delhi., Applied Chemistry - I by Dr. P. K Vij & Shiksha Vij, Lords Publications, Jalandhar., Engineering Chemistry by Dr. Himanshu Pandey, Goel Publishing House, Meerut,, India, , SUGGESTED DISTRIBUTION OF MARKS, Topics, 1., 2., 3., 4., 5., 6., Total, , Time Allotted, (hrs), 14, 18, 14, 4, 10, 10, 70, , Marks Allotted, (%), 20, 24, 20, 6, 15, 15, 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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43, , 1.5, , ENGINEERING DRAWING - I, L T P, - - 8, , RATIONALE, Drawing is the language of engineers and technicians. Reading and interpreting engineering, drawing is their day to day responsibility. The subject is aimed at developing basic graphic, skills in the students so as to enable them to use these skills in preparation of engineering, drawings, their reading and interpretation. The emphasis, while imparting instructions, should, be to develop conceptual skills in the students following BIS SP 46 – 1988., Note:, i), ii), iii), , First angle projection is to be followed, Minimum of 18 sheets to be prepared and atleast 2 sheets on AutoCAD, Instructions relevant to various drawings may be given along with appropriate, demonstrations, before assigning drawing practice to students, , LEARNING OUTCOMES, After undergoing the subject, the students will be able to:, •, •, •, •, •, •, •, •, •, •, •, , Identify and use of different grades of pencils and other drafting instruments which are, used in engineering field, Draw free hand sketches of various kinds of objects., Utilize various types of lines used in engineering drawing., Read and apply different dimensioning methods on drawing of objects., Use different types of scales and their utilization in reading and reproducing drawings, of objects and maps., Draw 2 - dimensional view of different objects viewed from different angles, (orthographic views), Draw and interpret complete inner hidden details of an object which are otherwise not, visible in normal view, To make projections of Solid, Generate isometric (3D) drawing from different 2D (orthographic) views/sketches, Identify conventions for different engineering materials, symbols, sections of regular, objects and general fittings used in Civil and Electrical household appliances, Use basic commands of AutoCAD., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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44, , DETAILED CONTENTS, 1., , Introduction to Engineering Drawing, 1.1, 1.2, 1.3, , 1.4, , 2., , 2.2, , 3., , 3.2, , (02 sheets), Scales –their needs and importance (theoretical instructions), type of scales,, definition of R.F. and length of scale, Drawing of plain and diagonal scales, , Orthographic Projections, 4.1, 4.2, 4.3, , 4.4, , 4.5, , (01 sheet), , Necessity of dimensioning, method and principles of dimensioning (mainly, theoretical instructions), Dimensioning of overall sizes, circles, threaded holes, chamfered surfaces,, angles, tapered surfaces, holes, equally spaced on P.C.D., counter sunk holes,, counter bored holes, cylindrical parts, narrow spaces and gaps, radii, curves, and arches, , Scales, 3.1, , 4., , Introduction to drawing instruments, materials, layout and sizes of drawing, sheets and drawing boards., Different types of lines in Engineering drawing as per BIS specifications, Practice of vertical, horizontal and inclined lines, geometrical figures such as, triangles, rectangles, circles, ellipses and curves, hexagonal, pentagon with the, help of drawing instruments., Free hand and instrumental lettering (Alphabet and numerals) – upper case, (Capital Letter), single stroke, vertical and inclined at 75 degree, series of 5,8,12, mm of free hand and instrumental lettering of height 25 to 35 mm in the ratio of, 7:4, , Dimensioning Technique, 2.1, , (03 sheets), , (06 sheets), , Theory of orthographic projections (Elaborate theoretical instructions), Projection of Points in different quadrant, Projection of Straight Line (1st and 3rd angle), 4.3.1. Line parallel to both the planes, 4.3.2. Line perpendicular to any one of the reference plane, 4.3.3. Line inclined to any one of the reference plane., Projection of Plane – Different lamina like square, rectangular, triangular and, circle inclined to one plane, parallel and perpendicular to another plane in 1st, angle only, Three views of orthographic projection of different objects. (At least one sheet, in 3rd angle), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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45, , 4.6, 5, , Identification of surfaces, , Projection of Solid, , (02 sheets), , 5.1. Definition and salient features of Solid, 5.2. Types of Solid (Polyhedron and Solid of revolution), 5.3 To make projections, sources, Top view, Front view and Side view of various, types of Solid., 6., , Sections, 6.1, 6.2, 6.3, 6.4, , 7., , 8., , (02 sheets), , Fundamentals of isometric projections and isometric scale., Isometric views of combination of regular solids like cylinder, cone, cube and, prism., , Common Symbols and Conventions used in Engineering, 8.1, 8.2, , *9., , Importance and salient features, Drawing of full section, half section, partial or broken out sections, Offset, sections, revolved sections and removed sections., Convention sectional representation of various materials, conventional breaks, for shafts, pipes, rectangular, square, angle, channel, rolled sections, Orthographic sectional views of different objects., , Isometric Views, 7.1, 7.2, , (02 sheets), , (02 sheets), , Civil Engineering sanitary fitting symbols, Electrical fitting symbols for domestic interior installations, , Introduction to AutoCAD, , (02 sheets), , Basic introduction and operational instructions of various commands in AutoCAD. At, least two sheets on AutoCAD of cube, cuboid, cone, pyramid, truncated cone and, pyramid, sphere and combination of above solids., * Auto CAD drawing will be evaluated internally by sessional marks and not by final, theory paper., INSTRUCTIONAL STRATEGY, Teacher should show model of realia of the component/part whose drawing is to be made., Emphasis should be given on cleanliness, dimensioning and layout of sheet. Focus should be, on proper selection of drawing instruments and their proper use. The institute should procure, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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46, , AutoCAD or other engineering graphics software for practice in engineering drawings., Teachers should undergo training in AutoCAD/Engineering Graphic. Separate labs for practice, on AutoCAD should be established., MEANS OF ASSESSMENT, −, −, −, , Sketches, Drawing, Use of software, , RECOMMENDED BOOKS, 1., 2., 3., 4., 5., , A Text Book of Engineering Drawing by Surjit Singh; Dhanpat Rai & Co., Delhi, Engineering Drawing by PS Gill; SK Kataria & Sons, New Delhi, Elementary Engineering Drawing in First Angle Projection by ND Bhatt; Charotar, Publishing House Pvt. Ltd., Anand, Engineering Drawing I & II by JS Layall; Eagle Parkashan, Jalandhar, Engineering Drawing I by DK Goel, GBD Publication., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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47, , 1.6, , BASICS OF INFORMATION TECHNOLOGY, L T P, - - 6, , RATIONALE, Information technology has great influence on all aspects of life. Primary purpose of using, computer is to make the life easier. Almost all work places and living environment are being, computerized. The subject introduces the fundamentals of computer system for using various, hardware and software components. In order to prepare diploma holders to work in these, environments, it is essential that they are exposed to various aspects of information technology, such as understanding the concept of information technology and its scope; operating a, computer; use of various tools using MS Office/Open Office/Libre Office using internet etc.,, form the broad competency profile of diploma holders. This exposure will enable the students, to enter their professions with confidence, live in a harmonious way and contribute to the, productivity., Note:, Explanation of Introductory part should be demonstrated with practical work. Following, topics may be explained in the laboratory along with the practical exercises. There will, not be any theory examination., LEARNING OUTCOMES, After undergoing the subject, the students will be able to:, •, •, •, •, •, •, •, •, •, •, •, •, , Identify Computer Hardware Components, Network Components and Peripherals., Explain the role of an Operating System., Install System and Application Software., Explain the function of the system components including Processor, Motherboard and, Input-output devices., Use Word Processing Software to prepare document., Use Spreadsheet Software to create workbooks and automate calculation., Use Presentation Software to create interactive presentation., Perform fundamental tasks common to most application software including print, scan,, save, edit, cut, copy, paste, format, spell and grammar check., Find and evaluate information on the Web., Install Antivirus., Safeguard against Online Frauds, threats and crimes., Use online office tools(Google suits), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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48, , TOPICS TO BE EXPLAINED THROUGH DEMONSTRATION, 1., , Introduction to Computers and Peripherals., Components of Computer, Types of Computer, CPU, RAM, ROM, Hard disk, USB,, Flash drive, CD, DVD,Blue ray, Keyboard, Mouse, Monitor, LCD, Printer, Plotter,, Scanner, Modem, Sound Cards, Speakers, CMOS battery, Sharing of Printers., , 2., , Operation System and Application Software, System Software, Application Software, Virtualization Software, Utility Software, MS, Office/Open Office/Libreoffice, Working with window, Desktop components, Menu, bars, creating shortcut of program. Installation of Application softwares, Antivirus and, Drivers., , 3., , Word Processing, Spreadsheet and Presentation, Usage and creation of word document, spreadsheets and presentation, Google Suits, (Google drive, google sheet, google doc. Google presentation), , ., 4., , Internet, Basics of Networking – LAN, WAN, Wi-Fi technologies, Concept of IP Addrsses,, DNS, Search Engines, e-mail, Browsing and cyber laws., , LIST OF PRACTICAL EXERCISES, , ., , 1. Identify various components, peripherals of computer and list their functions., 2. Installation of various application software and peripheral drivers, 3. Installation of operating system (windows/linux/others), 4. Creation and Management (Rename, delete, search of file and folders), 5. Installation of Antivirus and remove viruses, 6. Scanning and printing documents, 7. Browsing, Downloading, Information using Internet, 8. E-Mail ID creation, comparing, sending and receiving e-mail. Attaching a file, with e-mail message., 9. Word Processing (MS Office/Open Office), a) File Management:, Opening, creating and saving a document, locating files, copying contents in, some different file(s), protecting files, giving password protection for a file, b) Page set up:, Setting margins, tab setting, ruler, indenting, c) Editing a document:, Entering text, cut, copy, paste using tool- bars, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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49, , d) Formatting a document:, Using different fonts, changing font size and colour, changing the, appearance through bold/italic/underlined, highlighting a text, changing, case, using subscript and superscript, using different underline methods, Aligning of text in a document, justification of document, inserting bullets, and numbering, Formatting paragraph, inserting page breaks and column breaks, line, spacing, Use of headers, footers: Inserting footnote, end note, use of comments,, autotext, Inserting date, time, special symbols, importing graphic images, drawing, tools, e) Tables and Borders:, Creating a table, formatting cells, use of different border styles, shading in, tables, merging of cells, partition of cells, inserting and deleting a row in a, table, Print preview, zoom, page set up, printing options, Using find, replace options, f) Using Tools like:, Spell checker, help, use of macros, mail merge, thesaurus word content and, statistics, printing envelops and lables, Using shapes and drawing toolbar,, Working with more than one window ., 10., , Spread Sheet Processing (MS Office/Open Office/Libre Office), a), b), , c), , d), , Starting excel, open worksheet, enter, edit, data, formulae to calculate values,, format data, save worksheet, switching between different spread sheets, Menu commands:, Create, format charts, organise, manage data, solving problem by analyzing, data. Programming with Excel Work Sheet, getting information while, working, Work books:, Managing workbooks (create, open, close, save), working in work books,, selecting the cells, choosing commands, data entry techniques, formula, creation and links, controlling calculations, Editing a worksheet, copying, moving cells, pasting, inserting, deletion cells,, rows, columns, find and replace text, numbers of cells, formatting worksheet,, conditional formatting, Creating a chart:, Working with chart types, changing data in chart, formatting a chart, use, chart to analyze data, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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50, , e), f), , 11., , PowerPoint Presentation (MS Office/Open Office/Libre office), a), , b), c), , d), , 12., , Using a list to organize data, sorting and filtering data in list, Retrieve data with query:, Create a pivot table, customizing a pivot table. Statistical analysis of data, Exchange data with other application:, Embedding objects, linking to other applications, import, export document., , Introduction to PowerPoint, How to start PowerPoint, Working environment: concept of toolbars, slide layout & templates., Opening a new/existing presentation, Different views for viewing slides in a presentation: normal, slide, sorter., Addition, deletion and saving of slides, Insertion of multimedia elements, Adding text boxes, Adding/importing pictures, Adding movies and sound, Adding tables and charts etc., Adding organizational chart, Editing objects, Working with Clip Art, Formatting slides, Using slide master, Text formatting, Changing slide layout, Changing slide colour scheme, Changing background, Applying design template, , Google Suits, Using Google drive, Google shut, Google docs, Google slides., , INSTRUCTIONAL STRATEGY, Since this subject is practice oriented, the teacher should demonstrate the capabilities of, computers to students while doing practical exercises. The students should be made familiar, with computer parts, peripherals, connections and proficient in making use of MS Office/Open, Office/Libre office/Google Suit in addition to working on internet. The student should be, made capable of working on computers independently., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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51, , MEANS OF ASSESSMENT, -, , Class Tests/Quiz, Software Installation and Use, Viva-Voce, Presentation, , RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., 7., 8., 9., 10., , Fundamentals of Computer by V Rajaraman; Prentice Hall of India Pvt. Ltd., New Delhi, Information Technology for Management by Henery Lucas, Tata McGraw Hills, New, Delhi, Computers Fundamentals Architecture and Organisation by B Ram, revised Edition,, New Age International Publishers, New Delhi, Computers Today by SK Basandara, Galgotia publication Pvt Ltd. Daryaganj, New, Delhi., Internet for Every One by Alexis Leon and Mathews Leon; Vikas Publishing House Pvt., Ltd., Jungpura, New Delhi, A First Course in Computer by Sanjay Saxena; Vikas Publishing House Pvt. Ltd.,, Jungpura, New Delhi, Computer Fundamentals by PK Sinha; BPB Publication, New Delhi, Fundamentals of Information Technology by Leon and Leon; Vikas Publishing House, Pvt. Ltd., Jungpura, New Delhi, On Your Marks - Net…Set…Go… Surviving in an e-world by Anushka Wirasinha,, Prentice Hall of India Pvt. Ltd., New Delhi, Fundamentals of Information Technology by Vipin Arora, Eagle Parkashan, Jalandhar, , Reference websites, 1., 2., 3., 4., 5., , www. tutorialspoint..com, www.sf.net, Gsuite.google.com, Spoken-tutorial.org, Swayam.gov.in, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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52, , 1.7 GENERAL WORKSHOP PRACTICE – I, (Common for Civil Engineering, Electrical Engineering and Chemical Engineering ), L T P, - - 8, RATIONALE, In order to have a balanced overall development of diploma engineers, it is necessary to, integrate theory with practice. General workshop practices are included in the curriculum in, order to provide hands-on experience about use of different tools and basic manufacturing, practices. This subject aims at developing general manual and machining skills in the students., In addition, the development of dignity of labour, safety at work place, team working and, development of right attitude are the other objectives., LEARNING OUTCOMES, After completing the course, the students will be able to:, •, •, •, •, •, •, •, •, , Identify tools and equipment used and their respective functions., Identify different types of materials and their basic properties., Use and take measurements with the help of basic measuring tools/equipment., Select proper tools for a particular operation., Select materials, tools, and sequence of operations to make a job as per given, specification/drawing., Prepare simple jobs independently and inspect the same., Follow safety procedures and precautionary measures., Use safety equipment and Personal Protection Equipment., DETAILED CONTENTS, , Note:, , The students are supposed to come in proper workshop dress prescribed by the, institute. Wearing shoes in the workshop(s) is compulsory. Importance of safety and, cleanliness, safety measures and upkeep of tools, equipment and environment in each, of the following shops should be explained and practiced. The students should, prepare sketches of various tools/jobs in their practical Notebook., , The following shops are included in the syllabus:, 1., 2., 3., 4., 5., , Carpentry Shop, Painting and Polishing Shop, Electrical Shop, Welding Shop, Plumbing Shop, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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53, , 1. CARPENTRY SHOP, 1.1, , General Shop Talk, 1.1.1 Name and use of raw materials used in carpentry shop : wood &, alternative materials, 1.1.2 Names, uses, care and maintenance of hand tools such as different types, of Saws, C-Clamp, Chisels, Mallets, Carpenter's vices, Marking gauges,, Try-squares, Rulers and other commonly used tools and materials used, in carpentry shop by segregating as cutting tools, supporting tools,, holding tools , measuring tools etc., 1.1.3 Specification of tools used in carpentry shop., 1.1.4 Different types of Timbers, their properties, uses & defects., 1.1.5 Seasoning of wood., , 1.2., , Practice, 1.2.1 Practices for Basic Carpentry Work, 1.2.2 Sawing practice using different types of saws, 1.2.3 Assembling jack plane — Planning practice including sharpening of, jack plane cutter, 1.2.4 Chiselling practice using different types of chisels including sharpening, of chisel, 1.2.5 Making of different types of wooden pin and fixing methods. Marking, measuring and inspection of jobs., , 1.3, , Job Practice, Job 1, Job II, Job III, Job IV, , 1.4., , Marking, sawing, planning and chiselling and their practice, Half Lap Joint (cross, L or T – any one), Mortise and Tenon joint (T-Joint), Dove tail Joint (Lap or Bridle Joint), , Demonstration of job showing use of Rip Saw, Bow saw and Tenon saw,, method of sharpening various saws., , 2. PAINTING AND POLISHING SHOP, 2.1., , Introduction of paints, varnishes, Reason for surface preparation, Advantages of, Painting, other method of surface coating ie. Electroplating etc., , 2.2., , Job Practice, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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54, , Job 1: To prepare a wooden surface for painting apply primer on one side and, to paint the same side. To prepare french polish for wooden surface and, polish the other side., Job II: To prepare metal surface for painting, apply primer and paint the same., Job III: To prepare a metal surface for spray painting, first spray primer and, paint the same by spray painting gun and compressor system., The sequence of polishing will be as follows:, i), ii), iii), , Abrasive cutting by leather wheel, Polishing with hard cotton wheel and with polishing material, Buffing with cotton wheel or buff wheel., , 3., , ELECTRICAL SHOP, , 3.1, , Study, demonstration and identification of common electrical materials with, standard ratings and specifications such as wires, cables, switches, fuses, cleats,, clamps and allied items, tools and accessories., Study of electrical safety measures and protective devices., Job I, Identification of phase, Neutral and Earth wires for connection to, domestic electrical appliances and their connections to three pin, plugs., Job II, Carrying out house wiring circuits using fuse, switches, sockets,, ceiling rose etc. in batten or P.V.C. casing-caping., Study of common electrical appliances such as auto electric iron, electric kettle,, ceiling/table fan, desert cooler etc., Introduction to the construction of lead acid battery and its working., Job III, Installation of battery and connecting two or three batteries in, series and parallel., Introduction to battery charger and its functioning., Job IV, Charging a battery and testing with hydrometer and cell, tester, , 3.2, , 3.3, 3.4, , 3.5, , 4., , WELDING SHOP, 4.1, , Introduction and importance of welding as compared to other material joining, processes. Specifications and type of welding machines, classification and, coding of electrodes, welding parameters, welding joints and welding positions., Materials to be welded, safety precautions., , 4.2, , Job Practice, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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55, , Job I, Job II, Job III, Job IV, , Practice of striking arc (Minimum 4 beads on 100 mm long M.S., flat)., Practice of depositing beads on plate at different current levels., (Minimum 4 beads on M.S. plate at four setting of current level)., Preparation of lap joint using arc welding process., Preparation of T-joint using gas welding or arc welding, on, 100 mm x 6 mm MS Flat, , 5. PLUMBING SHOP, 5.1., 5.2., 5.3., 5.4., , Use of personal protective equipments, safety precautions while working and, cleaning of shop., Introduction and demonstration of tools, equipment and machines used in, plumbing shop., Introduction of various pipes and pipe fittings of elbow, nipple, socket, union, etc., Job Practice, Job 1 : Preparation of job using elbow, bend and nipple, Job II: Preparation of job using Union, Tap, Plug and Socket., Job III: Threading practice on pipe with die, , MEANS OF ASSESSMENT, − Workshop jobs, − Report writing, presentation and viva voce, RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., 7., , Workshop Technology I,II,III, by SK Hajra, Choudhary and AK Choudhary; Media, Promoters and Publishers Pvt. Ltd. Mumbai., Workshop Technology Vol. I, II, III by Manchanda; India Publishing House, Jalandhar., Workshop Training Manual Vol. I, II by S.S. Ubhi; Katson Publishers, Ludhiana., Manual on Workshop Practice by K Venkata Reddy; MacMillan India Ltd., New Delhi, Basic Workshop Practice Manual by T Jeyapoovan; Vikas Publishing House (P) Ltd.,, New Delhi, Workshop Technology by B.S. Raghuwanshi; Dhanpat Rai and Co., New Delhi, Workshop Technology by HS Bawa; Tata McGraw Hill Publishers, New Delhi., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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56, , 2.1, , APPLIED MATHEMATICS - II, L T, 5, -, , P, -, , RATIONALE, Basic elements of integral calculus, differential calculus, numerical methods, differential m, equations included in this course will play a vital role in understanding engineering problem, mathematically. This will also develop analytical as well as conceptual abilities among, students., LEARNING OUTCOMES, After undergoing this course, the students will be able to:, • Calculate simple integration by methods of integration, • Evaluate the area under curves, surface by using definite integrals., • Calculate the area and volume under a curve along areas, • Solve the engineering problems with numerical methods., • Understand the geometric shapes used in engineering problems by co-ordinate, geometry., DETAILED CONTENTS, 1. Integral Calculus - I, , (20 Periods), , Methods of Indefinite Integration, 1.1, 1.2, 1.3, 1.4, 1.5, , Integration by substitution., Integration by rational function., Integration by partial fraction., Integration by parts., Integration of special function, , 2. Integral Calculus - II, 2.1, 2.2, 2.3, , (20 Periods), , Meaning and properties of definite integrals, Evaluation of definite integrals., Application : Length of simple curves, Finding areas bounded by simple, curves Volume of solids of revolution, centre of mean of plane areas., Simposns 1/3rd and Simposns3/8th rule and Trapezoidal Rule : their application, in simple cases. Numerical solutions of algebraic equations; Bisections, method, Regula-Falsi method, Newton-Raphson’s method(without proof),, Numerical solutions of simultaneous equations; Gauss elimination, method(without proof), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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57, , 3. Co-ordinate Geometry (2 Dimension), 3.1, , (18 Periods), , Circle, Equation of circle in standard form. Centre - Radius form, Diameter form,, Two intercept form., , 4. Co-ordinate Geometry (3 Dimension), 4.1, , (12 Periods), , Straight lines and planes in space, Distance between two points in space, direction cosine and direction ratios,, Finding equation of a straight line (without proof), , INSTRUCTONAL STRATEGY, Basic elements of Differential Calculus, Integral Calculus and differential equations can be, taught conceptually along with real engineering applications in which particular algorithm and, theory can be applied. Numerical examples will be helpful in understanding the content of the, subject., MEANS OF ASSESSMENT, -, , Assignments and Quiz/Class Tests, Mid-term and End-term Written Tests, Model/Prototype Making, , RECOMMENDED BOOKS, 1., 2., 3, 4., , Elementary Engineering Mathematics by BS Grewal, Khanna Publishers, New Delhi, Engineering Mathematics, Vol I & II by SS Sastry, Prentice Hall of India Pvt. Ltd.,, Applied Mathematics-II by Chauhan and Chauhan, Krishna Publications, Meerut., Applied Mathematics-I (B) by Kailash Sinha and Varun Kumar; Aarti Publication,, Meerut, SUGGESTED DISTRIBUTION OF MARKS, Topic, , Time Allotted, (Periods), , Marks Allotted, (%), , 1., 2., 3., 4, , 20, 20, 18, 12, , 28, 28, 24, 20, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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58, , Total, , 70, , 100, , 2.2 APPLIED PHYSICS – II, L T P, 5 - 2, RATIONALE, Applied physics includes the study of a diversified topics related to the world around us. It, aims to give an understanding of this world both by observation and by prediction of the way, in which objects behave. Concrete knowledge of physical laws, analysis and applications in, various fields of engineering and technology are given prominence in this course content., Note: Teachers should give examples of engineering/technology applications of various, concepts and principles in each topic so that students are able to learn and appreciate, these concepts and principles. In all contents, SI units should be followed., LEARNING OUTCOMES, After undergoing this subject, the student will be able to;, •, •, •, •, •, •, •, •, •, , •, •, •, , Define wave motion its types (Transverse and Longitudinal), Periodic and Simple, Harmonic Motion, solve simple problems., Define the terms: frequency, amplitude, wavelength, velocity of a wave., Explain various Engineering, Medical and Industrial applications of Ultrasonics., Apply acoustics principles to various types of buildings to get best sound effect, Explain diffraction, interference, polarization., Define capacitance and its unit. They will be able to explain the function of capacitors, in simple circuits, solve simple problems using C=Q/V, Explain the role of free electrons in insulators, conductors and semiconductors,, qualitatively the terms: potential, potential difference, electromotive force., Explain the concept of electric current, resistance and itsmeasurement., List the effects of an electric current and their common applications, State and apply, Ohm's law, calculate the equivalent resistance of a variety of resistor combinations,, determine the energy consumed by an appliance, distinguish between AC and DC, electricity, Explain Biot-Savart Law, Ampere’s law, Lorenz Force., State the laws of electromagnetic induction, describe the effect on a current-carrying, conductor when placed in a magnetic field, Explain operation of moving coil galvanometer, simple DC motor, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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59, , •, , •, , Apply the knowledge of diodes in rectifiers, adapters IC’s and various electronic, circuits. Apply the concept of light amplification in designing of various LASER based, instruments and optical sources., Explain total internal reflection and apply this concept for optical fibre and its uses in, Medical field and Communication., DETAILED CONTENTS, , 1., , Wave motion and its applications, 1.1, , 1.2, 1.3, , 1.4, 1.5, , 1.6, , 2., , 2.2, 2.3, 2.4, 2.5, , 3., , Wave motion, transverse and longitudinal wave motion with examples, sound, and light waves, relationship among wave velocity, frequency and wave length, and its application, Wave equation y = r sin wt, phase, phase difference, principle of superposition, of waves, Simple Harmonic Motion (SHM): definition and characteristic, expression for, displacement, velocity, acceleration, time period, frequency in S.H.M., Energy, of a body executing S. H. M., simple pendulum, concept of simple harmonic, progressive wave,, Free, Damped and forced oscillations, Resonance with examples, Q-factor, Definition of pitch, loudness, quality and intensity of sound waves, intensity, level, Echo and reverberation, Sabine formula for reverberation time(without, derivation), coefficient of absorption of sound, methods to control reverberation, time and their applications, Accoustics of building defects and remedy., Ultrasonics –production, detection, properties and applications in engineering, and medical applications., , Wave Optics, 2.1, , (12 periods), , (6 periods), , Dual nature of light, wave theory of light, laws of reflection and refraction,, Snell’s law, Power of lens, magnification., Two-Source Interference, Double-Slit interference, Interference due to thin films,, Fresnel’s biprism., use of interference making highly efficient solar panel., diffraction, Single Slit diffraction, Intensity calculation etc, Polarization of electromagnetic waves, polarizing sheets, polarizing by, Reflection (Brewser’s law), Malus law, use of polariods., , Electrostatics, , (12 periods), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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60, , 3.1, , 3.2, 3.3, , 3.4, 3.5, , 4., , Current Electricity, 4.1, , 4.2, 4.3, 4.4, 4.5, , 5., , 5.2, 5.3, 5.4, 5.5, 5.6, , (12 periods), , Electric Current, Resistance, Specific Resistance, Conductance, Specific, Conductance, Series and Parallel combination of Resistances. Factors affecting, Resistance, Colour coding of carbon Resistances, Ohm’s law., Superconductivity., Kirchhoff’s laws, Wheatstone bridge and its applications (meter bridge and, slide wire bridge), Concept of terminal potential difference and Electro motive force (EMF),, potentiometer., Heating effect of current, Electric power, Electric energy and its units (related, numerical problems), Advantages of Electric Energy over other forms of energy, Examples of application of DC circuits in various electrical and electronics, equipment such as C.R.O, T.V., Audio-Video System, Computers etc., , Magneto Statics and Electromagnetism, 5.1, , 6., , Concept of charge, Coulombs law, Electric field of point charges, Electric lines, of force and their properties, Electric flux, Electric potential and potential, difference., Gauss law of electrostatics: Application of Gauss law to find electric field, intensity of straight charged conductor, plane charged sheet and charged sphere., Capacitor and its working principle, Capacitance and its units. Capacitance of, parallel plate capacitor. Series and parallel combination of capacitors, (numericals), charging and discharging of a capacitor., Dielectric and its effect on capacitance, dielectric break down., Application of electrostatics in electrostatic precipitation of microbes and, moisture separation from air and gases in industry for pollution control (Brief, explanation only), , (12 periods), , Magnetic poles, force on a moving charge, circulating charges, force on a, current carrying wire, Hall effect, torque on a current loop., Magnetic field due to moving charge(Biot-Savart Law), due to current (BiotSavart Law), parallel currents, field of a solenoid, Ampere’s law., Faraday’s law, Lenz’ law, motional emf, induced electric fields., Magnetic dipole and force on a magnetic dipole in a non-uniform field,, Magnetization, Gauss’ law for magnetism., Types of magnetic materials. Dia, para and ferromagnetic materials with their, properties,, Application of electromagnetism in ac/dc motors and generators., , Semiconductor physics, , (8 periods), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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61, , 6.1, 6.2, 6.3, 6.4, , 7., , Types of materials (insulator, semi conductor, conductor), intrinsic and extrinsic, semiconductors, p-n junction diode and its V-I characteristics, Diode as rectifier – half wave and full wave rectifier (centre taped),, Semiconductor transistor, pnp and npn (concepts only), Application of semiconductor diodes (Zener, LED) and that of transistor as, amplifier and oscillator., , Modern Physics, 7.1, , 7.2, , 7.3, , (8 Periods), , Lasers: concept of energy levels, ionizations and excitation potentials;, spontaneous and stimulated emission; laser and its characteristics, population, inversion, Types of lasers; Ruby and He-Ne lasers, engineering and medical, applications of lasers., Fibre optics: Total internal reflection and its applications, Critical angle and, conditions for total internal reflection, introduction to optical fibers, light, propagation, types, acceptance angle and numerical aperture, types and, applications of optical fibre in communication., Introduction to nanotechnology, nanoparticles and nano materials,, , LIST OF PRACTICALS (To perform minimum six experiments), 1., 2., 3., 4., 5., 6., 7., 8., 9., 10., 11., 12., , To determine the velocity of sound with the help of resonance tube., To find the focal length of convex lens by displacement method., To find the refractive index of the material of given prism using spectrometer., To find the wavelength of sodium light using Fresnel’s biprism., To verify laws of resistances in series and parallel combination, To verify ohm’s laws by drawing a graph between voltage and current., To measure very low resistance and very high resistances using Slide Wire bridge, Conversion of Galvanometer into an Ammeter and Voltmeter of given range., To draw hysteresis curve of a ferromagnetic material., To draw characteristics of a pn junction diode and determine knee and break down, voltages., To find wave length of the laser beam., To find numerical aperture of an optical fiber., , INSTRUCTIONAL STATREGY, Teacher may use various teaching aids like live models, charts, graphs and experimental kits, etc. for imparting effective instructions in the subject. The teacher should explain about field, applications before teaching the basics to develop proper understanding of the physical, phenomenon. Use of demonstration and animations can make the subject interesting and may, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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62, , develop scientific temper in the students. Teacher must plan a tour of Science Park/planetarium, available in nearby areas in order to enhance the interest in this course., MEANS OF ASSESSMENT, −, Assignment & Quiz, −, Mid-Term and End-Term written test, −, Model Making, −, Actual Lab & Practical Work, −, Viva-Voice, RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., 7., 8., , Text Book of Physics (Part-I, Part-II); N.C.E.R.T., Delhi, Concepts in Physics by HC Verma, Vol. I & II, Bharti Bhawan Ltd. New Delhi, A Text Book of Optics, Subramanian and Brij Lal, S Chand & Co., New Delhi, Practical Physics, by C. L. Arora, S Chand publications, Engineering Physics by PV Naik, Pearson Education Pvt. Ltd, New Delhi, Modern Engineering Physics by SL Gupta, Sanjeev Gupta, Dhanpat Rai Publications., Physics Volume 2, 5th edition, Haliday Resnick and Krane, Wiley publication, Fundamentals of Physics by Haliday, Resnick & Walker 7th edition, Wiley publication, SUGGESTED DISTRIBUTION OF MARKS, Topic No., , Time Allotted, (Periods), , Marks Allotted, (%), , 1, 2, 3, 4, 5, 6, 7, Total, , 12, 6, 12, 12, 12, 8, 8, 70, , 18, 8, 18, 16, 16, 12, 12, 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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63, , 2.3. BASIC ELECTRICAL ENGINEERING, L T P, 5 - 4, RATIONALE, A diploma holder may be involved in various jobs ranging from preventive maintenance of, electrical installation to fault location. In addition, he/she may be working in testing, laboratories where he/she uses measuring instruments. To carry out these and similar jobs, effectively, knowledge of basic concepts, principles and their applications is very essential., This course will enable the students to understand the basic concepts and principles of DC and, AC fundamental, ac circuits, batteries, electromagnetic induction, voltage and current sources, etc, LEARNING OUTCOMES, After undergoing the subject, the students will be able to:, •, •, •, •, •, •, •, •, •, , Identify and able to take readings on various electrical equipments(voltmeter,, ammeter, CRO, wattmeter, multi-meter), Determination of voltage-current relationship in a DC circuit under specific, physical conditions, Measure resistance of an ammeter and a voltmeter, Verify DC circuits (Thevenin, Nortons, Superposition theorem, Maximum Power, Transfer Theorem), Verify Kirchhoff's Current and Voltage Laws in a dc circuit, Find the ratio of inductance of a coil having air-core and iron-core respectively, and to observe the effect of introduction of a magnetic core on coil inductance, Test a lead - acid storage battery, Measure power and power factor in a single phase R-.L-.C. Circuit and calculation of, active and reactive powers in the circuit., Measure voltages and currents in polyphase a.c. circuits for star ard delta connections., DETAILED CONTENTS, , 1., , Overview of DC Circuits, 1.1, , 1.2, , (08 periods), , Definition of basic terms, such as current, EMF, Potential Difference (PD);, Ohm’s Law and its limitations; Factors affecting resistors and capacitors; simple, problems on series and parallel combinations of resistors with their wattage, considerations., Application of Kirchhoff’s current law and Kirchhoff’s voltage law to simple, circuits. Star – Delta connections and their conversion., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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64, , 2., , DC Circuit Theorems, , (06 periods), , Superposition principle, Maximum Power Transfer Theorem, Thevenin’s theorem,, Norton’s theorem, application of network theorems in solving D.C. circuit problems., 3., , Voltage and Current Sources, 3.1, 3.2, 3.3, , 4., , 4.2, 4.3, 4.4, 5., , 5.3, 5.4, 5.5, 5.6, 5.7, , 6.4, 6.5, , (08 periods), , Basic idea of primary and secondary cells, Construction, working principle and applications of Lead-Acid, NickelCadmium and Silver-Oxide batteries, Charging methods used for lead-acid battery (accumulator), Care and maintenance of lead-acid battery, Series and parallel connections of batteries, General idea of solar cells, solar panels and their applications, Introduction to maintenance free batteries, , AC Fundamentals, 6.1, 6.2, 6.3, , (10 periods), , Concept of electro-magnetic field produced by flow of electric current,, magnetic circuit, concept of magneto-motive force (MMF), flux, reluctance,, permeability, analogy between electric and magnetic circuit.