CONTENTS Contents ..................................................................................................................................... 1 Basic Information ................................................................................................................... 7 Programme Calendar.............................................................................................................. 7 Eligibility and Fees .................................................................................................................. 8 Semesters and Courses ........................................................................................................... 8 Evaluation Pattern.................................................................................................................. 9 Recognized Study Centers..................................................................................................... 10 Syllabus For .............................................................................................................................. 15 Semester 01 .............................................................................................................................. 15 TES011: Applied Physics ....................................................................................................... 15 Programme Information ......................................................................................................... 15 Course Information ................................................................................................................ 15 Presumed Knowledge and Learning Objectives ...................................................................... 15 Units ....................................................................................................................................... 16 Detail Syllabus ........................................................................................................................ 16 Learning Resource Details ...................................................................................................... 17 TES012: Applied Mathematics - 1.......................................................................................... 18 Programme Information ......................................................................................................... 18 Course Information ................................................................................................................ 18 Presumed Knowledge and Learning Objectives ...................................................................... 18 Units ....................................................................................................................................... 18 Detail Syllabus ........................................................................................................................ 19 Learning Resource Details ...................................................................................................... 20 TES013: Self-Study Skills ....................................................................................................... 21 Programme Information ......................................................................................................... 21 Course Information ................................................................................................................ 21 Presumed Knowledge and Learning Objectives ...................................................................... 21 Units ....................................................................................................................................... 21 Detail Syllabus ........................................................................................................................ 22 Learning Resource Details ...................................................................................................... 22 TES014: Technical Communication........................................................................................ 23 Programme Information ......................................................................................................... 23 Course Information ................................................................................................................ 24 Presumed Knowledge and Learning Objectives ...................................................................... 24 Units ....................................................................................................................................... 24 Detail Syllabus ........................................................................................................................ 24 Learning Resource Details ...................................................................................................... 26 TES015: Computer Fundamentals ......................................................................................... 27 Programme Information ......................................................................................................... 27 Course Information ................................................................................................................ 27 Presumed Knowledge and Learning Objectives ...................................................................... 27 Detail Syllabus ........................................................................................................................ 27 Learning Resource Details ...................................................................................................... 29 Semester 02 .............................................................................................................................. 30 TES021: Engineering Drawing - 1 ........................................................................................... 30 Programme Information ......................................................................................................... 30 Syllabus For T06: Diploma in Instrumentation Engineering Page 1 Course Information ................................................................................................................ 30 Presumed Knowledge and Learning Objectives ...................................................................... 30 Units ....................................................................................................................................... 30 Detail Syllabus ........................................................................................................................ 31 Learning Resource Details ...................................................................................................... 32 TES022: Applied Mathematics - 2.......................................................................................... 32 Programme Information ......................................................................................................... 32 Course Information ................................................................................................................ 33 Presumed Knowledge and Learning Objectives ...................................................................... 33 Units ....................................................................................................................................... 33 Detail Syllabus ........................................................................................................................ 34 Learning Resource Details ...................................................................................................... 34 TES023: Electronic Components and Materials ...................................................................... 35 Programme Information ......................................................................................................... 35 Course Information ................................................................................................................ 35 Presumed Knowledge and Learning Objectives ...................................................................... 35 Units ....................................................................................................................................... 36 Detail Syllabus ........................................................................................................................ 36 Learning Resource Details ...................................................................................................... 37 TES024: Engineering Graphics – 2.......................................................................................... 38 Programme Information ......................................................................................................... 38 Course Information ................................................................................................................ 38 Presumed Knowledge and Learning Objectives ...................................................................... 38 Units ....................................................................................................................................... 38 Detail Syllabus ........................................................................................................................ 39 Learning Resource Details ...................................................................................................... 39 TES025: Electronic Manufacturing and Graphics.................................................................... 40 Programme Information ......................................................................................................... 40 Course Information ................................................................................................................ 40 Presumed Knowledge and Learning Objectives ...................................................................... 40 Detail Syllabus ........................................................................................................................ 40 Learning Resource Details ...................................................................................................... 41 Semester 03 .............................................................................................................................. 42 TES031: Basic Electrical Engineering ...................................................................................... 42 Programme Information ......................................................................................................... 42 Course Information ................................................................................................................ 42 Presumed Knowledge and Learning Objectives ...................................................................... 42 Units ....................................................................................................................................... 42 Detail Syllabus ........................................................................................................................ 43 Learning Resource Details ...................................................................................................... 44 TES032: Electric Circuit Analysis ............................................................................................ 44 Programme Information ......................................................................................................... 44 Course Information ................................................................................................................ 44 Presumed Knowledge and Learning Objectives ...................................................................... 44 Units ....................................................................................................................................... 45 Detail Syllabus ........................................................................................................................ 45 Learning Resource Details ...................................................................................................... 46 TES033: Electrical Measurements and Instruments ............................................................... 46 Programme Information ......................................................................................................... 46 Course Information ................................................................................................................ 46 Presumed Knowledge and Learning Objectives ...................................................................... 46 Syllabus For T06: Diploma in Instrumentation Engineering Page 2 Units ....................................................................................................................................... 47 Detail Syllabus ........................................................................................................................ 47 Learning Resource Details ...................................................................................................... 48 TES034: Electric Machines .................................................................................................... 48 Programme Information ......................................................................................................... 48 Course Information ................................................................................................................ 49 Presumed Knowledge and Learning Objectives ...................................................................... 49 Units ....................................................................................................................................... 49 Detail Syllabus ........................................................................................................................ 49 Learning Resource Details ...................................................................................................... 50 TES035: Electrical Engineering .............................................................................................. 50 Programme Information ......................................................................................................... 50 Course Information ................................................................................................................ 51 Presumed Knowledge and Learning Objectives ...................................................................... 51 Detail Syllabus ........................................................................................................................ 51 Learning Resource Details ...................................................................................................... 52 Semester 04 .............................................................................................................................. 53 TES041: Basic Electronics - 1 ................................................................................................. 53 Programme Information ......................................................................................................... 53 Course Information ................................................................................................................ 53 Presumed Knowledge and Learning Objectives ...................................................................... 53 Units ....................................................................................................................................... 53 Detail Syllabus ........................................................................................................................ 54 Learning Resource Details ...................................................................................................... 55 TES042: Basic Electronics – 2................................................................................................. 55 Programme Information ......................................................................................................... 55 Course Information ................................................................................................................ 55 Presumed Knowledge and Learning Objectives ...................................................................... 55 Units ....................................................................................................................................... 56 Detail Syllabus ........................................................................................................................ 56 Learning Resource Details ...................................................................................................... 57 TES043: Basic Electronics – 3................................................................................................. 57 Programme Information ......................................................................................................... 57 Course Information ................................................................................................................ 57 Presumed Knowledge and Learning Objectives ...................................................................... 57 Units ....................................................................................................................................... 57 Detail Syllabus ........................................................................................................................ 58 Learning Resource Details ...................................................................................................... 58 TES044: Basic Electronics – 4................................................................................................. 59 Programme Information ......................................................................................................... 59 Course Information ................................................................................................................ 59 Presumed Knowledge and Learning Objectives ...................................................................... 59 Units ....................................................................................................................................... 60 Detail Syllabus ........................................................................................................................ 60 Learning Resource Details ...................................................................................................... 61 TES045: Basic Electronics ...................................................................................................... 61 Programme Information ......................................................................................................... 61 Course Information ................................................................................................................ 61 Presumed Knowledge and Learning Objectives ...................................................................... 61 Detail Syllabus ........................................................................................................................ 62 Learning Resource Details ...................................................................................................... 63 Syllabus For T06: Diploma in Instrumentation Engineering Page 3 Semester 05 .............................................................................................................................. 63 E07051: Digital Electronics .................................................................................................... 63 Programme Information ......................................................................................................... 63 Course Information ................................................................................................................ 63 Presumed Knowledge and Learning Objectives ...................................................................... 64 Units ....................................................................................................................................... 64 Detail Syllabus ........................................................................................................................ 64 Learning Resource Details ...................................................................................................... 65 E07052: Microprocessor – 1 .................................................................................................. 66 Programme Information ......................................................................................................... 66 Course Information ................................................................................................................ 66 Presumed Knowledge and Learning Objectives ...................................................................... 66 Units ....................................................................................................................................... 66 Detail Syllabus ........................................................................................................................ 67 Learning Resource Details ...................................................................................................... 67 E07053: Microprocessor – 2 .................................................................................................. 68 Programme Information ......................................................................................................... 68 Course Information ................................................................................................................ 68 Presumed Knowledge and Learning Objectives ...................................................................... 68 Units ....................................................................................................................................... 68 Detail Syllabus ........................................................................................................................ 69 Learning Resource Details ...................................................................................................... 69 E07054: Microprocessor – 3 .................................................................................................. 70 Programme Information ......................................................................................................... 