\, Faraday’s laws of electro-magnetic induction, principles of self and mutual, induction, self and mutually induced e.m.f, simple numerical problems., Concept of current growth, decay and time constant in an inductive (RL) circuit., Energy stored in an inductor, series and parallel combination of inductors., , Batteries, 5.1, 5.2, , 6., , Concept of voltage source, symbol and graphical representation characteristics, of ideal and practical sources., Concept of current sources, symbol, characteristics and graphical representation, of ideal and practical current sources., Inter Conversion of Voltage-Source and Current Source., , Electro Magnetic Induction, 4.1, , (04 periods), , (10 periods), , Concept of alternating quantities, Difference between ac and dc, Concepts of: cycle, frequency, time period, amplitude, instantaneous value,, average value, r.m.s. value, maximum value, form factor and peak factor., Representation of sinusoidal quantities by phasor diagrams., Equation of sinusoidal wave form for an alternating quantity and its derivation, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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65, , 6.6, , 7., , Effect of alternating voltage applied to a pure resistance, pure inductance and, pure capacitance., AC Circuits, (18 periods), 7.1, 7.2, 7.3, 7.4, 7.5, , 7.6, 7.7, , 8., , Concept of inductive and capacitive reactance, Alternating voltage applied to resistance and inductance in series., Alternating voltage applied to resistance and capacitance in series., Introduction to series and parallel resonance and its conditions, Power in pure resistance, inductance and capacitance, power in combined RLC, circuits. Power factor, active and reactive power and their significance,, definition and significance of power factor., Definition of conductance, susceptance, admittance, impedance and their units, Introduction to polyphase a.c. systems, advantages of polyphase system over, single phase system. Relations between line and phase value of voltages and, currents for star and delta connections and their phasor diagram, power in, polyphase circuits., , Various Types of Power Plants, 8.1, , 8.2, , (06 periods), , Brief explanation of principle of power generation practices in thermal, hydro, and nuclear power stations and their comparative study. A Visit to a nearby, Power Station(s) may be organized for better understanding and exposure., Elementary block diagram of above mentioned power stations, , LIST OF PRACTICALS, 1., 2., 3., 4., , 5., 6., 7., 8., 9., , Operation and use of measuring instruments viz voltmeter, ammeter, CRO, Wattmeter,, multi-meter and other accessories, Determination of voltage-current relationship in a dc circuit under specific physical, conditions and to draw conclusions., Measurement of resistance of an ammeter and a voltmeter, Verification of dc circuits:, a., Thevenin’s theorem,, b., Norton’s theorem,, Observation of change in resistance of a bulb in hot and cold conditions, using, voltmeter and ammeter., Verification of Kirchhoff's Current and Voltage Laws in a dc circuit, To find the ratio of inductance of a coil having air-core and iron-core respectively and, to observe the effect of introduction of a magnetic core on coil inductance, Charging and testing of a lead - acid storage battery., Measurement of power and power factor in a single phase R-.L-.C. circuit and, calculation of active and reactive powers in the circuit., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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66, , 10, , Verification of line to line and line to neutral voltages and current in star and delta, connections., Note: Visit to a nearby Power Station(s) may be arranged to demonstrate various aspects of, subject, INSTRUCTIONAL STRATEGY, Basic electrical engineering being a fundamental subject, it needs to be handled very carefully, and in a manner such that students develop clear understanding of the related concepts and, principles. The teacher may lay more emphasis on laboratory work and give home, assignments to students to inculcate self-study and problem solving abilities amongst them., MEANS OF ASSESSMENT, -, , Assignments and quiz/class tests, Mid-term and end-term written tests, Presentation, Model Making, , RECOMMENDED BOOKS, , 1., 2., 3., 4., 5., , Basic Electrical Engineering by PS Dhogal, Tata Mc Graw-Hill Education Pvt Ltd., New, Delhi., Experiments in Basic Electrical Engineering by SK Bhattacharya, KM Rastogi; New Age, International (P) Ltd.; Publishers New Delhi., Electrical Technology by BL Theraja, S Chand and Co, New Delhi., Basic Electrical Engineering by JB Gupta; SK Kataria and Sons, New Delhi., Basic Electrical Engineering by Asfaque Husain, Jain Book Depot, New Delhi, SUGGESTED DISTRIBUTION OF MARKS, , Topic No., 1., 2., 3., 4., 5., 6., 7., 8, Total, , Time Allotted, (Periods), 08, 06, 04, 10, 08, 10, 18, 06, 70, , Marks Allotted, (%), 11, 09, 06, 14, 11, 14, 26, 09, 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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67, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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68, , 2.4 BASICS OF MECHANICAL AND CIVIL ENGINEERING, L T, 5 -, , P, 2, , RATIONALE, Apart from the common core subjects, some engineering subjects are included in the diploma, course of electrical engineering. One of these subjects is Elementry Mech. Engg. to impart, some necessary knowledge and skill about mechanical nature. Inclusion of the subject is, further justified by the fact that in practical field, any job of electrical and civil technician is, intermingled with either civil or mechanical engineering. As such the relevant basic topics of, these disciplines are included in the content of the subject., Some study exercises along with some field work have been suggested to give feel of jobs, and equipments involved., LEARNING OUTCOMES, After undergoing the subject, the students will be able to:, •, •, •, •, •, •, •, , Apply Thermodynamics Laws., Use of various energy sources., Solve basics problems related to fuel and combustion., Have an idea of loading on machine components., Explain the application of different types of bearings., Explain the uses of different types of gears and springs., Explain the working principle of different lubrication systems., SECTION A - MECHANICAL ENGINEERING, DETAILED CONTENTS, , 1., , Thermal Engineering, , (14 periods), , 1.1 Sources of Energy, Definition, Concept of thermodynamic system and surroundings, Closed system, Open, system, Isolated system, Thermodynamics definition of work.Zeroth law of, thermodynamics, Basic ideas, conventional and nonconventional forms- Thermal,, wind, Solar, Biomass and Nuclear and their uses., , Hydel, Tidal,, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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69, , 1.2 Fuels & Combustion:, Combustion of fuels- their higher and lower calorific values. Combustion equations, for carbon, sulphur, hydrogen and their simple compounds. Calculation of, minimum amount of air required for complete combustion. Combustion analysis n, mass basis and on volume basis. Concept of excess, air in a boiler furnace, combustion. Heat carried away by flue gases. Analysis of flue gases by Orsat, apparatus. Simple numerical problems, Idea of specific properties of liquid fuels such as detonation, knock resistance, (cetane and octane numbers), viscosity, solidification point, flash point and flame, point., 2. Machine Components, , (20 periods), , Brief idea of loading on machine components., (i) Pins, Cottor and Knuckle Joints., (ii) Keys, Key ways and spline on the shaft., (iii)Shafts, Collars, Cranks, Eccentrics., (iv) Couplings and Clutches., (v) Bearings-Plane, Bushed, Split-step, ball, Roller bearing, Journal bearing, Foot step, bearing, thrust bearing, collar bearing and Special type bearings and their, applications., (vi) Gears, Different types of gears, gear trains and their use for transmission of motion., Determination of velocity ratio for spur gear trains; spur gear, single and double, helical gears, Bevel gears, Mitre wheel, worms,, Rack and Pinion. Simple and, compound and epicyclic gear trains and their use. Definition of pitch and pitch, circle & module., (vii) Springs, Compression, Tension, Helical springs,Torsion springs, Leaf and Laminated springs., Their use and material., 3. Lubrication, , (08 periods), , Different lubrication system for lubricating the components of machines., Principle of working of wet sump and dry sump system of lubrication. ( Explain with, simple line diagram). Selection of lubricant based on different application (Requirement, with the help of manufacturer catalogue)., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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70, , SECTION B : CIVIL ENGINEERING, 4., , Construction Materials, , (06 periods), , Properties and uses of various construction materials such as stones, bricks, lime, content, and timber with their properties, physical/field testing, elements of brick masonry., 5., , Foundations, 5.1, 5.2, , 6., , (08 periods), , Bearing capacity of soil and its imporance, Types of various foundations and their salient features, suitability of various, foundations for heavy, light and vibrating machines., , Concrete, , (08 periods), , Various ingredients of concrete, different grades of concrete, water cement ratio,, workability, physical/field testing of concrete, mixing of concrete, placing and curing of, concrete.., 7., , RCC, , (06 periods ), , Basics of reinforced cement concrete and its use (elementary knowledge), introduction to, various structural elements of a building., Note:While imparting instructions, teachers are expected to lay more emphasis on concepts, and principles. It will be better if the classes for general engineering are conducted by, organized demonstrations for explaining various concepts and principles., LIST OF PRACTICALS, 1., 2., 3., 4., 5., 6., 7, , Study and Sketch of Pins and Cottor, Study and Sketch of Keys and Key ways, Study and sketch of Couplings andClutches, Study and Sketch of Bearings, Study and Sketch of Springs, Study of green energy, Testing of bricks, a) Shape and size, b) Soundness test, c) Water absorption, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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71, , 8, , 9, , d) Crushing strength, Testing of concrete, a) Slump test, b) Compressive Strength of concrete cube, The students should be taken to different construction sites to show them various, construction materials, concreting process and construction of RCC structural elements,, foundations and other civil works., , INSTRUCTIONAL STRATEGY, Teachers should lay emphasis on basic principles and use charts in class, visits to labs and, industry may be arranged to demonstrate certain materials and practices., MEANS OF ASSESSMENT, -, , Sessional Tests, End term Tests, Practicals, Viva-Voce, , RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., 7., 8., , Textbook of Concrete Technology 2nd Edition, by Kulkarni, PD Ghosh TK and Phull,, YR; New Age International(P) Ltd, Publishers, New Delhi, Materials of Construction by Ghosh; Tata McGraw Hill Publishing Co. Ltd., New Delhi, Civil Engineering Materials by TTTI, Chandigarh; Tata McGraw Hill Publishing Co., Ltd., New Delhi, Concrete Technology by J.Jha and Sinha; Khanna Publishers, Delhi, Building Construction by Jha and Sinha; Khanna Publishers, Delhi, Building Construction by Vairani and Chandola; Khanna Publishers, Delhi, Civil Engineering Materials by SV Deodhar and Singhai; Khanna Publishers, New, Delhi, Soil Mechanics and Foundation Engineering by SK Garg; Khanna Publishers, New, SUGGESTED DISTRIBUTION OF MARKS, Topic, 1., 2., 3., 4, , Time Allotted, (Periods), 14, 20, 08, 06, , Marks Allotted, (%), 20, 28, 12, 08, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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72, , 5, 6, 7, Total, , 08, 08, 06, 70, , 2.5, , 12, 12, 08, 100, , ANALOG ELECTRONICS, L T P, 4 - 4, , RATIONALE, At present, electronic gadgets are being extensively used in various manufacturing processes, in industries, power system operations, communication systems, computers etc. Even for an, electrical diploma holder, it is absolutely necessary to have a basic understanding of electronic, components, their function and applications. This understanding should facilitate in operation, and maintenance equipment, which are electronically controlled., In this course, topics like semi-conductor Diodes, Bipolar transistors, rectifiers, single stage, and multistage amplifiers and field effect transistors have been included., LEARNING OUTCOMES, After undergoing the subject, students will be able to:, •, •, •, •, •, •, , Use P.N. junction as rectifier, Use Zener diode as voltage stabilizer, Use bi-polar transistors and its application as an amplifier and as a switch, Analyse amplifier and enhance the gain of amplifier, Use unipolar transistors as amplifier, Identify and testing of various active and passive components such as resistor, inductor,, capacitor, diode and transistor, DETAILED CONTENTS, , 1., , Semiconductor Diodes, 1.1, , 1.2, , (12 periods), , PN Junction, mechanism of current flow in PN junction, drift and diffusion, currents, depletion layer, potential barrier, effect of forward and reverse biasing, in a PN junction. Concept of junction capacitance in forward and reverse biased, conditions. Breakdown mechanism, Ideal diode, Semiconductor diode characteristics, static and dynamic resistance, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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73, , 1.3, 1.4, 1.5, 1.6, , 1.7, 1.8, 2, , Bi-polar Transistors, 2.1, 2.2, , 3., , 3.2, , 3.3, 3.4, , 4.2, 4.3, 4.4, 4.5, 4.6, 4.7, 4.8, , (10 periods), , Transistor biasing, its need, operating point, effect of temperature on the, operating point of a transistor and need of stabilization of operating point., Different biasing circuits, limitations, simple problems to calculate operating, point in different biasing circuits. Use of Thevenin’s theorem to determine, operating point, Concept of h-parameters of a transistor, Use of data book to know the parameters of a given transistor, , Single-Stage Transistor Amplifiers, 4.1, , (06 periods), , Concept of junction transistor, PNP and NPN transistors, their symbols and, mechanism of current flow, Transistor configurations: common base (CB), common emitter (CE) and, common collector (CC), current relation and their input/output characteristics;, comparison of the three configurations, , Transistor Biasing and Stabilization, 3.1, , 4., , Use of diode as half wave and full wave rectifiers (centre tapped and bridge, type), relation between DC output and AC input voltage, efficiency of rectifier, Concept of ripples, filter circuits – shunt capacitor, series inductor, and pie (π), filters and their applications, Diode ratings/specifications, Various types of diodes such as zener diode, varactor diode, schottky diode,, light emitting diode, tunnel diode, photo diode; their working characteristics and, applications, Zener diode and its characteristics, Use of zener diode for voltage stabilization, , (10 periods), , Single stage transistor amplifier circuit in CE configuration, function of each, component, Working of single stage transistor amplifier, physical and graphical explanation,, phase reversal, Concept of DC and AC load line, Voltage gain of single stage transistor amplifier using characteristics of the, device, Concept of input and output impedance, AC equivalent circuit of single stage transistor amplifiers, Calculation of voltage gain using AC equivalent circuit, Frequency response of a single stage transistor amplifier, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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74, , 5., , Multi-Stage Transistor Amplifiers, 5.1, 5.2, 5.3, 5.4, 5.5, 5.6, , 6., , Need of multi-stage transistor amplifiers – different types of couplings, their, purpose and applications., Knowledge of various terms such as voltage gain, current gain, power gain,, frequency response, decibel gain and band width, RC coupled two-stage amplifiers, circuit details, working, frequency response,, applications, Loading effect in multistage amplifiers, Elementary idea about direct coupled amplifier, its limitations and applications, Transformer coupled amplifiers, its frequency response. Effect of co-efficient of, coupling on frequency response. Applications of transformer coupled amplifiers, , Field Effect Transistor (FET), 6.1, 6.2, 6.3, 6.4, , (10 periods), , (08 periods), , Construction, operation, characteristics and applications of a N channel JFET, and P channel JFET, JFET as an amplifier, Types, construction, operation, characteristics and applications of a MOSFET, Comparison between BJT, JFET and MOSFET, , LIST OF PRACTICALS, 1., , 2., 3., , 4., 5., 6., 7., 8., , a) Identification and testing of electronic components such as resistor, inductor,, capacitor, diode, transistor and different types of switches used in Electronic circuits, b) Measurement of resistances using multimeter and their comparison with colour code, values, To plot V-I characteristics of a Semiconductor diode and to calculate its static and, dynamic resistance, a) To plot V-I characteristics of a zenor diode and finding its reverse breakdown, voltage, b) Fabrication of a zenor diode voltage stabilizer circuit using PCB, Observation of input and output wave shapes of a half-wave rectifier and verification of, relationship between dc output and ac input voltage, Observation of input and output wave shapes of a full wave rectifier and verification of, relationship between dc and ac input voltage, Observation of input and output wave shapes of a full wave rectifier with (i) shunt, capacitor) (ii) series inductor (iii) Π filter circuits, Plotting input and output characteristics of a transistor in CB configuration, Plotting input and output characteristics of a transistor in CE configuration, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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75, , 9., , Measurement of operating point in case of (i) fixed biased circuit (ii) potential divider, biasing circuit and to observe the effect of temperature variation on the operating point., , INSTRUCTIONAL STRATEGY, This subject gives the knowledge of fundamental concepts of basic electronics. The teacher, should give emphasis on understanding of concepts and various term used in the subject. The, students be made familiar with diodes, transistors, resistors, capacitors, inductors etc. and, electrical measuring instruments etc. Practical exercises will reinforce various concepts., Application of Semiconductor Diodes, Transistors, Field Effect Transistors etc must be told to, students., MEANS OF ASSESSMENT, -, , Assignments and quiz/class Tests, Midterm and End-term tests, Laboratory and Practical work, Presentations, Viva-Voce, , RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., , Basic Electronics and Linear Circuit by NN Bhargava, Kulshreshta and SC Gupta, Tata, McGraw Hill Education Pvt Ltd, New Delhi., Principles of Electrical and Electronics Engineering by VK Mehta; S Chand and Co.,, New Delhi, Electronics Devices and Circuits by Millman and Halkias; McGraw Hill., Electronic Devices and Circuits by Dharma Raj Cheruku and Battula Tirumala Krishna:, Pearson Education (Singapore) Pvt Ltd., Indian Branch, 482 F.I.E Patparganj, Delhi- 92, Basic Electronics by JB Gupta, SK Kataria and Sons, New Delhi, Electronics Devices and circuit by Boylested, Tata McGraw Hill, New Delhi, , SUGGESTED DISTRIBUTION OF MARKS, Topic No., 1, 2, 3, 4, 5, , Time Allotted, (Periods), 12, 06, 10, 10, 10, , Marks Allocation, (%), 21, 11, 18, 18, 18, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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76, , 6, Total, , 08, 56, , 14, 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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77, , 2.6 GENERAL WORKSHOP PRACTICE –II, (Common for Civil Engineering, Electrical Engineering and Chemical Engineering ), L T P, - - 8, RATIONALE, In order to have a balanced overall development of diploma engineers, it is necessary to, integrate theory with practice. General workshop practices are included in the curriculum in, order to provide hands-on experience about use of different tools and basic manufacturing, practices. This subject aims at developing general manual and machining skills in the students., In addition, the development of dignity of labour, safety at work place, team working and, development of right attitude are the other objectives., LEARNING OUTCOMES, After completing the course, the students will be able to:, •, •, •, •, •, •, •, •, , Identify tools and equipment used and their respective functions., Identify different types of materials and their basic properties., Use and take measurements with the help of basic measuring tools/equipment., Select proper tools for a particular operation., Select materials, tools, and sequence of operations to make a job as per given, specification/drawing., Prepare simple jobs independently and inspect the same., Follow safety procedures and precautionary measures., Use safety equipment and Personal Protection Equipment., DETAILED CONTENTS (PRACTICAL EXERCISES), , Note:, , The students are supposed to come in proper workshop dress prescribed by the, institute. Wearing shoes in the workshop(s) is compulsory. Importance of safety and, cleanliness, safety measures and upkeep of tools, equipment and environment in each, of the following shops should be explained and practiced. The students should, prepare sketches of various tools/jobs in their practical Notebook., , The following shops are included in the syllabus:, 1, 2, 3, 4, , Fitting Shop, Sheet Metal Shop, Mason Shop, Machine Shop, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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78, , 1., , FITTING SHOP, , 1.1, 1.2, 1.3, 1.4, 1.5, 1.6, , Use of personal protective equipment and safety precautions while working., Basic deburring processes., Introduction to fitting shop tools, marking and measuring devices/equipment., Identification of materials. (Iron, Copper, Stainless Steel, Aluminium etc.), Identification of various steel sections (flat, angle, channel, bar etc.)., Introduction to various fitting shop operations/processes (Hacksawing, Drilling,, Chipping and Filing)., Job Practice, , 1.7, , Job I Marking of job, use of marking tools, filing and use of measuring, instruments. (Vernier caliper, Micrometer and Vernier height gauge)., Job II Filing a rectangular/square piece to maintain dimensions within an, accuracy of ±.25 mm., Job IIIMaking a cut-out from a square piece of MS flat using hand hacksaw, and chipping, Job IV Drilling and tapping practice on MS Flat., , 2. SHEET METAL SHOP, 2.1., , 2.2, 2.3, 2.4, , 2.5, 2.6, , 3, , Introduction to sheet metal shop, use of hand tools and accessories e.g. different, types of hammers, hard and soft mallet, sheet and wire gauge, necessary allowance, required during job fabrication, selection of material., Introduction and demonstration of hand tools used in sheet metal shop., Introduction and demonstration of various machines and equipment used in sheet, metal shop e.g. Shearing Machine, Bar Folder, Burring Machine,, Introduction and demonstration of various raw materials used in sheet metal shop, e.g. black-plain sheet, galvanized-iron plain sheet, galvanised corrugated sheet,, aluminium sheet etc., Study of various types of nuts, bolts, rivets, screws etc., Job Practice, Job I: Shearing practice on a sheet using hand shears., Job II: Practice on making Single riveted lap joint/Double riveted lap Joint., Job III :Practice on making Single cover plate chain type, zig-zag type and, single rivetted Butt Joint., MASON SHOP, , 3.1., , Introduction and importance of Mason shop, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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79, , 4, , 3.2., , Introduction of tools, equipment and machines used in Mason shop, , 3.3., , Job Practice, Job I : Preparation of simple bond, Job II : Preparation of Arched bond, Job III: Preparation of RCC structure (column and beam), , MACHINE SHOP, 4.1, 4.2, 4.3, 4.4, , Study and sketch of lathe machine, Study and Sketch of grinders, milling machine, drilling machine and CNC, machine., Plain and step turning and knurling practice., Study and sketch of planning/shaping machine and to plane a rectangle of cast, iron., , MEANS OF ASSESSMENT, −, −, , Workshop jobs, Report writing, presentation and viva voce, , RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., 7., , Workshop Technology I,II,III, by SK Hajra, Choudhary and AK Choudhary; Media, Promoters and Publishers Pvt. Ltd. Mumbai., Workshop Technology Vol. I, II, III by Manchanda; India Publishing House, Jalandhar., Workshop Training Manual Vol. I, II by S.S. Ubhi; Katson Publishers, Ludhiana., Manual on Workshop Practice by K Venkata Reddy; MacMillan India Ltd., New Delhi, Basic Workshop Practice Manual by T Jeyapoovan; Vikas Publishing House (P) Ltd.,, New Delhi, Workshop Technology by B.S. Raghuwanshi; Dhanpat Rai and Co., New Delhi, Workshop Technology by HS Bawa; Tata McGraw Hill Publishers, New Delhi., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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80, , 3.1, , APPLIED MATHEMATICS –III, L, 5, , T, -, , P, -, , RATIONALE, Contents of this course provide understanding of some elementary and advanced mathematics, algorithms and their applications of solving engineering problems. Content of this course will, enable students to use some advanced techniques like Beta-Gamma function, Fourier series,, Laplace transform and probability distributions in solving complex engineering problems., , LEARNING OUTCOMES, After undergoing this course, the students will be able to:, •, •, •, •, •, •, •, •, , Understand matrix operations and uses of matrix in different problems., Apply elementary row and column operations in finding inverse of a matrix., Find Eigen values, Eigen vectors of a matrix and their different properties., Understand degree/order of differential equations and their solution techniques., Use differential equations in engineering problems of different areas., Find Fourier series expansion of a function, Apply Laplace transform and their applications in solving engineering problems., Understand concept of probability distribution and their applications., , DETAILED CONTENTS, 1. Matrices, , (16 Periods), , 1.1, , Algebra of Matrices, Inverse, Addition, Multiplication of matrices, Null matrix and a unit matrix, Square matrix,, Symmetric, Skew symmetric, Hermitian, Skew hermition, Orthagonal, Unitary,, diagonal and Triangular matrix, Determinant of a matrix., Definition and Computation of inverse of a matrix., , 1.2, , Elementry Row/Column Transformation, Meaning and use in computing inverse and rank of a matrix., , 1.3, , Linear Dependence, Rank of a Matrix, Linear dependence/independence of vectors, Definition and computation of rank, of matrix. Computing rank through determinants, Elementary row transformation, and through the concept of a set of independent vectors, Consistency of equations., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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81, , 1.4, , 2., , Differential Calculus, 2.1, 2.2, , 2.3, , 3., , 3.2, , 3.3, , 3.4, , 4.2, 4.3, , 5., , (15 Periods), , Formation, Order, Degree, Types, Solution, Formation of differential equations through physical,, geometrical,, mechanical and electrical considerations, Order, Degree of a differential equation,, Linear, nonlinear equation., First Order Equations, Variable seperable, equations reducible to seperable forms, Homogeneous, equtions, equations reducible to homogeneous forms, Linear and Bernoulli, form exact equation and their solutions., Higher Order Linear Equation :, Property of solution, Linear differential equation with constant coefficients, (PI for X= ax, Sinax, Cosax, Xn, axV, XV, Simple Applications, LCR circuit, Motion under gravity, Newton's law of cooling,, radioactive, decay, Population growth, Force vibration of a mass point attached to spring, with and without damping, effect. Equivalence of electrical and mechanical, system, , Integral Calculus-II, 4.1, , (15 Periods), , Function of two variables, identification of surfaces in space, conicoids, Partial Differentiation, Directional derivative, Gradient, Use of gradient f, Partial derivatives, Chain, rule, Higher order derivatives, Euler’s theorem for homogeneous functions,, Jacobians., Vector Calculus, Vector function, Introduction todouble and triple integral,differentiation and, integration of vector functions, gradient, divergence and curl, differential, derivatives., , Differential Equation, 3.1, , 4., , Eigen Pairs, Cayley-Hamilton Theorem, Definition and evaluation of eign values and eign vectors of a matrix of order two, and three, Cayley-Hamilton theorem (without Proof)and its verification, Use in, finding inverse and powers of a matrix., , (12 Periods), , Beta and Gamma Functions, Definition, Use, Relation between the two, their use in evaluating integrals., Fourier Series, Fourier series of f(x),-n<x<n, Odd and even function,Half range series., Laplace Transform, Definition, Basic theorem and properties, Unit step and Periodic functions,, inverse laplace transform, Solution of ordinary differential equations, , Probability and Statistics, , (12 Periods), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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82, , 5.1, 5.2, , Probability, Introduction, Addition and Multiplication theorem and simple problem., Distribution, Discrete and continuous distribution, Bionimal Distribution, Poisson, distribution, Normal Distribution., , INSTRUCTONAL STRATEGY, The content of this course is to be taught on conceptual basis with plenty of real world, examples. The basic elements of Laplace transform, Differential equations and Applications of, differential equations can be taught with engineering applications of relevant branch., MEANS OF ASSESSMENT, −, −, −, , Assignments and Quiz/Class Tests, Mid-term and End-term Written Tests, Model/Prototype Making, , RECOMMENDED BOOKS, 1., 2., 3, 4., 5., , Elementary Engineering Mathematics by BS Grewal, Khanna Publishers, New Delhi, Engineering Mathematics, Vol I & II by SS Sastry, Prentice Hall of India Pvt. Ltd.,, Applied Mathematics-III by Chauhan and Chauhan, Krishna Publications, Meerut., Applied Mathematics-II by Kailash Sinha and Varun Kumar; Aarti Publication,, Meerut., E-books/e-tools/relevant, software to be used as recommended, by, AICTE/UBTE/NITTTR, Chandigarh., , SUGGESTED DISTRIBUTION OF MARKS, Topic, , Time Allotted, (Periods), , Marks Allotted, (%), , 1., , 16, , 24, , 2., , 15, , 20, , 3., , 15, , 20, , 4, , 12, , 18, , 5, , 12, , 18, , Total, , 70, , 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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83, , 3.2 ELECTRICAL INSTRUMENTATION AND MEASUREMENT, L T P, 6 - 4, RATIONALE, Diploma holders in Electrical Engineering have to work on various jobs in the field as well as, in testing laboratories and on control panels, where he performs the duties of installation,, operation, maintenance and testing by measuring instruments. Persons working on control, panels in power plants, substations and in industries will come across the use of various types, of instruments and have to take measurements., Instruments used to read and observe the general electrical quantities like current, voltage,, power, energy, frequency, resistance etc and their wave shapes, have been incorporated in this, subject. So the technician will know the construction and use of various types of electrical, instruments., LEARNING OUTCOMES, After undergoing the subject, student will be able to:, •, •, •, •, •, •, •, •, , Connect and repair different indicating and recording instruments in electric circuits, Measure different electrical quantities like current, voltage, power, energy, power, factor, frequency etc., Select the type and range of instruments to be used for the job, Operate CT (Current Transformer) and PT (Potential