70 Course Information ................................................................................................................ 70 Presumed Knowledge and Learning Objectives ...................................................................... 70 Units ....................................................................................................................................... 70 Detail Syllabus ........................................................................................................................ 71 Learning Resource Details ...................................................................................................... 71 TES055: Digital Electronics and Microprocessor .................................................................... 72 Programme Information ......................................................................................................... 72 Course Information ................................................................................................................ 72 Presumed Knowledge and Learning Objectives ...................................................................... 72 Detail Syllabus ........................................................................................................................ 72 Learning Resource Details ...................................................................................................... 74 Semester 06 .............................................................................................................................. 74 TES061: Management Science .............................................................................................. 74 Programme Information ......................................................................................................... 74 Course Information ................................................................................................................ 75 Presumed Knowledge and Learning Objectives ...................................................................... 75 Units ....................................................................................................................................... 75 Detail Syllabus ........................................................................................................................ 75 Learning Resource Details ...................................................................................................... 76 TES062: Entrepreneurship Development ............................................................................... 76 Programme Information ......................................................................................................... 76 Course Information ................................................................................................................ 77 Presumed Knowledge and Learning Objectives ...................................................................... 77 Units ....................................................................................................................................... 77 Detail Syllabus ........................................................................................................................ 78 Learning Resource Details ...................................................................................................... 79 TES063: Microcontrollers ...................................................................................................... 79 Syllabus For T06: Diploma in Instrumentation Engineering Page 4 Programme Information ......................................................................................................... 79 Course Information ................................................................................................................ 79 Presumed Knowledge and Learning Objectives ...................................................................... 79 Units ....................................................................................................................................... 80 Detail Syllabus ........................................................................................................................ 80 Learning Resource Details ...................................................................................................... 81 TES064: Electronic Measurements and Instruments .............................................................. 81 Programme Information ......................................................................................................... 81 Course Information ................................................................................................................ 81 Presumed Knowledge and Learning Objectives ...................................................................... 81 Units ....................................................................................................................................... 82 Detail Syllabus ........................................................................................................................ 82 Learning Resource Details ...................................................................................................... 83 TES065: Diploma Project Work ............................................................................................. 83 Programme Information ......................................................................................................... 83 Course Information ................................................................................................................ 84 Presumed Knowledge and Learning Objectives ...................................................................... 84 Detail Syllabus ........................................................................................................................ 84 Activities ................................................................................................................................. 85 Learning Resource Details ...................................................................................................... 87 Semester 07 .............................................................................................................................. 88 TES111: Instrumentation -1 .................................................................................................. 88 Programme Information ......................................................................................................... 88 Course Information ................................................................................................................ 88 Presumed Knowledge and Learning Objectives ...................................................................... 88 Units ....................................................................................................................................... 88 Detail Syllabus ........................................................................................................................ 89 Learning Resource Details ...................................................................................................... 89 TES112: Instrumentation - 2 ................................................................................................. 90 Programme Information ......................................................................................................... 90 Course Information ................................................................................................................ 90 Presumed Knowledge and Learning Objectives ...................................................................... 90 Units ....................................................................................................................................... 90 Detail Syllabus ........................................................................................................................ 91 Learning Resource Details ...................................................................................................... 91 TES113: Biomedical Instrumentation-1 ................................................................................. 92 Programme Information ......................................................................................................... 92 Course Information ................................................................................................................ 92 Presumed Knowledge and Learning Objectives ...................................................................... 92 Units ....................................................................................................................................... 92 Detail Syllabus ........................................................................................................................ 93 Learning Resource Details ...................................................................................................... 93 TES114: Biomedical Instrumentation-2 ................................................................................. 94 Programme Information ......................................................................................................... 94 Course Information ................................................................................................................ 94 Presumed Knowledge and Learning Objectives ...................................................................... 94 Units ....................................................................................................................................... 94 Detail Syllabus ........................................................................................................................ 95 Learning Resource Details ...................................................................................................... 95 TES115: Instrumentation ...................................................................................................... 96 Programme Information ......................................................................................................... 96 Syllabus For T06: Diploma in Instrumentation Engineering Page 5 Course Information ................................................................................................................ 96 Presumed Knowledge and Learning Objectives ...................................................................... 96 Detail Syllabus ........................................................................................................................ 96 Learning Resource Details ...................................................................................................... 97 End of Document ...................................................................................................................... 98 Syllabus For T06: Diploma in Instrumentation Engineering Page 6 T06: DIPLOMA IN INSTRUMENTATION ENGINEERING(D INS E) BASIC INFORMATION 1. 2. 3. 4. 5. 6. Mode of Education: Full time face-to-face mode enhanced with ELearning support. Minimum Programme Duration: 3 years and 6 months after SSC (10th) Required Study Efforts: 600 Hours in each semester Medium of Instruction: English Attendance: Minimum 80% attendance for all courses. Equivalence Status: a. UGC recognized and approved b. DEC recognized and approved c. MSBTE Equivalent (Renewal in Process) d. Recognized by Government of Maharashtra for MPSC jobs PROGRAMME CALENDAR SN Activity Description Admission 01 Further Admission 02 Fresh Admission Teaching - Learning 03 Teaching - Learning 04 Teaching–Learning Backlog Clearing End Exam (EE) Form Submission 05 EE Form Submission by students at SC 06 EE Form Submission by SCs at University Continuous Assessment (CA) Submission 07 CA Availability on website 08 CA Submission by Students at SC 09 Provisional CA Report by SCs 10 Final CA Report Submission by SCs at University End Examination (EE) 11 EE for Theory Courses 12 EE for Practical, STW, SV or PW Courses Odd semesters like 01, 03, 05 and 07 From 01-Aug Till 31 Jan Even semesters like 02, 04, 06 and 08 From 01-Feb Till 31-Jul From 05-Jun Till 05-Jul From 05-Jun Till 05-Aug From 05-Dec Till 05-Jan Not Offered From 01-Aug Till 13 Nov From 01-Feb Till 16-May From 14-Nov to 04-Dec From 17-May to 04-Jun On or Before 30-Sep On or Before 05-Oct On or Before 31-Mar On or Before 05-Apr From 01-Aug Till 30 Nov From 01-Feb Till 30-May 01-30 Nov 01-30 May On or before 31-Dec On or before 30-Jun On or before 31-Jan On or before 31-Jul From 05-Dec Till 14-Dec From 05-Jun Till 14-Jun Immediately after the Immediately after the last day of end exam for last day of end exam for theory courses, but theory courses, but positively before 05-Jan positively before 05-Jul Semester End Vacation Syllabus For T06: Diploma in Instrumentation Engineering Page 7 13 Semester End Vacation From 08-Jan Till 31-Jan From 08-Jul Till 31-Jul ELIGIBILITY AND FEES 1. Admission Eligibility SSC (10th) or Equivalent Exam passed from recognized board Certification Eligibility Min 50% or better marks in total 35 courses (subjects) of total 140 credit points at Semesters 01-07 Aggregate performance and Class in the programme shall be reported on the basis of only semesters 06 and 07. Only for Earn and Learn Scheme Students Non Reporting Semesters (NRS): 01 to 05 Reporting Semesters (RS): 06 to 07 Fees and Deposit / Semester Desc INR USD UF 1,500 150 SCF 5,600 560 ASF 1,000 100 EF 130/T 13/T 30/P 300/P 30/PW 300/PW Total ≈ 8,920 892 LD 2,000 200 Only for Earn and Learn Scheme Students Desc INR UF 1,500 SCF 0 ASF 0 EF 130/T (Only for 300/P Sem 06 300/PW and 07) University Study EF Center EE (Only for EE Fee/ Fee/ Sem 01 - semester semester 05) Rs 65/T Rs 75/P Rs 75/PW Total ≈ LD Rs 65/T Rs 225/P Rs 225/PW 2,320 2,000 SEMESTERS AND COURSES SN Code Name CA EE Semester 01: 20 CPs, Common for all Specializations of Diplomas 01 TES011 Applied Physics 20 80 02 TES012 Applied Mathematics-1 20 80 03 TES013 Self-Study Skills 20 80 04 TES014 Technical Communication 20 80 05 TES015 Computer Fundamentals 20 80 Semester 02: 20 CPs, Common for all Specializations of Diplomas 06 TES021 Engineering Drawing-1 20 80 07 TES022 Applied Mathematics-2 20 80 08 TES023 Electronic Components and Materials 20 80 09 TES024 Engineering Graphics 20 80 10 TES025 Electronic Manufacturing and Graphics 20 80 Syllabus For T06: Diploma in Instrumentation Engineering TM Type CPs 100 100 100 100 100 T T T T P 4 4 4 4 4 100 100 100 100 100 T T T T P 4 4 4 4 4 Page 8 SN Code Name Semester 03: 20 CPs, Common for all Specializations 11 TES031 Basic Electrical Engineering 12 TES032 Electric Circuit Analysis 13 TES033 Electrical Measurements and Instruments 14 TES034 Electric Machines 15 TES035 Electrical Engineering Semester 04: 20 CPs, Common for all Specializations 16 TES041 Basic Electronics-1 17 TES042 Basic Electronics-2 18 TES043 Basic Electronics-3 19 TES044 Basic Electronics-4 20 TES045 Basic Electronics Semester 05: 20 CPs, Common for all Specializations 21 TES051 Digital Electronics 22 TES052 Microprocessor-1 23 TES053 Microprocessor-2 24 TES054 Microprocessor-3 25 TES055 Digital Electronics and Microprocessor Semester 06: 20 CPs, Common for all Specializations 26 TES061 Management Science 27 TES062 Entrepreneurship Development 28 TES063 Microcontrollers 29 TES064 Electronic Measurements and Instruments 30 TES065 Diploma Project Work-1 Semester 07: 20 CPs 31 TES111 Instrumentation-1 32 TES112 Instrumentation-2 33 TES113 Biomedical Instrumentation-1 34 TES114 Biomedical Instrumentation-2 35 TES115 Instrumentation CA of Diplomas 20 20 20 20 20 of Diplomas 20 20 20 20 20 of Diplomas 20 20 20 20 20 of Diplomas 20 20 20 20 20 20 20 20 20 20 EE TM Type CPs 80 80 80 80 80 100 100 100 100 100 T T T T P 4 4 4 4 4 80 80 80 80 80 100 100 100 100 100 T T T T P 4 4 4 4 4 80 80 80 80 80 100 100 100 100 100 T T T T P 4 4 4 4 4 80 80 80 80 80 100 100 100 100 100 T T T T P 4 4 4 4 4 80 80 80 80 80 100 100 100 100 100 T T T T P 4 4 4 4 4 EVALUATION PATTERN SN Type of Course 1 Theory (T) 1. 2. 3. 4. Continuous Assessment Student is required to answer 1 of 1 SAQ, each of 5 marks, on each CP Single attempt only Marks: 20 Marks Duration: Specified 1 Month 1. 2. 3. 4. 5. Syllabus For T06: Diploma in Instrumentation Engineering End Examination Student is required to answer 1 of 1 SAQ, each of 5 marks, on each CP Student is required to answer 1 of 2 LAQs, each of 15 marks, on each CP Maximum 5 Attempts only Marks: 80 Marks Duration: 180 minutes Page 9 SN Type of Course 2 Practical 1. Continuous Assessment Student is required to submit “Activity Report in Work-Book Format” for each CP in the prescribed format. Single Attempt only Marks: 20 Marks Duration: Specified 1 Month End Examination External and internal examiners shall assess each student based on: a. Continuous Assessment 2. submission by the student 3. (Only by External 4. Examiner) [20 Marks] b. Practical Activity performed by the student [40 Marks] c. Viva on Practical Activities [20 Marks] 2. Maximum 5 Attempts only 3. Marks: 80 Marks 4. Duration: 180 minutes 3 Project Work 1. Student is required to submit 1. External and internal examiners (PW) “Activity Report in Project shall assess each student based Report Format” for each CP in on: the prescribed format. a. Project Report submission 2. Single Attempt only by the student (Only by 3. Marks: 20 Marks External Examiner) [20 4. Duration: Specified 1 Month Marks] b. Project Presentation by the student [30 Marks] c. Viva on Project Report[30 Marks] 2. Maximum 5 Attempts only 3. Marks: 80 Marks 4. Duration: 180 minutes Actual CA and EE marks shall be used in computation of “Total Marks (TM)”. “Grace Factor” and “Total Marks (TM)” shall be used in computation of Percentile marks. Only percentile marks shall be reported for each course in the mark-statement. Only best of the past performance shall be reported. 1. RECOGNIZED STUDY CENTERS SN SC Contact Info SC Staff Contact Info SC Ref SIT Code 1. Amaravati Region No Study Centers SC Ref SIT Code 2. Aurangabad Region 01 Marathwada Institute of Technology, 2-T06-001 60 2107A SCH: Prof. Munish P.B. No. 327, Beed Bypass Road, Sharma Aurangabad – 431005 M: +91-9422202202 Ph (W): (0240) 2376815 / 2377284 Fax (W): (0240) 2376154 PC: Prof. M.A.Patil Email: mit@mitindia.net M: +91-9325213062 Web Site: www.mitindia.net/ www.mitindia.org Syllabus For T06: Diploma in Instrumentation Engineering Page 10 02 College of Engineering, Tuljapur Road, Osmanabad – 413 501 Ph (W): (02472) 251712 Fax (W): (02472) 251011 Email: principal.coeo@yahoo.com Web Site: www.coeosmanabad.com 2-T06-002 30 2613A SCH: P.S. Kolhe M: +91-9890668949 PC: Ambulgekar M: +91-9860366220 3. Kolhapur Region 01 Dr. J. J. Magdum College of 3-T06-001 30 7117A Engineering New Building, Shirolwadi Road, Jaysingpur, Dist. Kolhapur, Pin – 416 101. Ph (W): (02322) 221825 / 221827 Fax (W): 27083 Web Site: www.jjmcoe.org 02 Rajarambapu Institute of Technology 3-T06-002 30 7209A Rajaramnagar, Sakharale (Islampur), Tal. Walwa, Dist Sangli – 415 414 Ph (W): (02342) 220329, 221001 Fax (W): 220989 Email: san_ritech@sancharnet.in Web Site: www.ritindia.edu 03 Padmabhushan Vasantraodada Patil 3-T06-003 30 7231A Institute of Technology, Budhagaon, Tal. Miraj, Dist. Sangli – 416 304 Ph (W): (0233) 2366245, 2366246 Fax (W): 2366185 Email: pvpitsangali@gmail.com Web Site: www.pvpitsangali.org SCH: J.J. Magdum M: +91-9421038723, (02322)21825 PC: S.H. Sawant M: +91-(02322)21825 SCH: Mrs. S.S. Kulkarni M: +91-9970700700 PC: M.S. Kumbar M: +91-9970700741 SCH: A.M. Patil M: +91-9422613035 Email: patilavi_karnal@yahoo.c o.in PC: Milind Butale M: +91-9320764165 60 71137 SCH: V.D. Vaidya M: +91-9422046567 04 Government Polytechnic 3-T06-004 Vidyanagar, Kolhapur – 416 004 Ph (W): 0231-2521038, 2521016 Fax (W): +91-231-2521016 PC: R.K. Sawant Email: gpkp@pn3.vsnl.net.in M: +91-9422878804 Web Site: www.gpkolhapur.org 05 Institute of Civil and Rural 3-T06-005 30 71151 SCH: J.S. Ghavade Engineering M: +91-9422627392 Murlidhar Nagar, Gargoti, Email: Tal- Bjudargad, Dist–Kolhapur416209 jayantghevade31@redif Ph (W): (02324) 220069 fi mail.com Fax (W): 02324 220249 Email : kpr_icre@sancharnet.in PC: D.J. Magdum Web : smvircregargoti.org M: +91-9403466295 4. Mumbai Region 01 Ahmed Abdullah Garib Polytechnic, 4-T06-001 30 3594A SCH: Abdul Rashid Almas Colony, Behind Wafa Park, Mosa Kausa, Mumbra, Thane – 400 612 M: +91-9867054548 Ph (W): (022) 2549 4555 Fax (W): 2344 8011 PC: Usman Shekhani M: +91-9323201175 Syllabus For T06: Diploma in Instrumentation Engineering Page 11 02 Shreeram Polytechnic, Sector-3, 4-T06-002 CIDCO Colony, Airoli, Navi Mumbai 400 708 Ph (W): 27692854/1662/7130 Fax (W): 2769 1665 Email: sppolyairoli@sify.com/ sppoly@mtnl.net.in Web Site: sppoly@edu.com 03 Terna Polytechnic, Sector – 1, 4-T06-003 Koparkhairane, Navi Mumbai– 400709 Ph (W): (022) 27543535 Fax (W): 27541139 Email:t_polytechnic@hotmail.com Web Site: mail4india.com 04 Terna Engineering College, Sector-22, 4-T06-004 Phase-II, Nerul (W), Thane – 400 706 Ph (W): (022) 27718134 Fax (W): 27716250 Email:principal@terna.org Web Site: www.terna.org 05 B.L.Patil Polyetechnic, Near Khopoli 4-T06-005 Police Station, Khopoli, Dist. Raigad – 410 203 Ph (W): (02192) 263575, 266457 Fax (W): (02192) 263575, 268624 Email:ktspkpk@rediffimail.com Website: bipatilpolyetechnic.com 06 K. J. Somaiya Polytechnic, 4-T06-006 Vidyanagar, Vidyavihar, Mumbai Ph (W): (022) 25161752, 25093443 Fax (W): (022) 25124408 Email:kjsp@vsnl.com Web Site: www.somaiya.edu 07 Kala Vidya Mandir Institute of 4-T06-007 Technology, Malad, Mhada (Wrold Bank Project), Plot No. 3, RSC-19, Malvani, Malad (W), Mumbai –95 Ph (W): (022) 56088991, 28440012 08 Maharashtra Education Foundation 4-T06-008 ‘Foundation Towers’, Sec. – 11/20, CBD Belapur, Navi Mumbai – 400 614 Ph (W): (022) 2756 2842/43/44/45 Web Site: www.mef.edu.in 5. Nagpur Region 120 3307A SCH: Mr. Adokar 986925885 PC: Johnson Mathew M: +91-9324872886 30 3160A SCH: Mr. Yerigiri M: +91-(022)27543535 PC: Chincholikar M: +91-9819752376 30 35156 SCH: Prof. Amol Chavan M: +91-9869501602 PC: Prof. Hogade M: +91-9869135395 30 3247A SCH: Deshmukh B.N M: +91-9423378584 PC: Murade S.L. M/P:+91-9422494788 (02192)268624 60 31177 SCH: Mrs.B.Padmaja M/P:+91-(022)21021752 PC: Mrs. Motling Barnali S M: +91-9833570782 30 31178 SCH: G.K. Gupta M: +91-(022) 5608899 30 PC: G.K. Gupta M: +91-9892136359 31235 SCH: Dr Piyali Kar M: +91-(022) 2753166 Syllabus For T06: Diploma in Instrumentation Engineering PC: Sushil Kumar M: +91-9324499292 Page 12 01 Shri Datta Meghe Polytechnic, YCCE Campus, Wanadongi Hingana Road, Nagpur 441 110 Ph (W): (0712) 2238893 / 2221959 Fax (W): 2221959 Email: nag_sdmp@hotmail.com Web Site: sdmpoly.com 02 Chandrapur Polytechnic, Balaji Ward, Chandrapur – 442 402 Ph (W): 253180 / 250540 Fax (W): 07172 257173 Email: principal@sarvodaymm.org Website: www.sarvodaymm.org/cpc 03 Smt. Radhikatai Pandav College of Engineering, Near Dighori Naka, Umrer Road, Nagpur – 411 204 Ph (W): (0712) 2712965, 2712696 / 276189 / 276190 Fax (W): 2712965 / 2710045 Email: smtrpce@hotmail.com Web Site: www.rpce.org 04 Institute of Technology and Engineering, Premises of Dharampeth Science College, North Ambazari Road, Near Ambazari Garden, Nagpur– 440 033 Ph (W): (0712) 2240070 Fax (W): 2246203 Email: dharmpethpolytechnic@ rediffimail.com Web Site:dharmpethpolytechnic.com 05 G.H. Raisoni College of Engineering CRPF Gate No. 3, Hingana Road, Digdoh, Nagpur – 440 016 PH (W): (07104) 2352220, 236383 Fax (W): 07104- 232560 5-T06-001 60 4494A SCH: Shri Charde M: +91-9373101709 PC: Prof P.W. Raut M: +91-9822942801 5-T06-002 30 5-T06-003 30 4237A SCH: Mr Harinkhere M: +91-9890787765 Email: nisalcpc@gmail.com PC: Mr. Nisal R.G. M: +91-9423416532 44134 SCH: Pandharipande M: +91-9923103600 PC: N.P. Giradkar M: +91-9423637427 5-T06-004 60 44107 SCH: Dr.V.G.Dixit M: +91-(0712)2232584 PC: S.V. Joshi M: +91-9822700619 5-T06-005 60 44162 SCH: Bankatlal Jajoo M: +91- 09850350528 PC: Asutkar G.M. M: +91- 09423410288 6. Nanded Region 01 Gramin Polytechnic, 6-T06-001 30 8567A SCH: Pawar V.S. Vishnupuri, Nanded – 431 606 M: +91- 9422 171151 Ph (W): (02462) 229801, 229555 Fax (W): 02462 229777 PC: Miss. More J.B. Email: M: +91- 97662484480 principalgraminpolynanded@gmail.c om Website: www.graminnanded.org 7. Nasik Region Syllabus For T06: Diploma in Instrumentation Engineering Page 13 01 Shri Sant Gadge Baba College of Engineering & Technology, Near Z.T.C., Bhusawal, Dist. Jalgaon, Ph (W): (02582) 224364, 221719-20 Fax (W): 02582 222889 Email: ssgbcoet123@gmail.com Web Site: ssgbcoet.com 02 K K Wagh College of Engineering, Amrut Dham, Panchavati, Nashik – 422 003 Ph (W): 2512876 / 2516671 Fax (W): 2511962 Emai l: kkwcoe_nsk@sancharnet.in Web Site: kkwagh.org 03 NDMVP Samaj's College of Engineering Udojimaratha Boarding Campus, Gangapur Road, Nashik – 422 013 Ph (W): (0253) 2571439 Fax (W): 2317016 Web Site: mvpce.ac.in 7-T06-001 30 5391A SCH: R.P. Singh M: +91-9823092665 Email: Girish227252@rediffima il.com PC: Tiwari R.B. M: +91-9822551558 7-T06-002 60 5414A SCH: Nandurkar M: +91-(0253)2512876 (Confirm Admission availability with Programme PC: Chandwadkar Coordinator PC) M: +91-9422247389 7-T06-003 30 54171 SCH: Pangavhane M: +91-(0253) 2571439, (Confirm Admission availability with Programme 2317248 Coordinator PC) PC: Birari M: +91-0253-2571439 8. Pune Region 01 Government Polytechnic, 8-T06-001 Pune University Road, Pune – 411 016 Ph (W): (020) 25530986 / 25676818 / 25530986 Fax (W) : 25656217 Email: gppmain1@eth.net Web Site: gppune.ac.in 02 Maharashtra Institute of Technology, 8-T06-002 S No 124, Kothrud, Paud Road, Ex Servicemen Colony, Pune – 411 038 Ph(W): 020-25437681, 25437682 Fax(W): +91-20-25442770 Email: mitycmou@hotmail.com Web Site: http://www.mitpune.com 03 All India Shri Shivaji Memorial 8-T06-003 Society’s Polytechnic, S.S.P.M. School Campus, Library Building, Second Floor, 55/56, Shivajinagar, Pune – 411 001 Ph(W): 020-25437681/2, 26058077, 26058287 Fax(W): +91-20-25442770 Email: aissmspolypune@ rediffimail.com Website: www.aissmspoly.org.in 30 62124 SCH: Mrs. Veena Gore M: +91-(020)25676818 PC: R.V. Yenkar M: +91-(020)25676818 120 62173 SCH: Mangesh Karad M: +91-(020)32900895 PC: Dharmapatre M: +91-(020)30273629 30 62198 SCH: Mr. S.B. Patil M: +91-9850515217 Syllabus For T06: Diploma in Instrumentation Engineering PC: Mr. B.S.Patil M: +91-9881245429 Page 14 04 Karmaveer Bhaurao Patil College of Engineering & Polytechnic Camp, Near Circuit House Satara – 415 001 8-T06-004 30 6409A SCH: Thorat R.A. M: +91-(02162)235767 PC: Dilip Aldar M: +91-9226814409 9. Outside Maharashtra, Within India Region No Study Centers SC Ref SIT Code SCH: M: +91PC: M: +91No Study Centers 9. Outside India Region SC Ref SIT Code SCH: M: +91PC: M: +91- SYLLABUS FOR SEMESTER 01 TES011: APPLIED PHYSICS PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) T24: Diploma in Mechanical Engineering (DME) T50: Diploma in Production Engineering (DPE) T51: Diploma in Automobile Engineering (DAE) T52: Diploma in Thermal Engineering (DTE) COURSE INFORMATION Sem Code Course Name 01 TES011 Applied Physics 01 TML011 Applied Physics CP CST ST Marks Type 4 45 120 100 TH 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Syllabus For T06: Diploma in Instrumentation Engineering Page 15 Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to Apply basic facts, concepts, principles and techniques of scientific investigation of physical quantities and processes which are used in technology UNITS UN Name of the Unit 1 SI Units 2 Vectors and Scalars 3 Motion, Work, Energy and Power 4 Circular Motion 5 Centre of Gravity 6 Moment of Inertia 7 Mechanism of Simple Machines 8 Simple Harmonic Motion 9 Wave Motion 10 Sound 11 Light 12 Electrostatics 13 Capacitance and Condensers CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 CP Block 02 CSs 31-40 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit 1 SI Units: Different System of Measurement, Dimensions of a physical quantity, Measuring Instruments Vectors and Scalars: Vectors and Scalars, Addition and Subtraction of Vectors, Finding 2 the Magnitude and Direction of Resultant by Analytical Method, Resolution of a Vector, Product of Vectors CP Motion, Work, Energy and Power: Velocity and Acceleration, Equation of Motion Bock 3 (Constant acceleration), Law of Motion, Moment of a force or torque, Work, Energy, 01 Power Circular Motion: Circular motion, Rotation motion under constant angular acceleration, 4 Relation between angular and linear quantities, Acceleration in uniform circular motion, Centripetal force and centrifugal force Centre of Gravity: It is possible to represent a body by a point, Locating the Centre of CP 5 Gravity, Centre of Gravity and Centroid, Centre of Gravity of Some Regularly Shaped Bock Bodies, Experimental Determination of the Centre of Gravity, Some Features of The CG, 02 Syllabus For T06: Diploma in Instrumentation Engineering Page 16 Some Applications Moment of Inertia: Torque, Moment of Inertia : Rational equivalent to the Mass, 6 Moment of Inertia of Some Regularly Shaped Objects, Calculation of MI for Some Regularly Shaped Objects 7 Mechanism of Simple Machines: What is a Simple Machine, Some Simple Machines, Gears, Types of Drives Simple Harmonic Motion: What is Simple Harmonic Motion (SHM)? Equation of SHM, 8 Important terms in SHM, Graphical Representation of SHM, Phase and Phase difference, Acceleration in SHM CP Wave Motion: What is a Wave? Formation of wave motion, Types of waves, Stationary Bock Waves 03 Sound: Sound Wave, Stationary waves, Audible range, Intensity of sound, Infrasonics 10 and Ultrasonics 9 11 12 13 Light: Reflection, Refraction, Different types of Lenses, Refraction Through the Prism, Visible Spectrum, Optical Fibers Electrostatics: Concept of an Electric Charge, Concept of an Electric Field, Concept of Electric Potential CP Capacitance and Condensers: Capacitance and its Unit, Condenser Principle, Charging Bock and Discharging a Condenser, Factors Affecting Capacitance of Capacitor, Types of 04 Condensers (as per geometrical shapes) Types of Condensers (as per dielectric medium used), Condensers in Series, Condensers in Parallel LEARNING RESOURCE DETAILS LR Code Text-Books TES011-TB1 TML011-TB1 TES011-TB2 TML011-TB2 TES011-TB3 TML011-TB3 Title Author Edition Year ISBN Publisher Introduction to Mechanics, YCMOU Team Mechanics, YCMOU Team Wave Motion, YCMOU Team 1st 1994 1st 1994 1st 1994 81-7171-477-3 YCMOU 81-7171-478-1 YCMOU 81-7171-479-X YCMOU 1st 1994 81-7171-480-3 YCMOU TES011-TB4 Light and Electrostatics, TML011-TB4 YCMOU Team Reference-Books TES011-RB1 Applied Physics TML011-RB1 Lal H.H. and Sawney B.K. TES011-RB2 Physics for Technicians TML011-RB2 Zebrowski E. Tata McGraw-Hill Tata MacGraw Hill CD / DVD TES011-CD1 Web Links TES011-WL1 Syllabus For T06: Diploma in Instrumentation Engineering Page 17 TES012: APPLIED MATHEMATICS - 1 PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) T24: Diploma in Mechanical Engineering (DME) T50: Diploma in Production Engineering (DPE) T51: Diploma in Automobile Engineering (DAE) T52: Diploma in Thermal Engineering (DTE) COURSE INFORMATION Sem Code Course Name 01 TES012 Applied Mathematics - 1 01 TML012 Applied Mathematics - 1 CP CST ST Marks Type 4 45 120 100 TH 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to Apply basic facts, concepts, principles and procedures of mathematics as a tool to analyze engineering problems UNITS UN Name of the Unit 1 Sets and Number System 2 Indices and Logarithms 3 Quadratic Equations 4 Surds 5 Determinants 6 Functions 7 Progressions and Series 8 Mensuration 9 Introduction to Trigonometry 10 Allied, Compound and Multiple Angles 11 Solution of a Triangle 12 Complex Numbers CSs CP Block 01 CSs 01-10 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 11-20 these units. Syllabus For T06: Diploma in Instrumentation Engineering Page 18 13 Straight Line 14 Circle and Conic Sections 15 Graphs 16 Vector Algebra 17 Boolean Algebra 18 Introduction to Statistics CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 21-30 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS UN Detail Syllabus of the Unit 1 2 CP Block Sets and Number System: What is a set?, Comparison of sets, Operations of sets, CP Bock Number System Indices and Logarithms: Laws of indices, What is Logarithm? What are the laws of 01 logarithms? Change of base, Common (Standard) logarithms, Relation between Napier’s and standard (common) logarithms 3 Quadratic Equations: Solution of a Quadratic Equation, Nature of roots, Relation between roots and coefficients, Construction of quadratic equation, Equations reducible to quadratic form, Applications 4 Surds: What is Surd? Types of Surds, Comparison of Surds, Operations on Surds, Square root of a binomial, Quadratic Surds 5 Determinants: Second order determinant, Cramer’s rule, Third order determinant, Simultaneous equations in three unknowns 6 Functions: Functions, Graph of a functions Examples of functions Exponential and Logarithmic functions, Types of functions, Inverse of a function, Forms of expressing a function, Composite functions 7 Progressions and Series: Sequences, Series, Arithmetic Progression (A.P.), Geometric Progression (G.P.) Some important Series, The Arithmetic Mean (A.M.) and The Geometric Mean (G.M.), Binomial Theorem 8 Mensuration: Area of Plane Objects, Rectangular Solid of Parallelepiped, Cylinder, Sphere, Cone 9 Introduction to Trigonometry: Angles and Measurement of an angle, Trigonometric CP ratios of an angle, Trigonometric (circular) functions, Fundamental Identities, Use of Bock 02 calculator and tables, Inverse circular functions 10 Allied, Compound and Multiple Angles: Trigonometric ratios of allied angles, Trigonometric ratios of compound angles, Product-to-sum and sum-to-product formulae, Double angle and Half angle formulae 11 Solution of a Triangle: Solution of a right angle triangle, The Sine rule, Cosine rule, Projection formulae (second form of the law of cosine), Half angle formulae, Area of a triangle, Solution of general triangle 12 Complex Numbers: Complex numbers, Representation of a complex numbers, DeMoivre’s Theorem, Roots of a complex numbers, Exponential functions, Circular functions, Hyperbolic functions Syllabus For T06: Diploma in Instrumentation Engineering Page 19 13 Straight Line: Distance between two points, Section Formula, Equation of a Straight CP Bock Line, The General Equation of a Line, Angle between two lines 14 Circle and Conic Sections: Equation of a Circle, Tangent and Normal to a circle, Conic 03 Section 15 Graphs: Graphical solution of simultaneous linear equation, Graphs of trigonometric functions, The straight line law (y = mx + c) 16 Vector Algebra: Scalars and Vectors, Addition of Vectors, Scalar multiplication of a CP vector, Position Vector, Components of Vectors, Collinear and Coplanar Vectors, Product Bock of two vectors, Scalar or Dot Product, Vector or Cross Product, Scalar triple Product, 04 Physical Interpretation of Different Products 17 Boolean Algebra: Number system, Boolean Algebra, Properties of combinational circuits, Additional Properties of Boolean Algebra, Equivalence of two circuits, Sum of products form 18 Introduction to Statistics: Statistical Population, Variates and Attributes, Discrete and Continuous variable, Frequency Distribution Graphical representation Measures of Central Tendency, Measures of Dispersion, Probability Theory, Some useful results on probability LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES012-TB1 TML012-TB1 TES012-TB2 TML012-TB2 TES012-TB3 TML012-TB3 TES012-TB4 TML012-TB4 Basic Concepts, YCMOU Team Trigonometry and Complex Number, YCMOU Team Coordinate Geometry and Graphs, YCMOU Team Vector Algebra, Boolean Algebra and Statistics, YCMOU Team Reference-Books TES012-RB1 Engineering Mathematics TML012-RB1 Grewal B.S. Edition Year ISBN Publisher 1st 1994 1st 1995 1st 1994 1st 1994 81-7171-469-2 YCMOU 81-7171-470-6 YCMOU 81-7171-471-4 YCMOU 81-7171-472-2 YCMOU 40th Edition 2009 Tenth Reprint 81-7409-195-5 Khanna Publishers TES012-RB2 Applied Mathematics (Volumes I and II) TML012-RB2 P. N. Wartikar and J. N. Wartikar Pune Vidyarthi Griha Prakashan, Pune CD / DVD TES012-CD1 TML012-CD1 TES012-CD2 TML012-CD2 Web Links Syllabus For T06: Diploma in Instrumentation Engineering Page 20 TES012-WL1 TML012-WL1 TES012-WL2 TML012-WL2 TES013: SELF-STUDY SKILLS PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) T24: Diploma in Mechanical Engineering (DME) T50: Diploma in Production Engineering (DPE) T51: Diploma in Automobile Engineering (DAE) T52: Diploma in Thermal Engineering (DTE) COURSE INFORMATION Sem Code Course Name 01 TES013 Self-Study Skills 01 TML013 Self-Study Skills CP CST ST Marks Type 4 45 120 100 TH 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to enhance the overall learning activity by making use of various self-study skills Effectively speak on any matter UNITS UN Name of the Unit 1 Introduction 2 Listening and Speaking Skills CSs CP Block 01 CSs 01-10 Syllabus For T06: Diploma in Instrumentation Engineering Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Page 21 3 4 Reading and Writing Skills Observation Skills 5 6 Library and Reference Skills Self Directed Learning and Self Evaluation 7 Essential Study Skills for Science Students CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 11-20 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 21-30 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS UN Detail Syllabus of the Unit 1 2 3 4 5 6 7 CP Block Introduction: Self Learning Skills Development Package CP Listening and Speaking Skills: Listening Skills and Problems, Types of Listening Bock Comprehension, Listening Skills, Non-Verbal Listening, Advantages of Listening, Listening 01 Span and Barriers to Listening, Tips for Effective Listening, Effective Speaking : A Skill, Speak Correctly, Speak Appropriate Words, Speaking Different Situations, Non-Verbal Communication, Barriers to Effective Speaking, Tips to Speak Effectively Reading and Writing Skills: What is Reading?, Skimming, Skimming and Scanning as CP Study Skills, Intensive Reading, Use of Mental Skills, Reading Speed and Comprehension, Bock Motivation and Concentration, Writing Technique, What Do We Write?, Organizing the 02 Materials, Developing the Outline, Beginning the Article, Developing the Article, Ending the Article, Grammar for the Clarity and Correctness, Vocabulary Building, Simple Spelling Rules, Letter Writing, Review Observation Skills: Observation Skills, Observation and Sensory Organs, Processes in Observation Library and Reference Skills: Library and You, Various Types of Libraries, How to Find a CP Book in a Library?, Reference Books Bock Self Directed Learning and Self Evaluation: Basic Concepts, Steps in Self Directed 03 Learning, Engaging in Self Directed Learning, Process of Learning, Evaluation of Self Directed Learning Essential Study Skills for Science Students: Developing Good Study Habits, Sharping CP Your Memory, Getting the Most Out of Lectures and Labs, Getting the Most Out of Bock Reading Assignments, Improving Your Test-taking Abilities, Becoming a Critical Thinker 04 LEARNING RESOURCE DETAILS LR Code Title Author Edition Year Syllabus For T06: Diploma in Instrumentation Engineering ISBN Publisher Page 22 Text-Books TES013-TB1 Introduction, TML013-TB1 YCMOU Team, 1st 2002 978-81-265-1878-4 YCMOU TES013-TB2 Listening and Speaking Skills, TML013-TB2 YCMOU Team, 1st 2002 81-8055-019-2 YCMOU TES013-TB3 Reading and Writing Skills, TML013-TB3 YCMOU Team, 1st 2002 81-8055-020-6 YCMOU TES013-TB4 Observation Skills, TML013-TB4 YCMOU Team, 1st 2002 81-8055-021-4 YCMOU TES013-TB5 Library and Reference Skills, TML013-TB5 YCMOU Team, 1st 2002 81-8055-022-2 YCMOU TES013-TB6 Self Directed Learning and Self Evaluation, TML013-TB6 YCMOU Team, 1st 2002 81-8055-023-0 YCMOU TES013-TB7 Essential Study Skills for Science Students, TML013-TB7 Chiras, 1st 2000 SYE 0-534-37595-2 Thomson Learning Reference-Books TES013-RB1 TML013-RB1 CD / DVD TES013-CD1 Web Links TES013-WL1 TES014: TECHNICAL COMMUNICATION PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) T24: Diploma in Mechanical Engineering (DME) T50: Diploma in Production Engineering (DPE) Syllabus For T06: Diploma in Instrumentation Engineering Page 23 T51: Diploma in Automobile Engineering (DAE) T52: Diploma in Thermal Engineering (DTE) COURSE INFORMATION Sem Code Course Name 01 TES014 Technical Communication 01 TML014 Technical Communication CP CST ST Marks Type 4 45 120 100 TH 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to Effectively communicate about any technical matter UNITS UN 1 2 3 Name of the Unit Communication and Your Career Reader Centered Communication Process Conducting Research 4 Drafting Paragraphs, Sections and Chapters 5 Beginning a Communication 6 7 8 9 Ending a Communication Developing an Effective Style Checking and Reviewing Drafts Communicating Electronically: Email and Web Sites 10 11 12 13 Creating and Delivering Oral Presentation Creating Communications with a Team Proposals Formats for Letter, Memos and Books CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS UN Detail Syllabus of the Unit 1 CP Block Communication and Your Career: Communication Expertise Will Be Critical to Your CP Success, Writing at Work Differs from Writing at School, At Work, Writing Is an Action, Bock The Main Advice of this Book: Think Constantly about Your Readers, Qualities of 01 Effective On-the-Job Communication: Usability and Persuasiveness, The Dynamic Interaction between Your Communication and Your Readers, Some Reader-Centered Strategies You Can Begin Using Now, Communicating Ethically, What Lies Ahead in This Book, Exercises Syllabus For T06: Diploma in Instrumentation Engineering Page 24 2 Reader Centered Communication Process: Central Principles of the Reader-Centered Approach, Writing Your Resume, Electronic Resumes: Special Considerations, Writing Your Job Application Letter, Ethical Issues in the Job Search, Writing for Employment in Other Countries, Conclusion, Exercises 3 Conducting Research: Special Characteristics of On-the-Job Writing, Define your research objectives, Create an efficient and productive research plan , Check each source for leads to other sources, Carefully evaluate what you find, Begin interpreting your research results even as you obtain them, Take careful notes, Ethics Guideline: Observe copyright law and intellectual property rights, Ethics Guideline: Document your sources, Conclusion, Exercises, Reference Guide 4 Drafting Paragraphs, Sections and Chapters: Begin by announcing your topic, Present CP your generalizations before your details, Move from most important to least important, Bock Reveal your communication’s organization, Consult conventional strategies when having 02 difficulties organizing, Consider your readers’ cultural background when organizing, Ethics Guideline: Remember the human consequences of what you’re drafting, Conclusion, Exercises, Reference Guide 5 Beginning a Communication: Give your readers a reason to pay attention, State your main point, Tell your readers what to expect, Encourage openness to your message, Provide necessary background information, Adjust the length of your beginning to your readers’ needs, For longer communications, begin with a summary, Adapt your beginning to your readers’ cultural background, Ethics Guideline: Begin to address unethical practices promptly- and strategically, Conclusion, Exercises 6 Ending a Communication: After you’ve made our last point, stop, Repeat your main CP point, Summarize your key points, Refer to a goal stated earlier in your communication, Bock Focus on a key feeling, Tell your readers how to get assistance or more information, Tell 03 your readers what to do next, Identify any further study that is needed, Follow applicable social conventions, Conclusion, Exercises 7 Developing an Effective Style: Creating your Voice, Find out what’s expected Consider the roles your voice creates for your readers and you, Consider how your attitude toward your subject will affect your readers, Say things in your own words, Ethics Guideline: Avoid Stereotypes, Constructing Sentences, Simplify your sentences, Put the action in your verbs, Use the active voice unless you have a good reason to use the passive voice, Emphasize what’s most important, Smooth the flow of thought from sentence to sentence, Vary your sentence length and structure, Selecting Words, Use concrete, specific words, Use specialized terms when – and only when – your readers will understand them, Use words with appropriate associations, Choose plain words over fancy ones, Ethics Guideline: Use inclusive language, Conclusion, Exercises 8 Checking and Reviewing Drafts: Performing your own Quality Check, Check from your readers’ point of view, Check from your employer’s point of view, Distance yourself from your draft, Read your draft more than once, changing your focus each time, Use computer aids to find (but not to cure) possible problems, Ethics Guideline: Consider the stakeholders’ perspective, Reviewing, Discuss the objectives of the communication and the review, Build a Positive interpersonal relationship with your reviewers or writer, Rank suggested revisions-and distinguish maters of substance form matter of taste, Explore fully the reasons for all