Transformer) for measurement, Select and use suitable sensors for measurements of different non-electrical quantities, Use instruments for measuring different electrical quantities, Use sensors for measuring non electrical quantities, Operate on smart metering system in industry, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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84, , DETAILED CONTENTS, 1., , Introduction to Electrical Measuring Instruments:, , (05 Periods), , 1.1, 1.2, , 2., , Concept of measurement and instruments, Concept of measurement of electrical quantities and instruments for their, measurements, sources of error., 1.3, Types of electrical measuring instruments – indicating, integrating and, recording type instruments, 1.4, Essentials of indicating instruments – deflecting, controlling and damping, torque, Ammeters and Voltmeters (Moving coil and moving iron type), (06 Periods), 2.1, 2.2, 2.3, , 3., , Concept of ammeter and voltmeters and difference between them, Construction and working principles of moving Iron and moving coil, instruments, Merits and demerits, sources of error and application of these instruments, , Wattmeters (Dynamometer Type), , (06 Periods), , Construction, working principle, merits and demerits of dynamometer type wattmeter,, Digital wattmeters., 4., , Energymeter, 4.1, , 5., , (10 Periods), , 4.2, 4.3, 4.4, , Induction Type: Construction, working principle, merits and demerits of singlephase and three-phase energy meters, Errors and their compensation, Simple numerical problems, Construction and working principle of maximum demand indicators, , 4.5, , Digital energy meter (diagram, construction and application), , Miscellaneous Measuring Instruments:, 5.1, , 5.2, , (18 Periods), , Construction, working principle and application of Meggar, Earth tester(analog, and digital) Multimeter, Frequency meter (dynamometer type) single phase, power factor meter (Electrodynamometer type). Working principle of, synchroscope and phase sequence indicator, tong tester (Clamp-on meter), Instrument Transformers: Construction, working and applications, a), CT, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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85, , b), 6., , Electronic Instruments:, 6.1, 6.2, , 7., , PT, (06 Periods), , Cathode Ray Oscilloscope: Block diagram, working principle of CRO and its, various controls. Applications of CRO., Digital multi-meter (only block diagram) and Applications, , LCR meters., , (04 Periods), , Study of LCR meters and their applications, , 8., , Power Measurements in 3-phase circuits by, , (04 Periods), , 8.1 Two wattmeter method in balanced and unbalanced circuits and simple problems, 8.2 Three wattmeter method, 9., , Transducers, , (10 Periods), , Introduction, Types of Transducers (1 phase,3 phase), Basic concept of pressure measurement, flow measurement, level measurement,, displacement measurement using transducers, 10., , Measurement of Temperature, , (09 Periods), , Different types of thermometers, thermocouple, resistance temperature detector and, their construction, principle and working. Thermal Imager Camera (Concept), 11., , Smart Metering System, , (06 Periods), , AMI (Advance Metering Infrastructure), Functions of AMI, cyber Security,, Advantages, Smart Meter Technology: AMR (Automatic Metering Reading), inverse/reverse, metering system in solar power plant, MRI (Meter Reading Instrument), LIST OF PRACTICALS, 1., 2., , Use of analog and digital multimeter for measurement of voltage, current (A.C/D.C), and resistance, Measurement of pressure by using LVDT, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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86, , 3., 4., 5., 6., 7., 8., 9., 10., 11., 12., , To measure the value of earth resistance using earth tester., To measure power, power factor in a single-phase circuit, using wattmeter and power, factor meter and to verify results with calculations., Measurement of power and power factor of a three-phase balanced load by two, wattmeter method., Measurement of voltage and frequency of a sinusoidal signal using CRO and draw, wave shape of signal., Measurement of power in a 3 phase circuit using CT, PT and 3-phase wattmeter., Use of LCR meter for measuring inductance, capacitance and resistance., To record all electrical quantities from the meters installed in the institution premises., To measure Energy at different Loads using Single Phase Digital Energy meter, Measurement of temperature by using thermister/Thermal Imager, Calibration of single phase and three-phase energy meter and digital energy meter, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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87, , INSTRUCTIONAL STRATEGY, After making the students familiar with measuring instruments, they should be made conceptually, clear about the constructional features and make them confident in making connection of various, measuring instruments. Teacher should demonstrate the application of each measuring instrument in, laboratory and encourage students to use them independently., , MEANS OF ASSESSMENT, −, −, , Assignments and quiz/class tests, mid-term and end-term written tests, model/prototype making, Actual laboratory and practical work, model/prototype making, assembly and disassembly exercises and vivavoce, , RECOMMENDED BOOKS, 1., , Electrical Measurements and Measuring Instruments by Golding and Widdis; Wheeler, Publishing House, New Delhi, 2., Electrical Measurements and Measuring Instruments by SK Sahdev, Uneek, International Publications, Jalandhar, 3., A Course in Electrical Measurement and Measuring Instruments by AK Sawhney and, PL Bhatia; Dhanpat Rai and Sons, New Delhi, 4., Electric Instruments by D. Cooper, 5., Experiments in Basic Electrical Engineering by SK Bhattacharya and KM Rastogi,, New Age International (P) Ltd., Publishers, New Delhi, 6., Electronics Instrumentation by Umesh Sinha, Satya Publication, New Delhi, 7., Basic Electrical Measurements by Melville B. Staut., 8., Electrical Measurement and Measuring Instruments by JB Gupta, SK Kataria and Sons,, New Delhi, 9., Electrical Measurement and Measuring Instruments by ML Anand, SK Kataria and, Sons, New Delhi, 10., e-books/e-tools/relevant, software, to, be, used, as, recommended, by, AICTE/UBTE/NITTTR, Chandigarh, ., Websites for Reference:, http://swayam.gov.in, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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88, , SUGGESTED DISTRIBUTION OF MARKS, Topic No., 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, Total, , Time Allotted, (Periods), 05, 06, 06, 10, 18, 06, 04, 04, 10, 09, 06, 84, , Marks Allocation, (%), 06, 08, 08, 12, 20, 08, 04, 04, 12, 10, 08, 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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89, , 3.3, , ELECTRICAL AND ELECTRONICS ENGINEERING MATERIALS, L T P, 6 - -, , RATIONALE, A diploma holder in Electrical Engineering will be involved in maintenance, repair and, production of electrical equipment and systems. In addition, he may be required to procure,, inspect and test electrical and electronic engineering materials. Knowledge of various types of, materials will be needed in order to execute the above mentioned functions. He may also have, to decide for an alternative when a particular material is either not readily available in the, market or its cost becomes prohibitive., LEARNING OUTCOMES, After undergoing the subject, students will be able to:, •, •, •, •, •, •, •, •, , Identify electrical and electronics engineering materials/component, Select proper conducting material for a particular application, Select a proper insulating material for a particular application, Suggest an alternate material if proper material is not available, Procure various electrical and electronics engineering material available in the market, Select proper magnetic material for a particular application, Make use of engineering material used for fabrication of particular electrical machine, Select gaseous material for particular application, DETAILED CONTENTS, , 1., , Classification, , (10 Periods), , Classification of materials into conducting, semi conducting and insulating materials, through a brief reference to their atomic structure and energy bands, 2., , Conducting Materials, 2.1, 2.2, 2.3, , (12 Periods), , Introduction, Resistance and factors affecting it such as alloying and temperature etc, Classification of conducting material as low resistivity and high resistivity, materials, low resistance materials, 2.3.1 Copper:, General properties as conductor: Resistivity, temperature coefficient,, density, mechanical properties of hard-drawn and annealed copper,, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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90, , corrosion, contact resistance. Application in the field of electrical, engineering., 2.3.2 Aluminium:, General properties as conductor: resistivity, temperature coefficient,, density, mechanical properties of hard and annealed aluminium,, solderability, contact resistance. Applications in the field of electrical, engineering., 2.3.3 Steel:, Mechanical properties of steel, applications in the field of electrical, engineering., 2.3.4 Introduction to bundle conductors and its applications., 2.3.5 Low resistivity copper alloys: Brass, Bronze (cadmium and Beryllium),, their practical applications with reasons for the same, 2.4, 2.5, 2.6, 3., , Applications of special metals e.g. Silver, Gold, Platinum etc., High resistivity materials and their applications e.g., manganin, constantan,, Nichrome, mercury, platinum, carbon and tungsten, Superconductors and their applications, , Review of Semi-conducting Materials, , (12 Periods), , Semi-conductors and their properties, Materials used for electronic components like, resistors, capacitors, diodes, transistors and inductors etc., 4., , Insulating materials; General Properties:, 4.1, , 4.2, , 4.3, , 4.4, 4.5, , (10 Periods), , Electrical Properties:, Volume resistivity, surface resistance, dielectric loss, dielectric strength, (breakdown voltage) dielectric constant, Physical Properties:, Hygroscopicity, tensile and compressive strength, abrasive resistance,, brittleness, Thermal Properties:, Heat resistance, classification according to permissible temperature rise. Effect, of overloading on the life of an electrical appliance, increase in rating with the, use of insulating materials having higher thermal, stability,, Thermal, conductivity, Electro-thermal breakdown in solid dielectrics, Chemical Properties:, Solubility, chemical resistance, weatherability, Mechanical properties, mechanical structure, tensile structure, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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91, , 5., , Insulating Materials and their applications:, 5.1, , Plastics, 5.1.1 Definition and classification, 5.1.2 Thermosetting materials:, Phenol-formaldehyde resins (i.e. Bakelite) amino resins, (urea, formaldehyde and Melamine-formaldehyde), epoxy resins - their, important properties and applications, 5.1.3 Thermo-plastic materials:, Polyvinyl chloride (PVC), polyethylene, silicones, their important, properties and applications, , 5.2, , Natural insulating materials, properties and their applications, Mica and Mica products, Asbestos and asbestos products, Ceramic materials (porcelain and steatite), Glass and glass products, Cotton, Silk, Jute, Paper (dry and impregnated), Rubber, Bitumen, Mineral and insulating oil for transformers switchgear capacitors,, high voltage insulated cables, insulating varnishes for coating and, impregnation, Enamels for winding wires, Glass fibre sleeves, Gaseous materials; Air, Hydrogen, Nitrogen, SF- their properties and, applications, , 5.3, , 6., , (10 Periods), , Magnetic Materials:, 6.1, , 6.2, , (10 Periods), , Introduction - ferromagnetic materials, permeability, B-H curve, magnetic, saturation, hysteresis loop including coercive force and residual magnetism,, concept of eddy current and hysteresis loss, Curie temperature, magnetostriction, effect., Soft Magnetic Materials:, 6.2.1 Alloyed steels with silicon: High silicon, alloy steel for transformers,, low silicon alloy steel for electric rotating machines, 6.2.2 Cold rolled grain oriented steels for transformer, Non-oriented steels for, rotating machine, 6.2.3 Nickel-iron alloys, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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92, , 6.2.4 Soft Ferrites, 6.3, , 7., , Hard magnetic materials, Tungsten steel, chrome steel, hard ferrites and cobalt steel, their applications, , Special Materials, , (10 Periods), , Thermocouple, bimetals, leads soldering and fuses material and their applications,, thermistor, sensistor, varistors and their practical applications., 8., , Materials for Electrical Machines, , (10 Periods), , Introduction to various engineering materials necessary for fabrication of electrical, machines such as motors, generators, transformers etc, INSTRUCTIONAL STRATEGY, The teacher should bring different materials, electronic components and devices in the class, while taking lectures and explain and make students familiar with them. Also he may give, emphasis on practical applications of these devices and components in the field. In addition,, the students should be given exercises on identification of materials used in various electronic, gadgets etc .and be encouraged to do practical work independently and confidently., MEANS OF ASSESSMENT, −, , Assignments and quiz/class tests, mid-term and end-term written tests, model/prototype making, , − Actual laboratory and practical work, model/prototype making, assembly and disassembly, exercises and viva-voce, RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., 7., 8., 9., , Electrical and Electronic Engineering Materials by SK Bhattacharya, Khanna Publishers,, New Delhi, Electronic Components and Materials by Grover and Jamwal, Dhanpat Rai and Co., New, Delhi, Electrical Engineering Materials by Sahdev, Uneek International Publications, Jalandhar, Electronic Components and Materials by SM Dhir, Tata Mc Graw Hill, New Delhi, Electrical Engineering Materials by PL Kapoor, Khanna Publishers, New Delhi, Electrical and Electronics Engineering Materials BR Sharma and Others, Satya, Parkashan, New Delhi, Electrical and Electronics Engineering Materials DR Arora, Ishan Publications, Ambala, City, Electrical Engineering Materials by Rakesh Dogra, SK Kataria and Sons, NEW Delhi, E-books/e-tools/relevant, software, to, be, used, as, recommended, by, AICTE/UBTE/NITTTR, Chandigarh., , Websites for Reference:, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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93, , http://swayam.gov.in, SUGGESTED DISTRIBUTION OF MARKS, Topic No, 1., 2., 3., 4., 5., 6., 7., 8., Total, , Time Allotted, (Periods), 10, 12, 12, 10, 10, 10, 10, 10, 84, , Marks Allocation, (%), 12, 14, 14, 12, 12, 12, 12, 12, 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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94, , 3.4, , DIGITAL ELECTRONICS, L T P, 5 - 4, , RATIONALE, Digital electronics has made extremely rapid advances in the last five decades. It has important, applications in communication entertainment, instrumentation, control, automation etc. Thus it, appears that there is no end to its usefulness. In fact, the light and the new world belong to it., So it is necessary to give the knowledge of digital electronics to the electrical students., Microprocessor is one of the most exciting technological advancement among the, semiconductor devices in recent times. It has a tremendous impact on the Industrial processes, due to its high reliability, flexibility and control capacity both at the design and the, Implementation stages. The decreasing cost with increasing facilities act as catalysts in, widening their scope of applications., LEARNING OUTCOMES, After undergoing the subject, students will be able to:, •, •, •, •, •, •, •, •, •, •, , Add, multiply, subtract binary to hexa decimal number system, Use 1’s and 2’s compliment method for addition and subtraction, Draw the symbols of various gates and write the truth tables for those gates, Use boolean laws for the simplification of logical expressions, Use the de-morgan’s theorem for simplification, Apply K-map technique for simplifications, Apply half adder, full adder, encoder, decoder, multiplexer and demultiplexer, Use various flip-flops in digital circuits, Use converted from A/D and D/A conversions, Use various types of numbers in digital circuits, DETAILED CONTENTS, , 1., , Number Systems, 1.1, 1.2, 1.3, , 2., , Gates, , (10 Periods), , Decimal, binary, octal and hexa-decimal number systems and their interconversion, Binary and Hexadecimal addition, subtraction and multiplication, 1’s and 2’s complement methods of addition/subtraction, (08 Periods), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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95, , 3., , Definition, symbol and truth tables for inverter, OR, AND, NAND, NOR and X-OR, exclusive-AND gates, Boolean Algebra, (12 Periods), 3.1, 3.2, 3.3, , 4., , Combinational Circuits, 4.1, 4.2, 4.3, 4.4, , 5., , Boolean Relations and their applications, DeMorgan’s Theorems, K-Map upto four variables, , Half adder, Full adder, Encoder, Decoder, Multiplexer/Demultiplexer, Display Devices (LED, LCD and 7-segment display), , Flip-Flops, 5.1, 5.2, 5.3, 5.4, 5.5, , (12 Periods), , (09 Periods), , J-K Flip-Flop, R-S Flip-Flop, D-Type Flip-Flop, T-Type Flip-Flop, Applications of Flip-Flops, , 6., , Introduction of Shift Registers and Counters, , (08 Periods), , 7., , A/D and D/A Converters, , (06 Periods), , 7.1 A/D converter (Counter ramp, successive approximation method of A/D Conversion), , 7.2, 8., , D/A converters (Binary weighted, R-2R D/A Converter), , Semi-conductor Memories, 8.1, 8.2, 8.3, , (05 Periods), , Types of semi-conductor memories: RAM, ROM, EPROM, EEPROM, Static and dynamic RAM, Merits, demerits, and applications, , LIST OF PRACTICALS, 1., 2., 3., 4., , Verification and interpretation of truth table for AND, OR, NOT, NAND, NOR, X-OR, gates, Construction of Half Adder using gates, Construction of Full Adder using gates, To verify the truth table for JK flipflop, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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96, , 5., , Construction and testing of any counter, , 6., , Verification of operation of a 8-bit D/A Converter, , INSTRUCTIONAL STRATEGY, The digital systems in microprocessors have significant importance in the area of electronics. Adequate, competency needs to be developed by giving sufficient practical knowledge in microprocessors, (programming as well as interfacing), A/D, D/A converters and other Topics. Help may be taken in the, form of charts, simulation packages to develop clear concepts of the subject. More emphasis while, teaching this subject should be given on practical aspects along with the theory input. Lots of, programming exercises may be given to the students. Mini projects based on microprocessor, operations may be identified and given to students as assignments., , RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., 7., , Modern Digital Electronics by RP Jain, Tata McGraw Hill, Education Pvt. Ltd. New, Delhi, Digital Principles and Electronics by Malvino and Leach, Tata McGraw Hill, New, Delhi, Digital Electronics by SN Ali, Digital Electronics by Rajive Sapra, Eshan Publications, Ambala City, Digital Fundamentals by Floyd and Jain , Pearsons Education (Singapore) Pte Ltd, Patparganj, Delhi 110092, Digital Electronics by Jamwal, Dhanpat Rai and Co. New Delhi, E-books/e-tools/relevant, software, to, be, used, as, recommended, by, AICTE/UBTE/NITTTR, Chandigarh., SUGGESTED DISTRIBUTION OF MARKS, Topic No., 1., , 2., 3., 4., 5., 6., 7., 8., Total, , Time Allotted, (Periods), 10, 08, 12, 12, 09, 08, 06, 05, 70, , Marks Allotted, (%), 15, 12, 16, 16, 14, 12, 08, 07, 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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97, , 3.5, , ELECTRICAL MACHINES - I, L T, 6 -, , P, 4, , RATIONALE, Electrical machines is a subject where a student will deal with various types of electrical, machines which are employed in industries, power stations, domestic and commercial, appliances etc. After studying this subject, an electrical diploma holder must be competent to, repair and maintain these machines and give suggestions to improve their performance., Practical aspects of the subject will make the students capable of performing various tests on, the machines as per latest BIS specifications, LEARNING OUTCOMES, After undergoing the subject, students will be able to:, •, •, •, •, •, •, •, •, •, , Operate and maintain D.C. Generator, Operate and maintain D.C. shunt, series and compound motors, Execute speed control on D.C. Motors, Select which type of D.C. motor suits a particular job, Connect and use single phase transformer, Operate auto transformers, Conduct open CKT and short CKT tests on a single phase transformer, Test polarity of windings of a three phase transformer and connect windings in, various configurations, Operate and maintain three phase transformers, DETAILED CONTENTS, , 1., , Introduction to Electrical Machines, 1.1, 1.2, 1.3, 1.4, 1.5, 1.6, , (20 Periods), , Definition of motor and generator, Torque development due to alignment of two fields and the concept of torque, angle, Electro-magnetically induced emf, Elementary concept of an electrical machine, Comparison of generator and motor, Generalized theory of electrical machines, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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98, , 2., , DC Machines, 2.1, 2.2, 2.3, 2.4, 2.5, 2.6, 2.7, 2.8, 2.9, 2.10, 2.11, 2.12, 2.13, 2.14, 2.15, 2.16, 2.17, , 3., , Main constructional features, Types of armature winding, Function of the commutator for motoring and generation action, Factors determining induced emf, Factors determining the electromagnetic torque, Various types of DC generators, Significance of back e.m.f., the relation between back emf and Terminal voltage, Armature Reaction, Methods to improve commutation, Performance and characteristics of different types of DC motors, Speed control of dc shunt/series motors, Need of starter, three point dc shunt motor starter and 4 point starter, Electric Braking, Applications of DC motors, Faults in dc machines and their retrospective, Losses in a DC machine, Determination of losses by Swinburne’s test, Rating and Specifications of DC machines, , Single Phase Transformer, 3.1, 3.2, 3.3, 3.4, 3.5, 3.6, 3.7, 3.8, 3.9, 3.10, 3.11, 3.12, 3.13, 3.14, 3.15, , (25 Periods), , (25 Periods), , Introduction, Constructional features of a transformer and parts of transformer, Working principle of a transformer, EMF equation, Transformer on no-load and its phasor diagram, Transformer – neglecting voltage drop in the windings – Ampere turn balance –, its phasor diagram, Mutual and leakage fluxes, leakage reactance, Transformer on load, voltage drops and its phasor diagram, Equivalent circuit diagram, Relation between induced emf and terminal voltage, voltage regulation of a, transformer- mathematical relation, Losses in a transformer, Open circuit and short circuit test. Calculation of efficiency, condition for, maximum efficiency-maintenance of Transformer, scheduled Maintenance, Auto transformer construction, working and applications, Different types of transformers including dry type transformer., Rating and Specifications of single phase transformer, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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99, , 4., , Three Phase Transformer, 4.1, , 4.2, 4.3, 4.4, 4.5, 4.6, 4.7, 4.8, , (14 Periods), , Construction of three phase transformers and accessories of transformers such, as Conservator, breather, Buchholtz Relay, Tap Changer (off load and on load), (Brief idea), Types of three phase transformer i.e. delta-delta, delta-star, star-delta and starstar, Star delta connections (relationship between phase and line voltage, phase and, line current), Conditions for parallel operation (only conditions are to be studied), On load tap changer, Difference between power and distribution transformer, Cooling of transformer, Rating and Specifications of three phase transformers, , LIST OF PRACTICALS, 1., , 2., 3., 4., 5., , 6., 7., 8., , To measure the angular displacement of rotor of the three phase synchronous machine, with respect to the stator on application of DC to the field winding and simultaneously, to each phase-winding in sequence, OR, Measurement of the angular displacement of the rotor of a slip-ring induction motor on, application of DC to stator of motor winding in sequence and simultaneously to each, phase of rotor winding, Speed control of DC shunt motor (i) Armature control method (ii) Field control method, Study of DC series motor with starter (to operate the motor on no load for a moment), Determine efficiency of DC motor by Swinburne’s Test at (i) rated capacity (ii) half, full load, To perform open circuit and short circuit test for determining: (i) equivalent circuit (ii), the regulation and (iii) efficiency of a transformer from the data obtained from open, circuit and short circuit test at full load, To find the efficiency and regulation of single phase transformer by actually loading it., Checking the polarity of the windings of a three phase transformer and connecting the, windings in various configurations, Finding the voltage and current relationships of primary and secondary of a three phase, transformer under balanced load in various configurations conditions such as, (a), Star-star, (b), Star-delta, (c), Delta-star, (d), Delta - Delta configuring conditions., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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100, , INSTRUCTIONAL STRATEGY, Electrical machines being a core subject of electrical diploma curriculum, where a student will, deal with various types of electrical machines which are employed in industry, power stations,, domestic and commercial appliances etc. After studying this subject, an electrical diploma, holder must be competent to repair and maintain these machines and give suggestions to, improve their performance. Special care has to be taken on conceptual understanding of, concepts and principles in the subject. For this purpose exposure to industry, work places, and, utilization of various types of electrical machine for different applications may be emphasized., Explanation of practical aspects of the subject will make the students capable of performing, various tests on the machines as per latest BIS specifications., MEANS OF ASSESSMENT, −, −, , Assignments and quiz/class tests, mid-term and end-term written tests, Actual laboratory and practical work, model/prototype making, assembly and disassembly exercises and vivavoce, , RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., 7., , Electrical Machines by SK Bhattacharya, Tata Mc Graw Hill, Education Pvt Ltd. New, Delhi, Electrical Machine by B.L. Thareja, S. Chand Publication, New Delhi., Electrical Machines by SK Sahdev, Uneek Publications, Jalandhar, Electrical Machines by Nagrath and Kothari, Tata Mc Graw Hill, New Delhi, Electrical Machines by JB Gupta, SK Kataria and Sons, New Delhi, Electrical Machines by Smarajit Ghosh-Pearson Publishers, Delhi., e-books/e-tools/relevant, software, to, be, used, as, recommended, by, AICTE/UBTE/NITTTR, Chandigarh., , Websites for Reference:, http://swayam.gov.in, SUGGESTED DISTRIBUTION OF MARKS, Topic No., Time Allotted, Marks Allocation, (Periods), (%), 1., 20, 10, 2., 25, 35, 3., 25, 35, 4., 14, 20, Total, 84, 100, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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101, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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102, , 3.6 ENVIRONMENTAL STUDIES, L T P, 3 - 2, RATIONALE, A diploma holder must have knowledge of different types of pollution caused due to industries, and constructional activities so that he may help in balancing the ecosystem and controlling, pollution by various co nt rol measures. He should also be aware of environmental laws related, to the control of pollution. He should know how to manage the waste. Energy conservation is, the need of hour. He should know the concept of energy management and its conservation., LEARNING OUTCOMES, After undergoing the subject, the student will be able to:, •, •, •, •, •, •, •, •, •, •, •, , Comprehend the importance of ecosystem and sustainable, Demonstrate interdisciplinary nature of environmental issues, Identify different types of environmental pollution and control measures., Take corrective measures for the abatement of pollution., Explain environmental legislation acts., Define energy management, energy conservation and energy efficiency, Demonstrate positive attitude towards judicious use of energy and environmental, protection, Practice energy efficient techniques in day-to-day life and industrial processes., Adopt cleaner productive technologies, Identify the role of non-conventional energy resources in environmental protection., Analyze the impact of human activities on the environment, DETAILED CONTENTS, , 1., , Introduction, 1.1, , 2., , 3., , (08 Periods), , Impurities in water, Cause of water pollution, Source of water pollution. Effect of water pollution, on human health, Concept of dissolved O2, BOD, COD. Prevention of water pollution- Water, treatment processes, Sewage treatment. Water quality standard., , Soil Pollution, 4.1, , (04 Periods), , Source of air pollution. Effect of air pollution on human health, economy, plant, animals. Air, pollution control methods., , Water Pollution, 3.1, , 4., , Basics of ecology, eco system- concept, and sustainable development, Resources renewable and non, renewable., , Air Pollution, 2.1, , (04 Periods), , (06 Periods), , Sources of soil pollution, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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103, , 4.2, 4.3, 4.4, , 5., , Types of Solid waste- House hold, Hospital, From Agriculture, Biomedical, Animal and human,, excreta, sediments and E-waste, Effect of Solid waste, Disposal of Solid Waste- Solid Waste Management, , Noise pollution, , (06 Periods), , Source of noise pollution, Unit of noise, Effect of noise pollution, Acceptable noise level,, Different method of minimize noise pollution., 6., , Environmental Legislation, , (08 Periods), , Introduction to Water (Prevention and Control of Pollution) Act 1974, Introduction to, Air (Prevention and Control of Pollution) Act 1981 and Environmental Protection Act, 1986, Role and Function of State Pollution Control Board and National Green Tribunal, (NGT), Environmental Impact Assessment (EIA)., 7., , Impact of Energy Usage on Environment, , (06 Periods), , Global Warming, Green House Effect, Depletion of Ozone Layer, Acid Rain. Ecofriendly Material, Recycling of Material, Concept of Green Buildings., LIST OF PRACTICALS, 1., 2., 3., 4., 5., 6., 7., 8., 9., 10., 11., 12., 13., 14., , Determination of pH of drinking water, Determination of TDS in drinking water, Determination of TSS in drinking water, Determination of hardness in drinking water, Determination of oil & grease in drinking water, Determination of alkalinity in drinking water, Determination of acidity in drinking water, Determination of organic/inorganic solid in drinking water, Determination of pH of soil, Determination of N&P (Nitrogen & Phosphorus) of soil, To measure the noise level in classroom and industry., To segregate the various types of solid waste in a locality., To study the waste management plan of different solid waste, To study the effect of melting of floating ice in water due to global warming, , INSTRUCTIONAL STRATEGY, In addition to theoretical instructions, different activities pertaining to Environmental Studies, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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104, , like expert lectures, seminars, visits to green house, effluent treatment plant of any industry,, rain water harvesting plant etc. may also be organized., MEANS OF ASSESSMENT, −, −, , Assignments and quiz/class tests,, Mid-term and end-term written tests, , RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., 7., 8., , Environmental and Pollution Awareness by Sharma BR; Satya Prakashan, New Delhi., Environmental Protection Law and Policy in India by Thakur Kailash; Deep and Deep, Publications, New Delhi., Environmental Pollution by Dr. RK Khitoliya; S Chand Publishing, New Delhi, Environmental Science by Deswal and Deswal; Dhanpat Rai and Co. (P) Ltd. Delhi., Engineering Chemistry by Jain and Jain; Dhanpat Rai and Co. (P) Ltd. Delhi., Environmental Studies by Erach Bharucha; University Press (India) Private Ltd.,, Hyderabad., Environmental Engineering and Management by Suresh K Dhamija; S K Kataria and, Sons, New Delhi., E-books/e-tools/relevant software to be used as recommended by AICTE/UBTE/NITTTR, Chandigarh., , Websites for Reference:, http://swayam.gov.in, , SUGGESTED DISTRIBUTION OF MARKS, Topic No., , Time Allotted, (Periods), , Marks Allotted, (%), , 1, , 04, , 10, , 2, , 04, , 10, , 3, , 08, , 20, , 4, , 06, , 14, , 5, , 06, , 14, , 6, , 08, , 20, , 7, , 06, , 12, , Total, , 42, , 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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105, , 4.1, , COMMUNICATION SKILLS – II, L, 4, , T P, - 2, , RATIONALE, Knowledge of English Language plays an important role in career development. This subject, aims at introducing basic concepts of communication besides laying emphasis on developing, listening, speaking, reading and writing skills as parts of Communication Skill., LEARNING OUTCOMES, After undergoing the subject, the students will be able to:, •, •, •, •, •, •, , Frame correct sentences with illustrations, Comprehend the language correctly, Interpret the language correctly, Use given material in new situations., Correspond effectively using various types of writings like letters, memos etc., Communicate effectively in English with appropriate body language making use of, correct and appropriate vocabulary and grammar in an organised set up and social, context., DETAILED CONTENTS, , 1. Functional Grammar, 1.1, Prepositions, 1.2, Framing Questions, 1.3, Conjunctions, 1.4, Tenses, , (16 periods), , 2, , (16 periods), , Reading, , 2.1, , 3, , Unseen Passage for Comprehension (Vocabulary enhancement - Prefixes,, Suffixes, one word substitution, Synonym and Antonym) based upon the, passage should be covered under this topic., , Writing Skill, 3.1, , (24 periods), , Correspondence, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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106, , a), , Business Letters- Floating Quotations, Placing Orders, Complaint, Letters., b), Official Letters- Letters to Government and other Offices, 3.2, Memos, Circular, Office Orders, 3.3, Agenda & Minutes of Meeting, 3.4, Report Writing, LIST OF PRACTICALS, Note: Teaching Learning Process should be focused on the use of the language in writing, reports and making presentations., Topics such as Effective listening, effective note taking, group discussions and regular, presentations by the students need to be taught in a project oriented manner where the, learning happens as a byproduct., Speaking and Listening Skills, 1., 2., 3., 4., 5., 6., 7., 8., 9., 10., 11., 12., 13., , Debate, Telephonic Conversation: general etiquette for making and receiving calls, Offering- Responding to offers., Requesting – Responding to requests, Congratulating, Exploring sympathy and condolences, Asking Questions- Polite Responses, Apologizing, forgiving, Complaining, Warning, Asking and giving information, Getting and giving permission, Asking for and giving opinions, , INSTRUCTIONAL STRATEGY, Students should be encouraged to participate in role play and other student-centered activities, in class rooms and actively participate in listening exercises, MEANS OF ASSESSMENT, -, , Assignments and quiz/class tests, mid-semester and end-semester written tests, Actual practical work, exercises and viva-voce, Presentation and viva-voce, , RECOMMENDED BOOKS, 1., 2, 3, 4., , Communicating Effectively in English, Book-I by RevathiSrinivas;, Abhishek, Publications, Chandigarh., Communication Techniques and Skills by R. K. Chadha; Dhanpat Rai Publications,, New Delhi., High School English Grammar and Composition by Wren & Martin; S. Chand &, Company Ltd., Delhi., e-books/e-tools/relevant, software, to, be, used, as, recommended, by, AICTE/UBTE/NITTTR, Chandigarh., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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108, , 4.2, , INDUSTRIAL ELECTRONICS AND CONTROL, L T P, 5 14, , RATIONALE, Industrial electronics plays a very vital role in the field of Control Engineering specifically in, the modern industries as they mostly use electronic controls, which are more efficient,, effective and precise as compare to the conventional methods. The old magnetic and electrical, control schemes have all become obsolete. Electrical Engineering diploma holder, many times,, has to maintain the panels used in the modern control process. Therefore, the knowledge of, components like thyristors and other semiconductor devices used in such control panels is must, for them in order to supervise the work efficiently and effectively. Looking in to usefulness, and importance of this subject, it has been incorporated in the curriculum., LEARNING OUTCOMES, After undergoing the subject, students will be able to:, •, •, •, •, •, •, •, •, , Use Power diode with load R and R-L., Use SCR, TRIAC and Diac as per requirement of circuit, Control fan speed using Triac and Quadriac, Control speed of D.C. shunt motor or universal motor, Demonstrate the output wave shape on CRO, Repair UPS and Inverter, Maintain storage batteries, Maintain panels used in the modern control process, , 1., 1.1, 1.2, 1.3, 1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 1.10, 1.11, , DETAILED CONTENTS, Introduction to SCR, , (18 Periods), , Power diode characteristics, application of general purpose diode, fast recovery, diode and Schottkey diode, use in R, RL series circuit., Construction and working principles of an SCR, two transistor analogy and, characteristics of SCR, SCR specifications and rating, Construction, working principles and V-I characteristics of DIAC, TRIAC and, Quadriac, Basic idea about the selection of heat sinks for SCR and TRIACS, Methods of triggering a Thyristor. Study of triggering circuits, UJT, its Construction, working principles and V-I characteristics, UJT, relaxation oscillator, Commutation of Thyristors, Series and parallel operation of Thyristors, Applications of SCR, TRIACS and Quadriac such as light intensity control,, speed control of DC and universal motor, fan regulator, battery charger etc., dv/dt and di/dt protection of SCR., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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109, , 2., 2.1, 2.2, 2.3, 2.4, 2.5, 2.6, 3., 3.1, 3.2, , Controlled Rectifiers, , (12 Periods), , Single phase half wave controlled rectifier with resistive load and inductive, load, concept of freewheeling diode., Single phase half controlled full wave rectifier, Single phase fully controlled full wave rectifier, Single phase full wave centre tapped rectifier, Three phase full wave half controlled bridge rectifier, Three phase full wave fully controlled bridge rectifier, Inverters, Choppers, Dual Converters and Cyclo Convertors, , (24 Periods), , Inverter-introduction, working principles, voltage and current driven series and, parallel inverters and applications, Choppers-introduction, types of choppers and their working principles and, applications, , 3.3 Dual converters-introduction, working principles and applications, , 3.4, , Cyclo-converters- introduction, types, working principles and applications, 4., , 4.1, 4.2, 4.3, 4.4, 4.5, 4.6, 4.7, 4.8, 4.9, 4.10, 4.11, 4.12, 5, , Thyristor Control of Electric Drives, , DC drives control (Basic Concept), Half wave drives, Full wave drives, Chopper drives, AC drives control, Phase control, Variable frequency a.c. drives, Constant V/F application, Voltage controlled inverter drives, Constant current inverter drives, Cyclo convertors controlled AC drives, Slip control AC drives, , Uninterrupted power supplies, 5.1, 5.2, 5.3, , (18 Periods), , (12 Periods), , UPS online, off line, Storage devices (batteries), SMPS, CVT, , LIST OF PRACTICALS, 1., 2., 3., , To draw V-I characteristics of an SCR, To draw V-I characteristics of a TRIAC, To draw V-I characteristics of a DIAC, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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110, , 4., 5., 6., 7., 8., 9., , To draw uni-junction transistor characteristics, Observe the output wave of an UJT relaxation oscillator, Observe the wave shape across SCR and load of an illumination control circuit, Fan speed regulator using TRIAC Quadriac (fabrication of this circuit), Speed-control of a DC shunt motor or universal motor, To observe the output wave shape on CRO of, (a) Single phase half controlled full wave rectifier, (b)Single phase controlled rectifier, INSTRUCTIONAL STRATEGY, The teachers may encourage students to perform practical simultaneously for better understanding of, the subjects and verification of theoretical concepts. The various components must be shown to the, students for identification and also tested. Practical applications of the various circuits and devices, should be discussed in the class. The available video films on the subject must be shown to the, students., , MEANS OF ASSESSMENT, −, −, , Assignments and quiz/class tests, mid-term and end-term written tests., Actual laboratory and practical work, model/prototype making, assembly and disassembly exercises and, viva-voce, , BOOKS RECOMMENDED, 1., , Industrial Control Electronics. John Webb, Kevin Greshock, Maxwell, Macmillan, International editions., , 2., 3., , Fundamentals of Power Electronics by S Rama Reddi, Narosa Publishing House Pvt. Ltd, New Delhi, Power Electronics, Circuits Devices and Applications by Mohammad H. Rashid, , 4., 5., 6., , Power Electronics by PC Sen, Power Electronics by Dr. PS Bhimbra, Khanna Publishers, New Delhi, Industrial Electronics & Control by SK Bhattacharya & S Chatterji, New Age, international Publications(P) Ltd, New Delhi, Power Electronics by SK Sahdev, Uneek Publication, Jalandhar, Industrial Power Electronics by JC Karhava, King India Publication,, Power Electronics and Controls by Samir K Datta, Prentice Hall of India, New Delhi, E-books/e-tools/relevant, software, to, be, used, as, recommended, by, AICTE/UBTE/NITTTR, Chandigarh, , 7., 8., 9., 10., , Websites for Reference:, http://swayam.gov.in, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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111, , SUGGESTED DISTRIBUTION OF MARKS, Topic No., , Time Allotted, (Periods), , Marks Allocation, (%), , 1., , 18, , 20, , 2., , 12, , 15, , 3., , 24, , 25, , 4., , 18, , 20, , 5., , 12, , 20, , Total, , 84, , 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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112, , 4.3, , ELECTRICAL DESIGN, DRAWING AND ESTIMATING - I, L T, 3 -, , P, 8, , RATIONALE, A diploma holder in Electrical Engineering is supposed to have ability to read, understand and, interpret engineering drawings and communicate through sketches and drawings. He is also, expected to prepare working drawings of panels, transmission and distribution. The contents of, this subject has been designed to develop requisite knowledge and skills of electrical drawings, in the students of diploma in electrical engineering., LEARNING OUTCOMES, After undergoing the subject, students will be able to:, •, •, , Recognize various electrical devices and their symbols, Recognize various electrical devices placed on the panels/distribution boards and to, design the panels, Recognize the internal details of various electrical machines and devices, Read schematic and wiring diagrams of electrical devices, Read and interpret electrical installation plan, Communicate about circuits and devices through sketches and drawings, Determine various types of wiring systems and their use, Practice and execute any type of wiring, Estimate and determine the cost of wiring installation, Estimate the material required for HT and LT lines, Prepare a tender document for a particular job, Estimate the material required for pole-mounted sub-stations, , •, •, •, •, •, •, •, •, •, •, , DETAILED CONTENTS ( To make 16 Sheets), 1., , Symbols and Signs Conventions, , (2 Sheets), , Various Electrical Symbols used in Domestic and Industrial Installation and Power, System (Generation, Transmission and Distribution including Sub-stations) as per BIS, Code., 2., , Wiring Diagram, 2.1., 2.2., 2.3, , 3., , Wiring diagram of light, fan, bell and alarm circuits., Staircase and godown wiring, Traffic light signal control circuit at crossroads, , Panels/Distribution Boards, , (6 Sheets), , (6 Sheets), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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113, , Design and Drawing of panels/Distribution board using MCB, ELCB main switches, and change over switches for domestic installation, industrial and commercial, installation., 4., , Orthographic projections of Simple Electrical Parts, •, •, •, •, •, •, •, •, , (8 Sheets), , Bus bar post/ Kit Kat, Pin type and shackle type insulator (Pin Type 11kV/66kV), Bobbins of a small transformer / choke, Stay insulators/Suspension type insulators, Rotor of a squirrel cage induction motor, Motor body (induction motor) as per IS Specifications (using outside dimensions), Slip rings of 3-phase induction Motor., Stator of 3 phase Induction motor (Sectional View), , 5., , Prepare atleast 2 wiring diagram and block diagrams for circuits/systems using any, Engineering Graphic package (preferably CAD), (4 Sheets), , 6., , Introduction to Estimating & Costing (04 periods), Purpose of estimating and costing, proforma for making estimates, preparation of, materials schedule, costing, price list, preparation of tender document (with 2-3, exercises), net rice list, market survey, overhead charges, labour charges, electrical, point method and fixed percentage method, contingency, profit, purchase system,, enquiries, comparative statements, orders for supply, payment of bills., , 7., Types of Wiring, periods), , (04, , Cleat, batten, casing capping and conduit wiring, comparison of different wiring, systems, selection and design of wiring schemes for particular situation (domestic and, Industrial). Selection of wires and cables, wiring accessories and use of protective, devices i.e. MCB, ELCB etc. Use of wire-gauge and tables ( to be prepared/arranged), 8., , Estimating and Costing, , (18 periods), , 8.1Domestic installations; standard practice as per IS and IE rules. Planning of circuits,, sub-circuits and position of different accessories, electrical layout, preparing, estimates including cost as per schedule rate pattern and actual market rate (single, storey and multi-storey buildings having similar electrical load), 8.2 Industrial installations; relevant IE rules and IS standard practices, planning,, designing and estimation of installation for single phase motors of different, ratings, electrical circuit diagram, starters, preparation of list of materials,, estimating and costing exercises on workshop with singe-phase, 3-phase motor, load and the light load (3-phase supply system), CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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114, , 8.3 Service line connections estimate for domestic and industrial loads (over-head and, underground connections) from pole to energy meter., 9., , Estimating Materials Required, , (12, , Periods), 9.1 Transmission and distribution lines (overhead and underground) planning and, , designing of lines with different fixtures, earthing etc. based on unit cost, calculations, 9.2 Substation:Types of substations, substation schemes and components,, estimate of, 11/0.4 kV pole mounted substation up to 200 kVA rating, earthling of substations, single, Diagram of 66 kV/11 kV, 132KV/11KV, 220KV/33KV Substation, 9.3Single line diagram, layout sketching of outdoor, indoor 11kV sub-station or 33kV, sub-station, 10., Preparation of Tender Documents, Periods), , (04, , Tender – constituents, finalization, specimen tender., Procedure to take financial loans from banks for taking contracts., INSTRUCTIONAL STRATEGY, Teacher should identify/prepare more exercises on the pattern shown above. The teacher, should make the students confident in making drawing and layouts of electrical wiring, installations and doing estimation and costing. This capability will lead the students to become, a successful entrepreneur. Take the students to field/laboratory and show the material and, equipment., MEANS OF ASSESSMENT, −, −, −, −, −, −, , Assignments and quiz/class tests, Mid-term and end-term written tests, Sketching, Design and Drawing, Workshop Job, Model prototype making, , LIST OF PRACTICALS, 1., 2., 3, 4, , Framing of Tender and reply to tender to get job/project, Identification of wiring for different applications, Prepare an estimate for a Two room residential building as per given plan, Prepare an estimate for service connection for residential building having, load, RECOMMENDED BOOKS, , connected, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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116, , 4.4, , POWER PLANT ENGINEERING, L T P, 5 - -, , RATIONALE, The majority of the diploma passouts who get employment in State Electricity Boards have to, perform various activities in the field of generation, transmission and distribution of electrical, power. The range of these activities vary from simple operation and maintenance of, equipment, lines, fault location, planning and designing of simple distribution schemes,, executive and supervisory control in power stations, transmission and distribution networks in, addition to administrative jobs including public relations. They should also be made aware of, recent developments, current practices in the electricity departments, corporations and boards, to keep them abreast with modern techniques in transmission and distribution of electrical, power., LEARNING OUTCOMES, After undergoing the subject, students will be able to:, •, •, •, , Distinguish and select suitable resource of energy required for a particular area and, environment, Calculate effective cost generation, Explain the working of various plants for power generation, DETAILED CONTENTS, , 1., , Power Generation, 1.1, 1.2, , (06 Periods), , Main resources of energy, conventional and non-conventional, Different types of power stations-thermal, hydro, gas, diesel and nuclear power, stations, comparison of generating stations., , 2., Thermal Station, Periods), , (10, , Main parts and working of stations-thermodynamic cycles, fuel handling, combustion, and combustion equipment, problem of ash disposal, circulating water schemes and, supply of make up water, choice of pressure of steam generation and steam, temperature, selection of appropriate vaccum; economizer, air pre-heater feed water, heaters and dust collection. Characteristics of turbo alternators, steam power plant heat, balance and efficiency., CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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117, , 3., , Hydro-Electric Plant, , (8 Periods), , Hydrology, stream flow, hydrograph, flow duration curves. Types of hydroelectric, plants and their fields of use, capacity calculations for hydropower, Dams, head water, control, penstrocks, water turbines, specific speeds, turbine governors. Hydroplant, auxiliaries, plant layout, automatic and remote control of hydroplants, pumped storage, projects, cost of hydro-electric projects. Cooling of alternators., 4., Nuclear Power Plant, Periods), , (9, , Elements of nuclear power plant, nuclear reactor, fuels, moderators, coolants, control., Classification of nuclear power stations. Cost of nuclear power., 5., Diesel Power Plant, Periods), , (6, , Diesel engine performance and operation, Plant layout, Log sheets, applications,, selection of engine size., 6., Gas Turbine Plant, Periods), , (9, , Plant layout, methods of improving output and performance. Fuels and fuel systems., Methods of testing. Open and clsed cycle plants. Operating characteristics., Applications. Free piston engine plants, limitation and applications. Non conventional, energy sources., 7., , Combined Working of Power Plant, Periods), , (10, , Advantages of combined working of different types of power plants. Need for coordination of various types of power plants in power systems, base load stations and, peak load stations., 8., , Economics of Generation, Periods), 8.1, , 8.2, , 9., , (12, , Fixed and running cost, load estimation, load curves, demand factor, load factor,, diversity factor, power factor and their effect on cost of generation, simple, problems., Base load and peak load power stations, concept of regional and national grid,, reason of grid failure and its remedies., , Non Conventional Source of Energy, , (5 Periods), , Introduction, Concept of Solar Energy, Bio Mass Energy, Wind Energy, Tidal Energy,, Geothermal Energy, Microhydel Energy, Biodiesel Energy., CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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118, , INSTRUCTIONAL STRATEGY, Since this is a descriptive and practice oriented subject, it is suggested that visits to different, types of power generating stations and substations including grid stations be arranged and, various equipment, accessories and components explained to the students before the actual, class room teaching and make them familiar with the equipment and accessories installed over, there. There should be at least 3 visits during the semester. The students may be asked to, prepare notes while on visit and submit the report and give seminar. In addition, viva-voce be, conducted to evaluate the knowledge gained during the field visit., MEANS OF ASSESSMENT, −, −, , Assignments and quiz/class tests, mid-term and end-term written tests, model/prototype making, Actual laboratory and practical work, model/prototype making, assembly and disassembly exercises and, viva-voce, , RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., 7., 8., 9., 10., , Electrical Power System and Analysis by CL Wadhwa, 3rd edition, New Age, International Publishers, New Delhi, Substation Design and Equipment by Satnam and PV Gupta, Dhanpat Rai & Sons, New, Delhi, Electrical Power –I by SK Sahdev, Uneek Publications, Jalandhar, Electrical Power System by VK Mehta, S Chand and Co., New Delhi, Electrical Power System by JB Gupta, SK Kataria and Sons, New Delhi, Sub-Station Design by Satnam, Dhanpat Rai and Co., New Delhi, Electrical Power Distribution System by AS Pabla, Tata McGraw Hill, New Delhi, Electrical Power System by S Channi Singh, Tata McGraw Publishing Co. New Delhi, Electrical Power by Soni Gupta and Bhatnagar; Dhanpat Rai & Sons, New Delhi, e-books/e-tools/relevant software to be used as recommended by, AICTE/UBTE/NITTTR,, Chandigarh., , Websites for Reference:, , http://swayam.gov.in, , SUGGESTED DISTRIBUTION OF MARKS, Topic No., , Time Allotted, (Periods), , Marks Allocation, (%), , 1, , 06, , 08, , 2, , 10, , 14, , 3, , 08, , 12, , 4, , 09, , 12, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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119, , 5, , 06, , 08, , 6, , 09, , 14, , 7, , 10, , 14, , 8, , 12, , 18, , Total, , 70, , 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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120, , 4.5, , TRANSMISSION AND DISTRIBUTION OF ELECTRICAL POWER, L T P, 6 1 -, , RATIONALE, The majority of the diploma passouts who get employment in State Electricity Boards have to, perform various activities in the field of transmission and distribution of electrical power. The, range of these activities vary from simple operation and maintenance of equipment, lines, fault, location, planning and designing of simple distribution schemes, executive and supervisory, control in transmission and distribution networks in addition to administrative jobs including, public relations. They should also be made aware of recent developments, current practices in, the electricity departments, corporations and boards to keep them abreast with modern, techniques in transmission and distribution of electrical power., LEARNING OUTCOMES, After undergoing the subject, students will be able to:, •, •, •, •, •, •, , Select suitable supporting structure, insulators, conductors and other accessories for, transmission lines and distribution lines, Prepare layout plan for HT and LT lines/distribution system, Prepare estimate for HT and LT (OH and underground cables) lines, Operate and maintain indoor and outdoor substations, Use various methods for improvement of power factor, Assess the revenue and energy loss in power distribution, DETAILED CONTENTS, , 1., , Transmission Systems, 1.1, 1.2, 1.3, , 1.4, 1.5, , 1.6, 1.7, , (28 Periods), , Layout of transmission system, selection of voltage for H.T and L.T lines,, advantages of high voltage for Transmission both AC and DC, Comparison of different system: AC versus DC for power transmission,, conductor material and sizes from standard tables, Constructional features of transmission lines: Types of supports, types of, insulators, Types of conductors, Selection of insulators, conductors, earth wire, and their accessories, Transposition of conductors and string efficiency of, suspension type insulators, Bundle Conductors., Mechanical features of line: Importance of sag, calculation of sag, effects of, wind and ice related problems; Indian electricity rules pertaining to clearance, Electrical features of line: Calculation of resistance, inductance and capacitance, without derivation in a.c. transmission line, voltage regulation, and concept of, corona. Effects of corona and remedial measures, Transmission Losses, Economic Principle of Transmission, Kelvin’s law, limitation of Kelvin’s law modification in Kelvin’s law, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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121, , 2., , Distribution System, 2.1, , 2.2, 2.3, , 2.4, 2.5, , 3., , Lay out of HT and LT distribution system, constructional feature of distribution, lines and their erection. LT feeders and service mains; Simple problems on AC, radial distribution system, determination of size of conductor, Preparation of estimates of HT and LT lines (OH and Cables)., Constructional features of LT (400 V), HT (II kV) underground cables,, advantages and disadvantages of underground system with respect to overhead, system., Losses in distribution system, Faults in underground cables-determine fault location by Blavier Test, Murray, Loop Test, Varley Loop Test, , Substations:, 3.1, 3.2, , 4., , (21 Periods), , (21 Periods), , Brief idea about substations; out door grid sub-station 220/132 KV, 66/33 KV, outdoor substations, pole mounted substations and indoor substation, Layout of 33/11 KV & 220/33KV distribution substation and various auxiliaries, and equipment associated with it., , Power Factor:, , (14 Periods), , 4.1, Concept of power factor, 4.2, Reasons and disadvantages of low power factor, 4.3, Methods for improvement of power factor using capacitor banks, Static VAR, Compensator (SVC), 5., Revenue and Energy loss, Periods), , (14, , Technical losses and Commercial losses, Input energy calculation, Sales calculation,, Billing efficiency, Collection efficiency, Total energy billed (KWH), Percent, aggregated technical and commercial losses., Note: Students should visit power generation plants, sub-stations etc., INSTRUCTIONAL STRATEGY, Since this is a descriptive and practice oriented subject, it is suggested that visits to different, types of power generating stations and substations including grid stations be arranged and, various equipment, accessories and components explained to the students before the actual, class room teaching and make them familiar with the equipment and accessories installed over, there. There should be at least 3 visits during the semester. The students may be asked to, prepare notes while on visit and submit the report and give seminar. In addition, viva-voce be, conducted to evaluate the knowledge gained during the field visit., MEANS OF ASSESSMENT, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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122, , -, , Assignments and quiz/class tests, mid-term and end-term written tests, model/prototype making, , -, , Actual laboratory and practical work, model/prototype making, assembly and, disassembly exercises and viva-voce, , RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., 7., 8., 9., , Electrical Power System and Analysis by CL Wadhwa, 3rd edition, New Age, International Publishers, New Delhi, Substation Design and Equipment by Satnam and PV Gupta, Dhanpat Rai & Sons, New, Delhi, Electrical Power –I by SK Sahdev, Uneek Publications, Jalandhar, Electrical Power System by VK Mehta, S Chand and Co., New Delhi, Electrical Power System by JB Gupta, SK Kataria and Sons, New Delhi, Sub-Station Design by Satnam, Dhanpat Rai and Co., New Delhi, Electrical Power Distribution System by AS Pabla, Tata McGraw Hill, New Delhi, Electrical Power System by S Channi Singh, Tata McGraw Publishing Co. New Delhi, e-books/e-tools/relevant, software, to, be, used, as, recommended, by, AICTE/UBTE/NITTTR, Chandigarh, , Websites for Reference:, http://swayam.gov.in, , SUGGESTED DISTRIBUTION OF MARKS, , Topic No., , Time Allotted, (Periods), , Marks Allocation, (%), , 1, , 28, , 30%, , 2, , 21, , 20%, , 3, , 21, , 20%, , 4, , 14, , 15%, , 5, , 14, , 15%, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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123, , Total, , 98, , 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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124, , 4.6 ENERGY CONSERVATION, L T P, 3 - 2, RATIONALE, The requirement of energy has increased manifolds in last two decades due to rapid, urbanization and growth in industrial/service sector. It has become challenging task to meet, ever increasing energy demands with limited conventional fuels and natural resources. Due to, fast depletion of fossil fuels and a tremendous gap between supply and demand of energy, it is, essential to adopt energy conservation techniques in almost every field like industries,, commercial and residential sectors etc. Energy conservation has attained priority as it is, regarded as additional energy resource. Energy saved is energy produced. This course covers, the concepts of energy management and its conservation. It gives the insight to energy, conservation opportunities in general industry and details out energy audit methodology and, energy audit instruments., LEARNING OUTCOMES, After undergoing this subject, the students will be able to:, •, •, •, •, •, •, , define principles and objectives of energy management and energy audit., understand Energy Conservation Act 2001 and its features., understand various forms & elements of energy., identify electrical and thermal utilities. Understand their basic principle of operation, and assess performance of various equipments., identify areas of energy conservation and adopt conservation methods in various, systems., evaluate the techno economic feasibility of the energy conservation technique adopted., DETAILED CONTENTS, , 1., , Basics of Energy, 1.1, , 1.2, 1.3, 1.4, , 2., , Classification of energy- primary and secondary energy, commercial and non-commercial energy,, non-renewable and renewable energy with special reference to solar energy, Capacity factor of solar, and wind power generators., Global fuel reserve, Energy scenario in India and state of U.P. Sector-wise energy consumption (domestic, industrial,, agricultural and other sectors), Impact of energy usage on climate, , Energy Conservation and EC Act 2001, 2.1, , Introduction to energy management, energy conservation, energy efficiency and its need, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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125, , 2.2, , 2.3, , 3., , Salient features of Energy Conservation Act 2001 & The Energy Conservation (Amendment) Act,, 2010 and its importance. Prominent organizations at centre and state level responsible for its, implementation., Standards and Labeling: Concept of star rating and its importance, Types of product available for, star rating, , Electrical Supply System and Motors, 3.1, 3.2, 3.3, 3.4, , Types of electrical supply system, Single line diagram, Losses in electrical power distribution system, Understanding Electricity Bill: Transformers Tariff structure, Components of power (kW, kVA and, kVAR) and power factor, improvement of power factor, Concept of sanctioned load, maximum, demand, contract demand and monthly minimum charges (MMC), , 3.5 Transformers: Introduction, Losses in transformer, transformer Loading, Tips, energy savings in transformers, 3.6, , for, , Electric Motors, , Types of motors, Losses in induction motors Features and characteristics of energy, efficient motors, Estimation of motor loading, Variation in efficiency and power, factor with loading, Tips for energy savings in motors, 4., , Energy Efficiency in Electrical Utilities, 4.1, 4.2, 4.3, , 5., , Lighting and DG Systems, 5.1, 5.2, , 6., , Lighting Systems: Basic definitions- Lux, lumen and efficacy, Types of different lamps and their, features, Energy efficient practices in lighting, DG Systems: Introduction, Energy efficiency opportunities in DG systems, Loading estimation, , Energy Efficiency in Thermal Utilities, 6.1, , 6.3, , Thermal Basics: Thermal energy, Energy content in fuels, Energy Units and its conversions in terms, of Metric Tonne of Oil Equivalent (MTOE), Energy Conservation in boilers and furnaces : Introduction and types of boilers, Energy, performance assessment of boilers, Concept of stoichiometric air and excess air for combustion,, Energy conservation in boilers and furnaces, Do’s and Don’ts for efficient use of boilers and, furnaces, Cooling Towers: Basic concept of cooling towers, Tips for energy savings in cooling towers, , 6.4, , Efficient Steam Utilization, , 6.2, , 7., , Pumps: Introduction to pump and its applications, Efficient pumping system operation, Energy, efficiency in agriculture pumps, Tips for energy saving in pumps, Compressed Air System: Types of air compressor and its applications, Leakage test, Energy saving, opportunities in compressors., Energy Conservation in HVAC and Refrigeration System: Introduction, Concept of Energy, Efficiency Ratio (EER), Energy saving opportunities in Heating, Ventilation and Air Conditioning, (HVAC) and Refrigeration Systems., , Energy Conservation Building Code (ECBC), 7.1, , ECBC and its salient features, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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126, , 7.2, 8., , Tips for energy savings in buildings: New Buildings, Existing Buildings, , Waste Heat Recovery and Co-Generation, , 8.1 Concept, classification and benefits of waste heat recovery, 8.2, 9., , General Energy Saving Tips, Energy saving tips in:, , 9.1, 9.2, 9.3, 9.4, 9.5, 9.6, 9.7, 9.8, 9.9, 9.10, 10., , Concept and types of co-generation system, , Lighting, Room Air Conditioner, Refrigerator, Water Heater, Computer, Fan, Heater, Blower and Washing Machine, Colour Television, Water Pump, Cooking, Transport, , Energy Audit, , 10.1 Types and methodology, 10.2 Energy audit instruments, 10.3 Energy auditing reporting format, PRACTICAL EXERCISES, 1., 2., 3., 4., 5., 6., , To conduct load survey and power consumption calculations of small building., To check efficacy of different lamps by measuring power consumption and lumens using lux meter., To measure energy efficiency ratio (EER) of an air conditioner., To measure effect of valve throttling and variable frequency drive (VFD ) on energy consumption by, centrifugal pump., To measure and calculate energy saving by arresting air leakages in compressor., To measure the effect of blower speed on energy consumed by it., , STUDENT ACTIVITIES ON ENERGY CONSERVATION/ENERGY EFFICIENCY, −, −, −, −, −, , Presentations of Case Studies, Debate competitions, Poster competitions, Industrial visits, Visual Aids, , INSTRUCTIONAL STRATEGY, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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127, , Teachers are expected to lay considerable stress on understanding the basic concepts in energy, conservation, principles and their applications. For this purpose, teachers are expected to give, simple problems in the class room so as to develop necessary knowledge for comprehending, the basic concepts and principles. As far as possible, the teaching of the subject must be, supplemented by demonstrations and practical work in the laboratory. Visits to industries must, be carried out. Expert from industry must be invited to deliver talks on energy conservation to, students and faculty., , RECOMMENDED BOOKS, 1., 2., 3., 4., , Guide book on General Aspects of Energy Management and Energy Audit by Bureau of Energy, Efficiency, Government of India. Edition 2015, Guide book on Energy Efficiency in Electrical Utilities, by Bureau of Energy Efficiency, Government of, India. Edition 2015, Guide book on Energy Efficiency in Thermal Utilities, by Bureau of Energy Efficiency, Government of, India. Edition 2015, Handbook on Energy Audit & Environmental Management by Y P Abbi & Shashank Jain published by, TERI. Latest Edition, Important Links:, (i) Bureau of Energy Efficiency (BEE), Ministry of Power, Government of India. www.beeindia.gov.in., (ii) Ministry of New and Renewable Energy (MNRE), Government of India. www.mnre.gov.in., (iii) Uttar Pradesh New and Renewable Energy Agency (UPNEDA), Government of Uttar Pradesh., www.upneda.org.in., (iv) Central Pollution Control Board (CPCB), Ministry of Environment, Forest and Climate Change,, Government of India. www.cpcb.nic.in., (v) Energy Efficiency Sevices Limited (EESL). www.eeslindia.org., (vi) Electrical India, Magazine on power and electrical products industry. www.electricalindia.in., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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128, , 4.7 Universal Human Values, L-T-P, 2-0-1, Course Objectives, This introductory course input is intended, 1. To help the students appreciate the essential complementarily between 'VALUES' and, 'SKILLS' to ensure sustained happiness and prosperity, which are the core aspirations, of all human beings, 2. To facilitate the development of a Holistic perspective among students towards life and, profession as well as towards happiness and prosperity based on a correct, understanding of the Human reality and the rest of Existence. Such a holistic, perspective forms the basis of Universal Human Values and movement towards valuebased living in a natural way, 3. To highlight plausible implications of such a Holistic understanding in terms of ethical, human conduct, trustful and mutually fulfilling human behavior and mutually enriching, interaction with Nature, Thus, this course is intended to provide a much needed orientational input in value education, to the young enquiring minds., Course Methodology, 1. The methodology of this course is explorational and thus universally adaptable. It, involves a systematic and rational study of the human being vis-à-vis the rest of, existence., 2. It is free from any dogma or value prescriptions., 3. It is a process of self-investigation and self-exploration, and not of giving sermons., Whatever is found as truth or reality is stated as a proposal and the students are, facilitated to verify it in their own right, based on their Natural Acceptance and, subsequent Experiential Validation., 4. This process of self-exploration takes the form of a dialogue between the teacher and, the students to begin with, and then to continue within the student leading to continuous, self-evolution., 5. This self-exploration also enables them to critically evaluate their pre-conditionings and, present beliefs., The syllabus for the lectures is given below:, •, •, •, •, •, , After every two lectures of one hour each, there is one hour practice session., The assessment for this subject is as follows:, Sessions Marks (Internal): 20, Practical Marks (External): 30, Total Marks: 50, , UNIT 1: Course Introduction - Need, Basic Guidelines, Content and Process for Value, Education, 1. Understanding the need, basic guidelines, content and process for Value Education, 2. Self-Exploration–what is it? - its content and process; ‘Natural Acceptance’ and, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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129, , Experiential Validation- as the mechanism for self-exploration, 3. Continuous Happiness and Prosperity- A look at basic Human Aspirations, 4. Right understanding, Relationship and Physical Facilities- the basic requirements for, fulfillment of aspirations of every human being with their correct priority, 5. Understanding Happiness and Prosperity correctly- A critical appraisal of the current, scenario, 6. Method to fulfill the above human aspirations: understanding and living in harmony at, various levels, UNIT 2: Understanding Harmony in the Human Being - Harmony in Myself!, 1. Understanding human being as a co-existence of the sentient ‘I’ and the material the, Body’, 2. Understanding the needs of Self (‘I’) and ‘Body’ - Sukh and Suvidha, 3. Understanding the Body as an instrument of ‘I’ (I being the doer, seer and enjoyer), 4. Understanding the characteristics and activities of ‘I’ and harmony in ‘I’, 5. Understanding the harmony of I with the Body: Sanyam and Swasthya; correct, appraisal of Physical needs, meaning of Prosperity in detail, 6. Programs to ensure Sanyam and Swasthya, -Practice Exercises and Case Studies will be taken up in Practice Sessions., UNIT 3: Understanding Harmony in the Family and Society- Harmony in HumanHuman Relationship, 1., 2., , 3., 4., 5., 6., , Understanding Harmony in the family – the basic unit of human interaction, Understanding values in human-human relationship; meaning of Nyaya and program for its fulfillment to, ensure Ubhay-tripti;, a. Trust (Vishwas) and Respect (Samman) as the foundational values of relationship, Understanding the meaning of Vishwas; Difference between intention and competence, Understanding the meaning of Samman, Difference between respect and differentiation; the other salient, values in relationship, Understanding the harmony in the society (society being an extension of family): Samadhan, Samridhi,, Abhay, Sah-astitvaas comprehensive Human Goals, Visualizing a universal harmonious order in society- Undivided Society (AkhandSamaj), Universal Order, (SarvabhaumVyawastha )- from family to world family!, , -Practice Exercises and Case Studies will be taken up in Practice Sessions., UNIT 4: Understanding Harmony in the Nature and Existence - Whole existence as Coexistence, 1., 2., 3., 4., , Understanding the harmony in the Nature, Interconnectedness and mutual fulfillment among the four orders of nature-recyclability and selfregulation in nature, Understanding Existence as Co-existence (Sah-astitva) of mutually interacting units in all-pervasive, space, Holistic perception of harmony at all levels of existence, -Practice Exercises and Case Studies will be taken up in Practice Sessions., , UNIT 5: Implications of the above Holistic Understanding of Harmony on Professional, Ethics, 1., , Natural acceptance of human values, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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130, , 2., 3., , Definitiveness of Ethical Human Conduct, Basis for Humanistic Education, Humanistic Constitution and Humanistic Universal Order, , 4. Competence in professional ethics:, a) Ability to utilize the professional competence for augmenting, universal human order, b) Ability to identify the scope and characteristics of peoplefriendly and eco-friendly production systems,, c) Ability to identify and develop appropriate technologies and, management patterns for above production systems., 5. Case studies of typical holistic technologies, management models and production, systems, 6. Strategy for transition from the present state to Universal Human Order:, a) At the level of individual: as socially and ecologically responsible engineers,, technologists and managers, b) At the level of society: as mutually enriching institutions and organizations, 7., , To inculcate Human Values among Students:The Role of self ,Parents and Teachers, -Practice Exercises and Case Studies will be taken up in Practice Sessions., , Practical Session also Includes Different Yogic Exercises and Meditation Session, INSTRUCTONAL STRATEGY, The content of this course is to be taught on conceptual basis with plenty of real world, examples., MEANS OF ASSESSMENT, −, −, −, , Assignments and quiz/class tests,, Mid-term and end-term written tests, Practical assessment, , Reference Material, The primary resource material for teaching this course consists of, a. The text book (Latest Edition), R.R, Gaur, R Asthana, G P Bagaria, A foundation course in Human, Values and professional Ethics, Excel books, New Delhi., b. The teacher’s manual (Latest Edition), R.R Gaur, R Asthana, G P Bagaria, A foundation course in Human Values and, professional Ethics – Teachers Manual, Excel books, New Delhi., In addition, the following reference books may be found useful for supplementary reading in, connection with different parts of the course:, 1. B L Bajpai, 2004, Indian Ethos and Modern Management, New Royal Book, Co., Lucknow. Reprinted 2008., 2. PL Dhar, RR Gaur, 1990, Science and Humanism, Commonwealth Purblishers., 3. Sussan George, 1976, How the Other Half Dies, Penguin Press. Reprinted 1986,, 1991, 4. Ivan Illich, 1974, Energy & Equity, The Trinity Press, Worcester, and HarperCollins,, USA, 5. Donella H. Meadows, Dennis L. Meadows, Jorgen Randers, William W. Behrens III,, 1972, limits to Growth, Club of Rome’s Report, Universe Books., CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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131, , 6. Subhas Palekar, 2000, How to practice Natural Farming,Pracheen(Vaidik), Krishi Tantra Shodh, Amravati., 7. A Nagraj, 1998, Jeevan Vidya ekParichay,Divya Path Sansthan, Amarkantak., 8. E.F. Schumacher, 1973, Small is Beautiful: a study of economics as if, peoplemattered, Blond & Briggs, Britain., 9. A.N. Tripathy, 2003, Human Values, New Age International Publishers., Relevant websites, movies and documentaries, 1. Value Education websites, http://uhv.ac.in, http://www.aktu.ac.in, 2. Story of Stuff, http://www.storyofstuff.com, 3. Al Gore, An Inconvenient Truth, Paramount Classics, USA, 4. Charlie Chaplin, Modern Times, United Artists, USA, 5. IIT Delhi, Modern Technology–the Untold Story, 6. Case study Hevade Bazar Movie, 7. RC Shekhar , Ethical Contradiction ,Trident New Delhi, 8. Gandhi A., Right Here Right Now, Cyclewala Production, SUGGESTED DISTRIBUTION OF MARKS, Unit, , Time Allotted, (Periods), , Marks Allotted, (%), , 1, , 08, , 20, , 2, , 08, , 20, , 3, , 08, , 20, , 4, , 08, , 20, , 5, , 10, , 20, , Total, , 42, , 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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132, , INDUSTRIAL TRAINING, It is needless to emphasize further the importance of Industrial Training of students during their, 3 years of studies at Polytechnics. It is industrial training, which provides an opportunity to, students to experience the environment and culture of industrial production units and, commercial activities undertaken in field organizations. It prepares student for their future role, as diploma engineers in the world of work and enables them to integrate theory with practice., Polytechnics have been arranging industrial training of students of various durations to meet the, above objectives., , This document includes guided and supervised industrial training of 4 weeks duration, to be organised during the semester break starting after second year i.e. after 4th, semester examinations. The concerned HODs along with other teachers will guide and, help students in arranging appropriate training places relevant to their specific branch., It is suggested that a training schedule may be drawn for each student before starting of, the training in consultation with the training providers. Students should also be briefed, in advance about the organizational setup, product range, manufacturing process,, important machines and materials used in the training organization., Equally important with the guidance is supervision of students training in the, industry/organization by the teachers. Students should be encouraged to write daily, report in their diary to enable them to write final report and its presentation later on., An external assessment of 50 marks has been provided in the study and evaluation, scheme of 5th Semester. Evaluation of professional industrial training report through, viva-voce/presentation aims at assessing students understanding of materials, industrial, process, practices in industry/field organization and their ability to engage in activities, related to problem solving in industrial setup as well as understanding of application of, knowledge and skills learnt in real life situations., Teachers and students are requested to see the footnote below the study and evaluation, scheme of 4th semester for further details., The teacher along with field supervisors will conduct performance assessment of, students. The components of evaluation will include the following:, , a) Punctuality and regularity, b) Initiative in learning new things, c) Presentation and VIVA, d) Industrial training report, , 15%, 15%, 15%., 55%, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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133, , 5.1, , INDUSTRIAL MANAGEMENT AND ENTREPRENEURSHIP, DEVELOPMENT, L, 5, , T, -, , P, -, , RATIONALE, In the present day scenario, it has become imperative to impart entrepreneurship and, management concepts to students so that a significant percentage of them can be directed, towards setting up and managing their own small enterprises. It may be further added that an, entrepreneurial mindset with managerial skills helps the student in the job market. This subject, focuses on imparting the necessary competencies and skills of enterprise set up and its, management., LEARNING OUTCOMES, After undergoing this course, the students will be able to :, •, •, •, •, •, •, •, •, •, •, •, •, , Know about various schemes of assistance by entrepreneurial support agencies, Conduct market survey, Prepare project report, Explain the principles of management including its functions in an organisation., Have insight into different types of organizations and their structures., Inculcate leadership qualities to motivate self and others., Manage human resources at the shop-floor, Maintain and be a part of healthy work culture in an organisation., Use marketing skills for the benefit of the organization., Maintain books of accounts and take financial decisions., Undertake store management., Use modern concepts like TQM, JIT and CRM., DETAILED CONTENTS, SECTION – A, , ENTREPRENEURSHIP, 1., , Introduction, 1.1, 1.2, , (04 Periods), , Concept /Meaning and its need, Qualities and functions of entrepreneur and barriers in entrepreneurship, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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134, , 1.3, 1.4, , 2., , Market Survey and Opportunity Identification/Ideation, 2.1, 2.2, 2.3, 2.4, 2.5, 2.6, 2.7, , 3., , Sole proprietorship and partnership forms and other forms of business, organisations, Schemes of assistance by entrepreneurial support agencies at National, State,, District –level, organisation: NSIC, NRDC, DC, MSME, SIDBI, NABARD,, NIESBUD, HARDICON Ltd., Commercial Banks, SFC’s TCO, KVIB, DIC,, Technology Business Incubators (TBI) and Science and Technology Entrepreneur, Parks, , Scanning of the business environment, Salient features of National and Haryana State industrial policies and resultant, business opportunities, Types and conduct of market survey, Assessment of demand and supply in potential areas of growth, Identifying business opportunity, Considerations in product selection, Converting an idea into a business opportunity, , Project report Preparation, 3.1, 3.2, 3.3, 3.4, 3.5, , (04 Periods), , (06 Periods), , Preliminary project report, Detailed project report including technical, economic and market feasibility, Common errors in project report preparations, Exercises on preparation of project report, Sample project report, SECTION –B, , MANAGEMENT, 4., , Introduction to Management, , (06 Periods), , 4.1, 4.2, , 5., , Definitions and importance of management, Functions of management: Importance and process of planning, organising,, staffing, directing and controlling, 4.3 Principles of management (Henri Fayol, F.W. Taylor), 4.4 Concept and structure of an organisation, 4.5 Types of industrial organisations and their advantages, 4.6 Line organisation, staff organisation, 4.7 Line and staff organisation, 4.8 Functional Organisation, Leadership and Motivation, (08 Periods), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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135, , 5.1, 5.2, , 6., , Management Scope in Different Areas, 6.1, , 6.2, , 7., , 8., , 9., , Leadership: Definition and Need, Qualities and functions of a leader, Manager Vs, leader, Types of leadership, Case studies of great leaders, Motivation: Definition and characteristics, Importance of self motivation, Factors, affecting motivation, Theories of motivation (Maslow, Herzberg, Douglas,, McGregor), (14 Periods), , Human Resource Management: Introduction and objective, Introduction to Man, power planning, recruitment and selection, Introduction to performance appraisal, methods, Material and Store Management: Introduction functions, and objectives, ABC, Analysis and EOQ, , 6.3, , Marketing and sales: Introduction, importance, and its functions, Physical, distribution, Introduction to promotion mix, Sales promotion, , 6.4, , Financial Management: Introductions, importance and its functions, knowledge of, income tax, sales tax, excise duty, custom duty, VAT, GST, , Work Culture, , (08 Periods), , 7.1, 7.2, , Introduction and importance of Healthy Work Culture in organization, Components of Culture, , 7.3, , Importance of attitude, values and behavior, , 7.4, , Behavioural Science – Individual and group behavior., , 7.5, , Professional ethics – Concept and need of Professional Ethics and human values., , Basic of Accounting and Finance, , (10 Periods), , 8.1, , Basic of Accounting: Meaning and definition of accounting, Double entry system of book keeping,, Trading account, PLA account and balance sheet of a company, , 8.2, , Objectives of Financial Management: Profit Maximization v/s Wealth Maximization, , Miscellaneous Topics, , (10 Periods), , 9.1, , Total Quality Management (TQM): Statistical process control, Total employees, Involvement, Just in time (JIT), 9.2 Intellectual Property Right (IPR) : Introduction, definition and its importance,, Infringement related to patents, copy right, trade mark, INSTRUCTIONAL STRATEGY, Some of the topics may be taught using question/answer, assignment, seminar or case study, method. The teacher will discuss stories and case studies with students, which in turn will, develop appropriate managerial and entrepreneurial qualities in the students. In addition,, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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136, , expert lecturers may also be arranged from outside experts and students may be taken to, nearby industrial organisations on visit. Approach extracted reading and handouts may be, provided., MEANS OF ASSESSMENT, −, −, −, , Assignments and quiz/class tests, Mid-term and end-term written tests, Model/Prototype making., , RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., , A Handbook of Entrepreneurship, Edited by BS Rathore and Dr JS Saini; Aapga, Publications, Panchkula (Haryana), Entrepreneurship Development and Management by J.S.Narang; Dhanpat Rai & Sons,, Delhi., Entrepreneurship Development by CB Gupta and P Srinivasan, Sultan Chand and Sons,, New Delhi, Handbook of Small Scale Industry by PM Bhandari, Entrepreneurship Development and Management by MK Garg, E-books/e-tools/relevant software to be used as recommended by AICTE/ NITTTR,, Chandigarh., , Websites for Reference:, http://swayam.gov.in, , SUGGESTED DISTRIBUTION OF MARKS, , Topic No., 1, 2, , Time Allotted, (Periods), 04, 04, , Marks Allotted (%), 06, 06, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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137, , 3, 4, 5, 6, 7, 8, 9, Total, , 06, 06, 08, 14, 08, 10, 10, 70, , 08, 08, 12, 20, 12, 14, 14, 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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138, , 5.2, , SWITCHGEAR AND PROTECTION, L T P, 5 1 -, , RATIONALE, In view of the complexities associated with the modern interconnected power stations, the, responsibilities and the job requirements of a diploma passouts have become more complex, than what they used to be earlier. He is required to work with modern electrical equipment and, maintain reliability of supply., The course is designed to develop understanding of the principles and working of protective, switchgear so that one can handle, install and maintain them and also take decisions at his level, in different situations., This subject teaching requires reinforcement from visits to substations, power stations and well, designed laboratory experiences. A practical orientation to the teaching of this subject is, suggested., LEARNING OUTCOMES, After undergoing the subject, students will be able to:, •, •, •, •, •, , assess type of fault diagnosis, know circuit breaker operation, know relay operation, know read about protection schemes, Know about different types of substations and read single line diagrams, , DETAILED CONTENTS, , 1., , Faults, , (15 Periods), , Types of faults, three phase symeterical faults, effects of faults on system reliability and, stability, abnormalities, short circuits and their effects, representation of fault, conditions through single line diagrams, 2., , Switchgear, 2.1, 2.2, 2.3, 2.4, , (24 Periods), , Purpose of protective gear, characteristics of a protection system., Classification of fuses H.V. Fuses, application and working, grading and coordination L.V. fuses, selection of fuses, characteristics, Isolators and switches, outdoor isolators, functions, air break switches, braking, capacity of switches., Circuit breakers :- requirements of circuit breakers, definition of terms, associated with circuit-breakers, reasons for arc formation, principles of arc, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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139, , 2.5, , 3., , Protective Schemes, 3.1, 3.2, , 3.3, 3.4, , 4., , extinction, types of circuit-breakers, comparison with oil circuit breaker,, classification, rating of circuit breakers, working of different types of air and, oil circuit breakers, specification of circuit breakers, maintenance schedule, SF6 and Vacuum circuit breakers., Relays:Requirement of relays, operation principles, induction type over current,, directional over current, differential, percentage differential relays working,, applications and characteristics, basic principles of static relays. Introduction, too distance relay., (15 Periods), , Protection of alternators, stator faults, rotor faults, mechanical conditions,, external faults - their reasons, effect and protections used., Protection of power transformer: types of faults, its effects, types of proective, schemes over current, earth fault, differential protection, Buckholtz devices,, winding temp. protection., Motor protection: types of faults and protection in motors, thermal relays,, protection of small motors, under voltage protection., Protection of feeders: radial, parallel and ring feeders protection, directional, time and current graded schemes, differential protection., , Protection Against Over Voltages, , (15 Periods), , Causes of over voltages, travelling waves earth wire, protective zone, lightening, arrestors, space-gap and electrolytic arrestors, surge absorber, location and rating of, lighening arrestors. Thyrite lightening arrestor., 5., , Different Type of Sub-stations, Periods), , (15, , 5.1, , Layout, single line diagram, busbar arrangement, equipment, their fuctions,, accessories, study of protective schemes, batteries and their maintenance,, operation of small sub-stations., 5.2, Reactors: types of reactors, busbar reactor, tuning reactor, arc-supression, reactor, connection of reactors in power stations, uses of reactors., 5.3, Neutralgrounding:- types of grounding solid grounding, reactance grounding,, arc suppression, coil grounding, choice of method of neutral earthing,, grounding of sub-stations, grounding of line structure and substation equipment., 5.4, Concept of G.I.S. (Gas Insulated Substation), RECOMMENDED BOOKS, 1., 2., , Switchgear and Protection by NagrathKathan; TMH, Switchgear and Protection by Soni Gupta &Bhatnagar; Dhanpat Rai & Sons, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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140, , 3., 4., 5., 6., , Switchgear and Protection by Sunil S. Rao; Dhanpat Rai & Sons, Switchgear and Protection by HarnoonAsfaqHussain; Khanna Publications, Switchgear and Protection by J.B. Gupta; Kataria& Sons, Switchgear and Protection by U.A Bakshi; Technical Publications, Pune, , SUGGESTED DISTRIBUTION OF MARKS, Topic No, , Time Allotted, (Periods), , Marks Allocation, (%), , 1, , 15, , 16, , 2, , 24, , 30, , 3, , 15, , 18, , 4, , 15, , 18, , 5, , 15, , 18, , Total, , 84, , 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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141, , 5.3 PLC, MICRO CONTROLLER & SCADA, L, 6, , T, -, , P, 6, , RATIONALE, A diploma holder, employed in automated industrial process controls or in automated power, station, will be required to know the basic of programmable logic controllers, their working, and their programming. In industry, many manufacturing processes demand a sequence of, operation, which are to be performed repetitively. Early automation system was mechanical in, design, timing and sequencing being effected by gears and cams. Now this design concept was, replaced by programmable logic controllers (PLC). A PLC is a solid state device. PLCs are, widely used in all industries for efficient control operations. Looking at the industrial, applications of PLCs in the industry, this subject finds its usefulness in present curriculum., Microcontrollers and SCADA have also assumed great significance in the field of electronics,, power system, large industry and engineering field. This subject aims to expose the diploma, students to both of these and give them adequate knowledge of these topics., DETAILED CONTENTS, 1., Introduction, Periods), , (24, , Concept of PLC, building block of PLC, function of various blocks, limitation of, relays,, advantage of PLC over electromagnetic relays, different programming, languages, PLC manufacturer, working of PLC, basic operation and principles of PLC,, architectural details., 2., Instruction Set, Periods), 2.1, , 2.2, , (20, , Basic instructions like latch, master control self holding relays, timer instruction, like retentive timers, resetting of timers, counter instructions like up counter,, resetting of counters., LadderDiagram Programming : programming based on basic instructions,, timer, counter, sequencer, and comparison instructions using ladder program., , 3., Microcontroller series (MCS)-51 over view, Periods), , (20, , Pin details, I/O ports structure, memory organisation, special function registers, instruction set, addressing modes, timers operation, serial port operation, interrupts., CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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142, , 4., Assembly language programming, Periods), , (10, , Assemblers and Compilers, assembler directives, design and interface., Examples like: keypad interface, 7- segment interface, LCD, Stepper motor , A/D, D/A, , RTC interface, introduction of PIC microcontrollers., 5., SCADA, Periods), , (10, , Introduction, role of SCADA in dispatch centre, operator console, VDUs, types of, communication channels in SCADA systems, RTUs, MTUs, data loggers, report, generation, report analysis and actions., LIST OF PRACTICALS, PLCs, 1., Components / sub components of aPLC, learning functions of different modules of a, PLCs, 2., Practical steps in programming a PLC (a) using hand held programmer (b) using, computer interface., 3., Introduction to step programming language, ladder diagram concepts, instruction list, syntax., 4., Basic logic operations, AND, NOT, OR functions, 5., Use of PLC for an application, Car parking, doorbell operation, traffic light control, washing machine, motor in, forward and reverse direction, Microcontrollers, 6., Familiarization of micro controllers (8051) kit, 7., Testing of general input/ output on micro controller board, 8., Use of micro controller liken in relays, buzzer of working machine, oven, INSTRUCTIONAL STRATEGY, Introduce the subject and make the students familiar with applications of PLCs, micro, controller and SCADA. The inputs start with theoretical inputs to architecture, instruction set ,, assembly language programming, small projects may identified, PLC ladder diagram and, programming should be supplemented with visits to industry., RECOMMENDED BOOKS, 1., , Introduction to PLCs by Gary Dunning , McGraw Hill, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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143, , 2., 3., 4., , Module on PLCs and their applications by Rajesh Kumar, NITTTR Chandigarh, Micro controller by Ayala, Penram International, Power system SCADA and smart Grids by Mini S. Thomas and John D. McDonald, SUGGESTED DISTRIBUTION OF MARKS, Topic No., 1, , Time Allotted, (Periods), 24, , Marks Allocations, (%), 26, , 2, , 20, , 24, , 3, , 20, , 24, , 4, , 10, , 13, , 5, , 10, , 13, , Total, , 84, , 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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144, , 5.4, , ELECTRICAL MACHINES - II, L T P, 616, , RATIONALE, Electrical machines is a subject where a student will deal with various types of electrical, machines which are employed in industries, power stations, domestic and commercial, appliances etc. After studying this subject, an electrical diploma holder must be competent to, repair and maintain these machines and give suggestions to improve their performance., Explanation of practical aspects of the subject will make the students capable of performing, various tests on the machines as per latest BIS specifications, , LEARNING OUTCOMES, After undergoing the subject, students will be able to:, •, •, •, •, •, •, •, •, •, •, , Demonstrate the constructional features of a synchronous machine and its working as a, synchronous motor, Operate the synchronous motor as synchronous condenser, Use 3-φ induction motor in the industry for various operations, Operate and maintain three phase squirrel cage and three phase slip ring induction motors., Start and reverse the direction of rotation of three phase induction motors using different types of, starters., Conduct speed control of three phase induction motor., Operate and maintain double cage induction motors., Recognize the condition of cogging and crawling in three phase induction motors., Operate different types of single phase induction motors., Operate different types of special purpose motors, , DETAILED CONTENTS, , 1. 3 Phase Induction Motors, 1.1, 1.2, 1.3, , (25 Periods), , Production of rotating magnetic field in 3 phase winding., Salient constructional features of squirrel cage and slip ring 3-phase induction, motors, Principle of operation, slip and its significance, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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145, , 1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 1.10, 1.11, 1.12, 1.13, 1.14, 1.15, 1.16, 1.17, 2., , Single Phase Motors, 2.1, 2.2, 2.3, , 2.4, 2.5, , 3, , Locking of rotor and stator fields, Rotor resistance, inductance, emf and current, Relationship between rotor copper losses, slip and rotor input power., Power flow diagram of an induction motor, Factors determining the torque, Torque-slip curve, stable and unstable zones, Effect of rotor resistance upon the torque slip curve, Double cage rotor motor and its applications, Starting of 3-phase induction motors, DOL, star-delta, auto transformer, starter., Causes of low power factor of induction motors, Testing of 3-phase motor on no load and blocked rotor test and to find, efficiency, Method of Speed control of induction motor, Harmonics and its effects, cogging and crawling in Induction Motors., Specifications and ratings of induction motors., (18 Periods), , Single phase induction motors; Construction characteristics, specifications and, applications., Nature of field produced in single phase induction motor-double revolving, field theory., Split phase induction motor, 2.3.1 Capacitor start, capacitor run, capacitor start and run motor, 2.3.2 Shaded pole motor, Alternating current series motor and universal motors, construction,working, principle and operation, application., Single phase synchronous motor, 2.5.1 Reluctance motor, 2.5.2 Hysteresis motor, , Synchronous Machines, , (25 periods), , 3.1 Main constructional features of synchronous machine including commutator and, brushless excitation system, 3.2, Generation of three phase emf, 3.3, Concept of distribution factor and coil span factor and emf equationArmature, reaction at unity, lag and lead power factor, 3.4, Equivalent circuit diagram of synchronous machine, 3.5, Concept of voltage regulation. Determination of voltage regulation by, synchronous impedance method., CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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146, , 3.6, 3.7, , Operation of single synchronous machine independently supplying a load., Concept of infinite bus bar. Need and necessary conditions of parallel, operation of alternators, synchronizing an alternator (Synchroscope method), with the bus bars, 3.8, Operation of synchronous machine as a motor –its starting methods, 3.9 Effect of change in excitation of a synchronous motor, V curve, Concept of, synchronous condenser., 3.10 Concept and cause of hunting and its prevention, 3.11 Specification, rating and cooling of synchronous machines, 3.12 Applications of synchronous machines, 4., , Special Purpose Machines, , (16 periods ), , Construction, working principle and application of linear induction motor, stepper, motor, AC Servomotor, Submersible Motor,, LIST OF PRACTICALS, 1., 2., 3., 4., 5., 6., 7., , Determination of efficiency by (a) no load test and blocked rotor test on an induction, motor (b) direct loading of an induction motor (refer BIS code), Determination of effect of rotor resistance on torque speed curve of an induction motor, Observe the performance of a ceiling fan (I-φ) induction motor) without capacitor, Determine the effect of change in capacitor on the performance of 1-phase induction, motor and reverse the direction of motor., To plot relationship between no load terminal voltage and excitation current in a, synchronous generator at constant speed, Determination of the relationship between the voltage and load current of an alternator,, keeping excitation and speed constant, Determination of the regulation and efficiency of alternator from the open circuit and, short circuit test, Determination of the effect of variation of excitation on performance of a synchronous, motor, , INSTRUCTIONAL STRATEGY, Teacher should lay-emphasis on development of understanding amongst students about basic, principles of operation and control of electrical machines. This may be achieved by, conducting quiz tests and by giving home assignments. The teachers should also conduct, laboratories classes themselves encouraging each should to perform with his/her own hands, and draw conclusions., RECOMMENDED BOOKS, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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147, , 1., 2., 3., 4., 5., 6., , Electrical Machines by SK Bhattacharya; Tata McGraw Hill, New Delhi, Electrical Machine by B.L.Thareja; S.ChandPublicaion, New Delhi, Electrical Machines by SK Sahdev; Uneek Publications, Jalandhar, Electrical Machines by Nagrath and Kothari; Tata McGraw Hill, New Delhi, Electrical Engineering by JB Gupta; SK Kataria and sons, New Delhi, Electrical Machines by Samarjit Ghosh; Pearson Education (Singapore) Pvt, Ltd., Delhi, 7. e-books/e-tools/relevant software to be used as recommended by AICTE/UBTE/NITTTR,, Chandigarh., , Websites for Reference:, http://swayam.gov.in, , SUGGESTED DISTRIBUTION OF MARKS, Topic No, , Time Allotted, (Periods), , Marks Allocation, (%), , 1, , 25, , 30, , 2, , 18, , 22, , 3, , 25, , 30, , 4, , 16, , 18, , Total, , 84, , 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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148, , 5.5.1, , RENEWABLE SOURCES OF ENERGY, L T P, 6 - -, , RATIONALE, Since the conventional energy resources are under fast depletion, it is high time to tap the nonconventional energy sources also. So, the solution primarily lies in tapping all possible energy, generation sources but efficient use of available energy is also important. The electrical, diploma holder must be made aware about saving and conserving Electrical Energy and tackle, the problems of environmental pollution as they will have to face this challenge in future life., Hence the subject., LEARNING OUTCOMES, After undergoing the subject, the students will be able to:, •, •, •, •, •, , Explain the importance of non-conventional energy sources for the present energy, scenario., Classify various non-conventional sources of energy, Explain principle of solar photovoltaic energy conversion and the applications of solar, energy in different fields., Explain basic conversion technologies of biomass, wind energy, geo-thermal, tidal, energy, hydro energy and its applications., Explain direct energy conversion systems like magneto hydrodynamics and fuel cells, and its applications., , DETAILED CONTENTS, 1., , Basic of Energy, , (06 periods), , Classification of Energy-primary and secondary energy, commercial and noncommercial energy, importance of non conventional energy sources, present, scenario,future prospectus, energy scenario in India,sector-wise energy, consumption(domestic, industrial, agriculture etc.), comparison between, renewable andnon renewable energy resources, , 2., , Solar Energy, , (20 periods), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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149, , Principle of conversion of solar radiation into heat, using different types of solar, collectors, photo-voltaic cell, electricity generation, application of solar energy like, solar water heaters, solar furnaces, solar cookers, solar lighting, solar pumping,, installation & maintenance of solar power plant, 3., , Bio-energy, , (14 periods), , Bio-mass conversion technologies& their types- wet and dry processes. Methods for, obtaining energy from biomass. Power generation by using gasifiers, 4., , Wind Energy, , (12 periods), , Wind energy conversion, windmills, electricity generation from wind- types of wind, mills, local control, energy storage, 5., , Geo-thermal and Tidal Energy, , (16 periods), , Geo-thermal sources, Ocean thermal electric conversion, open and closed cycles,, hybrid cycles. Prime movers for geo-thermal energy conversion. Steam Generation, and electricity generation. Different types of tidal energy systems, 6., , Magneto Hydro Dynamic (MHD) Power Generation, , (04 periods), , 7., Fuel Cell, periods), , (10, , Concept, types of fuel cells, operating principles of a fuel cell, conversion efficiency,, work output and e.m.f of fuel cells, applications., 8., , Hydro Energy, , (06 periods), , Mini & Micro hydro plants, , INSTRUCTIONAL STRATEGY, The teacher should make the student s aware about the depletion of energy sources and the availability, of alternate sources of energy their feasibility and limitations. The need for adopting non-conventional, energy sources should be made clear to students. While explaining the need and energy management,, the teacher should give students home assignments bases on energy conservation. The students should, be made familiar with the energy efficient devices, various approaches to conserve energy, energy, auditing procedure etc. Teacher must give practical application of these energy sources in nearby, surrounding areas., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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150, , MEANS OF ASSESSMENT, −, , Assignments and quiz/class tests, mid-term and end-term written tests, model/prototype making, , −, , Actual laboratory and practical