suggestion, Use computer aids for reviewing in a readerentered way, Ethics Guideline: Review form the stakeholders’ perspective, Conclusion, Exercises Syllabus For T06: Diploma in Instrumentation Engineering Page 25 9 Communicating Electronically: Email and Web Sites: Using Email, Observe the email conventions where you work, Keep your messages brief, Make your messages easy to read on screen, Provide an informative, specific subject line, Take time to revise, Remember that email isn’t private, Creating Web Site, Begin by defining your site’s objectives, Provide quick and easy access to the information your readers want, Design pages that are easy to read and attractive, Design your site for international and multicultural readers, Enable readers with disabilities to use your site, Help readers find your site on the Internet, Test your site on multiple platforms and browsers before launching it, Keep your site up to date, Ethics Guideline: Respect intellectual property and provide valid information, Exercises 10 Creating and Delivering Oral Presentation: Define your presentation’s objectives, Select CP the form of oral delivery best suited to your purpose and audience, Focus on a few main Bock points, Use a simple structure-and help your listeners follow it, Use a conversational 04 style, Look at your audience, Prepare for interruptions and questions-and respond courteously, Fully integrate graphics into your presentation, Rehearse, Accept your nervousness-and work with it, Making Team Presentations, Conclusion, Exercises 11 Creating Communications with a Team: Select the most effective structure for your team’s collaboration, Create a consensus on the communication’s objectives, Involve the whole team in planning, Make a project schedule, Share leadership responsibilities, Make meeting efficient, Encourage, discussion, debate, and diversity of ideas, Be sensitive to possible cultural and gender differences in team interactions, Use computer support for collaboration when it’s available, Conclusion, Exercises 12 Proposals: The Variety of Proposal-Writing Situations, Proposal Readers Are Investors, The Questions Readers Ask Most Often, Strategy of the Conventional Superstructure for Proposals, Superstructure for Proposals, Sample Proposal 13 Formats for Letter, Memos and Books: Letter format, Memo Format, Book Format, Resume and Job Application Letter, Informational Web Site, Informational Page, Brochure, Project Proposal, Progress Report LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES014-TB1 Technical Communication : A Reader TML014-TB1 Centered Approach, Anderson, Edition Year ISBN Publisher 5th 2003 SYE 0-1550-7421-0 Thomson Learning Reference-Books TES014-RB1 TML014-RB1 CD / DVD TES014-CD1 Web Links TES014-WL1 Syllabus For T06: Diploma in Instrumentation Engineering Page 26 TES015: COMPUTER FUNDAMENTALS PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) T24: Diploma in Mechanical Engineering (DME) T50: Diploma in Production Engineering (DPE) T51: Diploma in Automobile Engineering (DAE) T52: Diploma in Thermal Engineering (DTE) COURSE INFORMATION Sem Code Course Name 01 TES015 Computer Fundamentals 01 TML015 Computer Fundamentals CP CST ST Marks Type 4 60 120 100 P 4 60 120 100 P PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to Use basic commands of DOS Use basic features of Front page, MS Outlook and Internet Use basic features of Windows 2000 Use basic features of MS Word, MS Excel, MS Power Point and MS Access DETAIL SYLLABUS Note: Work Book shall consist of a record in the form of a journal consisting of the list of activities, printouts and necessary documentation for the following exercises. Students are expected to perform all activities and get workbook certified from the Practical Lab Instructor. UN Name of the Practical Activity CSs Questions CP Students have to submit A. Introduction: Introduction to Computers, History of Block ‘Activity Report in WorkComputers, Basic Anatomy of Computers 1 01 Book Format’ in CA and B. MS DOS: DOS Commands Perform ‘Practical Windows 2000: Features of Windows 2000, Multimedia, 2 CSs Activity’ and face Viva for Network and Explorer Syllabus For T06: Diploma in Instrumentation Engineering Page 27 A. B. 3 C. D. 01-30 Creation of New Email Account: Create your own Email account on http://www.hotmail.com and set the account preferences while registration. Create your signature in hotmail account with following details: 1) Name, 2) Postal Address, 3) Phone, 4) PRN, 5) Allotted Study Centre Name and code Email with File Attachment: Send an email to your hotmail account with sample image file attachment from your hotmail account. Receive this email and confirm signature appended with it Outlook Express Exercise: Add your email (hotmail) account in ‘outlook express’ and explore the settings. Create your signature in ‘outlook express’ with following details: 1) Name, 2) Postal Address, 3) Phone, 4) PRN, 5) Allotted Study Centre Name and code. MSN Messenger Exercise: Add your account in MSN Messenger and download the contacts list from web site http://wwww.ycmou.com and add it to your account on messenger. end exam on these units. Activities to be perform on university website http://wwww.ycmou.com A. Registered yourself on the School of Science and Technology discussion forum B. Browse active topic available on the discussion forum 4 C. Subscribe to whole discussion forum D. Browse FAQ (Frequently Asked Questions) E. Interact on Student Services Forum and Online Counseling Forum by posting few questions/queries F. Post reply to already posted articles/questions/queries on any one of the forums Activities to be perform on university website http://wwww.ycmou.com A. Download one of the Virtual Classroom Modules (VCM) from university web site. 5 B. Install essential freeware specified for it. C. Use it in 1) Group Learning Mode (Full Screen Mode) and 2) Self Study Mode D. Search the important information on the university website and on www.google.com Activities to be perform on university website http://wwww.ycmou.com A. Registered yourself on ‘Online Self -Test Centre’ of 6 School of Science and Technology. B. Explore your knowledge by giving Self Test on any one of courses and take a print out of grade sheet for the same. CP Block 02 CSs 31-60 Syllabus For T06: Diploma in Instrumentation Engineering Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Activity’ and face Viva for end exam on these units. Page 28 Word Basics: Starting Word, Creating Documents, Parts of 7 Word Window, Some ‘Don’ts’, Formatting Features, Menus, Commands, Toolbars and their Icons, Word Exercise 1 8 Word Basics: Word Exercise 2 9 Word Basics: Word Exercise 3 10 Excel Basics: Introduction, Menus, Commands, Toolbars and Their Icons, Excel Exercise I CP Power Point Basics: Introduction, Toolbars, Their Icons and Block 12 03 Commands, Navigating in Power Point 11 Excel Basics: Excel Exercise II and Excel Exercise III 13 Working with Power Point: Performs Sample Exercises CSs MS Access: Introduction, Parts of an Access Window, Tool 61-90 14 Bars and Their Icons, Starting Microsoft Access, Creating a New Database, Creating a Database through Table Wizard Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Activity’ and face Viva for end exam on these units. MS Access: Creating a New Table, Rename Columns, Saving the Database, Relationships, Creating Table through Design 15 View, Relationship, Query, Forms, Reports, Exiting MS Access MS Front Page: Introduction, Toolbars, Commands and CP 16 Their Icons, Starting MS Front Page, Creating a Web Page Block 04 without a Wizard Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical MS Front Page: Creating a Web through a Wizard, Creating 17 CSs Activity’ and face Viva for a Web Page with a Wizard 91-120 end exam on these units. MS Outlook: Introduction, Parts of an Outlook Window, 18 Menus, Commands, Toolbars and their Icons, Working with Outlook 19 Collect data sheets for Different Computer Systems and compare them with respective to all important parameters 20 Collect data sheets for any one device; Laser Printer, Ink-Jet Printer, Modem, Scanner, Web-Cam LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES015-TB1 A First Course in Computers, TML015-TB1 Sanjay Saxena, Reference-Books TES015-RB1 Comdex Computer Course Kit TML015-RB1 Vikas Gupta CD / DVD TES015-CD1 Web Links Edition Year ISBN Publisher 2003 SYE 81-259-1447-1 Vikas Publishing House 1st RP Dreamtech, New Delhi 2002 Syllabus For T06: Diploma in Instrumentation Engineering Page 29 TES015-WL1 SEMESTER 02 TES021: ENGINEERING DRAWING - 1 PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) T24: Diploma in Mechanical Engineering (DME) T50: Diploma in Production Engineering (DPE) T51: Diploma in Automobile Engineering (DAE) T52: Diploma in Thermal Engineering (DTE) COURSE INFORMATION Sem Code Course Name 02 TES021 Engineering Drawing - 1 02 TML021 Engineering Drawing - 1 CP CST ST Marks Type 4 45 120 100 TH 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to Use drawing instruments Read simple technical drawings Prepare simple technical drawings Analyze simple technical drawings UNITS UN 1 2 3 4 Name of the Unit Drawing Instruments and Their Uses Sheet Layout and Sketching Lines, Lettering and Dimensioning Scales CSs CP Block 01 CSs 01-10 Syllabus For T06: Diploma in Instrumentation Engineering Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Page 30 5 6 Geometrical Construction Curves Used in Engineering Practice 7 8 9 10 Loci of Points Orthographic Projection Projections of Points Projections of Straight Lines 11 Projections of Auxiliary Planes 12 Projections of Planes 13 Projections of Solids CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 11-20 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 21-30 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit 1 Drawing Instruments and Their Uses: Introduction, Drawing board, T-square, Setsquares, Drawing instrument box, Scales, Protractor, French curves 2 Sheet Layout and Sketching: Sheet layout, Types of machine drawings, sketching CP Lines, Lettering and Dimensioning: Introduction, Lines, Lettering, Dimensioning, Bock 3 Dimensioning terms and notations, Placing of dimensions, Unit of dimensioning, General 01 rules for dimensioning, Practical hints on dimensioning 4 Scales: Introduction, Scales, Scales on drawings, Types of scales Geometrical Construction: Introduction, Bisecting a line, To draw perpendiculars, To draw parallel lines, To divide a line, To bisect an angle, To trisect an angle, To find the centre of an arc, To construct equilateral triangles, To construct squares, To construct 5 regular polygons, Special methods of drawing regular polygons, Regular polygons inscribed in circles, To draw regular figures using T-square and set-squares, To draw CP tangents, Lengths of arcs, Circles and lines in contact, Inscribed circles Bock Curves Used in Engineering Practice: Introduction, Conic sections, Ellipse, Parabola, 02 Hyperbola, Tangents and normals to conics, Cycloidal curves, Cycloid, Trochoid, 6 Epicycloid and hypocycloid, Epitrochoid, Hypotrochoid, Involute, Evolutes, Spirals, Archemedian spiral, Logarithmic or equiangular piral, Helix, A method of drawing a helical curve, Helical springs, Screw threads, Helix upon a cone, Can 7 Loci of Points: Introduction, Loci of points, Simple mechanisms, The slider-crank mechanism, A four-bar mechanism Orthographic Projection: Introduction, Principle of projection, Methods of projection, 8 Orthographic projection, Planes of projection, Four quadrants, First-angle projection, CP Third-angle projection, Reference line, B.I.S. code of practice Bock Projections of Points: Introduction, A point is situated in the first quadrant, A point is 03 9 situated in the second quadrant, A point is situated in the third quadrant, A point is situated in the fourth quadrant, General conclusions 10 Projections of Straight Lines: Introduction, Line parallel to one or both the planes, Line Syllabus For T06: Diploma in Instrumentation Engineering Page 31 contained by one or both the planes, Line perpendicular to one of the planes, Line inclined to one plane and parallel to the other, Line inclined to both the planes, Projections of lines inclined to both the planes, Line contained by a plane perpendicular to both the reference planes, True length of a straight line and its inclinations with the reference planes, Traces of a line, Methods of determining traces of a line, Traces of a line, the projections of which are perpendicular to xy, Positions of traces of a line 11 Projections of Auxiliary Planes: Introduction, Types of auxiliary planes and views, Projection of a point on an auxiliary plane, Projections of lines and planes by the use of auxiliary planes, To determine true length of a line, To obtain point-view of a line and edge-view of a plane, To determine true shape of a plane figure Projections of Planes: Introduction, Types of planes, Traces of planes, General conclusions, Projections of planes parallel to one of the reference planes, Projections of CP 12 planes inclined to one reference plane and perpendicular to the other, Projections of Bock oblique planes 04 Projections of Solids: Introduction, Types of solids, Projections of solids in simple positions, Projections of solids with axes inclined to one of the reference planes and 13 parallel to the other, Projections of solids with axes inclined to both the H.P. and the V.P., Projections of spheres LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES021-TB1 Engineering Drawing, TML021-TB1 Bhat and Panchal, Reference-Books TES021-RB1 Engineering Drawing, TML021-RB1 Shah M B, Rana B C Engineering Drawing, TES021-RB2 Dhananjay Jolhe, TML021-RB2 Edition Year ISBN Publisher 46th 2003 81-85594-17-1 Charotar Publishing House 2nd 2010 978-81-317-1056-2 Pearson Second reprint 2008 978-0-07-064837-1 Tata McGraw-Hill TES011-RB3 TML011-RB3 CD / DVD TES021-CD1 TML021-CD1 Web Links TES021-WL1 TML021-WL1 TES022: APPLIED MATHEMATICS - 2 PROGRAMME INFORMATION SN Description 1 University Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Syllabus For T06: Diploma in Instrumentation Engineering Page 32 2 School 3 Discipline 4 Level 5 Course Used in Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) T24: Diploma in Mechanical Engineering (DME) T50: Diploma in Production Engineering (DPE) T51: Diploma in Automobile Engineering (DAE) T52: Diploma in Thermal Engineering (DTE) COURSE INFORMATION Sem Code Course Name 02 TES022 Applied Mathematics - 2 02 TML022 Applied Mathematics - 2 CP CST ST Marks Type 4 45 120 100 TH 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to Apply basic facts, concepts, principles and procedures of mathematics as a tool to analyze engineering problems UNITS UN 1 2 3 Name of the Unit Limits Derivatives Application of Derivatives 4 5 6 Principles of Integration Methods of Integration Application of Integration 7 8 9 Introduction to Differential Equations Equations of 1st order and 1st degree Application of Differential Equations to Electrical Circuits 10 Laplace Transforms 11 Inverse Laplace Transforms 12 Applications of Laplace Transforms CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 CP Block 02 CSs 31-40 Syllabus For T06: Diploma in Instrumentation Engineering Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Page 33 DETAIL SYLLABUS UN Detail Syllabus of the Unit 1 CP Block Limits: Concept of Limit, The meaning of x a, The meaning of (x) 1as x a, To CP find limit of function using graph, Algebra of Limits, Various approaches to find Limits Bock 01 Trigonometric Limits, Change of Limit, Logarithmic and Exponential Limits, Continuity 2 Derivatives: The Derivative, First Principle Method of Finding Derivative of a Function, Algebra of Derivatives (Rules of Differentiation), The Chain Rule, Derivatives of Inverse Trigonometric Functions, Differentiation of Parametric Function, Higher Order Derivative, Leibnitz’s Theorem 3 Application of Derivatives: Application of Derivatives to Geometry, Derivative as a Rate Measurer, Related Rates, Maximum and Minimum Values of Given Function 4 Principles of Integration: Integration as the Inverse Process of Differentiation, Definition CP of Indefinite Integral, The Constant of Integration ‘C’, Standard Formulae of Integration, Bock 02 Algebra of Integrals, Illustrative Examples 5 Methods of Integration: Methods of Integration, Integration by Substitution, Important Deductions from Theorem-1, Method of Integration by Parts, Compilation of all the Formulae, Integration of Rational Functions by Partial Fractions, Definite Integrals 6 Application of Integration: Area Under a Curve, Mean Values, Root Mean Square Value (R. M. S. Value) 7 Introduction to Differential Equations: Differential Equation, Formation of Differential CP Bock Equation, Solution of a Differential Equation st st Equations of 1 order and 1 degree: Differential Equations of First Order and First 03 8 Degree, Solution of the Differential Equation of First Order and First Degree 9 Application of Differential Equations to Electrical Circuits: Simple Electric Circuits, RL Circuit, RC Circuit 10 Laplace Transforms: Definition of Laplace Transform, Laplace Transforms of some CP Bock Elementary Functions 04 11 Inverse Laplace Transforms: Inverse Laplace Transform 12 Applications of Laplace Transforms: Applications of Laplace Transforms in Solving First Order and First Degree Differential Equations, Solution of Simultaneous Differential Equations LEARNING RESOURCE DETAILS LR Code Title Author Edition Year ISBN Publisher Text-Books TES022-TB1 Differential Calculus, TML022-TB1 YCMOU Team 1st 1994 81-7171-473-0 YCMOU TES022-TB2 Integral Calculus, TML022-TB2 YCMOU Team 1st 1995 81-7171-474-9 YCMOU 1st 81-7171-475-7 TES022-TB3 Differential Equations, Syllabus For T06: Diploma in Instrumentation Engineering Page 34 TML022-TB3 YCMOU Team TES022-TB4 Laplace Transforms, TML022-TB4 YCMOU Team 1995 1st 1994 Reference-Books TES022-RB1 Advanced Engineering Mathematics TML022-RB1 Erwin Kreyszig TES022-RB2 TML022-RB2 TES022-RB3 TML022-RB3 8th Edition 2009 Higher Engineering Mathematics B.V. Ramana Applied Mathematics (Volumes I and II) P. N. Wartikar & J. N. Wartikar TES022-RB4 Higher Engineering Mathematics, TML022-RB4 Dr B S Grewal, YCMOU 81-7171-476-5 YCMOU 978-81-265-0827-3 Wiley India Tata McGraw-Hill 40th Edition 2009 Tenth Reprint Pune Vidyarthi Griha Prakashan, Pune 81-7409-195-5 Khanna Publishers CD / DVD TES022-CD1 TML022-CD1 Web Links TES022-WL1 TML022-WL1 TES023: ELECTRONIC COMPONENTS AND MATERIALS PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 02 TES023 Electronic Components and Materials CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to analyze , test and troubleshoot Syllabus For T06: Diploma in Instrumentation Engineering Page 35 electrical and electronics components troubleshoot various electrical and electronics circuits UNITS UN Name of the Unit 1 Atomic Structure 2 Resistors 3 Conduction in Liquid and Gases 4 Batteries and Other Sources of Electricity 5 Using Wire Tables & Determining Conductor Sizes 6 Magnetism 7 Capacitors 8 Relays, Switches 9 Electronics Devices CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 CP Block 02 CSs 31-40 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. DETAIL SYLLABUS UN Detail Syllabus of the Unit 1 CP Block Atomic Structure: Early History of Electricity, Atoms, The law of Charges, Centrifugal CP Force, Electron Orbits, Valence Electrons, Electron Flow, Insulators, Semiconductors, Bock 01 Molecules, Methods of Producing Electricity, Electrical Effects 2 Resistors: Uses of Resistors, Fixed Resistors, Color Code, Standard Resistance Values of Fixed Resistors, Power Ratings, Variable Resistors, Schematic Symbols 3 Conduction in Liquid and Gases: The Ionization Process: Magnesium and Chlorine, CP Other Types of Ions, Electroplating, Electrolysis, Conduction in Gases, Ionization in Bock 02 Nature 4 Batteries and Other Sources of Electricity: History of the Battery, Cells, Cell Voltage, Primary Cells, Secondary Cells: Lead-Acid Batteries, Other Secondary Cells, Series and Parallel Battery Connections, Other Small Sources of Electricity 5 Using Wire tables and determining Conductor sizes: Using the National Electrical Code CP Charts, Factors That Determine Ampacity, Correction Factors, Computing Conductor Bock Sizes and Resistance, Computing Voltage Drop, Parallel Conductors, Testing Wire 03 Installations 6 Magnetism: The Earth is a Magnet, Permanent Magnets, The Electron Theory of Syllabus For T06: Diploma in Instrumentation Engineering Page 36 Magnetism, Magnetic Materials, Magnetic Lines of Force, Electromagnetics, Magnetic Measurement, Magnetic Polarity, Demagnetizing, Magnetic Devices 7 Capacitors: Capacitors, Electrostatic Charge, Dielectric Constants, Capacitor Ratings, CP Capacitors Connected in Parallel, Capacitors Connected in Series, Capacitive Charge and Bock Discharge Rates, RC Time Constants, Applications for Capacitors, Nonpolarized 04 Capacitors, Polarized Capacitors, Variable capacitors, Capacitor markings, Temperature coefficients, Ceramic Capacitors, Dipped Tantalum Capacitors, Film Capacitors, Testing Capacitors 8 Relays, Switches: Industrial Control Device - Manually Operated Switches, Mechanically Operated Switches, Relays – Electromechanical Control Relays, Solid-State Relays, Timing Relays, Latching Relays, Relay Logic 9 Electronics Devices: Semiconductor Fundamentals – Semiconductor in Germanium and Silicon, Conduction in Pure Germanium and Silicon, Conduction in Doped Germanium, PN Junction Diodes – PN Junctions, Diode Biasing, Diode Characteristics, Diode Construction Techniques, Testing PN Junction Diodes, Zener Diodes – Zener Diode Characteristics, Zener Diode Ratings, Voltage Regulation with Zener Diodes, Testing Zener Diodes, Bipolar Transistors – Transistor Construction, Transistor Types and Packaging, Basic Transistor Operation, Transistor Testing, Transistor Substitution, Field Effect Transistors (FETs) – Junction FETs, Depletion Insulated Gate FETs (MOSFETs), Enhancement Insulated Gate FETs (MOSFETs), MOSFETs Safety Precautions, Testing FETs, Thyristors – Silicon-Controlled Rectifiers, TRIACs, Bidirectional Trigger Diodes, Testing Thyristors, Optoelectric Devices – Basic Principles of Light, Light-Sensitive Devices, Light-Emitting Devices LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES023-TB1 Delmar’s Standard Text Book of Electricity, Herman, Edition Year 2nd 1999 SYE TES023-TB2 Content of Unit 8 and Unit 9 are available for download in semester 2 syllabus folder of this programme at http://www.ycmou.com Reference-Books TES023-RB1 A Textbook of Electrical Technology Volume- I, B.L.Theraja TES023-RB2 Electrical and Electronic Technology, 9th Hughes, CD / DVD TES023-CD1 Web Links TES023-WL1 Syllabus