work, model/prototype making, assembly and, disassembly exercises and viva-voce, , RECOMMENDED BOOKS :, 1., 2., 3., 4., 5., 6., 7., , Non-Conventional Energy Resources by RK Singal; SK Kataria and Sons, New Delhi, Solar Energy Utilization; GD Rai; Khanna Publishers, New Delhi., Reviews of Renewable Energy Sources, Vol. 3, Edited by MS Sodha, S.S. Mathur, MAS, Malik, TC Kandpal ; Wiley Eastern Limited, New Delhi., Renewable Energy Sources and Conversion Technology by NK Bansal, Manfred, Kleemann, Michael Meliss; Tata McGraw Hill Publishing Co. Ltd New Delhi., Energy Today and Tomorrow; Maheshwar Dayal; Publications Division, Ministry of, Information and Broadcasting, Govt. of India, New Delhi., Energy Technology (Nnon-Conventional, Renewable and Conventional) by S Rao and, BB Parulekar; Khanna Publishers, New Delhi, e-books/e-tools/relevant, software, to, be, used, as, recommended, by, AICTE/UBTE/NITTTR., , Websites for Reference:, http://swayam.gov.in, , SUGGESTED DISTRIBUTION OF MARKS, Topic No., 1., , 2., 3., 4., 5., 6., 7., 8., Total, , Time Allotted, (periods), 06, 16, 14, 12, 16, 04, 10, 06, 84, , Marks Allocation, (%), 8, 20, 16, 14, 20, 05, 12, 08, 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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151, , 5.5.2, , ELECTRIC TRACTION, L T P, 6 - -, , RATIONALE, Nowadays, electrical energy finds major application in electric traction besides steam and, diesel locomotives. Therefore, a diploma holder is required to have elementary knowledge of, electric drives used in traction, accelerating and breaking arrangements at the control panel., LEARNING OUTCOMES, After undergoing the subject, the students will be able to:, •, •, •, , The utilization of electric machines in railway, Utilize electric circuits in locomotive on rail tract, Explain arrangement of the power supply system used in electric traction., , DETAILED CONTENTS, 1., , Introduction, , (05 periods), , Electric traction system and its advantages over other systems, types of electric traction, systems. Traction systems for India., , 2., Electric Traction drives, periods), , (9, , Suitability of electric traction drives- D.C. series motor, A.C. series motor, 3 phase, induction motor, characteristics of electric traction drives, special design requirements,, methods of starting and speed control, different methods of braking, plugging,, rheostatic, regenerative., 3., Power Supply of Electric Traction, periods), , (10, , Different systems of power supplies, their chronological evaluation, power supply, arrangement i.e. traction substation major equipment, transformer, circuit breaker,, interuptor, protection system, remote control system.Design consideration., CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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152, , 4., , 5., , Mechanics of traction:, periods), , (10, , System of units, speed time curves, their construction, simplification and interpretation, for main line, suburban routes, tractive effort, specific energy consumption and factors, effecting it. Weight transfer due to torque coefficient of adhesion., Rectification equipment:, (7 periods), Equipments required for rectification, their brief theory and working., , 6., , Overhead equipment, , (7 periods), , Design aspects of overhead equipments catenary and its types, practical aspects of, working, maintenance of overhead equipments, current collection system, their, requirements., 7., , Track Circuits, , (12 periods), , D.C. and A.C. track circuits, signals for traffic control., 8., , Supervisory Remote Control, , (12 periods), , System of remote control, its advantages, mimic diagram, remote control system and, network remote control centre (R.C.C.), 9., , Rail and Return Path, , (12 periods), , Earth return protection of underground equipment, Negative booster, voltage, distribution on rails., RECOMMENDED BOOKS, 1., 2., 3., 4., , Electric Traction by J. Upadhya;Allied Publisher Limited, New Delhi, Modern Electric Traction by H. Pratap; Dhanpat Rai & Sons, New Delhi, Electric Traction by A.T. Dover; McmillanDhanpat Rai & Sons, New Delhi, Electric Traction Handbook by R.B. Brooks; Sir Isaac Pitman and Sons Ltd., London., SUGGESTED DISTRIBUTION OF MARKS, Topic No., Time Allotted, Marks Allocation, (periods), (%), 1., 05, 06, 2., 09, 12, 3., 10, 12, 4., 10, 12, 5., 07, 08, 6., 07, 08, 7., 12, 14, 8., 12, 14, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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153, , 9., Total, , 12, 84, , 14, 100, , 5.5.3 CONTROL OF ELECTRICAL MACHINES, L T P, 6- RATIONALE, Control systems for electric motors have become very important particularly with reference to, their performance and protection. These control systems may range from starting and stopping, of electric motors to that of directing the energy flow in a completely automated factory. The, arrangement in general, may involve one or more of such functions as rapid stopping (braking),, reversing, speed changing, travel limits of mechanical equipment, timing of multimotor drives, and the regulation of current torque, speed, acceleration and deceleration. The subject has, become an important part of Electrical Engineering., LEARNING OUTCOMES, After undergoing the subject, students will be able to:, •, •, •, •, •, , Select suitable supporting structure, contactors and relay, Prepare layout plan for open loop control of AC motor, Prepare layout plan for closed loop control of AC motor, Operate and maintain parts of drives, Assess and compare the result of various timing relays, , DETAILED CONTENTS, 1., , Control Components, 1.1., 1.2, 1.3, 1.4, 1.5, , (12 Periods), , Fuses and combination fuse switch units, Miniature circuit breaker, Contactors-Solenoid type, Clapper type, Over-load relays-Thermal over-load relay, Ratchet type over load relay,, Magnetic over load relay, Dash pot type oil filled relay, Timing relays, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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154, , 1.6, 1.7, 1.8, 1.9, 1.10, 1.11, 1.12, 1.13, 1.14, 1.15, 1.16, 1.17, 1.18, 1.19, 1.20, 1.21, 1.22, 2., , 1.5.1 Thermal time delay relay, 1.5.2 Pneumatic time delay relay, 1.5.3 Synchronous motor-driven timer, 1.5.4 Solid state timer, Phase failure relay, Push buttons, Selector switches- Two position, Three position, Limit switches- Single side actuation type, Double side actuation type, Rotary, cam type, Heavy duty limit switch, Proximity switches, Solenoid valves, Master controllers & drum switches, Pressure switches, Temperature controller (Thermostat), Float switches, Mechanical brakes for motors, Control transformer, Rectifiers, Reactors, Capacitors, Symbols for various components, Control diagram- Two wire control circuit, Three wire control circuit, , A.C. Control Circuits (12 Periods), 2.1, 2.2, 2.3, 2.4, 2.5, 2.6, 2.7, 2.8, 2.9, , Forward/reversing of 3 phase motors-With push button inter-locking, with, Auxillary contact inter-locking, Sequence starting of motors, Starting multispeed squirrel cage motor, Dynamic braking of squirrel cage induction motor, Plugging of squirrel cage induction motor, Over-load protection of motors, Single phase protection, Over-temperature protection, Voltage stabilizer for 3 phase and single phase motors, , 3., Control of Synchronous Motors, Periods), 3.1, 3.2, 3.3, , Principle of acceleration, Motor starter with field application by definite time relay, Motor starter with field control by polarized field frequency control, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR, , (13
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155, , 3.4, 3.5, , 4., , Motor starter with field application by slip frequency relay, Over-load protection scheme, , Control of Single Phase Motors, 4.1, 4.2, 4.3, 4.4, 4.5, , (14 Periods), , Across the line starter, Reversal of universal motor, Speed control of universal motor, Starter for capacitor type split phase motor, Dynamic braking, , 5., Industrial Control Circuits, Periods), 5.1, 5.2, 5.3, 5.4, 5.5, 5.6, 5.7, , Heater control, Compressor motor control, Skip hoist control, Walking beam, Battery operated truck, Conveyor system control, Life circuit, , 6., Trouble Shooting in Control Circuits, Periods), 6.1, 6.2, 6.3, , (14, , (12, , Analysing the problems, Major trouble spots- Fuse base, Loose connections, Faulty contacts, Incorrect, wire markers, Combination problems, Low-voltage, Grounds, Procedure used in trouble-shooting, , 7., Programmable Logic Controller (PLC), Periods), , (7, , Introduction, Principle of operation, Architecture of programmable, controller,, Programming the programmable controller, Application of programmable controller., INSTRUCTIONAL STRATEGY, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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156, , Control of electrical machines being a industrial requirement,a student will deal with various, control methods, parts of control strategy and fundamental equipmentsof control methods., After studying this subject, an electrical diploma holder must be competent to repair and, maintain the control panel. For above purpose exposure to industry, work place and utilization, of various aspect of control may be emphasized., , RECOMMENDED BOOKS, 1., 2., , Electric Contacts- Theory and Application by Ragnar Halm; Springer Publication, Industrial control Electronics by John Webb, Kevin Greshock; Maxwell; Macmillan, International editions, 3., Industrial Electronics & Control by S.K. Bhattacharya & S. Chatterji; New Age, International Publications(P) Ltd., New Delhi, Websites for Reference, http://www.schneider_electric.us, , SUGGESTED DISTRIBUTION OF MARKS, Topic No, , Time Allotted, (Periods), , Marks, Allocation (%), , 1, , 12, , 16, , 2, , 12, , 15, , 3, , 13, , 15, , 4, , 14, , 16, , 5, , 14, , 15, , 6, , 12, , 15, , 7, , 7, , 8, , Total, , 84, , 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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157, , 5.5.4 ENERGY MANAGEMENT, L T P, 6 - RATIONALE, The requirement of energy has increased manifolds in last two decades due to rapid, urbanization and growth in industrial/service sector. It has become challenging task to meet, ever increasing energy demands with limited conventional fuels and natural resources. Due to, fast depletion of fossil fuels and a tremendous gap between supply and demand of energy, it is, essential to adopt energy conservation techniques in almost every field like industries,, commercial and residential sectors etc. Energy conservation has attained priority as it is, regarded as additional energy resource. Energy saved is energy produced. This course covers, the concepts of energy management and its conservation. It gives the insight to energy, conservation opportunities in general industry and details out energy audit methodology and, energy audit instruments., LEARNING OUTCOMES, After undergoing this course, the students will be able to:, • Define principles and objectives of energy management and energy audit., • Understand various forms & elements of energy., • Identify electrical and thermal utilities. Understand their basic principle of operation, and assess performance of various equipment., • Identify areas of energy conservation and adopt conservation methods in various, systems., • Evaluate the techno economic feasibility of the energy conservation technique adopted., , DETAILED CONTENTS, 4., , Introduction, , (15 periods), , 1.1, 1.2, , Energy management, Environmental aspects, need for energy conservation with brief description of, oil & coal crisis., , 1.3, 1.4, 1.5, 1.6, 1.7, , Energy efficiency & its significance, Energy efficient practices in lighting, Tips for energy saving in building - New Building, Existing Building, Energy conservation opportunity & measures, Macro level approach at design stage, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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158, , 5., , 6., , Energy Conservation in Various Sectors, 5.1, 5.2, , Energy conversation in domestic sector-lighting, home applications, Energy conservation in industrial sector-industrial lighting, distribution system,, motors, pumps blowers etc., , 5.3, , Energy conservation in agricultural sector-Tube well pump, D.G. sets, standby energy source, , Energy Audit, 6.1, 6.2, 6.3, 6.4, , 7., , 9., , (17 periods), , Energy efficient technology- An overview, Need for energy efficient devices, Initial cost vs. life cycle, cost analysis on life cycle basis, Energy efficient motor as compared to standard motors, Energy efficient lighting system, different sources-lumens/watt, LED, Role of voltage and, efficiency., , Environmental Impact assessment, 9.1, , (20 periods), , Transformer loading, Tips for energy savings in transformers, Motor Loading, Variation in efficiency and power factor with loading, Tips for energy savings in motors, BIS standard for energy efficient motors, design features, Need for energy efficient motors, Various constructional features of EEMs, EEM as compared to standard motors, Distribution system- optimum cable size, amorphous core transformers, location, of capacitors, , Efficient devices, 8.1, 8.2, 8.3, 8.4, 8.5, , (08 periods), , Types and methodology, Energy auditing reporting format, Energy audit instruments, Specific energy consumption-three pronged approach, fine tuning, technical, upgradation; avoidable losses, , Electrical Supply System and Motors, 7.1, 7.2, 7.3, 7.4, 7.5, 7.6, 7.7, 7.8, 7.9, 7.10, , 8., , (14 periods), , (10 periods), , Need for environmental impact assessment, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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159, , 9.2, 9.3, 10., , Standard format for assessment & its completion, Evaluation of assessment, , Energy Conservation Building Code, 10.1, 10.2, 10.3, 10.4, 10.5, 10.6, 10.7, 10.8, , (10 periods), , ECBC and its salient features including thermal behavior of buildings, ECBC Guidelines on Building Envelope, ECBC Prescriptive Requirements for Building Envelope, ECBC Guidelines on Heating, Ventilation and Air Conditioning, ECBC Guidelines on Service Hot Water and Pumping, ECBC Guidelines on Lighting, ECBC Guidelines on Electrical Power, ECBC Guidelines on Star Labelling and Minimum Star rating, , STUDENT ACTIVITIES ON ENERGY CONSERVATION/ENERGY EFFICIENCY, 1., 2., 3., 4., 5., , Presentations of Case Studies, Debate competitions, Poster competitions, Industrial visits, Visual Aids, , INSTRUCTIONAL STRATEGY, Teachers are expected to lay considerable stress on understanding the basic concepts in energy, conservation, principles and their applications. For this purpose, teachers are expected to give, simple problems in the class room so as to develop necessary knowledge for comprehending, the basic concepts and principles. As far as possible, the teaching of the subject must be, supplemented by demonstrations and practical work in the laboratory. Visits to industries must, be carried out., MEANS OF ASSESSMENT, −, , Assignments and quiz/class tests, mid-term and end-term written tests, model/prototype making, , − Actual laboratory and practical work, model/prototype making, assembly and disassembly, exercises and viva-voce, , REFERENCE BOOKS, 1., 2., , Electric Energy Generation, Utilisation and Conservation by Sivaganaraju, S; Pearson,, New Delhi, Electrical Power by V.K. Mehta; Khanna and Khanna Publishers, New Delhi, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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160, , 3., 4., 5., 6., , Handbook on Energy Audit & Environmental Management by Y P Abbi & Shashank, Jain published by TERI. Latest Edition, Guide book on General Aspects of Energy Management and Energy Audit by Bureau, of Energy Efficiency, Government of India. Edition 2015, Guide book on Energy Efficiency in Electrical Utilities, by Bureau of Energy, Efficiency, Government of India., e-books/e-tools/relevant, software, to, be, used, as, recommended, by, AICTE/UBTE/NITTTR., , Websites for Reference:, http://swayam.gov.in, , SUGGESTED DISTRIBUTION OF MARKS, Topic No., , Time Allotted, (Periods), , Marks Allotted (%), , 9., , 12, , 15, , 10., , 12, , 15, , 11., , 08, , 10, , 12., , 16, , 18, , 13., , 16, , 18, , 14., , 10, , 12, , 15., , 10, , 12, , Total, , 84, , 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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161, , 6.1 INSTALLATION, MAINTENANCE AND REPAIR OF ELECTRICAL, EQUIPMENT, L T P, 6 - 6, RATIONALE, In his career as a supervisor, an electrical engineering technician will be called upon to inspect,, test and modify the work done by skilled workers or artisans working under him. Many a, times, it will become necessary for him to demonstrate the correct method and procedure of, doing certain operations. Normally manufacturers of heavy electrical equipment provide, service manuals, instructions for installation, maintenance and fault location. Indian Electricity, Rules and Indian Standard Specifications also provide enough guidelines. This syllabus has, been designed to provide certain guidelines and broad principles regarding the above activities., Appropriate field trips will reinforce the learning., LEARNING OUTCOMES, After undergoing the subject, the students will be able to:, •, •, •, •, •, •, •, •, •, , Erect/install various electrical equipment as per IE Rules Act by adopting all safety measures., Prepare specifications for different items required for transmission lines., Design and excavation of cable trenches., Lay underground cables, Test cables and their termination., Check HT/LT circuit breakers, transformers and related equipment in a substation, Carry out earthing, make earth pits and measure earth resistance values., Find fault in a transmission/distribution system., Carry out preventive maintenance to minimize breakdowns., , DETAILED CONTENTS, 1., , Tools and Accessories, , (14 Periods), , Tools, accessories and instruments required for installation, maintenance and repair, work. Knowledge of Indian Electricity rules, safety codes, causes and prevention of, accidents, artificial respiration of an electrocuted person, workmen's safety devices, 2., , Installation, 2.1, , (40 Periods), , Installation of transmission and Distribution Lines, Erection of steel structures, connecting jumpers, tee-off points, joints and dead, ends; crossing of roads, streets, power/telecommunication lines and railway line, crossings, clearances; earthing of transmission lines and guarding, spacing and, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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162, , configuration of conductors: Arrangement for suspension and strain insulators,, bird guards, anti-climbing devices and danger plates; sizes of conductor,, earthwire and guy wires., Laying of service lines, earthing, provision of service fuses, installation of, energy meters, 2.2, , 2.3, , 2.4, , 2.5, 3., , Laying of Underground Cables, Inspection, storage, transportation and handling of cables, cable handling, equipment, cable laying depths and clearances from other services such as:, water, sewerage, gas, heating and other mains, and also a series of power and, telecommunication cables and coordination with these services, excavation of, trenches, direct cable laying, including laying of cable from the drum, laying, cable in the trench, taking all measurements and making drawings, back filling, of trenches with earth or sand, laying protective layer of bricks etc,) laying of, cables into pipes and conduits and within buildings., Elementary idea regarding, inspection and handling of transformers; pole, mounted substations, plinth mounted substations, grid substation, busbars,, isolators, voltage and current transformers, lightning arrestors, control and relay, panels, HT/LT circuit breakers, LT switches, installation of power/distribution, transformers, dehydration. Earthing system, fencing of yard, equipment, foundations and trenches etc.., Testing of various electrical equipment such as electrical motor, transformers,, cables, and generators, motor control centres, medium voltage distribution, panels, power control centres, motor control centres, lighting arrangement,, storage, pre-installation checks, connecting and starting, pre-commissioning, checks, drying out, Testing of Transformers: Typetest, oil testing of transformers, , Maintenance, 3.1, 3.2, , 3.3, , 3.4, , 3.5, , (30 Periods), , Types of maintenance, maintenance schedules, procedures, Maintenance of Transmission and Distribution System, Authorized persons, danger notice, caution notice, permit to work, arranging of, shutdowns personally, temporary earthing, cancellation of permit and, restoration of supply., Patrolling and visual inspection of lines - points to be noted during patrolling, from ground; special inspections and night inspections;, Location of faults using Meggar, effect of open or loose neutral connections,, provision of proper fuses on service lines and their effect on system, causes of, dim and flickering lights., Maintenance of Distribution Transformers, Transformer maintenance and points to be attended to in respect of various, items of equipment, Checking of insulation resistance, transformer oil level and BDV test of oil,, measurement of earth resistance, Maintenance of Grid Substations, Checking and maintenance of busbars, isolating switches, HT/LT circuit, breakers, LT switches. Power transformers, Maintenance of Motors, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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163, , 3.6, , Over hauling of motors, preventive maintenance, trouble shooting of electric, motors, Domestic Installation, Introduction, testing of electrical installation of a building, testing of insulation, resistance to earth, testing of insulation and resistance between conductors,, continuity or open circuit test, , INSTRUCTIONAL STRATEGY, This subject needs theoretical and practical inputs. Demonstration at actual site may be, arranged for conceptual understanding. The subject teacher should plan in advance about the, visits to the actual sites and establish liaison with the appropriate authorities/ persons with the, help of HOD and Principal of the institution. The students be taken to actual workplace and, explain various test procedures., MEANS OF ASSESSMENT, −, −, , Assignments and quiz/class tests, mid-term and end-term written tests, model/prototype making, Actual laboratory and practical work, model/prototype making, assembly and disassembly exercises and vivavoce, , LIST OF PRACTICALS, 1., 2., 3., 4., 5., 6., , Testing of Insulation Resistance of PVC in PVC wire, measurement of winding, resistance of a motor., Wiring of tube light connection with starter and choke., Oil testing of a transformer and note its breakdown value., Make a alarm circuit., Make ON/OFF control circuit to run an electric induction motor (Single Phase), Make a circuit to run a ceiling fan., , RECOMMENDED BOOKS, 1., 2., 3., 4., , Testing, Commissioning , Operation and Maintenance of Electrical Equipment by S, Rao,Khanna Technical Publication, New Delhi, Preventive Maintenance of Electrical Apparatus by SK Sharotri, Katson Publishing, House, Ludhiana, Installation and Maintenance of Electrical Equipment by Praveen Kumar, North, Publication, Jalandhar, e-books/e-tools/relevant, software, to, be, used, as, recommended, by, AICTE/UBTE/NITTTR, Chandigarh., , Websites for Reference:, http://swayam.gov.in, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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164, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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165, , SUGGESTED DISTRIBUTION OF MARKS, Topic No, 1, , Time Allotted, (Periods), 14, , Marks Allocation, (%), 18, , 2, , 40, , 50, , 3, , 30, , 32, , Total, , 84, , 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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166, , 6.2, , ELECTRICAL DESIGN, DRAWING AND ESTIMATING - II, L T P, 5 - 8, , RATIONALE, A diploma holder in Electrical Engineering is supposed to have ability to :, i), ii), iii), , Read, understand and interpret electrical engineering drawings, Communicate and correlate through sketches and drawings, Prepare working drawings of electrical circuits, motor control, earthing and, motor parts, , The contents of this subject has been designed to develop requisite knowledge and skills of, electrical drawings in the students of diploma in electrical engineering., LEARNING OUTCOMES, After undergoing the subject, students will be able to:, •, •, •, •, •, •, •, , recognize contactor and its use in various applications of 3 phase induction motor, recognize different types of earthing, name relevant IS specification for earthing, read and interpret key diagrams, read and interpret schematic and wiring diagrams, Prepare estimate of wiring installation., Prepare estimate of small sub-station., DETAILED CONTENTS, , 1, , Contractor Control Circuits, , (10 periods), , Design of circuit drawing of schematic diagram and power wiring diagram of following, circuits, specification of contactors, 1.1, 1.2, 1.3, 1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 2., , DOL starting of 3-phase induction motor, 3-phase induction motor getting supply from selected feeder, Forwarding/reversing of a 3-phase induction motor, Two speed control of 3-phase induction motor, Limit switch control of a 3-phase induction motor, Sequential operating of two motors using time delay relay, Manually generated star delta starter for 3-phase induction motor, Automatic star delta starter for 3-phase Induction Motor, Control circuit for cross road signal, , Earthing, 2.1, , (08 periods), , Concept and purpose of earthing, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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167, , 2.2, 2.3, 2.4, 2.5, 2.6, 2.7, 2.8, , Different types of earthing, drawings of plate and pipe earthing, Procedure of earthing, test of materials required and costing and estimating, Method of reducing earth resistance, Relevant IS specifications of earth electrode for earthing a transformer, a high, building, Earthing layout of distribution transformer, Substation earthing layout and earthing materials, Line diagram of 11kV, 33kV, 66kV, 132 kV sub-stations, , 3., , Schematic Diagram of lighting system of conference room/Theatre/sports stadium, (indoor and outdoor) and Circuits using timers using CAD and, Drawing sheets., (08 periods), , 4., , Estimation of Internal Wiring Installation, , (12 periods), , Estimation of wiring installation for commercial and industrial buildings such as multistoried hotels, hospitals, schools, colleges, cinema, community centers, public library,, high rise residential buildings etc. including design of layout, load estimation, Demand, factor and diversity factor, power distribution scheme, list of material with, specifications estimation of cost preparing relevant electrical schedule or rate (CPWD, or PWD) using latest practices, materials and accessories., 5., , Estimation of Power Wiring, , (08 periods), , I.S. specifications and I.E. rules, calculation of current for single and three phase, motors. Determination of sizes of cables, conductors distribution board, main switches, and starters for power circuits. Cost of equipments and accessories and schedule of, material. Estimation and cost of material and work for motors up to 20 H.P., pumpsets, and small workshops., 6., , Estimation of Overhead and Underground Distribution Lines, , (08 periods), , Main components of overhead lines-line supports, cross-arm, clamps, conductors and, staysets, lightening arrestors, danger plates, anti climbing devices, bird guards, jumpers, etc., concerting of poles, earthing of transmission line, formation of lines, specification, of materials for O.H. lines, I.S, specification and I.E. rules. Cost of material and work, for overhead and undergoing lines up to 11 KV only., 7., , Estimation of Service Connections, , (08 periods), , Service connection, types of service connections-overhead and underground for single, story and double story buildings, estimate of materials required for giving service, connection to domestic consumers, commercial consumers and industrial consumers at, L.T. and H.T. costing of material and work in above cases., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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168, , 8., , Estimation of Small Sub-Station, , (08 periods), , Main equipments and auxiliaries installed on the substation. Estimation of materials, required for a small distribution substation (indoor and outdoor type-platform and pole, mounted). Costing of material and work of above substations., Note:, , Draw various schematic and wiring diagrams using graphic package(preferably, CAD), , LIST OF PRACTICALS, 1., 2., 3., 4., 5., 6., 7., 8., 9., 10., , Earthing, Commercial and industrial buildings, Power wiring layout and circuits, Stays, line crossings, line earthing, end poles and terminal poles, junction poles/towers and transposition, pole/towers., Service connection domestic, industrial and agriculture., Substation layout and bus bar arrangements, Machine drawings-induction and synchronous machines., Winding of induction machine, 3phase; 1phase., Reading and interpreting practical drawing of wiring installation and control circuits., Winding of synchronous machine 3 phase. (alternator and synchronous motor), , MEANS OF ASSESSMENT, −, −, , Design and drawing, Assignments and quiz/class tests, mid-term and end-term written tests, model/prototype making, , RECOMMENDED BOOKS, 1., 2., 3., 4., 5., 6., , Electrical Design and Drawings by Raina & Bhattacharya, Electrical Design & Drawings by Sarabjeet Singh, IEEE Guide 80 for Earthing, IEEE Publication, New York, Electrical Design and Drawing by Surjit Singh, North Publication, Jalandhar, BIS for Electrical Earthing, e-books/e-tools/relevant, software, to, be, used, as, recommended, AICTE/UBTE/NITTTR., , Websites for Reference:, http://swayam.gov.in, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR, , by
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169, , SUGGESTED DISTRIBUTION OF MARKS, Topic No, 1., , Time Allotted, (Periods), 10, , Marks Allocation, (%), 15, , 2., , 08, , 10, , 3., , 08, , 10, , 4., , 12, , 25, , 5., , 08, , 10, , 6., , 08, , 10, , 7., , 08, , 10, , 8., , 08, , 10, , 70, , 100, , Total, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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170, , 6.3, , UTILIZATION OF ELECTRICAL ENERGY, L T P, 5 - -, , RATIONALE, This subject assumes importance in view of the fact that an electrical technician has to work in a wide, spectrum of activities wherein he has to make selection from alternative schemes making technical and, economical considerations; e.g. to plan and design an electrical layout using basic principles and, handbooks, to select equipment, processes and components in different situations. The contents have, been designed keeping the above objectives in view. Besides giving him basic knowledge in the topics, concerned, attempts have been made to ensure that the knowledge acquired is applied in various fields, as per his job requirements. To orient the subject matter in the proper direction, visits to industrial, establishments are recommended in order to familiarize the students with the new developments in, different areas, , LEARNING OUTCOMES, After undergoing the subject, the student will be able to:, •, •, •, •, •, •, •, •, , Explain different methods of illumination, Design lighting scheme for domestic, industrial and commercial installation, Design and select a suitable heating arrangement for a particular job, Handle and maintain electric welding equipment, Handle and maintain electrolytic plant, Find faults in electric circuits of refrigerators, Suggest electric drives as per need, Maintain electric traction lines and track, , DETAILED CONTENTS, , 1., , Illumination, 1.1, 1.2, 1.3, , 1.4, , (14 Periods), , Nature of light, visibility spectrum curve of relative sensitivity of Human eye, and wave length of light., Definition: Luminous flux, solid angle, intensity, luminous efficiency. Space to, height ratio, reflection factor, lux, shadow ., Different types of lamps, construction and working of incandescent and, discharge lamps. Fitting required for filament lamp,mercury vapor, sodium, lamp, halogen lamp, CFL, LED lamp., Calculation of number of light points for interior illumination calculation of, indoor and outdoor illumination levels at different points.., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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171, , 1.5, , 2., , Time switches, street lighting, flood lighting and its characteristics., , Electric Heating and Welding, , (18 Periods), , 2.1, , Advantages of electrical heating, , 2.2, , Heating methods, 2.2.1 Resistance heating – direct and indirect resistance heating, electric, ovens, their temperature range, properties of resistance heating elements,, domestic water heaters and other heating appliances, thermostat control, circuit, 2.2.2 Induction heating; principle of core type and coreless induction furnace,, their construction and applications, 2.2.3 Electric arc heating; direct and indirect arc heating, construction, working, and applications of arc furnace, 2.2.4 Dielectric heating, applications in various industrial fields, 2.2.5 Infra-red heating and its applications (construction and working of two, appliances), 2.2.6. Microwave heating and its applications (construction and working of, two appliances), 2.2.7 Solar Heating, Calculation of resistance heating elements (simple problems), Electric Welding, , 2.3, 2.4, , 2.4.1, , Advantages of electric welding, , 2.4.2, , Welding methods, 2.4.3 Principles of resistance welding, types – spot, projection, seam and, butt welding, welding equipment, 2.4.4 Principle of arc production, electric arc welding, characteristics of arc;, carbon arc, metal arc, hydrogen arc welding method and their applications., Power supply requirement. Advantages of using coated, electrodes,comparison between AC and DC arc welding, welding control, circuits,welding of aluminum and copper, , 3., , Electrolytic Processes, 3.1, 3.2, 3.3., , (08 Periods), , Need of electro-deposition, Laws of electrolysis, process of electro-deposition - clearing, operation,, deposition of metals, polishing and buffing, Equipment and accessories for electroplating, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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172, , 3.4., 3.5., 3.6, 3.7, 3.8, 4., , 5., , Electrical Circuits used in Refrigeration, Air Conditioning and Water Coolers, (08 Periods), 4.1, Principle of air conditioning, 4.2, Description of Electrical circuit used in, a), Refrigerator,, b), Air-conditioner, and, c), Water cooler, Electric Drives, (10 Periods), 5.1, 5.2., 5.3., 5.4., 5.5, 5.6, 5.7, , 6., , Factors affecting electro-deposition, Principle of galvanizing and its applications, Principles of anodizing and its applications, Electroplating of non-conducting materials, Manufacture of chemicals by electrolytic process, , Advantages of electric drives, Characteristics of different mechanical loads, Types of motors used as electric drive, General idea about the methods of power transfer by direct coupling by using, devices like belt drive, gears, chain drives etc., Examples of selection of motors for different types of domestic loads, Selection of drive for applications such as general workshop, textile mill, paper, mill, steel mill, printing press, crane and lift etc. Application of flywheel., Selection of motors for Domestic Appliances, , Electric Traction, 6.1, 6.2, , 6.3, 6.4, 6.5., 6.6, 6.7, 6.8, 6.9, 6.10, , (12 Periods), , Advantages of electric traction, Different systems of electric traction, DC and AC systems, diesel electric, system, types of services – urban, sub-urban, and main line and their speedtime curves, Different accessories for track electrification; such as overhead catenary wire,, conductor rail system, current collector-pentagraph, Factors affecting scheduled speed, Electrical block diagram of an electric locomotive with description of, various equipment and accessories used., Types of motors used for electric traction, Power supply arrangements, Starting and braking of electric locomotives, Introduction to EMU and metro railways, Train Lighting Scheme, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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173, , Note: Students should be taken for visits to nearest electrified railway track and railway, station to study the electric traction system. Also visit should be made to show electric, illumination in building., INSTRUCTIONAL STRATEGY, It is desired to give ample practical examples in the class while teaching this subject. Teacher, must supplement his/her classroom teaching with aids such as models, charts, and video films, from time to time., This subject requires demonstrations and exposure to actual, workplace/industry/field. For this purpose, the subject teacher should do advance planning for, visits/studies related to each topic in consultation with HOD and Principal of the, polytechnic/institution., MEANS OF ASSESSMENT, −, −, −, , Assignments and quiz/class tests, mid-term and end-term written tests, model/prototype making, Actual laboratory and practical work, model/prototype making, assembly and disassembly exercises and vivavoce, Software installation, operation, development, , RECOMMENDED BOOKS, 1., Art and Science of Utilization of Electrical Energy by H Partap, Dhanpat Rai & Sons,, Delhi, 2., Utilization of Electrical Energy by JB Gupta, Kataria Publications, Ludhiana, 3., Utilization of Electrical Energy by Sahdev, Uneek Publication, Jalandhar, 4., A Text Book. of Electrical Power by Dr. SL Uppal, Khanna Publications, Delhi, 5., Modern Electric Traction by H Partap,Dhanpat Rai & Sons, Delhi, 6., Utilization of Electrical Energy by D.R. Arora, North Publication, Jalandhar, 7., Generation, Distribution and Utilization if Electrical Power by CL Wadhwa,Wiley, Eastern Ltd., New Delhi, 8., e-books/e-tools/relevant, software, to, be, used, as, recommended, by, AICTE/UBTE/NITTTR., Websites for Reference:, http://swayam.gov.in, SUGGESTED DISTRIBUTION OF MARKS, Topic No., 1, 2, 3, 4, 5, 6, Total, , Time Allotted, (Periods), 14, 18, 08, 08, 10, 12, 70, , Marks Allocation, (%), 20, 24, 12, 12, 14, 18, 100, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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174, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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175, , 6.4, , APPLICATIONS OF COMPUTER SOFTWARE, IN ELECTRICAL ENGINEERING, , L, , T, , P, , -, , -, , 2, , RATIONALE, All equipment, installations, circuits and other electrical and electronic systems in commercial,, power and industrial sector need drawings for their manufacturing, installation, operation and, maintenance. A diploma holder in Electrical Engineering must possess the skill of reading,, interpreting different drawings and simulating electrical and electronics circuits for most of the, activities. With the evolution of various computer softwares, the conventional role of draftsman, has been is now taken over by Computer software. Computer Aided Drawing (CAD) and, simulation (MATLAB/SIMULINK) software will be used to perform various practical exercises, in this course. This will enable the students to become competent to function in the fast growing, information technology environment by enhancing their computer aided drawing, designing and, simulating skills in the field of electrical and electronics engineering., , LEARNING OUTCOMES, At the end of this course, the students will be able to :, • Use various symbols and notations in electrical and electronics engineering drawings., • Interpret drawings and draw interferences., • Draw various electrical and electronics circuits using CAD software., • Simulate simple electrical and electronics circuits using simulation software, , LIST OF PRACTICALS, 1., , Draw different types of following rectifier circuits using MATLAB/Simulink/Open, Source Software and take print out of, (a)Single phase half wave, (b)Single phase full wave, , 2., , Simulate three resistances in series circuit and find out voltage and current in each, resistance ., Simulate the following circuits and find out voltage and current in each resistance, (a)Two resistances in parallel, (b)Resistance and inductor in parallel, , 3., , 4., 5., 6., 7., , Simulate R-L series circuit and observe voltage wave forms across each component., Simulate R-C series circuit and observe voltage wave forms across each component., Simulate R-L-C series circuit and observe voltage wave forms across each component., Simulate R-L-C parallel circuit and observe current wave forms across each, component., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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176, , 8., 9., 10., 11., 12., , Simulate star connection using resistors and observe voltage current relation of line and, phase., Simulate delta connection using resistors and observe voltage current relation of line, and phase., Simulate single phase half-wave rectifier circuit., Simulate single phase full-wave rectifier circuit., Simulate single phase bridge rectifier circuit., , LIST OF RECOMMENDED BOOKS, 1., 2., 3., 4., , Computer Aided Electrical Drawing by M. Yogesh, B.S. Nagaraja, N. Nandan, Prentice, Hall of India., Mastering electronics workbench: Version 5 and Multisim Version 6 by John Adams,, McGraw-Hill, New Delhi, Electrical Drafting by S.F. Divalapur, Eastern Book Promoters, Belgaum., Getting Started with MATLAB by Rudra Pratap, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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1, , 6.5, , PROJECT WORK, L T P, - - 12, , RATIONALE, Major Project Work aims at developing innovative skills in the students whereby they apply in, totality the knowledge and skills gained through the course work in the solution of particular, problem or by undertaking a project. In addition, the project work is intended to place students, for project oriented practical training in actual work situation for the stipulated period., LEARNING OUTCOMES, After undergoing the project work, students will be able to:, Apply in totality the knowledge and skills gained through the course work in the solution, of particular problem or by undertaking a project. In addition, the project work is intended, to place the learner for project oriented practical training in actual work situation for the, stipulated period with a view to:, •, , •, •, , •, , Develop understanding regarding the size and scale of operations and nature of fieldwork in which students are going to play their role after completing the courses of, study, Develop understanding of subject based knowledge given in the classroom in the, context of its application at work places., Develop firsthand experience and confidence amongst the students to enable them to, use and apply polytechnic/institute based knowledge and skills to solve practical, problems related to the world of work., Develop abilities like interpersonal skills, communication skills, positive attitudes and, values etc., , General Guidelines, The individual students have different aptitudes and strengths. Project work, therefore, should, match the strengths of students. For this purpose, students should be asked to identify the type, of project work, they would like to execute. The activity of problem identification should begin, well in advance (say at the end of second year). Students should be allotted a problem of, interest to him/her as a major project work. It is also essential that the faculty of the respective, department may have a brainstorming session to identify suitable project assignments for their, students. The project assignment can be individual assignment or a group assignment. There, should not be more than 3 students if the project work is given to a group. The project work, identified in collaboration with industry should be preferred., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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2, , This practical training cum project work should not be considered as merely conventional, industrial training in which students are sent at work places with either minimal or no, supervision. This experience is required to be planned in advance and supervised on regular, basis by the polytechnic faculty. For the fulfillment of above objectives, polytechnics may, establish close linkage with 8-10 relevant organization for providing such an experience to, students. It is necessary that each organization is visited well in advance and activities to be, performed by students are well defined. The chosen activities should be such that it matches, with the curricular interest to students and of professional value to industrial/ field, organizations. Each teacher is expected to supervise and guide 5-6 students., Some of the project activities are given below:, Projects related to designing small electrical equipment / instruments., Projects related to increasing productivity in electrical manufacturing areas., Projects related to quality assurance., Projects connected with repair and maintenance of plant and equipment., Projects related to design of PCBs., Projects related to design of small oscillators and amplifier circuits., Projects related to design, fabrication, testing and application of simple digital circuits, and components., Projects related to microprocessor/microcontroller based circuits/ instruments., A suggestive list of project is given below:1., 2., 3., 4., 5., 6., 7., 8., 9., 10., 11., 12., 13., 14., 15., 16., 17., 18., 19., 20., 21., 22., 23., , Design and fabrication of control panel for various applications in the field of electrical engineering., Rewinding of a single phase/three phase induction motor, Fabrication of working model of a solar thermal power plant., Design and fabrication of automated car parking system., Design and fabrication of automated gate control of railway crossing., Design and fabrication of electrical resistive/inductive/capacitive loads., Design and fabrication of remote control of various domestic electrical appliances., Design and fabrication of microcontroller based DC drive system., Design and fabrication of automatic water level control system., Design and fabrication of automatic solar battery charger., Fabrication of automatic star-delta starter., Fabrication of working model of hydro electric power plant., Fabrication of sine wave inverter up to 500VA., Fabrication of water level indicator., Fabrication of rain/fire/ smoke/burglar detector., Fabrication of automatic solar panel based street lights., Fabrication of automatic solar panel based traffic lights, Fabrication of automatic voltage stabilizer up to 1 KVA., Fabrication of working model of wind power plant., Fabrication of heat convector blower with humidifier., Fabrication of oil based radiation type room heater., Fabrication of small 1- phase transformer up to 1KVA., Fabrication of UPS up to 500VA., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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3, , 24., 25., 26., 27., 28., 29., 30., 31., 32., 33., 34., 35., 36., 37., 38., 39., 40., 41., 42., 43., 44., 45., 46., 47., 48., 49., , Fabrication of a distribution board as per requirement., Fabrication of Direct-On-Line (DOL) starter., Fabrication of solar tracking system., Fabrication of automatic power factor corrector., Fabrication of desert cooler/ room cooler., Fabrication of electric/solar water heater., Erection, installation & commissioning of electrical equipments., Fault detection & repair of electrical/ electronic instruments., Drawing, estimating and costing of electrical installation of the institution from supplier’s pole to the, institution distribution board., Drawing, estimating and costing of electrical installation of a workshop having a given number of, electrically operated appliances/machines., To study the laying out of underground distribution cable for a small colony starting from main, distribution pole., To study the erection of a 5 pole span over head line for a small distance for distribution of electrical, energy and to prepare list of material required., Energy audit for the workshop of your institution & to suggest remedies to reduce electricity bills., Estimate the material required to provide a service connection to a consumer’s premises for domestic, purposes., To survey the load of a given area in a village, small colony, calculate the effective load and find out the, sizes of cables/conductors for the proposed distribution system., Designing of light and fan scheme for an institutional or commercial building., To study and estimate the material required during augmentation of a nearby pole mounted sub-station., To study and estimate the material required during augmentation of a nearby in door sub-station., To study and estimate the material required for a solar power station up to 100KW after visiting the, actual site, To prepare a proposal for substation of your institution , calculating the total load (estimating and, costing), Installation of home security system, Detection of electricity theft control system with wireless indication system, Fabrication of cyclo-converter ( frequency changer), Design and fabrication of panel for automatic switching of DG set with supply system, Design and fabrication of wireless AC Power transmission., Design and fabrication of solar energy bored projects like solar cooker, solar dryer, solar street light,, solar inverter, solar pump, solar emergency light etc., , NOTE: The project should be preferably undertaken by a group of students depending upon, cost and time involved., There is no binding to take up the above projects as it is only a suggestive list of projects., A suggestive criterion for assessing student performance by the external (person from industry), and internal (teacher) examiner is given in table below:, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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4, , Sr., No., , Performance Criteria, , 1., 2., , Selection of project assignment, Planning and execution of, considerations, Quality of performance, Providing solution of the, problems or production of final, product, Sense of responsibility, Self, expression/, communication skills, Interpersonal, skills/human, relations, Report writing skills, Viva voce, , 3., 4., , 5., 6., 7., 8., 9, , Total marks, , Max., Marks, 10%, 10%, , Rating Scale, Excel Very, lent, Good, 10, 8, 10, 8, , 20%, 20%, , 20, 20, , 16, 16, , 12, 12, , 8, 8, , 4, 4, , 10%, 5%, , 10, 5, , 8, 4, , 6, 3, , 4, 2, , 2, 1, , 5%, , 5, , 4, , 3, , 2, , 1, , 10%, 10%, , 10, 10, , 8, 8, , 6, 6, , 4, 4, , 2, 2, , 100, , 100, , 80, , 60, , 40, , 20, , Good, , Fair, , Poor, , 6, 6, , 4, 4, , 2, 2, , The overall grading of the practical training shall be made as per following table., In order to qualify for the diploma, students must get “Overall Good grade” failing which the, students may be given one more chance to improve and re-evaluate before being disqualified, and declared “not eligible to receive diploma”. It is also important to note that the students, must get more than six “goods” or above “good” grade in different performance criteria items, in order to get “Overall Good” grade., , i), ii), iii), iv), v), , Range of maximum marks, , Overall grade, , More than 80, 79 <> 65, 64 <> 50, 49 <> 40, Less than 40, , Excellent, Very good, Good, Fair, Poor, , Important Notes, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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5, , 1., , This criteria must be followed by the internal and external examiner and they should see, the daily, weekly and monthly reports while awarding marks as per the above criteria., , 2., , The criteria for evaluation of the students have been worked out for 200 maximum marks., The internal and external examiners will evaluate students separately and give marks as, per the study and evaluation scheme of examination., , 3., , The external examiner, preferably, a person from industry/organization, who has been, associated with the project-oriented professional training of the students, should evaluate, the students performance as per the above criteria., , 4., , It is also proposed that two students or two projects which are rated best be given merit, certificate at the time of annual day of the institute. It would be better if specific nearby, industries are approached for instituting such awards., , The teachers are free to evolve other criteria of assessment, depending upon the type of project work., , It is proposed that the institute may organize an annual exhibition of the project work, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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6, , 10., , RESOURCE REQUIREMENT, , 10.1, , PHYSICAL RESOURCES, , (A), , Space requirement, Norms and standards laid down by All India Council for Technical Education (AICTE), are to be followed to work out space requirement in respect of class rooms, tutorial, rooms, drawing halls, laboratories, space required for faculty, student amenities and, residential area for staff and students., , (B), , Equipment requirement:, , Following Laboratories are required for Diploma Programme in Electrical Engineering:, − Communication Laboratory, − Applied Physics Laboratory, − Applied Chemistry Laboratory, − Engineering Drawing, − Electrical Engineering Laboratory, − Basics of IT/Computer Laboratory, − Carpentry Shop, − Painting and Polishing Shop, − Electrical Shop, − Welding Shop, − Fitting and Plumbing Shop, − Sheet Metal Shop, − Mason Shop, − Machine Shop, − Measurement and Instrumentation Laboratory, − Electrical Machines Laboratory, − Installation, Maintenance & Repair Laboratory, − Environment Engineering Lab, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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7, , − Energy Conservation Lab, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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8, , EQUIPMENT REQUIRED FOR CIVIL ENGINEERING, Sr., , Description, , Qty, , No., , Total Price, (Rs), , COMMUNICATION LABORATORY, 1., , Stools, , 40, , 10,000, , 2., , Display Board/Screen, , 2, , 6,000, , 3., , Sound recording and playing system, , 1, , 6,000, , 4., , Audio cassettes, , 60, , 2,000, , 5., , Overhead Projector, , 1, , 5,000, , 6., , Transparencies slides, , 7., , TV, VCR and camera for video recording, , 8., 9., , 100, , 500, , 1 each, , 20,000, , English spoken course, , 1, , 2,000, , A Quiz room equipped with two way audio system, back, projection system and slide projector, , 1, , 30,000, , 10., , Miscellaneous, , LS, , 1,500, , APPLIED PHYSICS LABORATORY, , 1., , Vernier calipers, , 12, , 2,000, , 2., , Working length 160 mm, Internal and external dia with, locking arrangement, Screw Gauges, , 12, , 2,000, , 3., , Working length 15 mm, pitch 0.5 mm, least count .005, mm, Spherometers, , 12, , 2,000, , 4., , Distance between legs 2.5 mm, pitch 0.5 mm, least count, .005 mm., Mirrors (convex, concave), , 5 Each, , 1,500, , 5., , Pendulum Setup, , 02, , 4,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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9, , 6., , Gravesand’s Apparatus, , 02, , 3,000, , 7., , Inclined Plane Setup, , 02, , 2,000, , 8., , Flywheel Setup, , 02, , 4,000, , 9., , Prism, , 05, , 1,500, , 10., , Spectrometer, , 02, , 25,000, , 11., , DC Ammeters, , 10, , 3,500, , Moving coil weston-type ammeter with ebonite stand, 12., , DC Miliammeters, , 2, , 1,000, , 13., , DC Microammeters, , 2, , 700, , 14., , DC voltmeters, , 10, , 700, , 15., , DC Millivoltmeters, , 10, , 2,000, , Sr., , Description, , Qty, , No., , Total Price, (Rs), , 16., , Sensitivity Galvanometer, , 2, , 800, , 17, , Student Galvanometers, , 10, , 4,000, , 18., , Demonstration type DC Ammeters, , 2, , 1,000, , 19., , Range; 0 to 1 Amp., D type DC Voltmeter, , 2, , 1,000, , 20., , Range : 0 to 1 Volt, D type Galvanometers, , 8, , 8,000, , 21., , Sensitivity : 20 microamperes per scale division,, Resistance boxes (dial type) assorted, , 8, , 8,000, , 22., , Rheostats, , 10, , 4.000, , 23., , Miscellaneous items (Spring, Pan, Glycerine, Optic fibre,, , LS, , 2,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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10, , Ferromagnetic material), 24., , Fortin’s Barometer (Wall type), , 2, , 20,000, , 25., , Stoke’s Apparatus, , 2, , 10,000, , 26., , Gumther’s Apparatus, , 2, , 16,000, , 27., , Resonance Tube Apparatus with accessories and, Tuning fork set, , 2, , 14,000, , 28., , Sodium Lamp setup with Biprism, , 2, , 10,000, , 29., , Ohmic resistance coil, , 10, , 5,00, , 30., , Slide wire bridge, , 2, , 8,000, , 31., , PN Junction diode Apparatus, , 2, , 10,000, , 32., , Laser (as per requirement), , 1, , 1,00,000, , 33., , Numerical aperture setup, , 1, , 25,000, , 34., , Miscellaneous, , LS, , 3,000, , APPLIED CHEMISTRY LABORATORY, Digital Balance, , 1, , 80,000, , Burette 50ml, , 30, , 3,000, , Pipette 25ml, , 60, , 4,000, , Beakers 100ml, , 60, , 4,000, , Burette stand, , 30, , 30,000, , Glazed tile, , 30, , 1,000, , Conical flask 50ml (Titration flask), , 60, , 4,000, , Standard (Measuring) flask (to prepare standard solution), 250ml/100ml, , 30, , 6,000, , Able’s Flash Point apparatus, , 2, , 10,000, , (1/10)°C thermometer, , 06, , 6,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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11, , Sr., , Description, , Qty, , No., , Total Price, (Rs), , Candles, , 20, , 100, , Crucible with lid, , 06, , 2,000, , Muffle furnace, , 1, , 18,000, , Decicators, , 06, , 8,000, , Pair of tongue (small and big), , 24 (small), , 2,000, , 2 (big), Chemicals, , EDTA-1 kg, Eriochrome Black-T(solochrome black T)-200g, Buffer solution (NH3 - 2.5 ltr, NH4Cl – 1 kg), Zinc sulphate- 500g, , LS, , 20,000, , H2SO4- 2.5 ltr, Phenolphthalein indicator (as per requirement), Methyl orange indicator (as per requirement), Charcoal (as per requirement), Kerosene- 1 ltr, Miscellaneous, , LS, , 2,000, , ENGINEERING DRAWING, 1., , Drawing Boards (700 x 500mm), , 60, , 25,000, , 2., , Draughtsman Tables, , 60, , 1,80,000, , 3., , Draughtsman Stools, , 60, , 40,000, , 4., , Computer Aided Drawing (CAD) Software, , 30 User, , 5,00,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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12, , 5., , Model of different wooder joints, , 1, , 1,000, , 6., , Model of different screw threads, , 1, , 1,000, , 7., , Model of various locking devices, , 1, , 1,000, , 8., , Model of various joints, , 1, , 1,000, , 9., , Cut section Model of various couplings, , 1, , 3,000, , 10., , Miscellaneous, , LS, , 5,000, , ELECTRICAL ENGINEERING LABORTORY, , 1., , Voltmeter, , 5, , 7,500, , 2., , Ammeter, , 5, , 10,000, , 3., , CRO, , 1, , 15,000, , 4., , Wattmeter, , 5, , 10,000, , 5., , Multimeter, , 1, , 4,000, , Sr., , Description, , Qty, , Total Price, , No., , (Rs), , 6., , Resistive load, , 1, , 4,000, , 7., , Regulated supply, , 1, , 8,000, , 8., , Signal generator, , 1, , 5,000, , 9., , Rheostat, , 2, , 2,500, , 10., , Lead acid battery, , 1, , 4,000, , 11., , Cables, Coils, Lamp (as per requirements), , LS, , 1,500, , 12., , Resistance, Inductor, Capacitor (as per requirements), , LS, , 1,500, , 13., , Miscellaneous, , LS, , 1,500, , Computer System with latest configuration, , 30, , 8,00,000, , Printer (MFP), , 1, , 25,000, , BASICS OF IT LABORATORY/COMPUTER LABORATORY, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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13, , Printer (Laser), , 1, , 35,000, , Plotter, , 1, , 75,000, , Digitiser, , 1, , 50,000, , Antivirus Software, , LS, , 10,000, , Internet Facility on Computers, , LS, , 2,00,000, , LCD Projector, , 1, , 35,000, , UPS, , 60, , 1,20,000, , Software (latest windows, latest MS Office), , 1, , 1,00,000, , Scanner, , 1, , 10,000, , Auto CAD, , L.S., , Auto Civil, , L.S., , STAAD Pro, , L.S., , Primavera/MS Project, , L.S., , Revit, , L.S., , BIM, , L.S., , Miscellaneous, , LS, , 5,000, , CARPENTRY SHOP, , 1, , Work benches fitted with carpenter vices, , 5, , 20,000, , 2., , Circular saw grinder, , 1, , 6,000, , 3., , Wood cutting band saw-vertical, , 1, , 10,000, , 4., , Bench grinder, , 1, , 5,000, , 5., , Drilling machine, , 1, , 8,000, , 6., , Wood turning lathe, , 1, , 40,000, , 7., , Wood Planner, , 1, , 20,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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14, , 8., , Tool accessories measuring and marking Instruments, , 25, , 25,000, , 9., , Band saw blade brazing unit, , 1, , 10,000, , 10., , Miscellaneous, , LS, , 1,500, , Sr., , Description, , Qty, , Total Price, , No., , (Rs), , PAINTING AND POLISHING SHOP, 1., , Spray gun with hose pipe, , 1, , 1,000, , 2., , Paint brushes, , 20, , 2,000, , 3., , Paint/Varnish, , LS, , 2,000, , 4., , Air Compressor with 2 hp motor, , 1 set, , 5., , Miscellaneous, , LS, , 10,000, 2,000, , ELECTRICAL SHOP, , Tool kit (Plier, Srew driver, Knife, Steel rule, hammer,, sciber, pincer steel tape etc.), , 20, , 20,000, , 8,000, , Fuses, Switches, Plugs, Sockets, Ceiling rose, Wires,, cleats, Clamps, Test lamp, Tester.( as per requirement), Electric Iron, , 1, , 1,500, , Electric kettle, , 1, , 1,500, , Ceiling fan/table fan, , 1, , 2,500, , Desert cooler, , 1, , 5,000, , Lead acid battery, , 2, , 8,000, , Battery Charger, , 1, , 6,000, , Miscellaneous, , 3,000, , WELDING SHOP, , 1., , Electrical welding transformer set with accessories, , 3, , 30,000, , 2., , Gas Cutting Unit, , 1, , 3,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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15, , 3., , Work benches with vices, , 3, , 5,000, , 4., , Welding generator set, , 1, , 10,000, , 5., , Oxy acetylene welding set with accessories, , 1, , 7,000, , 6., , Acetylene generating set, , 1, , 6,000, , 7., , Electric welder tool kit, , 10, , 10,000, , 8., , Projection welding machine, , 1, , 15,000, , 9., , Brazing equipment with accessories, , 1, , 10,000, , 10., , Soldering irons, , 3, , 1,000, , 11., , Pedestal grinder, , 1, , 10,000, , 12., , Metal spraying gun, , 1, , 10,000, , 13., , Spot welder, , 1, , 25,000, , 14., , TIG welding set, , 1, , 1,00,000, , 15., , MIG welding set, , 1, , 1,00,000, , 16., , Welding Partition Screen, , 5, , 2,500, , 17., , Miscellaneous, , LS, , Sr., , Description, , Qty, , No., , 3,000, , Total Price, (Rs), , FITTING AND PLUMBING SHOP, , 1., , Work benches with vices (4 vices on each bench), , 5, , 30,000, , 2., , Marking tables with scribers, , 4, , 24,000, , 3., , Surface plates, , 5, , 20,000, , 4., , Accessories like calipers, V blocks, height, gauges steel, rules and scribers, , 25, , 50,000, , 5., , Tool kits – taps, dies, drills, , 25, , 40,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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16, , 6., , Tool kits – chiesels, hammers, files, hacksaw, , 25, , 25,000, , 7., , Drilling machine, , 2, , 12,000, , 8., , Pipe vice, , 4, , 1,000, , 9., , Chain wrenches, , 5, , 1,250, , 10., , Ring spanner set, , 5, , 600, , 11., , Pipe die set 2”, , 2 set, , 1,000, , 12., , Pipe bending device, , 1, , 5,000, , 13., , Various plumbing fittings, , LS, , 2,000, , 14., , Miscellaneous, , LS, , 1,500, , SHEET METAL SHOP, 1., , Hammers, , 8, , 3,000, , 2., , Mallets (Hard & Soft), , 5, , 2,000, , 3., , Sheet and wire Ganges, , LS, , 8,00, , 4., , Shearing Machine, , 1, , 20,000, , 5., , Bar folding Machine, , 1, , 20,000, , 6., , Burring machine, , 1, , 10,000, , 7., , Various sheet (black plain, galvanized iron, corrugated,, Aluminium), , 1 Each, , 1,000, , 8., , Hand Shears/Snippers, , 4, , 2,000, , 9., , Nuts, Bolts, Rivets, Screw, , LS, , 5,00, , 10., , Miscellaneous, , LS, , 1,000, , MASON SHOP, Mason Trowel, , 10, , 1,000, , Concrete Finishing Trowel, , 10, , 1,000, , Gauging Trowel, , 10, , 1,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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17, , Sr., , Margin Trowel, , 10, , 1,000, , Pointing Trowel, , 10, , 1,000, , Round Trowel, , 10, , 1,000, , Mason/Brick Hammer, , 10, , 3,000, , Comb hammer, , 10, , 3,000, , Description, , Qty, , Total Price, , No., , (Rs), Blocking chisel, , 10, , 1,000, , Plumb bob, , 10, , 500, , Spirit level, , 10, , 1,000, , Straight Edge, , 10, , 1,000, , Jointer, , 10, , 1,000, , Masonry Pan, , 10, , 1,500, , Steel Measuring Tape, , 10, , 500, , Miscellaneous (Bricks, Blocks, Stones, Sand, Cement), , 10, , 3,000, , MACHINE SHOP, , 1., , Centre lathes, , 10, , 6,00,000, , 2., , Grinder, , 1, , 10,000, , 3., , Universal milling machine, , 1, , 1,25,000, , 4., , Shaper, , 2, , 1,20,000, , 5., , Plainer, , 2, , 1,20,000, , 6., , Work bench, , 3, , 10,000, , 7., , Precision instruments, , 1, , 10,000, , 8., , Hand tools and accessories, , 2, , 8,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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18, , 9., , CNC trainer lathe, , 1, , 10., , Miscellaneous, , LS, , Sr., , Description, , 4,00,000, 5,000, , Qty, , No., , (Rs), , MEASUREMENT, AND, INSTRUMENTATION, LABORATORY, Measuring Instruments:, 1., Portable moving coil permanent magnet 150 mm, uniform scale with anti parallax mirror, knife edge, pointer, housed in teak wood/ebonite case, accuracy, 1.5%, a), Ammeter 0-5-10 Amp, b), Ammeter 50 mA , 100 mA, 1000 mA, c), Ammeter 0-10 Amp – 20 A, d), Ammeter 0 -2.5- 5 Amp, e), Voltmeter 0-30 V, f), Voltmeter 0-10-15 V, 0-200 – 300 V, 0-200-500 V, , 2., , 3., , 4., , 5., , Total Price, , 8, , 10,000, , 6, , 7,200, , 6, , 7,200, , 8, , 10,000, , 8, , 10,000, , 6, , 7,200, , Stabilized DC Power Supply With maximum regulation, of 0.01 to 0.05%Ripple in output less than 1 mv (rms),, stability 0.2% + 30 mV, input, supply 230V AC single phase, 50 Hz and DC output 010V,0-1.5Aand also with short circuit (0-30 V) and, over load protection with, measuring devices, Lead Acid Batteries 12 V, 11 plates, 30 amp hour, capacity, , 8, , 32,000, , 2, , 6,000, , Battery Charger: SCR based automatic 12 V, AC input, voltage 230 V, output dc voltage 0-12 V, 0-2 amp., capacity provided with voltmeter, Ammeter of suitable, range, Capacitors: enclosed in a polished hard wood/bakelite, box, with four brass terminals, , 1, , 3,000, , 6, , 1,800, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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19, , 6., 7., , 8., , 9., , Sr., , Hydrometer for measuring specific gravity of lead acid, battery range 1100 - 1300, Cell discharge tester: used for testing voltages of cells, and batteries centre zero, housed in bakelite case with, wooden handle movement, permanent magnet and, moving coil type, knife edge pointer, range 3-0-3 volts, Digital Multimeter: Three and half digits LCD, display,manually operated multimeter with AC/DC, 1A, current resistance upto 10 Mohm, complete with leads, manual and batteries, accuracy 0.5% for dc and 1% for, AC measurement Voltage upto 1000V, Earth tester: 500 volt, 0.10-100 ohms with 3/4 terminals,, complete with all accessories (hammers, screw driver, 3, spikes with connecting leads, as per ISS) Accuracy +, 1% FSD, housed in teak wood/ebonite case, with, leather case, , Description, , 6, , 1,000, , 1, , 600, , 1, , 750, , 2, , 10,000, , Qty, , Total Price, , No., 10., , (Rs), Moving Iron Voltmeter/Ammeter: Portable moving iron, measuring Instrument, housed in teak wood/ebonite, case, scale 150 mm knife edge pointer, with anti, mirror, critically damped, accuracy 1% FSD, a), 0-500 mA-1000 mA, b), 0-5-10 amp, c), 0-2 amp, d), 0-125-250 volts, e), , 11., , 12., , 0-250-500 volts, , Wattmeter: Portable dynamometer type, housed in teak, wood/ebonite case, scale 150 mm knife edge pointer, with anti parallax, current range 0-5-10 amp Voltage, range 0-250-500 volt or 125-250 volt, Rheostats: Sliding Rheostats wound with evenly, oxidised iron free nickel copper on vitreous enamelled, round steel tube. Contactors should be made of, laminated phosphor bronze sheet. Resistance olerances, + 2%, a), Single tube 150 ohm – 2 A, b), Single tube 300 ohm – 5 A, , 2, , 2,000, , 8, , 8,000, , 1, , 1,000, , 5, , 5,000, , 4, , 4,000, , 3, , 7,500, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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20, , c), d), e), , Double Tube 500 ohms – 20 A, 30 A, Double Tube 440 ohms – 3 A, Double Tube 110 ohms – 10 A, , 3, , 4,500, , 3, , 5,000, , 3, , 6,000, , 3, , 6,000, , 3, , 6,000, , 13., , Dimmerstat: Single phase 0-230 V, output 0-270 V, 10A, , 2, , 5,000, , 14., , Inductance: Coil mounted provision for change in value,, well polished teak board with terminals fitted with 2.5, Kg variable core, Variable Inductor: Single phase, 250 V, mounted on, well polished teak wood frame with terminals, 2.5 kW,, continuously variable core type., Energy meters:, a) single phase, induction type, 50 Hz, 5A/10A, 250 V,, accuracy+ 1%, b) 3 phase, Induction type, 4 wire,.440 V, 20-40A, 50, Hz,, accuracy + 1%, Phase Regulator: 10A, 250V,2.5 KVA variable power, factor and lagging to leading arrangement indicator, Power Factor Meter: Dynamometer type, eddy current, type damping, frequency 50Hz,scale length 150mm,, current range upto20 amp, voltage range 300 volts, PF, range 0.5 lag,unity, 0.5 lead, Wood/ebonite, with, antiparallax mirror, knife edge pointer., , 3, , 7,500, , 1, , 2,000, , 3, , 1,500, , 3, , 3,000, , 1, , 5,000, , 1, , 2,500, , Qty, , Total Price, , 15., , 16., , 17., 18., , Sr., , Description, , No., 19., , 20., , 21., , (Rs), Load: 3 phase variable resistive load, 415 V, 10 KW,, trolley mounted tube type provided with switches to, vary the load in twenty steps, Continuously variable, inductive load, 415 V, 10 kW terminal for end, connections, LCR/Q Bridge: Capable of measuring resistance, inductive and capacitance of range, 8 amps.0.012 to 10, Mega ohm, 4 to 10000 H, 0.5 pico farad to 10 F Direct, reading of the factor from 0.15, Frequency meter:, a) Digital, 4 digit LED display frequency meter suitable, for use on 230 V AC main supply range 20-99 Hz, b) Vibrating Reed type 230 V, having 21 reed 40-60, Hz. abs Body, , 2, , 10,000, , 1, , 4,000, , 1, , 1,500, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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21, , c) Moving Coil type, portable housed in phenolic, moulded body with antiparallax mirror. Scale and, knife edge pointer, range 40-60 Hz, 230 V, , 22., , 23., , 24., 25., , 26., , Phase sequence indicator: Portable, housed in a plastic, moulded casing, rotating disc type, supported with one, meter long red, yellow and blue leads with clips, rating, 30 sec. 500 V, burden 15 VA voltage 50 to 500 V, (Horizontal) frequency 25 to 50 Hz., Thevenin Theorem Module: complete with accessories, and the measuring instrument, operated by 6 volt dc, supply, Norton theorem Module: Complete with accessories and, measuring instruments operated by 6 volt dc supply, Maximum Power transfer theorem module complete, with accessories and measuring instruments operated by, 6 volt dc supply, Transformer: Single phase, core type, natural air cooled,, 230/110 V, 1 KVA, 50Hz, , 1, , 1,000, , 1, , 1,500, , 1, , 500, , 1, , 2,500, , 1, , 2,500, , 1, , 2,500, , 1, , 2,000, , 1, , 30,000, , 1, , 30,000, , 1, , 8,000, , Qty, , Total Price, , ELECTRICAL MACHINES LABORATORY, 1., , 2., , 3., , Sr., , Static Converter: 3-Phase, 415 V, 50 Hz, output 230 V, dc 15 KW, regulation + 1%, servo controlled,, thyristorised, DC Shunt Motor - DC shunt motor 230 V, 3 hp/3 kW,, 1440 rpm complete with appropriate panel board with, meters, switches, indicators starter and field regulator., DC Series motor: DC, series motor with, interpole/compensating winding, 230 V, kw, 1440 rpm, with breaking (eddy current or drum pulley), arrangement and appropriate panel board and over speed, safety precautions e.g. light shunt winding etc, Description, , No., 4., , 5., , (Rs), DC Motor-alternator set: DC shunt motor 230 V, 3 kw,, 1440 rpm coupled with 3 phase 440 V, 50 Hz alternator, having damper winding with exciter complete with, appropriate panel board, starter and field regulators, Squirrel Cage Induction Motor: 3-phase squirrel cage, induction motor 3 Kw, 415 V, 50 Hz, 1440 rpm all six, , 2, , 25,000, , 1, , 6,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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22, , 7., , terminals brought out, complete with appropriate panel, board, starter etc., Slip ring Induction motor: Three-phase, wound rotor, induction motor, 3Kw, 415 V. 50 Hz, 1440 rpm with, stator and rotor terminals brought out coupled with a dc, shunt generator, 230V, 3 KW with appropriate panel, board and starter, Single phase Induction Motor(various types):, , 1, , 3,000, , 8., , Capacitor start with centrifugal switch 0.5 KW with, suitable loading arrangement and appropriate panel, board., Servo motor: 230V, 50 Hz, Servo motor, , 1, , 10,000, , 1-phase transformer: Single phase transformer, 230/115, V, 