For T06: Diploma in Instrumentation Engineering ISBN Publisher 0-8273-8550-1 Delmar Publishers, S.Chand Pearson Education Page 37 TES024: ENGINEERING GRAPHICS – 2 PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 02 TES024 Engineering Graphics – 2 CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to use various drafting tools, drafting techniques and common electronic symbols for electronic devices draw actual layout and artwork for printed circuit boards use the computers in electronic drafting UNITS UN Name of the Unit 1 Basic Drawing Tools, Materials and Skills for Electronic Drafting 2 Types of Electronic and Mechanical Drawings 3 Block Diagrams 4 Symbols for Schematic Diagrams 5 Drawing Schematic Diagrams from Rough Sketches 6 Logic Symbols and Drawings Involving Integrated Circuits 7 Interconnecting Diagrams 8 Introduction to Printed Circuit Boards 9 Design of Discrete Component Single-Sided PC Board 10 Design of a Double-Sided PC Board with ICs 11 Standard Racks, Panels and Cases for Electronics CSs CP Block 01 CSs 01-10 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 11-20 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 21-30 these units. Syllabus For T06: Diploma in Instrumentation Engineering Page 38 12 Computer-Aided Drafting for Electronics 13 Other Information CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS UN Detail Syllabus of the Unit 1 Basic Drawing Tools, Materials and Skills for Electronic Drafting 2 Types of Electronic and Mechanical Drawings 3 Block Diagrams 4 Symbols for Schematic Diagrams 5 Drawing Schematic Diagrams from Rough Sketches 6 Logic Symbols and Drawings Involving Integrated Circuits 7 Interconnecting Diagrams 8 Introduction to Printed Circuit Boards CP Block CP Bock 01 CP Bock 02 9 CP Bock 03 Design of Discrete Component Single-Sided PC Board 10 Design of a Double-Sided PC Board with Integrated Circuits 11 Standard Racks, Panels and Cases for Electronics 12 Computer-Aided Drafting for Electronics CP 13 Other Information: Specifications, Standards and Manuals, Printed Circuit Design Bock Criteria, Resistor and Capacitor Standard Color Code, Quick Reference to Electronic 04 Symbols, Quick Reference to Logic Symbols, Mechanical Design Data, Materials Applications LEARNING RESOURCE DETAILS LR Code Title Author Edition Year Text-Books TES024-TB1 Electronic Drafting and Printed Circuit Board 1st Rev Design, 1999 Kirkpatrick, SYE Reference-Books TES024-RB1 The Design & Drafting of Printed Circuits Darryl Lindsey CD / DVD TES024-CD1 Web Links TES024-WL1 1984 Syllabus For T06: Diploma in Instrumentation Engineering ISBN Publisher 0-8273-2315-8 Galgotia Publications Bishop Graphics Ltd Page 39 TES025: ELECTRONIC MANUFACTURING AND GRAPHICS PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 02 TES025 Electronic Manufacturing and Graphics CP CST ST Marks Type 4 60 120 100 P PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to use various drafting tools, drafting techniques and common electronic symbols for electronic devices draw actual layout and artwork for printed circuit boards use the computers in electronic drafting DETAIL SYLLABUS Note: Work Book shall consist of a record in the form of a journal consisting of the list of activities, printouts (if any) and necessary documentation for the following exercises. Students are expected to perform all activities and get workbook certified from the Practical Lab Instructor. UN Name of the Practical Activity CSs Questions Students have to submit Study of Plant and Machinery required for manufacturing CP 1 Block ‘Activity Report in WorkPCB 01 Book Format’ in CA and 2 Study of Chemicals required for manufacturing PCB Perform ‘Practical 3 Information about various Electronics Components CSs Activity’ and face Viva for Study of Soldering Techniques, Assembly and Soldering 01-30 end exam on these units. 4 Practice on General Purpose PCB/ Tag Board 5 Manufacturing of simple Single Sided PCB with Photo Resist method Syllabus For T06: Diploma in Instrumentation Engineering Page 40 6 7 Manufacturing simple Single Sided PCB with Screen Printing CP Block method Manufacturing simple Single Sided PCB with Marker Pen/ 02 Paint 8 CSs Introduction to Features and Menus of Circuit Schematic 31-60 Software-1 9 Introduction to Features and Menus of Circuit Schematic Software-2 10 Drawing a Simple Circuit Schematic using Circuit Schematic Software 11 12 Introduction to Features and Menus of PCB Drafting and CP Block Artwork Software-1 Introduction to Features and Menus of PCB Drafting and 03 Artwork Software-2 13 CSs Preparation of Artwork for simple Single Sided PCB using 61-90 Artwork Software 14 Preparation of Artwork for simple Double Sided PCB using Artwork Software 15 Preparing the simple Single Sided Artwork using Pre-cut Drafting Aids Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Activity’ and face Viva for end exam on these units. Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Activity’ and face Viva for end exam on these units. 16 Draw an Isometric View of given object on a Drawing Sheet CP Draw an Orthographic View of given object on a Drawing Block 17 04 Sheet Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Draw a Cross Section View of the object shown by the CSs Activity’ and face Viva for 18 dotted lines on a Drawing Sheet 91-120 end exam on these units. Collect and study techno-commercial information on PCB 19 Laminates, Machines used for manufacturing of the PCB Collect and study techno-commercial information on Pre20 cut PCB Drafting aids like tapes and pads, PCB designing softwares LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES025-TB1 - Edition Year - ISBN Publisher - Reference-Books TES025-RB1 TES025-RB2 CD / DVD Syllabus For T06: Diploma in Instrumentation Engineering Page 41 TES025-CD1 Web Links TES025-WL1 SEMESTER 03 TES031: BASIC ELECTRICAL ENGINEERING PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) T24: Diploma in Mechanical Engineering (DME) T50: Diploma in Production Engineering (DPE) T51: Diploma in Automobile Engineering (DAE) T52: Diploma in Thermal Engineering (DTE) COURSE INFORMATION Sem Code Course Name 03 TES031 Basic Electrical Engineering 03 TML031 Basic Electrical Engineering CP CST ST Marks Type 4 45 120 100 TH 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES012: Applied Mathematics-1 Explain different concepts related to electrical theory Handle various measuring instruments UNITS UN 1 2 3 Name of the Unit Electrical Quantities and Ohm’s Law Series Circuits Parallel Circuits CSs CP Block 01 CSs 01-10 Syllabus For T06: Diploma in Instrumentation Engineering Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Page 42 4 Combinational Circuits 5 Measuring Instruments 6 7 8 Magnetic Induction Alternating Current Three Phase Circuits CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 11-20 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 21-30 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit Electrical Quantities and Ohm’s Law: The Coulomb, The Amp, The Electron Theory, The 1 Conventional Current Theory, Speed of Current, Basic Electrical Circuits, The Volt, The Ohm, The Watt, Other Measures of Power, Ohm’s Law, Metric Units Series Circuits: Series Circuits, Voltage Drops in a Series Circuit, Resistance in a Series CP 2 Circuit, Calculating Series Circuit Values, Solving Circuits, Voltage Dividers, The General Bock 01 Voltage Divider Formula, Voltage Polarity, Using Ground as a Reference 3 Parallel Circuits: Parallel Circuit Values, Parallel Resistance Formulas 4 Combination Circuits: Combination Circuits, Solving Combination Circuits, Simplifying CP the Circuit Bock 02 Measuring Instruments: Analog Meters, The Voltmeter, Multirange Voltmeters, Reading a Meter, The Ammeter, Ammeter Shunts, Multirange Ammeters, The Ayrton Shunt, AC CP 5 Ammeters, Clamp-on Ammeters, DC-AC Clamp-on Ammeters, The Ohmmeter, Shunt Bock Type Ohmmeter, Digital Meters, The Low-Impedance Voltage Tester, The Oscilloscope, 03 The Wattmeter, Recording Meters, Bridge Circuits Magnetic Induction: Magnetic Induction, Fleming’s Left-Hand Generator Rule, Moving Magnetic Fields, Determining the Amount of Induced Voltage, Lenz’s Law, Rise Time of 6 Current in an Inductor, The Exponential Curve, Inductance, R-L Time Constants, Induced Voltage Spikes 7 8 Alternating Current: Advantages of Alternating Current, AC Wave Forms, Sine Wave CP Values, Resistive Loads, Power in an AC Circuit, Skin Effect in AC Circuits Bock Three Phase Circuits: Three-Phase Circuits, Wye Connections, Delta Connections, Three- 04 Phase Power, Watts and VARs, Three-Phase Circuit Calculations, Load3 Calculations, Load 2 Calculations, Load 1 Calculations, Alternator Calculations, Power Factor Correction Syllabus For T06: Diploma in Instrumentation Engineering Page 43 LEARNING RESOURCE DETAILS LR Code Title Author Edition Year Text-Books TES031-TB1 Delmar’s Standard Text Book of Electricity, TML031-TB1 Herman, Reference-Books TES031-RB1 Electricity : Principles and Applications TML031-RB1 Fowler CD / DVD TES031-CD1 TML031-CD1 Web Links TES031-WL1 TML031-WL1 ISBN Publisher 2nd 1999 SYE 0-8273-8550-1 Delmar Publishers, 5th 1995 McGraw Hill TES032: ELECTRIC CIRCUIT ANALYSIS PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 03 TES032 Electric Circuit Analysis CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES031, TML031: Basic Electricity TES022, TML022: Applied Mathematics-2 TES012, TML012: Applied Mathematics-1 Explain the response of resistors, inductor and capacitor to direct and alternating current Analyze and Test the various (passive components) electric circuits Syllabus For T06: Diploma in Instrumentation Engineering Page 44 UNITS UN Name of the Unit 1 Inductance in Alternating Current Circuits 2 Capacitance in Alternating Current Circuits 3 4 Resistive-Inductive Series Circuits Resistive-Capacitive Series Circuits 5 6 7 Resistive-Inductive Parallel Circuits Resistive-Capacitive Parallel Circuits Resistive-Inductive-Capacitive Series Circuits 8 9 Resistive-Inductive-Capacitive Parallel Circuits Filter CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 CP Block 02 CSs 31-40 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit Inductance in Alternating Current circuits: Inductance, Inductive Reactance, Schematic Symbols, Inductors Connected in Series, Inductors Connected in Parallel, Voltage and 1 Current Relationships in an Inductive Circuit, Power in an Inductive Circuit, Reactive Power, Q of an Inductor CP Capacitance in Alternating Current Circuits: Connecting the Capacitor into an AC Circuit, Bock Capacitive Reactance, Computing Capacitance, Voltage and Current Relationships in a 01 2 Pure Capacitive Circuit, Power in a Pure Capacitive Circuit, Quality (Q) of a Capacitor, Capacitor Voltage Rating, Effects of Frequency in a Capacitive Circuit, Series Capacitors, Parallel Capacitors Resistive Inductive Series Circuits: R-L Series Circuits, Impedance, Vectors, Total Current, Voltage Drop across the Resistor, Watts, Computing the Inductance, Voltage 3 Drop across the Inductor, Total Voltage, computing the Reactive Power, Computing the Apparent Power, Power Factor, Angle Theta CP Resistive Capacitive Series Circuits: Resistive-Capacitive Series Circuits, Impedance, Bock Total Current, Voltage Drop across the Resistor, True Power, Capacitance, Voltage Drop 02 4 across the Capacitor, Total Voltage, Reactive Power, Apparent Power, Power Factor, Angle Theta Resistive-Inductive Parallel Circuits: Resistive-Inductive Parallel Circuits, Computing CP Circuit Values Bock Resistive-Capacitive Parallel Circuits: Operation of RC Parallel Circuits, Computing 03 6 Circuit Values 5 Syllabus For T06: Diploma in Instrumentation Engineering Page 45 7 Resistive-Inductive-Capacitive Series Circuits: RLC Series Circuits, Series Resonant Circuits Resistive-Inductive-Capacitive Parallel Circuits: RLC Parallel Circuits, Parallel Resonant Circuits CP Filters: Broad-Band Tuning, Low-Pass Filters, High-Pass Filters, Band pass Filters, Band- Bock 9 04 Rejection (Notch) Filters, T filters, PI Type Filters, Crossover Networks 8 LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES032-TB1 Delmar’s Standard Text Book of Electricity, Herman, Reference-Books Electric Circuit Analysis TES032-RB1 Schuler-Fowler CD / DVD TES032-CD1 Web Links TES032-WL1 Edition Year ISBN Publisher 2nd 1999 SYE 0-8273-8550-1 Delmar Publishers, 1993 McGraw Hill TES033: ELECTRICAL MEASUREMENTS AND INSTRUMENTS PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 03 TES033 Electrical Measurements and Instruments CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, Syllabus For T06: Diploma in Instrumentation Engineering Page 46 should have successfully completed: TES031: Basic Electrical Engineering TES032: Electric Circuit Analysis student should be able to measure basic electrical parameters Analyze and test various electrical Instruments explain the operation and applications of various electrical instruments UNITS UN 1 2 3 Name of the Unit Measurement and Error Systems of Units of Measurement Standards of Measurement 4 Electromechanical Indicating Instruments 5 Bridge Measurements 6 Oscilloscopes CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 CP Block 02 CSs 31-40 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit 1 Measurement and Error: Definitions, Accuracy and Precision, Significant Figures, Types of Error, Statistical Analysis, Probability of Errors, Limiting Errors Systems of Units of Measurement: Fundamental and Derived Units, Systems of Units, 2 Electric and Magnetic Units, International System of Units, Other Systems of Units, CP Conversion of Units Bock Standards of Measurement: Classification of Standards, Standards for Mass, Length, 01 3 and Volume, Time and Frequency Standards, Electrical Standards, Standards of Temperature and Luminous Intensity, IEEE Standards Electromechanical Indicating Instruments: Suspension Galvanometer, Torque and Deflection of the Galvanometer, Permanent-Magnet Moving–Coil Mechanism, DC CP Ammeters, DC Voltmeters, Voltmeter Sensitivity, Series-Type Ohmmeter, Shunt-Type 4 Bock Ohmmeter, Multimeter or VOM, Calibration of DC Instruments, Alternating-Current 02 Indicating Instruments, Thermoinstruments, Electrodynamometers in Power Measurements, Watthour Meter, Power-Factor Meters, Instrument Transformers Syllabus For T06: Diploma in Instrumentation Engineering Page 47 Bridge Measurements: Introduction, Wheatstone Bridge, Kelvin Bridge, Guarded 5 Wheatstone Bridge, AC Bridges and Their Application, Maxwell Bridge, Hay Bridge, Schering Bridge, Unbalance Conditions, Wien Bridge, Wagner Ground Connection CP Bock Oscilloscope: Introduction, Oscilloscope Block Diagram, Cathode Ray Tube, CRT Circuits, 03 6 Vertical Deflection System, Delay Line, Multiple Trace, Horizontal Deflection System, Oscilloscope Probes and Transducers, Oscilloscope Techniques, Special Oscilloscopes LEARNING RESOURCE DETAILS LR Code Title Author Edition Year Text-Books TES033-TB1 Modern Electronic Instrumentation and Measurement Techniques, Cooper and Helfrick, 4th 1996 SYE ISBN Publisher 81-203-0752-6 Prentice Hall of India, Reference-Books Electrical and Electronics Measurements and TES033-RB1 Instruments Schwaney A K CD / DVD TES033-CD1 Web Links TES033-WL1 TES034: ELECTRIC MACHINES PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) T24: Diploma in Mechanical Engineering (DME) T50: Diploma in Production Engineering (DPE) T51: Diploma in Automobile Engineering (DAE) T52: Diploma in Thermal Engineering (DTE) Syllabus For T06: Diploma in Instrumentation Engineering Page 48 COURSE INFORMATION Sem Code Course Name 03 TES034 Electric Machines 03 TML034 Electric Machines CP CST ST Marks Type 4 45 120 100 TH 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES031: Basic Electrical Engineering TES033: Basic Electronics TES012: Applied Mathematics Apply basic facts, concepts, principles and operation & control of electric machines and applications of electrical energy in manufacturing industry UNITS UN Name of the Unit 1 Single - Phase Transformers 2 Three - Phase Transformers 3 4 Direct Current Generators Direct Current Motors 5 6 Three-Phase Alternators Three-Phase Motors 7 Single-Phase Motors CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 CP Block 02 CSs 31-40 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. DETAIL SYLLABUS UN Detail Syllabus of the Unit CP Block Single - Phase Transformers: Single-Phase Transformers, Isolation Transformers, Autotransformers, Transformer Polarities, Voltage and Current Relationships in a 1 Transformer, Testing the Transformer, Transformer Ratings, Determining Maximum CP Current, Transformer Impedance Bock Three - Phase Transformers: Three-Phase Transformers, Closing a Delta, Three-Phase 01 Transformer Calculations, Open Delta Connection, Single-Phase Loads, Closed Delta with 2 Centre Tap, Closed Delta without Center Tap, Delta-Why Connection with Neutral, TConnected Transformers, Scott Connection, Zig-Zag Connection, Harmonics Syllabus For T06: Diploma in Instrumentation Engineering Page 49 Direct Current Generators: What is a Generator?, Armature Windings, Brushes, Pole Pieces, Field Windings, Series Generators, Shunt Generators, Compound Generators, 3 Compounding, Counter torque, Armature Reaction, Setting the Neutral Plane, Paralleling Generators CP Direct Current Motors: DC Motor Principles, Shunt Motors, Series Motors, Compound Bock Motors, Terminal Identification for DC Motors, Determining the Direction of Rotation of 02 4 a DC Motor, Speed Control, The Field Loss Relay, Horsepower, Brushless DC Motors, Converters, Permanent Magnet Motors, The Right-Hand Motor Rule, Three-Phase Alternators: Three-Phase Alternators, The Rotor, The Brushless Exciter, 5 Alternator Cooling, Frequency, Output Voltage, Paralleling Alternators, Sharing the Load, Field Discharge Protection CP Three-Phase Motors: Three-Phase Motors, The Rotating Magnetic Field, Connecting Bock 7 Dual-Voltage Three-Phase Motors, Squirrel-Cage Induction Motors, Wound Rotor 03 Induction Motors, Synchronous Motors, Selsyn Motors Single-Phase Motors: Single-Phase Motors, Split-Phase Motors, Resistance-Start Induction-Run Motors, Capacitor-Start Induction-Run Motors, Dual-Voltage Split-Phase Motors, Determining the Direction of Rotation for Split-Phase Motors, Capacitor-Start CP 8 Capacitor-Run Motors, Shaded-Pole Induction Motors, Multispeed Motors, Repulsion Bock Type Motors, Construction of Repulsion Motors, Repulsion-Start Induction-Run Motors, 04 Repulsion-Induction Motors, Single-Phase Synchronous Motors, Stepping Motors, Universal Motors LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES034-TB1 Delmar’s Standard Text Book Of Electricity, TML034-TB1 Herman, Edition Year ISBN Publisher 2nd 1999 SYE 0-8273-8550-1 Delmar Publisher, Reference-Books TES034-RB1 TML034-RB1 CD / DVD TES034-CD1 TML034-CD1 Web Links TES034-WL1 TML034-WL1 TES035: ELECTRICAL ENGINEERING PROGRAMME INFORMATION SN Description Details Syllabus For T06: Diploma in Instrumentation Engineering Page 50 1 University 2 School 3 Discipline 4 Level 5 Course Used in Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 03 TES035 Electrical Engineering CP CST ST Marks Type 4 60 120 100 P PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to All theory courses of semester 3 TES012: Applied Mathematics-1 handle and operate various electrical and electronics instruments measure electrical characteristics of components and devices with the help of commonly used equipment and instruments analyze and troubleshoot the simple electrical circuits DETAIL SYLLABUS Note: Work Book shall consist of a record in the form of a journal consisting of the list of activities, printouts (if any) and necessary documentation for the following exercises. Students are expected to perform all activities and get workbook certified from the Practical Lab Instructor. UN Name of the Practical Activity CSs Questions Students have to submit a) Familiarization of Electronic Voltmeters and CP Measurement of Resistance value by meter and color code Block ‘Activity Report in WorkBook Format’ in CA and 1 b) Verification of Equivalent Resistance of Series and 01 Perform ‘Practical Parallel Resistance Circuits and Measurement of resistance CSs Activity’ and face Viva for of Variable Resistors 01-30 end exam on these units. a) Study of Voltage Measurement, using Voltmeters and with Variable Voltage Power Supply 2 b) Study of Current Measurement and Control of Direct Current by Resistance and Voltage Verification of Ohm’s Law for 3 a) Simple Series Circuit and b) Series Resistive Voltage Divider Circuit 4 Verification of the Characteristics of Parallel Circuit Syllabus For T06: Diploma in Instrumentation Engineering Page 51 a) Verification of the Characteristics of Series-Parallel Circuits, II 5 b) Verification of Kirchhoff's Voltage Law and Kirchhoff's Current Law 6 a) b) Verification of Superposition Theorem Verification of Thevenin’s Theorem 7 a) b) Verification of Norton’s Theorem Verification of Maximum Power Transfer a) 8 b) a) 9 b) 10 CP Block 02 CSs Study of Characteristics of Electromagnetic Induction 31-60 and Devices To Measure and Calculate Power in AC Circuits Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Activity’ and face Viva for end exam on these units. To Test and Identify Capacitors Measurement of Capacitor charge and Discharge Time Constant Study of Capacitive Reactance and Voltage-Current Phase Relationship measurement CP a) Study of Inductor Characteristics and its Testing 11 b) Study of Voltage and Current Phase Relationship in Block 03 Inductor Circuit 12 Study of Series RC and RL circuit Characteristics 13 CSs Study of Frequency Response and Impedance of a) Series 61-90 Resonant Circuit b) Parallel Resonant Circuit 14 Study of operation of Front Panel of Cathode Ray Oscilloscope (CRO) 15 Study of Function Oscilloscope (CRO) Generator using Cathode Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Activity’ and face Viva for end exam on these units. Ray CP Block 04 Students have to submit ‘Activity Report in Work17 Study of Speed Variation of DC Shunt Motor Book Format’ in CA and 18 Study of single Phase Induction Motors Perform ‘Practical Collect and Study Techno Commercial Information on CSs Activity’ and face Viva for 19 Resistors, Capacitors, Inductors, Analog Meters: Voltmeter, 91-120 end exam on these units. Ammeter, Wattmeter and Multimeter 16 Study of Applications of Cathode Ray Oscilloscope (CRO) 20 Collect and Study Techno Commercial Information on Digital Multimeters, Cathode Ray Oscilloscope (CRO) LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES035-TB1 - Edition Year - ISBN Publisher - Reference-Books Syllabus For T06: Diploma in Instrumentation Engineering Page 52 TES035-RB1 Electricity-Electronics Fundamentals: A Text 4th Lab Manual, 1993 Zbar and Sloop, TES035-RB2 CD / DVD TES035-CD1 Web Links TES035-WL1 0-07-113780-7 Glencoe McGraw-Hill SEMESTER 04 TES041: BASIC ELECTRONICS - 1 PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 04 TES041 Basic Electronics - 1 CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES012: Applied Mathematics-1 describe operation of semiconductor devices analyze and troubleshoot simple electronics circuits Handle various measuring instruments UNITS UN Name of the Unit Syllabus For T06: Diploma in Instrumentation Engineering CSs Questions Page 53 1 2 Introduction Semiconductors 3 4 Diode Theory Special Purpose Diodes 5 Diode Circuits 6 7 Bipolar Junction Transistors Transistor Fundamentals CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 CP Block 02 CSs 31-40 Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit 1 Introduction: The Three Kinds of Formulas, Approximations, Voltage Sources, Current Sources, Thevenin’s Theorem, Norton’s Theorem, Troubleshooting Semiconductors: Conductors, Semiconductors, Silicon Crystals, Intrinsic CP Semiconductors, Two Types of Flow, Doping a Semiconductors, Two Types of Extrinsic Bock 2 Semiconductors, The Unbiased Diode, Forward Bias, Reverse Bias, Breakdown, Energy 01 Levels, The Energy Hill, Barrier Potential and Temperature, Reverse-Biased Diode Diode Theory: Basic Ideas, The Ideal Diode, The Second Approximation, The Third Approximation, Troubleshooting, Up-Down Circuit Analysis, Reading a Data Sheet, How to Calculate Bulk Resistance, DC Resistance of a Diode, Load Lines, Surface-Mount Diodes CP Special Purpose Diodes: The Zener Diode, The Loaded Zener Regulator, Second Bock Approximation of a Zener Diode, Zener Drop-Out Point, Reading a Data Sheet, 02 4 Troubleshooting, Load lines, Optoelectronic Devices, The Schottky Diode, The Varactor, Other Diodes 3 Diode Circuits: The Half-Wave Rectifier, The Transformer, The Full-Wave Rectifier, The Bridge Rectifier, The Choke-Input Filter, The Capacitor-Input Filter, Peak Inverse Voltage CP 5 and Surge Current, Other Power-Supply Topics, Troubleshooting, Clippers and Limiters, Bock Clampers, Voltage Multipliers 03 Bipolar Junction Transistors: The Unbiased Transistor, The Biased Transistor, Transistor 6 Currents, The CE Connection, The Base Curve, Collector Curves, Transistor CP Bock Approximations, Reading Data Sheets, Surface-Mount Transistors, Troubleshooting 04 7 Transistor Fundamentals: Variations in Current Gain, The Load Line, The Operating Syllabus For T06: Diploma in Instrumentation Engineering Page 54 Point, Recognizing Saturation, The Transistor Switch, Emitter Bias, LED Drivers, The Effect of Small Changes, Troubleshooting, More Optoelectronic Devices LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES041-TB1 Electronic Principles, Albert Malvino, Bates Reference-Books Electronic Devices TES041-RB1 Thomas L Floyd 81-7808-355-8 CD / DVD TES041-CD1 Web Links TES041-WL1 Edition Year ISBN Publisher 7th 2007 SIE 0-07-063424-6 TATA McGraw-Hill, 5th Pearson Education TES042: BASIC ELECTRONICS – 2 PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 04 TES042 Basic Electronics - 2 CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES041: Basic Electronics - 1 describe operation of semiconductor devices analyze and troubleshoot simple electronics circuits Handle various Syllabus For T06: Diploma in Instrumentation Engineering Page 55 measuring instruments UNITS UN Name of the Unit 1 Transistor Biasing 2 AC Models 3 4 Voltage Amplifiers CC and CB Amplifiers 5 Power Amplifiers 6 Frequency Effects CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 CP Block 02 CSs 31-40 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit 1 Transistor Biasing: Voltage-Divider Bias, Accurate VDB Analysis, VDB Load Line and Q Point, Two-Supply Emitter Bias, Other Types of Bias, Troubleshooting, PNP Transistors CP AC Models: Base-Biased Amplifier, Emitter-Biased Amplifier, Small-Signal Operation, AC Bock 2 Beta, AC Resistance of the Emitter Diode, Two Transistor Models, Analyzing an 01 Amplifier, AC Quantities on the Data Sheet Voltage Amplifiers: Voltage Gain, The Loading Effect of Input Impedance, Multistage CP Amplifiers, Swamped Amplifier, Two-Stage Feedback, Troubleshooting Emitter Followers: CC Amplifier, Output Impedance, Cascading CE and CC, Darlington Bock 4 02 Connections, Voltage Regulation, The Common-Base Amplifier 3 Power Amplifiers: Amplifier Terms, Two Load Lines, Class A Operation, Class B CP 5 Operation, Class B Push-Pull Emitter Follower, Biasing Class B/AB Amplifiers, Class B/AB Bock Driver, Class C Operation, Class C Formulas, Transistor Power Rating 03 Frequency Effects: Frequency Response of an Amplifier, Decibel Power Gain, Decibel Voltage Gain, Impedance Matching, Decibels above a Reference, Bode Plots, More Bode CP 6 Plots, The Miller Effect, Risetime-Bandwidth Relationship, Frequency Analysis of BJT Bock Stages, Frequency Effects of Surface Mount Circuits 04 Syllabus For T06: Diploma in Instrumentation Engineering Page 56 LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES042-TB1 Electronic Principles, Albert Malvino, Bates Reference-Books Electronic Devices TES042-RB1 Thomas L Floyd 81-7808-355-8 CD / DVD TES042-CD1 Web Links TES042-WL1 Edition Year ISBN Publisher 7th 2007 SIE 0-07-063424-6 TATA McGraw-Hill, 5th Pearson Education TES043: BASIC ELECTRONICS – 3 PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 04 TES043 Basic Electronics - 3 CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES041: Basic Electronics – 1 TES042: Basic Electronics - 2 describe operation of semiconductor devices analyze and troubleshoot simple electronics circuits Handle various measuring instruments UNITS Syllabus For T06: Diploma in Instrumentation Engineering Page 57 UN Name of the Unit 1 JFETs 2 MOSFETs 3 4 Thyristors Differential Amplifiers 5 Operational Amplifiers 6 Regulated Power Supplies CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 CP Block 02 CSs 31-40 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit JFETs: Basic Ideas, Drain Curves, The Transconductance Curve, Biasing in the Ohmic 1 Region, Biasing in the Active Region, Transconductance, JFET Amplifiers, The JFET Analog Switch, Other JFET Applications, Reading Data Sheets, JFET Testing CP MOSFETs: The Depletion-Mode MOSFET, D-MOSFET Curves, Depletion-Mode MOSFET Bock 2 Amplifiers, The Enhancement-Mode MOSFET, The Ohmic Region, Digital Switching, 01 CMOS, Power FETs, E-MOSFET Amplifiers, MOSFET Testing 3 Thyristors: The Four-Layer Diode, The Silicon Controlled Rectifier, The SCR Crowbar, SCR Phase Control, Bidirectional Thyristors, IGBTs, Other Thyristors, Troubleshooting CP Differential Amplifiers: The Differential Amplifier, DC Analysis of a Diff Amp, AC Analysis Bock 4 of a Diff Amp, Input Characteristics of an Op Amp, Common-Mode Gain, Integrated 02 Circuits, The Current Mirror, The Loaded Diff Amp Operational Amplifiers: Introduction to Op Amps, The 741 Op Amp, The Inverting CP 5 Amplifier, The Noninverting Amplifier, Two Op-Amp Applications, Linear ICs, Op Amps Bock as Surface-Mount Devices 03 Regulated Power Supplies: Supply Characteristics, Shunt Regulators, Series Regulators, CP 6 Monolithic Linear Regulators, Current Boosters, DC-to-DC Converters, Switching Bock Regulators 04 LEARNING RESOURCE DETAILS LR Code Title Edition Syllabus For T06: Diploma in Instrumentation Engineering ISBN Page 58 Author Text-Books TES043-TB1 Electronic Principles, Albert Malvino, Bates Reference-Books TES043-RB1 Electronic Devices Thomas L Floyd 81-7808-355-8 TES043-RB2 Op Amp and Linear Integrated Circuits Fiore Year Publisher 7th 2007 SIE 0-07-063424-6 TATA McGraw-Hill, 5th Pearson Education 2001 981-240-232-2 Delmar CD / DVD TES043-CD1 Web Links TES043-WL1 TES044: BASIC ELECTRONICS – 4 PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 04 TES044 Basic Electronics - 4 CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES043: Basic Electronics - 3 understand operation of semiconductor devices analyze and troubleshoot simple electronics circuits and instruments design analog applications using Syllabus For T06: Diploma in Instrumentation Engineering Page 59 electronic devices UNITS UN Name of the Unit 1 Negative Feedback 2 Linear Op-Amp Circuits 3 Active Filters 4 Nonlinear Op-Amp Circuits 5 Oscillators CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 CP Block 02 CSs 31-40 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit 1 Negative Feedback: Four Types of Negative Feedback, VCVS Voltage Gain, Other VCVS Equations, The ICVS Amplifier, The VCIS Amplifier, The ICIS Amplifier, Bandwidth Linear Op-Amp Circuits: Inverting-Amplifier Circuits, Noninverting-Amplifier Circuits, CP Inverter/ Noninverter Circuits, Differential Amplifiers, Instrumentation Amplifiers, Bock 2 Summing Amplifier Circuits, Current Boosters, Voltage-Controlled Current Sources, 01 Automatic Gain Control, Single-Supply Operation Active Filters: Ideal Responses, Approximate Responses, Passive Filters, First-Order Stages, VCVS Unity-Gain Second-Order Low-Pass Filters, Higher-Order Filters, VCVS CP 3 Equal-Component Low-Pass Filters, VCVS High-Pass Filters, MFB Bandpass Filters, Bock Bandstop Filters, The All-Pass Filter, Biquadratic and State-Variable Filters 02 Nonlinear Op-Amp Circuits: Comparators with Zero Reference, Comparators with Nonzero References, Comparators with Hysteresis, Window Comparator, The Integrator, CP 5 Waveform Conversion, Waveform Generation, Another Triangular Generator, Active Bock Diode Circuits, The Differentiator, Class-D Amplifier 03 Oscillators: Theory of Sinusoidal Oscillation, The Wien-Bridge Oscillator, Other RC CP Oscillators, The Colpitts Oscillator, Other LC Oscillators, Quartz Crystals, The 555 Timer, 6 Bock Astable Operation of the 555 Timer, 555 Circuits, The Phase-Locked Loop, Function 04 Generator ICs Syllabus For T06: Diploma in Instrumentation Engineering Page 60 LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES044-TB1 Electronic Principles, Albert Malvino, Bates Reference-Books TES044-RB1 Electronic Devices Thomas L Floyd TES044-RB2 Op Amp and Linear Integrated Circuits Fiore Edition Year ISBN Publisher 7th 2007 SIE 0-07-063424-6 TATA McGraw-Hill, 5th 81-7808-355-8 Pearson Education 2001 981-240-232-2 Delmar CD / DVD TES044-CD1 Web Links TES044-WL1 TES045: BASIC ELECTRONICS PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 04 TES045 Basic Electronics CP CST ST Marks Type 4 60 120 100 P PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives Syllabus For T06: Diploma in Instrumentation Engineering Page 61 For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES012: Applied Mathematics-1 TES032: Electric Circuit Analysis All theory courses of semester 4 handle and operate various electronics instruments and devices measure characteristics of electronics devices design, analyze, test and troubleshoot basic electronic devices and circuits DETAIL SYLLABUS Note: Work Book shall consist of a record in the form of a journal consisting of the list of activities and necessary documentation for the following exercises. Students are expected to perform all activities and get workbook certified from the Practical Lab Instructor. UN Name of the Practical Activity CSs Questions Students have to submit Study of Electronic components, Circuit symbol, Schematic CP 1 Diagram, Familiarization with Hand Tools used in Block ‘Activity Report in Work01 Book Format’ in CA and Electronics, soldering techniques (Appendix A) Perform ‘Practical Study of Semiconductor Diode Characteristics a) Junction 2 CSs Activity’ and face Viva for Diode b) Zener Diode 01-30 end exam on these units. Study of a) Optoelectronic Devices b) Half Wave Rectifier 3 Circuit c) Full Wave Rectifier Circuit 4 a) Study of Voltage Multiplier Circuit using Diodes b) Study of Power supply Circuits 5 a) Familiarization of Bipolar Junction Transistor and its Testing b) Study of Effect of Transistor Biasing CP Block 02 Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Activity’ and face Viva for end exam on these units. CP a)Familiarization of Junction Field Effect Transistor and Block 12 Study of its Characteristics b) Study of FET Common Source 03 Amplifier CSs a) Study of Operational Amplifier Characteristics b) Study 61-90 13 effect of Negative Feedback on Noninverting Op Amp Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Activity’ and face Viva for end exam on these units. 6 Study of Common Emitter Amplifier Characteristics 7 Study of Emitter Follower Characteristics a) Study of Cascaded Transistor Amplifiers b) Study of Class A Power Amplifier CSs a) Study of Push-Pull Power Amplifiers b) Study of 31-60 9 Complementary-Summary Push-Pull Amplifiers 8 10 Study of Audio Amplifier Characteristics and its Frequency Response 11 Study of Differential Amplifier 14 Study of Basic Operational Amplifier Circuits 15 Study of Voltage Regulator ICs Syllabus For T06: Diploma in Instrumentation Engineering Page 62 Study and Determine Oscillating Frequency of a) Phase Shift CP Block Oscillator Circuit b) Op Amp Oscillator Circuit 04 17 Study of IC555 as in Astable and Monostable Mode Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Study of the Characteristics of a) SCR b) The Unijunction CSs Activity’ and face Viva for 18 Transistor 91-120 end exam on these units. Collect and Study Techno Commercial Information on 19 Junction Diode, Zener Diode, Optoisolator, Transistors( BJT, FET), Power Transistors 16 Collect and Study Techno Commercial Information on 20 Thyristor, Op Amp, Voltage Regulator ICs, Timer 555Ic, Cathode Ray Oscilloscope (CRO) LEARNING RESOURCE DETAILS LR Code Title Author Edition Year Text-Books TES045-TB1 - Reference-Books TES045-RB1 Electricity-Electronics Fundamentals: A Text 4th Lab Manual, 1993 Zbar and Sloop, CD / DVD TES045-CD1 Web Links TES045-WL1 ISBN Publisher 0-07-113780-7 Glencoe McGraw-Hill SEMESTER 05 E07051: DIGITAL ELECTRONICS PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Syllabus For T06: Diploma in Instrumentation Engineering Page 63 Sem Code Course Name 05 E07051 Digital Electronics CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to Basic Electrical Engineering Basic Electronics test and troubleshoot basic digital ICs/circuits analyze and implement any digital logic circuit understand microprocessor based circuit UNITS UN 1 2 3 Name of the Unit 5 6 IC specifications and simple Interfacing Encoding, Decoding and Seven-Segment Displays 7 8 9 Flip-Flops Counters Shift Registers Numbers We Use in Digital Electronics Logic Gates Combining Logic Gates 10 Arithmetic Circuits 11 Memories 12 Connecting with Analog Devices CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 CP Block 02 CSs 31-40 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit Numbers We Use in Digital Electronics: Counting in Decimal and Binary, Place Value, 1 Binary to Decimal Conversion, Decimal to binary Conversion, Electronic Translator, Hexadecimal Numbers, Octal Numbers, Bits, Bytes, Nibbles, and Word Size Logic Gates: The AND Gate, The OR Gate, The Inverter and Buffer, The NAND Gate, The CP NOR Gate, The Exclusive OR Gate, The Exclusive NOR Gate, The NAND Gate as Universal Bock 2 Gate, Gates with More Than Two Inputs, Using Inverters to Convert Gates, Practical TTL 01 Logic Gates, Practical CMOS Logic Gates, Troubleshooting Simple Gate Circuits, IEEE Logic Symbols, Simple Logic Gate Applications 3 Combining Logic Gates: Constructing Circuits form Boolean Expressions, Drawing a Syllabus For T06: Diploma in Instrumentation Engineering Page 64 Circuit from a Maxterm Boolean Expression, Truth Tables and Boolean Expressions, Sample Problem, Simplifying Boolean Expression, Karnaugh Maps, Karnaugh Maps with Three Variables, Using NAND Logic, Solving Logic Problems-Data Selectors, Using DeMorgan’s Theorems IC specifications & simple Interfacing: Logic Levels and Noise Margin, Other Digital IC Specifications, MOS and CMOS ICs, Interfacing TTL and CMOS with Switches, Interfacing 4 TTL and CMOS with LEDs, Interfacing TTL and CMOS ICs, Interfacing with Buzzers, Relays, Motors, and Solenoids, Optoisolators, Troubleshooting Simple Logic Circuits CP Encoding, Decoding and Seven-Segment Displays: The 8421 BCD Code, The Excess-3 Bock Code, The Gray Code, The ASCII code, Encoders. Seven-Segment LED Displays. Decoders, 02 5 BCD-to-Seven Segment Decoder/Drivers, Liquid-Crystal Displays, Using CMOS to Drive and LCD, Troubleshooting a Decoding Circuit. 6 Flip-Flops: R-S Flip-Flop, The Clocked R-S Flip-Flop, The D Flip-Flop, The J-K Flip-Flop, IC Latches, Triggering Flip-Flops, Schmitt Trigger Devices, IEEE Logic Symbols Counters: Ripple Counters, Mod-10 Ripple Counters, Synchronous Counters, Down 7 Counters, Self Stopping Counters, Counters as Frequency Dividers, TTL IC Counters, CP CMOS IC Counters, A 3-Digit BCD Counter, Troubleshooting a Counter. Bock Shift Registers: Serial Load shift Registers, Parallel Load Shift Registers, A Universal Shift 03 8 Register, Using the 74194 IC Shift Register, An 8-Bit CMOS Shift Register, Troubleshooting a Simple Shift Register 9 Arithmetic Circuits: Binary Addition, Half-Adders, Full Adders, Three-Bit Adders, Binary Subtraction, Parallel Subtractors, IC Adders, Binary Multiplication, Binary Multipliers, 2s Complement Notation, Addition, and Subtraction, 2s Complement Adders/Subtractor, Troubleshooting a Full-Adder Memories: Overview of Memory, Random-Access Memory (RAM), Static RAM ICs, Using CP 10 SRAM, Read-Only Memory (ROM), Using a ROM, Programmable Read-Only Memory Bock (PROM), Nonvolatile Read/Write Memory, Memory Packaging 04 Connecting with Analog Devices: D/A Conversion, Operational Amplifiers, A Basic D/A Converter, Ladder Type D/A Converters, An A/D Converters, Voltage Comparators, An 11 Elementary Digital Voltmeter, Other A/D Converters, A/D Converter Specifications, An A/D Converter IC LEARNING RESOURCE DETAILS LR Code Title Author Text-Books E07051-TB1 Digital Electronics, Tokheim Reference-Books E07051-RB1 Digital Electronics Jain R P CD / DVD E07051-CD1 Web Links Edition Year 6th Syllabus For T06: Diploma in Instrumentation Engineering ISBN Publisher 0-07-058790-6 Tata McGraw Hill, McGraw Hill Page 65 E07051-WL1 E07052: MICROPROCESSOR – 1 PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 05 E07052 Microprocessor – 1 CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to E07051: Digital Electronics analyze, test and troubleshoot basic microprocessor based circuit write simple assembly language implement industrial controlled applications UNITS UN Name of the Unit CSs 1 Computers, Microcomputers, and Microprocessors- An CP Block Introduction 2 8086 Family Assembly Language Programming01 CSs Introduction 01-10 3 Implementing Standard Program Structure in 8086 CP Block Assembly Language 4 Strings, Procedures, and Macros 02 CSs 11-20 Syllabus For T06: Diploma in Instrumentation Engineering Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Page 66 5 8086 Instruction Descriptions and Assembler Directives 6 8086 System Connections, Timing, and Troubleshooting CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 21-30 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit Computers, Microcomputers, and Microprocessors-An Introduction: Types of Computers, How Computers and Microcomputers Are Used-An Example, Overview of 1 Microcomputer Structure and Operation, Execution of a Three-Instruction Program, Microprocessor Evolution and Types, The 8086 Microprocessor Family-Overview, 8086 CP Internal Architecture, Introduction to Programming the 8086 Bock 8086 Family Assembly Language Programming-Introduction: Program Development 01 2 Steps, Constructing the Machine Codes for 8086 Instructions, Writing Programs for Use with an Assembler, Assembly Language Program Development Tools Implementing Standard Program Structure in 8086 Assembly Language: Simple Sequence Programs, Jumps, Flags, and Conditional Jumps, If-Then, If-Then-Else, and 3 Multiple If-Then-Else Programs, While-Do Programs, Repeat-Until Programs, Instruction CP Timing and Delay loops Bock Strings, Procedures, and Macros: The 8086 String Instructions, Writing and Using 02 4 Procedures, Writing and Using Assembler Macros 5 6 8086 Instruction Descriptions and Assembler Directives: Instruction Descriptions, CP Assembler Directives Bock 03 8086 System Connections Timing and Troubleshooting: A Basic 8086 Microcomputer System, Using a Logic Analyzer to Observe Microprocessor Bus Signals, An Example CP Minimum-mode System, The SDK-86, Troubleshooting a Simple 8086-based Bock Microcomputer 04 LEARNING RESOURCE DETAILS LR Code Title Author Text-Books E07052-TB1 Microprocessors and Interfacing, Douglas V Hall, Edition Year ISBN Publisher Revised 0-07-060167-4 2nd TaTa McGraw-Hill, 2006 SIE Reference-Books Syllabus For T06: Diploma in Instrumentation Engineering Page 67 Microprocessor Systems: The 8086/8088 E07052-RB1 Family Architecture, Programming and Design Liu Gibson CD / DVD E07052-CD1 Web Links E07052-WL1 2nd TaTa McGraw-Hill Publishing Company Ltd E07053: MICROPROCESSOR – 2 PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 05 E07053 Microprocessor – 2 CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to E07051: Digital Electronics E07052: Microprocessor – 1 analyze, test and troubleshoot basic microprocessor based circuit write simple assembly language implement industrial controlled applications UNITS UN Name of the Unit 1 8086 Interrupts and Interrupt Application CSs CP Block 01 CSs 01-10 Syllabus For T06: Diploma in Instrumentation Engineering Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Page 68 2 Digital Interfacing 3 Analog Interfacing and Industrial Control 4 DMA, DRAMs, :Cache Memories, Coprocessors, and Eda Tools CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 11-20 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 21-30 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit 8086 Interrupts and Interrupt Application: 8086 Interrupts and Interrupt Responses, CP 1 Hardware Interrupt Applications, 8254 Software-Programmable Timer/Counter, 8259A Bock Priority Interrupt Controller, Software Interrupt Applications 01 Digital Interfacing: Programmable Parallel Ports and Handshake Input/Output, Interfacing a Microprocessor to Keyboards, Interfacing to Alphanumeric Displays, 8279 CP 3 Circuit Connections and Operation Overview, Interfacing to 18-segment and Dot-matrix Bock LED Displays, Interfacing a Microcomputer to Nonmultiplexed LCD Displays, Interfacing 02 Microcomputer Ports to High-power Devices, Optical Motor Shaft Encoders Analog Interfacing and Industrial Control: Review of Operational-amplifier Characteristics and Circuits, Sensors and Transducers, D/A Converter Operations, Interfacing, and Applications, A/D Converter Specifications, Types, and Interfacing, A CP 5 Microcomputer-based