50 Hz, 3 KVA housed in a metal tank, 3-Phase transformer: Three phase transformer,, 415/230V,50 Hz, 5 KVA all terminals brought out,, housed in a metal tank, Variacs:, , 4, , 12,000, , 2, , 15,000, , a), , 3, , 6,000, , 2, , 7,000, , 3, , 30,000, , 3, , 12,000, , 1, , 6,000, , 2, , 6,000, , 6., , 9., 10., , 11., , Single phase, 230 V, 50 Hz, 8-A auto transformer, continuously valuable, housed in a metal body, portable, b) Single phase 230 V, 50 Hz, 15-A transformer, continuously valuable, housed in a metal body, portable, c) Three phase, 230 V, 50 Hz, 30 A, 415-V transformer, continuously valuable housed in a metal body, portable, phase, , 12., , 1, , 20,000, , Loading Rheostats:, a) Resistance type, single phase, 230V, 15A, each, natural air cooled, housed in metal body fitted with, switches and mounted on trolleys, b) Resistance type, three phase 440V, 15A, natural air, cooled, housed in metal body, switches and base, wheels, six terminals brought out, c) Continuously variable choke type loading coil, coil, upto 15A, three phase, 440V, 50Hz, housed in a, metal case on wheels (Trolley Aid), d) Capacitor bank, variable in steps through switches,, 440V, 3 phase, 15A max. housed in a portable, metal case, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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23, , Sr., , Description, , 1, , 6,000, , Qty, , Total Price, , No., 13., , (Rs), AC motor Starters, a) DOL starter, suitable for 415V, 3 Phase, 50 Hz,, 3kw induction motor, b) Auto transformer starter for 3 phase, 415 V, 50, Hz,5 Kw induction motor with facility of tappings, c) Star-delta starter suitable for 415V, 3 Phase, 50 Hz,, 5 kw induction motor, (i), Manual, (ii), Automatic, , 1, , 2,000, , 1, , 3,000, , 1, , 3,000, , 1, , 3,000, , 1, , 3,000, , Rheostats: Wire wound Rheostats (Approx. of following, rating), 440 Ohm, 3A, , 15, , 4,500, , 110 Ohm 8A, , 10, , 3,000, , 16., , Tachometer: Digital non-contact type tachometers 010,000 rpm, 3 1/2 digit, , 4, , 8,000, , 17., , 2.17 DC Ammeters: Portable moving coil permanent, magnet 150 mm uniform scale with anti parallax mirror,, knife edge, pointer, housed in a teak wood/ebonite case,, accuracy + 1-5%, a), Ammeter 0-3 amp, b), Ammeter 0-25 amp, c), Ammeter 0-50A, DC Ammeters: Portable moving coil permanent magnet, 150 mm uniform scale with anti parallax mirror, knife, , 6, , 3,000, , 6, , 3,000, , 6, , 3,000, , 14., , DC Motor starters:, DC shunt motor starter, three point suitable for 230V, 3, kw motor, , 15., , 18., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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24, , edge, pointer, housed in a teak wood/ebonite case,, accuracy + 1-5%, a), 0-15, b), 0-50, c), 0-150, d), 0-300, e), 0-600, , 19., , Sr., , AC Ammeters Portable moving iron, 150 mm uniform, scale with anti parallax mirror, knife edge pointer,, housed in a teak wood/ebonite case, accuracy +1.5%, a), 0-1A, b), 0-3A, c), 0-10A, d), 0-20A, , Description, , 4, , 3,000, , 2, , 1,500, , 3, , 2,250, , 10, , 7,000, , 1, , 700, , 3, , 3,000, , 3, , 3,000, , 7, , 8,000, , 7, , 5,000, , Qty, , Total Price, , No., 20., , 21., , (Rs), AC Voltmeters Portable moving iron 150 mm uniform, scale with anti parallax mirror, knife edge pointer,, housed in a teak wood/ebonite case, accuracy +1.5%, a), 0-1V, b), 0-15V, c), 0-30/60 V, d), 0-150/300 V, , 3, , 2,000, , 3, , 2,000, , 4, , 3,000, , 10, , 7,000, , 2, , 2,500, , Multimeter:, a), , Digital/type: 3 1/2 digit LCD display manually, operated multimeters with AC/DC 10 A and 10, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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25, , 22., , 23., , 24., , mega ohm, accuracy+ 0.5% for DC and +1% for, AC, b), Indicating type DC voltage: Sensitivity 10 k, ohm/v range -300 kV, 1, 3, 10, 30, 100, 300,, 1000V; AC voltage - sensitivity 10 K ohm/V, Range 1,3,10,30, 100,300,1000V etc., Wattmeters: Portable dynamometer type: Portable, dynamometer measuring instrument housed in a teak, wood/ebonite case scale 150 mm, knife edge pointer, with antiparallax mirror, critically damped, accuracy +, 1%, a), 75/300/600 V and 1.5/3A (LPF), b), 75/300/600 V and 1.5/20A (UPF), c), 75/150/300 V and 15/30A, d), 110/220/440 V and 15/30A, , Portable Power factor meters: Dynamometer type, eddy, current type, damping, frequency cycle 50 Hz , scale, length 150 mm, current rated upto 20A, Volt-300V. p.f., range 0.5 lag-unity, 0.5 lead, housed in teak, wood/ebonite case with antiparallex mirror with knife, edge pointer, a), Portable type single phase single element type, 110 V/240 V or 1 A or 5 A, b), Portable type 3-phase single element type 110, V/ 240 V, 1 A or 5 A, , 2, , 2,000, , 2, , 4,000, , 2, , 4,000, , 4, , 8,000, , 4, , 8,000, , 1, , 2,500, , 1, , 2,500, , 1, , 1,500, , 1, , 1,500, , 1, , 1,000, , Frequency Meter:, a), , b), c), , Pointer type Portable type housed in phenolic, moulded body with ant parallax mirror scale, knife, edge pointers range 40-60 Hz, 230 V, 110, V or 240 V or 45-55 H, Read type 230 V, range 40-60 Hz and 21 Read, Digital type. 3 1/2 digit: LED, display frequency, meter suitable for use on 230V AC main supply, range 20-99Hz, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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26, , Sr., , Description, , Qty, , No., , Total Price, (Rs), , 1, , 2,500, , 26., , Synchroscope: Suitable for 110V AC, 1-phase, 50 Hz, alongwith potential transformer, 230V and 415V on, primary and 110V on secondary side, Tong Testing Ammeter: 0-15 A/50A/100A Clip-on type, , 1, , 3,000, , 27., , Current Transformer: 100-50-25-10/5A, , 2, , 1,000, , Coil Winding Machine: Bench mounted, power driven, with clutch and brake built into winding, head,, electromagnetic traverse clutch system for setting, winding length of wire range .05 to 1.5 mm dia. Max., winding speed 250 to 5500 rpm speeds, coil dimensions, Max. dia 150 mm, electric motor 0.5 HP, 1725 rpm, 230 V, AC single phase, 50 Hz with essential spare, Bench Drilling Machine: Drilling capacity 13 mm, slotted, and adjustable drilling, Table size 250 x 250 mm app. Belt, driven with 4 speed ranges from 50 to 2000 rpm, electric, motor power 0.5 kw. suitable for an electrical supply of, 240 V AC single phase 50 Hz, Portable Drilling Machine: Hand electric drill machine, with speed control having specification Drilling 10 mm, no, load speed 700 rpm ,435 W capacity, Supply voltage 230, V, 50Hz supply, Multi meter: Laboratory service type with large and easy to, read mirror scale with over head protection high accuracy,, voltage range a.c/ d.c 0-600 V Current Ranges - AC 50, mA - 10 amp. DC 10 mA - 10 amp Ohmmeter 2 Ohm to 20, K Ohm Accuracy DC voltage and current + 1% AC, voltage and current, + 2%, Ohmmeter + 3% with test leads and carrying case, , 1, , 10,000, , 1, , 5,000, , 3, , 3,000, , 2, , 3,000, , Meggar: Insulation tester having hand driven generator, to generate 500 volts DC having effective range of, measuring insulation resistance from 0 to 100 M ohm., Confirming to IS 2992/1965, Fans of various type with one having solid State speed, regulator:, a), Ceiling fan: 1200 mm, 1500 mm sweep operating, at 230V, 50Hz, supply AC, b), Table fan: 400 mm sweep operating at 230 V, 50, Hz,, supply AC, c), Exhaust fan: 375 mm sweep operating at 230 V,, 50 Hz, supply AC main 0.25 HP, d), Desert cooler, complete with 375 mm sweep, 1400, , 2, , 6,000, , 1, , 1,000, , 25., , INSTALLATION, MAINTENANCE & REPAIR LABORATORY, 1., , 2., , 3., , 4., , 5., , 6., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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27, , rpm, 1/4 HP motor operating at 230 V, 50 Hz,, AC,, complete supporting frame fan, water, circulating pump, float and control switches etc., , Sr., , Description, , 1, , 1,000, , 1, , 2,000, , 1, , 5,000, , Qty, , Total Price, , No., 7., , (Rs), Electrical Appliances:, 1., Electric Kettle: 750 watts, 230V single phase, AC, 50Hz, capacity 1 lit., a), Filament type, b), Rod type rated 1000 watt., 2., , 3., 4., 5., 6., , 7., 8., , 9., 10, 11., , 12., , a), , Electric Iron, 500 watt, 230 V, Ordinary,, 50 Hz, 1 Kg weight, b), Electric Iron, 500 watt, 230 V,, Automatic, 50 Hz, 1/2 Kg, Electric Toaster: 500 watt, Geyser 15 lit capacity, 2 Kw, 230 Volts 50 Hz,, AC, Immersion rod: 1000 watt, 230 Volts 50Hz, AC, supply operated, Room Heater 1000 watt, 230 V, 50 Hz, AC, supply, a), Parabolic type, b), Rod type (single rod/double rod), Air convector: 1000 watts, 230 V, 50 Hz, with 2, temperature settings, Mixer cum grinder: 250 watts, 230 volts, 50 Hz,, 1 1/2 lit. capacity with various attachments (food, processor), Heater: Wire wound type, 1000 watts, 230 V, 50, Hz supply, Induction plate 2kW, 220V 1 ø A/C, Hot plate: Single/double filament 1500/2000, watts, with control knobs operating at 230 V, 50, Hz, AC supply, Electrical Oven: 2 KW, with temperature control, devices and temperature indicating meters, operating at 230 volts, 50 Hz AC supply, , 3, , 2,000, , 3, , 2,400, , 6, , 1,800, , 6, , 3,000, , 1, , 800, , 2, , 6,000, , 12, , 3,600, , 6, , 2,400, , 6, , 2,400, , 2, , 3,000, , 1, , 3,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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28, , 13., 14., , 15., 16., , Sr., , Refrigerator 165 litres, a), Washing Machine: 0.5 HP washing, machine to be operated at 230 V 50 Hz,, AC 20 lit. cap. round tank type, b), Washing Machine: 0.5 HP washing, machine to be operated at 230 V 50 Hz,, AC 6.5 lit. semi-automatic, Electric Shaver: 40-60 watts, to be operated at, 230 V, 50 HP supply, Electric Lighter: to be operated at 230 v, 50 Hz, Electric/Electronic, , Description, , 6, , 3,000, , 2, , 3,000, , 4, , 4,000, , 1, , 2,000, , 2, , 14,000, , 1, , 2,500, , 1, , 4,000, , 1, , 1,000, , 1, , 200, , Qty, , Total Price, , No., 8., , (Rs), Armature Growler: Armature testing growler suitable for, finding faults in armature like open circuit, short, circuit, ground fault, turn to turn fault and horted, commutator etc. Suitable to work on 230V 50 Hz ac, supply, Growler should be provided with testing probs, and meters to indicate faults, , 1, , 2,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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29, , 9., , 10., , 11., , 12., , 13., , Digital clip-on meter: Digital Clip-on meter with, following specifications:, i), Display 3.5 digits, ii), Max. reading 1999, iii), AC current Resolution Accuracy Range 200, Amps to 100 mA +1.25 to 5 digit 100 Amps to, Amp, iv), AC Voltage 2000 V to 0.1 V : +1% to 5 digit 1000, V to 0.1 V : + 1% to 5 digit, v), Resistance 200 M Ohms to 0.1 ohms + 1.00%, Instruments should be provided, with test leads and, carrying case, Electric Blower: for cleaning equipment, powerful light, weight with flexible hose 2 mts long complete with, mains cable, standard Accessories i.e. Suction, arrangement, hot air attachment, spray attachment, suitable for an electric supply of 230 V 50Hz AC, Miniature Circuit Breakers(MCBs), a), 16, 40 and 60 amps in single phase, b), 100 amps 3 phase, c), 200 amps 3 phase, , Oil Testing Set: Oil testing set as per ISI 6792/1972, input voltage 220-250 volt, 50 Hz AC Output voltage 050 kv, accuracy +.4% of FSD Rate of rise of voltage, automatic 2 Kv/Sec motorised, Electric Lamps:, a), Mercury vapour lamp 120 watt, 230v, 50 Hz AC, supply complete with choke, lamp holder and, power factor capacitor, b), Mercury vapour lamp ML type 120/125 watt, 230, v, 50 Hz supply, c), Sodium vapour lamp 120 watt/250 watt, 230 volts,, 50 Hz with choke, d), Flourescent tube: 20/40 watt, 230 V,50 Hz, single, phase with choke, starter and fittings various, sizes and types i.e. round etc., e), Halogen lamps: 1000 watts/1500 watt, 230 v, 50, Hz complete with fittings(Fluorescent tube light), f), LED Tube, , 3, , 3,000, , 1, , 6,000, , 1,200, 6 each, , 1,800, , 6 each, , 1,200, , 6 each, , 1,800, , 1, , 10,000, , 2, , 5,000, , 2, , 4,000, , 4, , 8,000, , 2, , 400, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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30, , Sr., , Description, , 1, , 300, , 50, , 20,000, , Qty, , Total Price, , No., , (Rs), g), , h), i), , 14., , 15., 16., , 17., , Filament Lamps, 60 W lamp, 230 V, 60 W lamp, 100 V, 60 W lamp, 230 V, 200 W lamp, 500 W lamp, 100 W – 110 V lamp, 100 W - 150 V lamp, CFL LAMP, LED bulb 10W, , Emergency Light:, a), 55 cm long, with 6 volts battery suitable for, vertical and horizontal position, b), (Fluorescent tube light) portable type twin, tube 1"(25.4 mm) long with 6 volts battery for, vertical and horizontal position, Voltage Stablizer: 500 VA, input 170/260 volts, output, 210- 240 volts automatic with voltmeter, Bridge Insulation Tester: Transistorized battery operated, bridge insulation tester battery operated push button, indications built in wheat stone bridge Varley and, Murray loop facilities for finding cable faults bridge, suitable for 0.01 m to 11 m available in length of 2001000 meters, Automobile Electrical Wiring Demonstration working, model for, automobile Electric wiring, , 100, , 1,000, , 100, , 1,000, , 100, , 1,000, , 100, , 1,500, , 100, , 1,500, , 100, , 1,500, , 100, , 1,500, , 50, , 7,500, , 100, , 10,000, , 1, , 500, , 1, , 500, , 2, , 2,000, , 1, , 5,000, , 2, , 6,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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31, , Screw Driver Set: Electrician type round nickel plated, steel blade, flat tip with plastic insulated handle, following sizes: Blade Sizes, i), 2.5 x 60 mm, ii), 3 x 80 mms, iii), 4 x 120 mm, iv), 5 x 160 mm, v), 5 x 200 mm, Combination Pliers: 205 mm length with thick plastic, insulated handle Insulated for 500 V (Taparia, PYE, make), Long Nose Pliers: 150 mm insulated for 500 volts, , 6 each, , 1,000, , 8, , 2,500, , 12, , 1,000, , 21., , Diagonal Pliers: 150 mm insulated for 500 volts suitable, for cutting hard wires, , 6, , 600, , 22., , Adjustable Wrench Chromium plated adjustable wrench, lengths 255 mm max. opening 30 mm, , 6, , 3,000, , Qty, , Total Price, , 18., , 19., , 20., , Sr., , Description, , No., 23., , (Rs), a), , b), , c), , 24., , 25., , Flat nose pliers: Rectangular section jaw and, smooth gripping surface plastic, insulated, handles length 130 mm, Slip Nose Pliers with slim long grains of half, round section and smooth gripping surfaces, plastic insulated handle length 130 mm, Round Nose Pliers: With slim long round grains, and plastic insulated handles lengths 130 mm, , Ball Pien Hammer: Ball pein hammer with polished fall, and pein wooden handle having wts, i), 250 gms, ii), 500 gms, iii), 800 gms, , 3 each, , 300, , 6, , 300, , 3, , 300, , 3 each, , 500, , Screw Holding Screw Driver Set: Screw driver set fitted, with spring each clips to secure screw head round or, hexagonal chromium plated blade with plastic handle, set of three screw driver blade size, i), 4 x 50 mm, ii), 4 x 75 mm, iii), 4 x 100 mm, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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32, , 26., , 27., , 28., , 29., , 30., , 31., , Sr., , Instrument Makers Screw Driver Set: Set of screw, drivers with chrome vanedium set steel shaft and fluted, nickel plated steel handle with hexagonal end shaft, width 0.8 to 3.8 mm complete with plastic case, Tweezers, a), With blunt serrated Jaws stainless steel nickel, plated length 160 mm, b), Pointed ends serrated jaws stain less steel nickel, plated length 130 mm, , Work shop Scissors Stainless steel, scissors suitable for, cutting insulation, paper, plastic etc. length approx. 150, mm, Adjustable Hacksaw Frame: Extra robust tubular steel, frame cast handle adjustable for hacksaw blade from, 250 - 300 mm with set of 10 spare blades, Hand Drill Machine: Two speed hand drill machine with, enclosed gear adjustable crank, supporting handle, self, centering chuck for straight shank drills upto 10 mm, Bench Vice: Drop forged steel bench vice with jaw, width 100 mm, Jaw opening 120 mm, Jaw depth 75, mm, quick release complete with, i), One pair of detachable aluminium protective jaw, plates, ii), One pair of detachable fibre protective jaw plates, , Description, , 6, , 400, , 2, , 300, , 1, , 50, , 1, , 50, , 6, , 300, , 4, , 300, , 6, , 900, , 2, , 800, , Qty, , Total Price, , No., , (Rs), , 32., , Bearing Puller Three legs heavy duty bearing puller of, size 100 mm/200 mm, , 1, , 400, , 33., , Automatic Centre Punch: Spring loaded action knurled, shank centre punch length 115 mm and dia at point 2mm, Wire Gauge: Suitable upto 0-76 SWG, , 2, , 200, , 1, , 200, , Try Square: Engineers try square from stainless steel, with stock 90 degrees all sides accurately finished legs, 150 x 100 mm, Measuring tape: Pocket measuring tape of steel spring, return device, flexible, clearly graduated in metric, , 2, , 100, , 6, , 200, , 34., 35., , 36., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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33, , 37., , 38., , 39., , 40., , 41., , 42., , Sr., , readings 2 mts long, Files Set: Hand files with plastic handles for each, general metal treatment double cut 200/350 mm long, consisting of, i), Flat smooth cut, ii), Flat second cut, iii), Half round second cut, iv), Half round smooth cut, v), Round second cut, vi), Round smooth cut, vii), Square second cut, viii) Square smooth cut, ix), This single cut smooth 20 x 3.3mm, x), Triangular file 200 mm, Wire Stripper: Stripper with side mounted spring return, and adjustable jaws via look screws for cable insulation, maximum 4 mm dia length 150 mm., Screw Driver Mains Voltage Tester: Flat tip screw, driver with built in new test lamp transparent plastic, handle insulated block, metal pocket clip suitable upto, 400 v. AC blade 4 x 100 mm Overall length 180 mm, Cable Knife: Electrician knife, blade made from, stainless steel with length 50 mm plastic moulded handle, overall length 180 mm, Soldering Gun Kit: Instant action soldering device, trigger controlled with built in illumination of soldering, butt bakelite housing, normal power 45 watts, with, approx. 2 mts supply cord suitable for electric supply of, 230 volt AC, single phase 50 Hz., Accessories:, (i), Fine bit, (ii), Bit for plastics, Rubber Mallet: Soft Rubber with wooden handle, approx. 200 gms, Description, , 2, , 1,000, , 2, , 100, , 2, , 100, , 12, , 100, , 3, , 6,000, , 6, , 300, , Qty, , Total Price, , No., 43., , 44., , (Rs), Screw Extractor Set: Left hand thread for easy removal, of broken right hand threaded screw and bolts.Set of, three extractors for screws with die from 3 to 11 mm, Figure Stamp Set for marking made from high grade, stainless steel figure height 4mm complete with plastic, box, Letter Stamp Set: Made from high grade steel, character, set height 4 mm, full set of alphabets complete with, plastic box, , 3, , 300, , 2, , 200, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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34, , 1, , 100, , 1, , 200, , 1, , 200, , 2, , 800, , 2, , 300, , 49., , L - End Key Set:, a), Metric set of 10 wrenches from 1.5 to 10 mm, complete with plastic wallet 4 set, b), Imperial set of 7 wrenches from 1/16" to 1/4", complete with plastic set wallet, Box Spanner Set: Round shank in chrome vanadium steel, Hexagonal socket plastic handle set of nine spanners sizes, 3, 4, 5, 6, 7, 8,10, 12 and 14 mm overall length 150 mm, Open Ended Spanner Set: Double, ended chrome, vanadium steel jaws, jaw angle 15' oval shank set of 8, spanners. Jaw width 4x5, 5x5, 6x7, 7x8, 9x10, 10x12,, 12x14 mm, Soldering Iron: Soldering iron 35 watts, 65 W, 100 Watts, operating at 230 V, 50 Hz supply, Oil Can: 0.75 lit capacity, , 2, , 100, , 50., , Blow Lamp: 1 Pint kerosene oil capacity blow lamp, , 3, , 400, , 51., , Hand Saw: Hand saw 10" (254) size 10 teeth per inch teak, wood handle, , 6, , 300, , 52., , Chisels: Former chisel mode of carbon steel of size 6 mm, x 15 mm, , 3, , 150, , 53., , Wrench Set: Set of 5(3/8 to 1 inch) chrome vanadium sets, steel, offset type, points, accurately sizes capacity, 3/8x7/16, 1/2x9/16, 5/8x1/16, 3/4x7/8 and 15/16x1 inch, (in metric sizes), Pipe Wrench: High tensile steel, drop forged, hardened, and tempered app. cap. 6 to 50 mm dia, Tap Wrench Set: Set of 4, bar type, adjustable for, general purpose, made of best quality steel, approx. cap., 1.5 to 25 mm square, Electric Pneumatic Drilling Hammer: Drill capacity, 5-22, mm in concrete, 5-10 mm in steel rated voltage 235 volts,, 50 Hz, AC, full load input 450 watt, full load speed, 650 rpm. Impact rate 3270 Blows/minute, Work Bench: Steel construction but with wooden bench, top not less than 50 mm thick with two steel drawers both, lockable approx. size 1200x600x850 mm solid, construction, , 2, , 1,000, , 3, , 500, , 6, , 1,500, , 1, , 1,500, , 1, , 1,500, , Qty, , Total Price, , 45., , 46., 47., , 48., , 54., 55., 56., , 57., , Sr., , Description, , No., 58., , (Rs), Fire Extinguisher: Multipurpose fire extinguishers,, suitable for electric installation and petrol fire, app. cap., 10 kg. rechargeable includes wall bracket and 2, recharging kits, , 5, , 5,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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35, , 59., , Tube light, 230V, 50HZ, 1-Ø, , 10, , 500, , 60., , Starter, 230V, 50HZ, 1-Ø for Tube Light, , 10, , 400, , 61., , Choke, 230V, 50HZ, 1-Ø for Tube Light, , 10, , 1,000, , 62., , Alarm bell electric, 230V, 50HZ, 1-Ø, , 6, , 900, , ENVIRONMENT ENGINEERING LABORATORY, 1., , pH Meter, , 01, , 500, , 2., , Turbidity Meter, , 01, , 5000, , 3., , Oven with Temperature Controller and Forced Air, Circulation Type, , 01, , 20000, , 4., , B.O.D. Incubator, , 01, , 25000, , 5., , Water Analysis Kit, , 01, , 5000, , 6., , High Volume Sampler, , 01, , 40000, , 7., , Electrical Balance for weighing upto 1/10 of milligram, (capacity), , 01, , 1000, , ENERGY CONSERVATION LABORATORY, 1, , Clamp meter, , 02, , 5000, , 2, , Multimeter, , 02, , 2000, , 3, , Power Analyser, , 01, , 20000, , 4, , Different types of lamps (LS), , 10, , 500, , 60 W lamp, 230 V , 100 V, 200 W lamp, 500 W lamp, 100 W lamp, 110 V, 150 V, 5, , Lux meter, , 02, , 5000, , 6, , Centrifugal pump, 1 kW, , 1, , 15,000, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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36, , 7, , Standard window A.C., , 01, , 20000, , 8, , Anemometer, , 02, , 5000, , 9, , Thermometer, , 03, , 2000, , 10, , Flow meter, , 02, , 10000, , 11, , Pumping set with at least two pumps of different capacity., , 1 set, , 10000, , 12, , Pressure gauge fitted on discharge lines, , 1 set, , 2000, , 13, , Variable Frequency Drive, , 02, , 50000, , 14, , A small compressor with a small network of pipe line fitted, with suitable pipeline, pressure gauge, safety valve and, loading / unloading pressure switch., , 1, , 3000, , 2, , 1000, , 1, , 10000, , 1, , 25000, , 15 Stop watch, 16 Small blower (1.5 kW motor) with inlet and outlet ducts of, approximately one meter length on both sides, , 17 Black Box (for checking lamp efficacy including stand and, luxmeter), , NOTE:, In addition to the above, laboratories in respect of physics, chemistry, Computer Centre etc, will be required for effective implementation of the course. Provision for photocopiers, PC, facilities along with LCD Projection System etc. has also to be made., (C), , Furniture Requirement, , Norms and standards laid down by AICTE be followed for working out furniture requirement, for this course., 10.2, , Human Resources Development:, Weekly work schedule, annual work schedule, student teacher ratio for various group, and class size, staffing pattern, work load norms, qualifications, experience and job, description of teaching staff workshop staff and other administrative and supporting, staff be worked out as per norms and standards laid down by the AICTE., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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37, , 11., , EVALUATION STRATEGY, , 11.1, , INTRODUCTION, , Evaluation plays an important role in the teaching-learning process. The major objective of any, teaching-learning endeavor is to ensure the quality of the product which can be assessed through, learner’s evaluation., , The purpose of student evaluation is to determine the extent to which the general and, the specific objectives of curriculum have been achieved. Student evaluation is also, important from the point of view of ascertaining the quality of instructional processes, and to get feedback for curriculum improvement. It helps the teachers in determining, the level of appropriateness of teaching experiences provided to learners to meet, their individual and professional needs. Evaluation also helps in diagnosing learning, difficulties of the students. Evaluation is of two types: Formative and Summative, (Internal and External Evaluation), , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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38, , Formative Evaluation, It is an on-going evaluation process. Its purpose is to provide continuous and, comprehensive feedback to students and teachers concerning teaching-learning process. It, provides corrective steps to be taken to account for curricular as well as co-curricular, aspects., , Summative Evaluation, , It is carried out at the end of a unit of instruction like topic, subject, semester or year., The main purpose of summative evaluation is to measure achievement for assigning, course grades, certification of students and ascertaining accountability of instructional, process. The student evaluation has to be done in a comprehensive and systematic, manner since any mistake or lacuna is likely to affect the future of students., , In the present educational scenario in India, where summative evaluation plays an, important role in educational process, there is a need to improve the standard of, summative evaluation with a view to bring validity and reliability in the end-term, examination system for achieving objectivity and efficiency in evaluation., , 11.2, , STUDENTS’ EVALUATION AREAS, , The student evaluation is carried out for the following areas:, , A., , Theory, Practical Work (Laboratory, Workshop, Field Exercises), Project Work, Professional Industrial Training, Theory, , Evaluation in theory aims at assessing students’ understanding of concepts,, principles and procedures related to a course/subject, and their ability to apply, CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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39, , learnt principles and solve problems. The formative evaluation for theory, subjects may be caused through sessional /class-tests, home-assignments,, tutorial-work, seminars, and group discussions etc. For end-term evaluation of, theory, the question paper may comprise of three sections., , Section-I, It should contain objective type items e.g. multiple choice, matching and completion type. Total, weightage to Section-1 should be of the order of 20 percent of the total marks and no choice should, be given in this section. The objective type items should be used to evaluate students’ performance, in knowledge, comprehension and at the most application domains only., Section-II, , It should contain short answer/completion items. The weightage to this, section should be of the order of 40 percent of the total marks. Again, no, choice should be given in section-II, , Section-III, , It may contain two to three essay type questions. Total weightage to this, section should be of the order of 40 percent of the total marks. Some built-in,, internal choice of about 50 percent of the questions set, can be given in this, section, , Table II : Suggested Weightage to be given to different ability levels, , Abilities, , Weightage to be assigned, , Knowledge, , 10-30 percent, , Comprehension, , 40-60 percent, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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40, , Application, Higher than application i.e. Analysis,, Synthesis and Evaluation, , B., , 20-30 percent, Upto 10 percent, , Practical Work, , Evaluation of students performance in practical work (Laboratory experiments,, Workshop practicals/field exercises) aims at assessing students ability to apply, or practice learnt concepts, principles and procedures, manipulative skills,, ability to observe and record, ability to interpret and draw conclusions and, work related attitudes. Formative and summative evaluation may comprise of, weightages to performance on task, quality of product, general behaviour and, it should be followed by viva-voce., , C., , Project Work, , The purpose of evaluation of project work is to assess students ability to apply,, in an integrated manner, learnt knowledge and skills in solving real life, problems, manipulative skills, ability to observe, record, creativity and, communication skills. The formative and summative evaluation may comprise, of weightage to nature of project, quality of product, quality of report and, quality of presentation followed by viva-voce., CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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41, , D., , Professional Industrial Training, , Evaluation of professional industrial training report and viva-voce/, presentation aims at assessing students’ understanding of materials, industrial, processes, practices in the industry/field and their ability to engage in activities, related to problem-solving in industrial setting as well as understanding of, application of learnt knowledge and skills in real life situation. The formative, and summative evaluation may comprise of weightages to performance in, testing, general behaviour, quality of report and presentation during viva-voce., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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42, , 12., , RECOMMENDATIONS FOR EFFECTIVE CURRICULUM IMPLEMENTATION, , This curriculum document is a Plan of Action and has been prepared based on exhaustive, exercise of curriculum planning and design. The representative sample comprising selected, senior personnel (lecturers and HODs) from various institutions and experts from, industry/field have been involved in curriculum design process., , The document so prepared is now ready for its implementation. It is the faculty of, polytechnics who have to play a vital role in planning instructional experiences for the courses, in four different environments viz. class-room, laboratory, library and field and execute them, in right perspective. It is emphasized that a proper mix of different teaching methods in all, these places of instruction only can bring the changes in stipulated students behaviour as in, the curriculum document. It is important for the teachers to understand curriculum, document holistically and further be aware of intricacies of teaching-learning process (T-L) for, achieving curriculum objectives. Given below are certain suggestions which may help the, teachers in planning and designing learning experiences effectively. These are indicative in, nature and teachers using their creativity can further develop/refine them. The designers of, the programme suggest every teacher to read them carefully, comprehend and start using, them., , (A), , Broad Suggestions:, , 1., , Curriculum implementation takes place at programme, course and class-room level, respectively and synchronization among them is required for its success. The first step, towards achieving synchronization is to read curriculum document holistically, and understand its rationale and philosophy., , 2., , An academic plan needs to be prepared and made available to all polytechnics well in, advance. The Principals have a great role to play in its dissemination and, percolation, upto grass-root level. Polytechnics, in turn are supposed to prepare institutional, academic plan., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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43, , 3., , HOD of every Programme Department along with HODs and incharges of other, departments are required to prepare academic plan at department level referring to, institutional academic plan., , 4., , All lecturers/Senior lecturers are required to prepare course level and class level, lesson plans referring departmental academic plan., , (B), , Course Level Suggestions, , Teachers are educational managers at class room level and their success in achieving, course level objectives lies in using course plan and their judicious execution which is, very important for the success of programme by achieving its objectives., , Polytechnic teachers are required to plan various instructional experiences viz. theory, lecture, expert lectures, lab/workshop practicals, guided library exercises, field visits,, study tours, camps etc. In addition, they have to carry out progressive assessment of, theory, assignments, library, practicals and field experiences. Teachers are also, required to do all these activities within a stipulated period of time. It is essential for, them to use the given time judiciously by planning all above activities properly and, ensure execution of the plan effectively., , Following is the gist of suggestions for subject teachers to carry out T-L process, effectively:, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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44, , 1., , Teachers are required to prepare a course plan, taking into account departmental, academic plan, number of weeks available and courses to be taught., , 2., , Teachers are required to prepare lesson plan for every theory class. This plan may, comprise of contents to be covered, learning material for execution of a lesson plan., They may follow steps for preparing lesson plan e.g. drawing attention, state, instructional objectives, help in recalling pre-requisite knowledge, deliver planned, subject content, check desired learning outcomes and reinforce learning etc., , 3., , Teachers are required to plan for expert lectures from field/industry. Necessary steps, are to plan in advance, identify field experts, make correspondence to invite them,, take necessary budgetary approval etc., , 4., , Teachers are required to plan for guided library exercises by identification of course, specific experience requirement, setting time, assessment, etc. The assignments and, seminars can be thought of as terminal outcome of library experiences., , 5., , Concept and content based field visits may be planned and executed for such content, of course which is abstract in nature and no other requisite resources are readily, available in institute to impart them effectively., , 6., , There is a dire need for planning practical experiences in right perspective. These slots, in a course are the avenues to use problem based learning/activity learning/, experiential learning approach effectively. The development of lab instruction sheets, for the course is a good beginning to provide lab experiences effectively., , 7., , Planning of progressive assessment encompasses periodical assessment in a, semester, preparation of proper quality question paper, assessment of answer, sheets immediately and giving constructive feed back to every student, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
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45, , 8., , The student centred activities may be used to develop generic skills like, management, problem solving, managing self, collaborating with others etc., , 9., , Where ever possible, it is essential to use activity based learning rather than, relying on delivery based conventional teaching all the time., , 10., , Teachers may take initiative in establishing liaison with industries and field, organizations for imparting field experiences to their students., , 11., , Students be made aware about issues related to ecology and environment, safety,, concern for wastage of energy and other resources etc., , 12., , Students may be given relevant and well thought out project assignments, which are, purposeful and develop practical skills. This will help students in developing creativity, and confidence for their gainful employment., , 13., , A Project bank may be developed by the concerned department of the polytechnics in, consultation with related Industry, research institutes and other relevant field, organizations in the state., , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR, , task
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50, , 14. Sh. Manoj Kumar, Directr, IRDT, Kanpur, 15. Dr. AB Gupta, HOD, CDC, NITTTR, Chandigarh, , CORRECTED AND APPROVED BY BOARD OF TECHNICAL EDUCATION,U.P,LUCKNOW IN, MEETING HELD ON 10.07.2019 @RASHMI SONKAR