Scale, A Microcomputer-based Industrial Process-control System, Bock An 8086-based Process-control System, Developing the Prototype of a Microcomputer03 based Instrument, Robotics and Embedded Control, Digital Signal Processing and Digital Filters DMA, DRAMs, Cache Memories, Coprocessors, and Eda Tools: Introduction, The 8086 Maximum Mode, Direct Memory Access (DMA) Data Transfer, Interfacing and CP 6 Refreshing Dynamic RAMs, A Coprocessor-The 8087 Math Coprocessor, Computer- Bock based Design and development Tools 04 LEARNING RESOURCE DETAILS LR Code Title Author Text-Books E07053-TB1 Microprocessors and Interfacing, Douglas V Hall, Edition Year ISBN Publisher Revised 0-07-060167-4 2nd TaTa McGraw-Hill, Syllabus For T06: Diploma in Instrumentation Engineering Page 69 2006 SIE Reference-Books Microprocessor Systems: The 8086/8088 E07053-RB1 Family Architecture, Programming and Design Liu Gibson CD / DVD E07053-CD1 Web Links E07053-WL1 2nd TaTa McGraw-Hill Publishing Company Ltd E07054: MICROPROCESSOR – 3 PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 05 E07054 Microprocessor – 3 CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to E07051: Digital Electronics analyze, test and troubleshoot basic microprocessor based circuit and Instruments write simple assembly language E07052: Microprocessor-1 E07053: Microprocessor-2 implement industrial control system applications UNITS UN Name of the Unit Syllabus For T06: Diploma in Instrumentation Engineering CSs Questions Page 70 1 C, a High-level Language for System Programming 2 Microcomputer System Peripherals 3 Data Communication and Networks 4 5 The 80286, 80386 and 80486 Microprocessors An Introduction to the Pentium Processors CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 CP Block 02 CSs 31-40 Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. DETAIL SYLLABUS CP Block C, a High-level Language for System Programming: Introduction-A Simple C Program CP 1 Bock Example, Program development Tools for C, Programming in C 01 Microcomputer System Peripherals: System-level Keyboard Interfacing, Microcomputer Displays, Computer Mice and Trackballs, Computer Vision, Magnetic-disk Data-Storage CP 2 Systems, Optical Disk Data Storage, Printer Mechanism and Interfacing, Speech Bock Synthesis and Recognition with a Computer, Digital Video Interactive 02 UN Detail Syllabus of the Unit Data Communications and Networks: Introduction to Asynchronous Serial Data Communication, Serial-Data Transmission Methods and Standards, 20-and 60-ma CP 3 Current Loops, Asynchronous Communication Software on the IBM PC, Synchronous Bock Serial-Data Communication and Protocols, Local Area Networks, The GPIB, HPIB, 03 IEEE488 Bus The 82286, 80386 and 80486 Microprocessors: Multiuser / Multitasking Operating 4 System Concepts, The Intel 80286 Microprocessor, The Intel 80386 32-bit CP Microprocessor, The Intel 80486 Microprocessor Bock 04 5 An Introduction to the Pentium Processors: The Pentium Processor, Epilogue LEARNING RESOURCE DETAILS LR Code Title Author Text-Books E07054-TB1 Microprocessors and Interfacing, Edition Year ISBN Publisher Revised 0-07-060167-4 Syllabus For T06: Diploma in Instrumentation Engineering Page 71 2nd 2006 SIE Douglas V Hall, Reference-Books Microprocessor Systems: The 8086/8088 E07054-RB1 Family Architecture, Programming and Design Liu Gibson CD / DVD E07054-CD1 Web Links E07054-WL1 2nd TaTa McGraw-Hill, TaTa McGraw-Hill Publishing Company Ltd TES055: DIGITAL ELECTRONICS AND MICROPROCESSOR PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 05 TES055 Digital Electronics and Microprocessor CP CST ST Marks Type 4 60 120 100 P PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to All theory courses of Semester 5 write assembly language programme implement industrial controlled applications test and troubleshoot basic microprocessor based circuit DETAIL SYLLABUS Note: Work Book shall consist of a record in the form of a journal consisting of the list of activities and necessary documentation for the following exercises. Students are expected to perform all activities and get workbook certified from the Practical Lab Instructor. UN Name of the Practical Activity CSs Questions Syllabus For T06: Diploma in Instrumentation Engineering Page 72 a) Verification of the Truth Table and Boolean Expression CP Block for NOT, AND, OR, NAND and NOR Gate 1 b) Verification of Boolean Theorems and De Morgan’s 01 Theorem CSs a) Study of EX-OR gate as Magnitude Comparator and Parity 01-30 Generator/Checker 2 b) Study of arithmetic Operation and Logical Operation using IC74181 Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Activity’ and face Viva for end exam on these units. a) Construct and Test operation of SET-RESET Flip-Flop and D Flip-Flop using NAND gate 3 b) Construct and Test operation of Master-Slave JK Flip-Flop and Construct a nonoverlapping clock from JK Flip-Flop a) Construct Shift Register using Flip-Flops and Test its Operation 4 b) Construct Shift Register using IC74LS165 and Test its Operation a) b) 5 c) d) 6 Construct Ripple Counter and Verify its Operation Construct a Synchronous Counter and Verify its Operation Design a divide- by–N Synchronous Counter Study of typical Counter ICs Study of Digital to Analog and Analog to Digital Conversion CP Block using discrete components a) Study of Decoders, Multiplexers, Demultiplexers and 02 7 Seven segment displays b) Study of Tri State Gates and Interfacing to High Current 8 Write an Assembly Program for the 8086 to Multiply Two 16 Bit Numbers 9 Write an Assembly Program for the 8086 to Find The Factorial of a given Number 10 Write an Assembly Program for the 8086 to Convert given BCD Number into Hex CSs 31-60 Write an Assembly Program for the 8086 to Find the CP 11 Position of the Maximum Valued Element in a given Byte Block 03 Array Write an Assembly Program for the 8086 to Transfer a CSs Block of Data from one Memory Location to the Other 61-90 Write an Assembly Program for the 8086 to Interface a 13 Printer 12 Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Activity’ and face Viva for end exam on these units. Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Activity’ and face Viva for end exam on these units. Write an Assembly Program for the 8086 to Interface 14 Analog to Digital Converter (ADC) and Digital to Analog Converter (DAC) 15 Write an Assembly Program for the 8086 to Interface a Stepper Motor Syllabus For T06: Diploma in Instrumentation Engineering Page 73 Students have to submit ‘Activity Report in WorkBook Format’ in CA and 17 Perform ‘Practical Receive Serial Data CSs Activity’ and face Viva for Write an Assembly Program for the 8086 to Interface 91-120 end exam on these units. 18 Unencoded Keyboard 16 Write an Assembly Program for the 8086 to Create a File CP Block and write in using DOS Interrupt Write an Assembly Program for the 8086 to Send and 04 Collect and Study Techno Commercial Information on 19 Various Digital ICs for examples Gates, Adders, Multiplexers/DeMultiplexers, Shift Registers and Counters 20 Collect and Study Techno Commercial Information on 8086, EPROM, ADC and DAC LEARNING RESOURCE DETAILS LR Code Title Author Edition Year Text-Books TES055-TB1 Digital Electronics: Lab Manual, Bignell and Donovan, TES055-TB2 Reference-Books TES055-RB1 4th 2000 SYE - ISBN Publisher 07668-0330-9 Thomson Learning - CD / DVD TES055-CD1 Web Links TES055-WL1 SEMESTER 06 TES061: MANAGEMENT SCIENCE PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) Syllabus For T06: Diploma in Instrumentation Engineering Page 74 T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 06 TES061 Management Science 06 TML061 Management Science CP CST ST Marks Type 4 45 120 100 TH 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES014: Technical Communication Apply basic skills and practices of Management Deal with unexpected situations Meet the real world Challenges UNITS UN Name of the Unit 1 Managing in a Dynamic Environment 2 Ethics and Corporate Social Responsibility 3 4 Planning and Strategy Fundamentals of Decision Making 5 6 Fundamentals of Organization Design Work Motivation 7 8 9 Dynamics of Leadership Organizational Communication Controlling in Organization CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 CP Block 02 CSs 21-30 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS UN Detail Syllabus of the Unit CP Block Managing in a Dynamic Environment: Managers and Management, What Mangers Do, Managerial Competencies, Management – A Dynamic Process CP Ethics and Corporate Social Responsibility: Importance of Ethics and Corporate Social Bock 2 Responsibility, Four Forces that Shape Ethical Conduct, Three Approaches to Making 01 Ethical Judgments, Managing Corporate Social Responsibility, Encouraging Ethical 1 Syllabus For T06: Diploma in Instrumentation Engineering Page 75 Conduct Planning and Strategy: The Planning Function, Two Forms of Planning, Levels of 3 Diversification and Planning, Strategic Levels and Planning, Phases of Planning, Generic CP Competitive Strategies Model Bock Fundamentals of Decision Making: Role of Decision Making, Decision-Making 02 4 Conditions, Basic Types of Decisions, Models of Decision Making 5 Fundamentals of Organization Design: Introduction to Organization Design, Basic Types of Departmentalization, Coordination, Authority Work Motivation: Three Approaches to Motivation, Using Goals and Rewards to CP Improve Performance, Effects of Job Content and Organizational Context on Motivation, Bock 6 Individual Differences in Motivation, Individual Differences in Motivation, Motivational 03 Forces in Combination, Guidelines for Managers 7 8 9 Dynamics of Leadership: Leadership and Power, Traits and Leaders, Behaviors and Leaders, Contingencies and Leaders, Transformational Leaders, Leadership Development Organizational Communication: The Communication Process, Impact of Information CP Technology, Hurdles to Effective Communication, Fostering Effective Communication Bock Controlling in Organization: Foundations of Control, Creative Effective Controls, 04 Corrective Control Model, Primary Methods of Control LEARNING RESOURCE DETAILS LR Code Title Author Edition Year Text-Books TES061-TB1 Management: A Competency Based TML061-TB1 Approach, Hellriegel, Jackson, Slocum, Reference-Books Management TES061-RB1 Richard L Daft TML061-RB1 ISBN Publisher 9th 2002 SYE 981-240-374-4 Thomson Learning, 5th 2002 981-240-642-5 Thomson Learning CD / DVD TES061-CD1 TML061-CD1 Web Links TES061-WL1 TML061-WL1 TES062: ENTREPRENEURSHIP DEVELOPMENT PROGRAMME INFORMATION SN Description Details Syllabus For T06: Diploma in Instrumentation Engineering Page 76 1 University 2 School 3 Discipline 4 Level 5 Course Used in Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 06 TES062 Entrepreneurship Development 06 TML062 Entrepreneurship Development CP CST ST Marks Type 4 45 120 100 TH 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES061: Management Science Understand entire process of entrepreneurship development Develop and begin new business/ company and apply the principles of best entrepreneur UNITS UN 1 2 3 4 Name of the Unit Should You Become an Entrepreneur? What Skills Do Entrepreneurs Need? Entrepreneurs in a Market Economy Select a Type of Ownership 5 6 7 Develop a Business Plan Identity and Meet a Market Need Finance, Protect, and Insure Your Business 8 9 10 11 Choose Your Location & Setup for Business Market Your Business Hire and Manage a Staff Record Keeping and Accounting CSs CP Block 01 CSs 01-10 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 11-20 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 21-30 these units. Syllabus For T06: Diploma in Instrumentation Engineering Page 77 12 Financial Management 13 Use Technology 14 Meet Your Legal, Ethical, and Social Obligation 15 Growth in Today’s Marketplace CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit 1 Should You Become an Entrepreneur? : Entrepreneurs: Present and Past, Is Entrepreneurship Right for You?, Identify Business Opportunities and Set Goals What Skills Do Entrepreneurs Need? : Communication Skills, Math Skills, ProblemCP Solving Skills Bock Entrepreneurs in a Market Economy: What is an Economy, The Concept of Cost, 3 01 Government in a Market Economy 2 4 Select a Type of Ownership: Run an Existing Business, Own a Franchise or start a Business, Choose the legal form of your business 5 Develop a Business Plan: Why do you need a business plan?, What goes into a business Plan?, Create an effective business plan 6 7 Identity and Meet a Market Need: The value of market research, How to perform CP Bock market research, Identify your competition Finance, Protect, and Insure Your Business: Put together a financial plan, Obtain 02 financing for your business, Theft proof your business, Insure your business Choose Your Location & Setup for Business: Choose a retail business location, Choose a 8 location for a non-retail business, Obtain space and design the physical layout, Purchase equipment, supplies and inventory Market Your Business: The Marketing mix-product, distribution, price, The Marketing CP mix-promotion, Set marketing goals Bock Hire and Manage a Staff: Hire Employees, Create a compensation package, Manage 03 10 your staff 9 11 Record Keeping and Accounting: Set up a record keeping system, Understand basic accounting, Track your inventory 12 Financial Management: Manage your cash flow, Analyze your financial performance, Hire experts Use Technology: Technology and your business, Learn about the internet, Purchase technology CP Meet Your Legal, Ethical, and Social Obligation: Understand your legal requirements, Bock 14 04 Ethical issues in business, Meet your social responsibilities 13 15 Growth in Today’s Marketplace: Develop a strategy for growth, Global Trends and opportunities, Culture and business Syllabus For T06: Diploma in Instrumentation Engineering Page 78 LEARNING RESOURCE DETAILS LR Code Title Author Edition Year Text-Books TES062-TB1 Entrepreneurship Ideas in Action, TML062-TB1 Greene, 1st 2000 SYE ISBN Publisher 0-538-68268-X Thomson Learning, Reference-Books TES062-RB1 TML062-RB1 CD / DVD TES062-CD1 TML062-CD1 Web Links TES062-WL1 TML062-WL1 TES063: MICROCONTROLLERS PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 06 TES063 Microcontrollers CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TSE051: Digital Electronics-1 analyze, test and troubleshoot basic microcontroller based circuits and Instruments write simple assembly language TES052: Digital Electronics- 2 TES053: Microprocessor-1 TES054: Microprocessor-2 Basic working knowledge of PC implement industrial control system applications Syllabus For T06: Diploma in Instrumentation Engineering Page 79 UNITS UN 1 2 3 Name of the Unit Microprocessors and Microcontrollers The 8051 Architecture Basic Assembly language Programming Concepts CSs CP Block 01 CSs 01-10 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. 4 5 6 7 Moving Data Logical Operations Arithmetic Operations Jump and Call Instructions CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 11-20 these units. 8 An 8051 Microcontroller Design 9 Applications CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 21-30 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit Microprocessors and Microcontrollers: Introduction, Microprocessors and 1 Microcontrollers, The Z80 and the 8051, A Microcontroller Survey, Development Systems for Microcontrollers The 8051 Architecture: Introduction, 8051 Microcontroller Hardware, Input/Output 2 Pins, Ports, and Circuits, External Memory, Counter and Timers, Serial Data CP Input/Output, Interrupts Bock Basic Assembly language Programming Concepts: The Forest and the Trees, A generic 01 Computer, The Mechanics of Programming, The Assembly Language Programming 3 Process, The PAL Practice CPU, Programming Tools and Techniques, Programming the 8051 4 Moving Data: Introduction, Addressing Modes, External Data Moves, Code Memory Read-Only Data Moves, Push and Pop Opcodes, Data Exchanges, Example Programs 5 Logical Operations: Introduction, Byte-Level Logical Operations, Bit-Level Logical Operations, Rotate and Swap Operations, Example Programs CP Arithmetic Operations: Introduction, Flags, Incrementing and Decrementing, Addition, Bock Subtraction, Multiplication and Division, Decimal Arithmetic, Example Programs 02 Jump and Call Instructions: Introduction, The Jump and Call Program Range, Jumps, 7 Calls and Subroutines, Interrupts and Returns, More Details on Interrupts, Example Problems 6 Syllabus For T06: Diploma in Instrumentation Engineering Page 80 An 8051 Microcontroller Design: Introduction, A Microcontroller Specification, A CP 8 Microcontroller Design, Testing the Design, Timing Subroutines, Lookup Tables for the Bock 8051, Serial Data Transmission 03 9 Applications: Introduction, Keyboards, Displays, Pulse Measurement, D/A and A/D CP Conversions, Multiple Interrupts, Putting it all Together Bock 04 LEARNING RESOURCE DETAILS LR Code Title Author Edition Year Text-Books TES063-TB1 The 8051 Microcontroller Ayala, 2nd 1997 SYE ISBN Publisher 0-314-20188-2 West Publishing Company, Reference-Books TES063-RB1 Intel Hand Book 8051 CD / DVD TES063-CD1 Web Links TES063-WL1 TES064: ELECTRONIC MEASUREMENTS AND INSTRUMENTS PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 06 TES064 Electronic Measurements and Instruments CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES033: Electrical Measurements and measure basic electrical parameters Syllabus For T06: Diploma in Instrumentation Engineering Page 81 Instruments Analyze, test and troubleshoot electrical Instruments UNITS UN Name of the Unit 1 Electronic Instruments for measuring Basic Parameters 2 3 4 5 6 7 8 CSs CP Block 01 CSs 01-10 CP Signal Generation Block Signal Analysis 02 CSs 11-20 CP Frequency Counters and Time interval Measurements Transducers as Input Elements to Instrumentation Systems Block 02 CSs 21-30 CP Analog and Digital Data Acquisition Systems Block Computer Controlled Test Systems 02 Fiber optics Measurements CSs 31-40 Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. DETAIL SYLLABUS UN Detail Syllabus of the Unit CP Block Electronic Instruments for measuring Basic Parameters: Introduction, Amplified DC Meter, AC Voltmeter Using Rectifiers, True RMS-Responding Voltmeter, Electronic 1 Multimeter, Considerations in Choosing an Analog Voltmeter, Digital Voltmeters, CP Component Measuring Instruments, Q Meter, Vector Impedance Meter, Vector Bock 01 Voltmeter, RF power and Voltage Measurement Signal Generation: Introduction, The Sine-Wave Generator, Frequency-Synthesized Signal Generator, Frequency Divider Generator, Signal Generator Modulation, SweepFrequency Generator, Pulse and Square-Wave Generators, Function Generator, CP Audiofrequency Signal Generation Bock Signal Analysis: Introduction, Wave Analyzers, Harmonic Distortion Analyzers, Spectrum 02 3 Analysis 2 Frequency Counters and Time Interval Measurements: Simple Frequency Counter, 4 Measurement Errors, Extending the Frequency Range of the Counter, Automatic and Computing Counters CP Transducers as Input Elements to Instrumentation Systems: Classification of Bock 5 Transducers, Selecting a Transducer, Strain Gages, Displacement Transducers, 03 Temperature Measurements, Photosensitive Devices Syllabus For T06: Diploma in Instrumentation Engineering Page 82 6 Analog and Digital Data Acquisition Systems: Instrumentation Systems, Interfacing Transducers to Electronic Control and Measuring Systems, Multiplexing Computer Controlled Test Systems: Introduction, Testing an Audio Amplifier, Testing a Radio Receiver, Instruments Used in Computer Controlled Instrumentation, IEEE 488 7 CP Electrical Interface, Digital Control Description, Example of Signal Timing in Bock Microprocessor-Based Measurement 04 Fiber optics Measurements: Introduction, Sources and Detectors, Fiber Optic Power 8 Measuring, Stabilized, Calibrated Light Sources, End-to-End Measurement of Fiber System Loss, Optical Time-Domain Reflectometer LEARNING RESOURCE DETAILS LR Code Title Author Edition Year Text-Books TES064-TB1 Modern Electronic Instrumentation and Measurement Techniques, Cooper and Helfrick, 4th 1996 SYE Reference-Books Electronics Measurements and TES064-RB1 Instrumentation Oliver Cage CD / DVD TES064-CD1 Web Links TES064-WL1 ISBN Publisher 81-203-0752-6 Prentice Hall of India, McGraw Hill TES065: DIPLOMA PROJECT WORK PROGRAMME INFORMATION SN Description 1 University 2 School 3 Discipline 4 Level 5 Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T07: Diploma in Communication Engineering(DCE) T03: Diploma in Computer Technology (DCT) T05: Diploma in Industrial Electronics (D Ind E) T06: Diploma in Instrumentation Engineering(D Ins E) T24: Diploma in Mechanical Engineering (DME) T50: Diploma in Production Engineering (DPE) T51: Diploma in Automobile Engineering (DAE) T52: Diploma in Thermal Engineering (DTE) Syllabus For T06: Diploma in Instrumentation Engineering Page 83 COURSE INFORMATION Sem Code Course Name 06 TES065 Diploma Project Work 06 TML065 Diploma Project Work CP CST ST Marks Type 4 60 120 100 PW 4 60 120 100 PW PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to All other courses at Semester 1 to Semester 6 of the respective discipline explore solutions for the real problems, encountered in a real life job, in the complete project execution from start to finish, by applying basic concepts, principles and skills DETAIL SYLLABUS UN Name of the Practical Activity 1 Selection of the Project and Project Guide 2 Preparation of Project Execution Plan : Time and Resource Allocation 3 Guidance by the Project Guide, for the self-study of relevant course topics and concepts by the student 4 Preparation of Project Specifications by the student: For (1) User Inputs (2) Outputs for User (3) Environmental constraints (4) Other Inputs (5) Other Outputs (6) Other important processes 5 Guidance and approval by Project Guide for Project Specifications: For (1) User Inputs (2) Outputs for User (3) Environmental constraints (4) Other Inputs (5) Other Outputs (6) Other important processes 6 CSs CP Block 01 CSs 01-30 Design, Development, Testing and Troubleshooting of First CP Block Prototype 02 CSs 31-60 7 8 Comparison of First Prototype Performance with Set Project Specifications and Preparation of list showing (1) Problems (2) Improvements Needed (3) External Enclosure Details. The Project Guide should guide the student about this task. Design, Development, Testing and Troubleshooting of Final Prototype CP Block 03 CSs 61-90 Syllabus For T06: Diploma in Instrumentation Engineering Questions Students have to submit ‘Activity Report in Project Report Format’ in CA and Do ‘Project Presentation’ and face Viva on Project Report in the end exam on these units. Students have to submit ‘Activity Report in Project Report Format’ in CA and Do ‘Project Presentation’ and face Viva on Project Report in the end exam on these units. Students have to submit ‘Activity Report in Project Report Format’ in CA and Do ‘Project Presentation’ and face Viva on Project Report in the end exam on these units. Page 84 9 Preparation of Project Report and all technical documentation like Schematic Drawings, Connection or Wiring Diagrams, Mechanical Drawings, Complete Bill of Material, User Instructions, Artwork and Films, List of Problems encountered etc. 10 Final submission of the Project Report CP Block 04 Students have to submit ‘Activity Report in Project Report Format’ in CA and Do ‘Project Presentation’ CSs and face Viva on Project 91-120 Report in the end exam on these units. ACTIVITIES UN Guidelines of Project Activities 1 The “Project Work” course envisages to expose the students to actual work environment, work practices during the implementation of a project. The aim is to imbibe in students the principle that working is learning. Learning and working are two sides of the same coin and thus, work experience enhances the learning. 2 The Project Work must involve practical work related to (1) Electronics Engineering for TES065 and (2) Mechanical Engineering for TML065. 3 Students are expected to work on “Project Work” for about 6 hours per week (About 2 hour’s self-study at residence and 4 hours in counseling session at study center), for minimum 20 days in a semester. Thus only those projects, demanding such study efforts on all those activities, listed in above, should be selected. 4 As students have to finance expenditure on “Project Work”, normally only those projects should be selected, which involve expenditure Rs 3000/- to Rs 6000/-. 5 The original design requirements are not essential, although highly encouraged. Hence, normally, projects should not be repeated. The same project undertaken in recent past, by past students, should be avoided. But it is most important that, students must put his independent study efforts on the project. Thus, student should gain practical project execution knowledge about making some useful product, after he goes through all projects completion steps listed above. 6 A single student will normally do a project. The university also encourages large Joint projects, requiring the participation of a small team of students. However, in such cases, clear delegation of work and responsibilities, among the students, must be clearly stated in the “Project Report”. Maximum number of students, in a team for joint project, should not exceed 5. 7 The student invests his energy, time and resources in a project. The project therefore should, if possible, have important bearing on some practical aspect. This will help student to justify his efforts on project. 8 Employed Students are allowed to complete “Project Work” in the industry where he is employed or his place of choice. Such a student has to identify a resource person in industry, who can take responsibility of guiding him in project work. Such person should be eligible to work as “Project Guide”. 9 Study center should assist unemployed students, in locating sponsored “Projects” from local industries. Students are encouraged to locate sponsored projects from the local industries. But, in case, a student is unable to locate such project, he is also allowed to complete “Project Work” at his study center. 10 Each “Project Guide” may be assigned maximum 5 students. Syllabus For T06: Diploma in Instrumentation Engineering Page 85 11 Suggested Scheme of Chapters in Project Report: 1. Chapter 1: Introduction: Background of the project, Need for the project, Brief idea of the project 2. Chapter 2: System Overview and Design: Present the overview of the complete system. Use Block Diagrams. Specify design parameters for the system. Specify interfacing problems (if any) visualized before hand, and how to eliminate these. 3. Chapter 3: Module Design: Discuss individual parts (sub-part) in details, clearly indicating the scientific principles involved and design of each sub-circuit used in a project. 4. Chapter 4: Testing and Troubleshooting: Discuss how the sub-parts were tested, how the complete system was tested and how measurements were made. Include observations. 5. Chapter 5: Results and Conclusions: Analyze the observations made in previous chapter. Discuss why the specifications were not met or the reasons for the failure, if any. Discussed the problems and difficulties encountered and how they were / can be eliminated. Discuss any extension work or modifications, which you want to suggest. 6. Chapter 6: References: List the books, magazines and data manuals used. 12 Submission Process: Student should prepare 2 copies of the Project Report. At the beginning, the respective Project Guide must approve both copies positively before the end examination of Project Work. Then respective Study Center Coordinator approves both copies of the Project Report. Student should submit one of these approved copies to the study center. The student should retain remaining one of these approved copies. Study center should preserve their copy of, all project reports, till the end examination of Project Work. Even student must bring his own copy during this end examination. 13 Project Report Format: 1. The project report should be printed on only right side of A4 size (210 mm ´ 297 mm) paper. There is no minimum or maximum page number limit for the “Project Report”, but report of minimum 15–20 page is expected. University recommends only flexible binding for the “Project Report”. But, if student wishes, he may also use spiral binding. 2. Margins should be as follows :· Left Margin : 40 mm Right Margin : 20 mm Top Margin : 20 mm Bottom Margin : 27 mm 3. Header should not be used. Footer, containing page number at the center should only be used, with footer margin of 25 mm. 4. Text should be printed in font size of 12 points and at interline distance of 18 points. (That is 1.5 line spacing). Normally, figures should be embedded in the text, where their first reference occurs. But if necessary, figures may be grouped on separate pages. Figure should be numbered as ‘Fig C.F’, where ‘C’ is chapter number and ‘F’ is figure number. Figure number ‘F’ is reset back to 1 for each new chapter. 5. Page Sequence: (1) Cover page as per specimen 1 (2) Certificate page as per specimen 2 (3) Acknowledgement page for the help offered by individuals and institution (4) Content page as per specimen 3. Following suggested scheme of chapters in project report then follows these first 4 pages. Syllabus For T06: Diploma in Instrumentation Engineering Page 86 14 Specimen of Pages Specimen 1 Project Title Diploma in Computer Technology (DCT) Submitted by Name of Student Project Guide Name of Project Guide Name of the Study Center Yashwantrao Chavan Maharashtra Open University 2003 Specimen 2 Certificate This is to certify that Mr/Ms ................... .................... ..................... (PRN: ...................) has successfully completed a project entitled "..................................................." in partial fulfillment for the requirement of Diploma in Computer Technology (DCT) Signature with Date Project Guide SC Coordinator Internal Examiner External Examiner Specimen 3 Contents 1. Introduction 1.1 Background 1.2 Need for Work 1.3 Brief Idea 2. System Overview and Design 2.1 Operation 2.2 Design Parameters 2.3 System Design 3. Module Design 3.1 Module 1 3.2 Module 2 3.3 Module 3 4. Testing and Troubleshooting 4.1 Module 1 4.2 Module 1 4.3 Module 1 5. Results and Conclusions 5.1 Further Modifications 5.2 Summary 6. Reference LEARNING RESOURCE DETAILS LR Code Title Author Edition Year ISBN Publisher Text-Books TES065-TB1 No textbook is specified for this course. TML065-TB1 Reference-Books Syllabus For T06: Diploma in Instrumentation Engineering Page 87 TES065-RB1 CD / DVD TES065-CD1 Web Links TES065-WL1 SEMESTER 07 TES111: INSTRUMENTATION -1 PROGRAMME INFORMATION SN Description 1 University 2 3 4 5 School Discipline Level Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 07 TES111 Instrumentation -1 CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to All courses of Semester 3, 4 and 5 understand measurement methods, signal conditioning techniques and sensors used in the process control systems explore solutions for the real problems, encountered in the field of process control and instrumentation engineering UNITS UN Name of the Unit 1 Introduction to Process Control 2 Analog Signal Conditioning-1 CSs CP Block 01 CSs 01-10 Syllabus For T06: Diploma in Instrumentation Engineering Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Page 88 3 4 Analog Signal Conditioning-2 Digital Signal Conditioning 5 6 Thermal Sensors Mechanical Sensors-1 7 8 Mechanical Sensors-2 Optical Sensors CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 11-20 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 21-30 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit Introduction to Process Control: Introduction, Control Systems, Process Control Block 1 Diagram, Control System Evaluation, Analog and Digital Processing, Units, Standards, CP and Definitions, Sensor Time Response, Significance and Statistics Bock Analog Signal Conditioning-1: Introduction, Principles of Analog Signal Conditioning, 2 01 Passive Circuits, Operational Amplifiers 3 Analog Signal Conditioning-2: Op Amp Circuits in Instrumentation, Design Guidelines 4 CP Digital Signal Conditioning: Introduction, Review of Digital Fundamentals, Converters, Bock Data Acquisition Systems 02 Thermal Sensors: Introduction, Definition of Temperature, Metal Resistance Versus 5 Temperature Devices, Thermistors, Thermocouples, Other Thermal Sensors, Design CP Considerations Bock Mechanical Sensors-1: Introduction, Displacement, Location, or Position Sensors, Strain 03 6 Sensors 7 Mechanical Sensors-2: Motion Sensors, Pressure Sensors, Flow Sensors 8 CP Optical Sensors: Introduction, Fundamentals of EM Radiation, Photo detectors, Bock Pyrometry, Optical Sources, Applications 04 LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES111-TB1 Process Control Instrumentation Technology, Johnson, Reference-Books Edition Year 7th Ed 2003 SYE Syllabus For T06: Diploma in Instrumentation Engineering ISBN Publisher 81-203-2104-9 Prentice-Hall of India, Page 89 TES111-RB1 Process Instrumentation and Control Considine McGraw Hill CD / DVD TES111-CD1 Web Links TES111-WL1 TES112: INSTRUMENTATION - 2 PROGRAMME INFORMATION SN Description 1 University 2 3 4 5 School Discipline Level Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 07 TES112 Instrumentation -2 CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES111: Instrumentation – 1 understand measurement methods, final control element and controllers of process control systems explore solutions for the real problems, encountered in the field of process control and instrumentation engineering UNITS UN Name of the Unit 1 Final Control 2 Discrete State Process Control-1 3 4 Discrete State Process Control-2 Controller Principles CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 Syllabus For T06: Diploma in Instrumentation Engineering Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Page 90 5 6 Analog Controllers Digital Control-1 7 8 Digital Control-2 Control Loop Characteristics CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 21-30 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit Final Control: Introduction, Final Control Operation, Signal Conversions, Industrial Electronics, Actuators, Control Elements CP Discrete State Process Control-1: Introduction, Definition of Discrete-State Process Bock 2 Control, Characteristics of the System 01 1 3 Discrete State Process Control-2: Relay Controllers and Ladder Diagrams, Programmable Logic Controllers (PLCs) CP Controller Principles: Introduction, Process Characteristics, Control System Bock 4 Parameters, Discontinuous Controller Modes, Continuous Controller Modes, Composite 02 Control Modes Analog Controllers: Introduction, General Features, Electronic Controllers, Pneumatic Controllers, Design Considerations CP Digital Controllers-1: Introduction, Digital Electronics Methods, Computers in Process Bock 6 03 Control 5 Digital Controllers-2: Process-Control Networks, Characteristics of Digital Data, Controller Software, Computer Controller Examples CP Control Loop Characteristics: Introduction, Control System Configurations, Multivariable Bock 8 04 Control Systems, Control System Quality, Stability, Process Loop Tuning 7 LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES112-TB1 Process Control Instrumentation Technology, Johnson, Reference-Books Process Instrumentation and Control TES112-RB1 Considine TES112-RB2 Edition Year 7th Ed 2003 SYE Syllabus For T06: Diploma in Instrumentation Engineering ISBN Publisher 81-203-2104-9 Prentice-Hall of India, McGraw Hill Page 91 CD / DVD TES112-CD1 Web Links TES112-WL1 TES113: BIOMEDICAL INSTRUMENTATION-1 PROGRAMME INFORMATION SN Description 1 University 2 3 4 5 School Discipline Level Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 07 TES113 Biomedical Instrumentation-1 CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES111: Instrumentation-1 know, test and troubleshoot the commercial medical instruments from different manufactures work as knowledgeable service and maintenance engineers TES112: Instrumentation-2 All courses of Semester 4 and 5 TES064: Electronics Measurements and Instruments UNITS UN Name of the Unit 1 Introduction to Biomedical Instrumentation 2 Basic Transducer Principles 3 4 5 Sources of Bioelectric Potentials Electrodes The Cardiovascular System CSs CP Block 01 CSs 01-10 CP Block 02 CSs 11-20 Syllabus For T06: Diploma in Instrumentation Engineering Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Page 92 6 Cardiovascular Measurements 7 8 Patient Care and Monitoring Measurements in the Respiratory System CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 21-30 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit Introduction to Biomedical Instrumentation: The Age of Biomedical Engineering, Development of Biomedical Instrumentation, Biometrics, Introduction to the Man1 Instrument System, Components of the Man-Instrument System, Physiological Systems of the Body, Problems Encountered in Measuring a Living System, Some Conclusions, CP Bock The Objectives of the Book 01 Basic Transducer Principles: The Transducer and Transduction Principles, Active 2 Transducers, Passive Transducers, Transducers for Biomedical Applications 3 Sources of Bioelectric Potentials: Resting and Action Potentials, Propagation of Action Potentials, The Bioelectric Potentials CP Bock The Cardiovascular System: The Heart and Cardiovascular System, The Heart, Blood 02 5 Pressure, Characteristics of Blood Flow, Heart Sounds 4 Electrodes: Electrode Theory, Biopotential Electrodes, Biochemical Transducers Cardiovascular Measurements: Electrocardiography, Measurement of Blood Pressure, CP 6 Measurement of Blood Flow and Cardiac Output, Plethysmography, Measurement of Bock Heart Sounds 03 Patient Care and Monitoring: The Elements of Intensive-Care Monitoring, Diagnosis, Calibration and Repairability of Patient-Monitoring Equipment, Other Instrumentation 7 for Monitoring Patients, The Organization of the Hospital for Patient-Care Monitoring, CP Pacemakers, Defibrillators Bock Measurements in the Respiratory System: The Physiology of the Respiratory System, 04 8 Tests and Instrumentation for the Mechanics of Breathing, Gas Exchange and Distribution, Respiratory Therapy Equipment LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES113-TB1 Biomedical Instrumentation Measurements, Cromwell, Weibell, Pfeiffer, Edition Year and 2nd 2003 SYE Syllabus For T06: Diploma in Instrumentation Engineering ISBN Publisher 81-203-0653-8 Prentice-Hall of India, Page 93 Reference-Books Handbook of Biomedical Instrumentation, TES113-RB1 Khandpur 2nd 2003 0-07-047355-2 Tata MC Graw Hill, TES113-RB2 CD / DVD TES113-CD1 Web Links TES113-WL1 TES114: BIOMEDICAL INSTRUMENTATION-2 PROGRAMME INFORMATION SN Description 1 University 2 3 4 5 School Discipline Level Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 07 TES114 Biomedical Instrumentation-1 CP CST ST Marks Type 4 45 120 100 TH PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to TES113: Biomedical Instrumentation – 1 Test and Troubleshoot the commercial medical instruments from different manufactures work as knowledgeable service and maintenance engineers UNITS UN Name of the Unit CSs 1 Noninvasive Diagnostic Instrumentation CP 2 Instrumentation for Sensory Measurements and the Study Block 01 of Behavior CSs 01-10 Syllabus For T06: Diploma in Instrumentation Engineering Questions Students have to answer '1 of 1' SAQ in CA and '1 of 1' SAQ & '1 of 2' LAQs in end exam on these units. Page 94 3 4 The Nervous System Biotelemetry 5 6 7 Instrumentation for the Clinical Laboratory X-Ray and Radioisotope Instrumentation Electrical Safety of Medical Equipment 8 The computer in Biomedical Instrumentation CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 11-20 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 21-30 these units. CP Students have to answer Block '1 of 1' SAQ in CA and 02 '1 of 1' SAQ & '1 of 2' CSs LAQs in end exam on 31-40 these units. DETAIL SYLLABUS CP Block UN Detail Syllabus of the Unit 1 Noninvasive Diagnostic Instrumentation: Temperature Measurements, Principles of Ultrasonic Measurement, Ultrasonic Diagnosis Instrumentation for Sensory Measurements and the Study of Behavior: CP Psychophysiological Measurements, Instruments for Testing Motor Responses, Bock 2 Instrumentation for Sensory Measurements, Instrumentation for the Experimental 01 Analysis of Behavior, Biofeedback Instrumentation The Nervous System: The Anatomy of the Nervous System, Neuronal Communication, The Organization of the Brain, Neuronal Receptors, The Somatic Nervous System and Spinal Reflexes, The Autonomic Nervous System, Measurements from the Nervous CP System Bock Biotelemetry: Introduction to Biotelemetry, Physiological Parameters Adaptable to 02 4 Biotelemetry, The Components of a Biotelemetry System, Implantable Units, Applications of Telemetry in Patient Care 3 5 Instrumentation for the Clinical Laboratory: The Blood, Tests on Blood Cells, Chemical Tests, Chemical Tests, Automation of Chemical Tests X-Ray and Radioisotope Instrumentation: Generation of Ionizing Radiation, CP 6 Instrumentation for Diagnostic X Rays, Special Techniques, Instrumentation for the Bock Medical Use of Radioisotopes, Radiation Therapy 03 Electrical Safety of Medical Equipment: Physiological Effects of Electrical Current, Shock 7 Hazards from Electrical Equipment, Methods of Accident Prevention The computer in Biomedical Instrumentation: The Digital Computer, Microprocessors, CP 8 Interfacing the Computer with Medical Instrumentation and Other Equipment, Bock Biomedical Computer Applications 04 LEARNING RESOURCE DETAILS Syllabus For T06: Diploma in Instrumentation Engineering Page 95 Title Author LR Code Text-Books TES114-TB1 Biomedical Instrumentation and Measurements, Cromwell, Weibell, Pfeiffer, Reference-Books Handbook of Biomedical Instrumentation, TES114-RB1 Khandpur, Edition Year ISBN Publisher 2nd 2003 SYE 81-203-0653-8 Prentice-Hall of India, 2nd 2003 0-07-047355-2 Tata MC Graw Hill TES114-RB2 CD / DVD TES114-CD1 Web Links TES114-WL1 TES115: INSTRUMENTATION PROGRAMME INFORMATION SN Description 1 University 2 3 4 5 School Discipline Level Course Used in Details Yashwantrao Chavan Maharashtra Open University Nashik - 422 222, Maharashtra, India Website: http://www.ycmou.com/ School of Architecture, Science and Technology Technology/Engineering Diploma T06: Diploma in Instrumentation Engineering(D Ins E) COURSE INFORMATION Sem Code Course Name 07 TES115 Instrumentation CP CST ST Marks Type 4 60 120 100 P PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES Presumed Knowledge Learning Objectives For successful completion of this course, student After successful completion of this course, should have successfully completed: student should be able to All theory courses of Semester 11 explore solutions for the real problems, encountered in the field of process control and instrumentation engineering Test and Troubleshoot the commercial medical instruments from different manufactures DETAIL SYLLABUS Note: Syllabus For T06: Diploma in Instrumentation Engineering Page 96 Work Book shall consist of a record in the form of a journal consisting of the list of activities and necessary documentation for the following exercises. Students are expected to perform all activities and get workbook certified from the Practical Lab Instructor. UN Name of the Practical Activity CSs Questions CP Students have to submit 1 Study of Control Valve Flow Coefficient Block ‘Activity Report in Work2 Plot the Characteristics of a Control Valve 01 Book Format’ in CA and 3 Study of Electro pneumatic Converter Perform ‘Practical CSs Activity’ and face Viva for 4 Study of P/I Converter 01-30 end exam on these units. 5 Study of I/V and V/I converter CP Block 02 6 Study of Level Controller using On Off acting PID action 7 Study of RTD Calibration 8 Study of Thermocouple Calibration CSs 31-60 9 Measurement of pH/Conductivity 10 Experiment based on Computer Simulation of the Instrumentation system / Control / Process CP Block 03 11 Study of Heart Rate Monitoring Unit Calibration 12 Testing of ECG Machine 13 Testing of Grounding and Shielding of an Instruments 14 Design of ECG Simulator CSs 61-90 15 Testing of Pacemaker Unit Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Activity’ and face Viva for end exam on these units. Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Activity’ and face Viva for end exam on these units. a) Study of Audiometer and b) Study of Defibrillator and CP Block Design of Defibrillator simulator 04 17 Testing of Medicope with Biosimulator Students have to submit ‘Activity Report in WorkBook Format’ in CA and Perform ‘Practical Measurement of waveforms from Electrotherapy CSs Activity’ and face Viva for 18 Equipment and its Interpretations 91-120 end exam on these units. Collect and Study Techno Commercial Information on 19 Transducers: Temperature, Flow, Pressure, Motion, Weight etc. 16 Collect and Study Techno Commercial Information on 20 Biomedical Instruments: CT Scanners, MIR, ECG Machine etc available in the market LEARNING RESOURCE DETAILS LR Code Title Author Text-Books TES115-TB1 Reference-Books TES115-RB1 Edition Year - Syllabus For T06: Diploma in Instrumentation Engineering ISBN Publisher - Page 97 CD / DVD TES115-CD1 Web Links TES115-WL1 END OF DOCUMENT Syllabus For T06: Diploma in Instrumentation Engineering Page 98