CSE2111 ELECTRONICS FOR DIGITAL SYSTEMS
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CSE2111 ELECTRONICS FOR DIGITAL SYSTEMS Mrs Nandita Bhattacharjee Room 63-G21, Extn.53293, nandita@csse.monash.edu.au August 20, 2003 Teaching Method : 1. Lectures: 2 one hour lectures each week: • Monday between 9 a.m. to 11 a.m. at S10 • Tuesday between 9 a.m. and 11 a.m. at S10 2. Tutorials: 1 one hour tutorial each week: • Tuesday between 12 noon and 1 p.m. at E4 3. Practical classes at the Digital Systems Lab 2, 63-137, 1 two hours practical class each week from: • Monday between 11 a.m. and 1 p.m. • Wednesday between 9 a.m. and 11 a.m.–unsupervised catch up time • Thursday between 11 a.m. and 1 p.m.– unsupervised catch up time Assessment : 1. WRITTEN EXAMINATION 3 hours duration : 60% 2. PRACTICAL WORK, DEMOS, & PRACTICAL REPORTS : 40% Four laboratory assignments, worth 20%, and a lab project worth 20%, will constitute the total practical work for the semester. To PASS this unit, not only must your total marks equal or exceed 50, but the following ”hurdle” requirements also apply: • You must gain > 40% of the examination total. • You must gain > 40% of the practical work total. Objectives : This subject builds on the foundation unit CSE1112 to extend the stident’s knowledge, understanding, skills and practical experience in electronics as it relates to information technology. At the completion of the subject the students should be able to: • design signal conditioning circuitry 1 CSE2111 Electronics For Digital Systems Subject Outlines • design clock generation and regeneration systems • design converters between the digital and analogue domains • understand feedback control systems concepts • use CAD tools for the analysis and design of electronic circuits • analyse, build and test basic electronic circuits. Syllabus : Topics covered are *Analysis and design of signal amplitude/frequency conditioning using operational amplifiers and other devices *Clock generation/regeneration using PLL techniques *ADC and DAC analysis and application *Optoelectronics and sensors *Introduction to proportional, integral and derivative control systems *application of CAD tools for the analysis and design of signal conditioning circuits References : 1. Lionel Warner, Analog and Digital Electronics, Macmillan Press Ltd., 1998. 2. Horowitz P and Hill W, The Art of Electronics, second edition, Cambridge University Press, 1989. 3. Hambley A. R., Electronics, 2nd edition, Prentice Hall Inc., 2000. 4. Manufacturer’s Literature. Week 1&2 2, 3 & 4 4&5 5&6 6&7 8 8 9 9 10 11 12 13 Topic Lab start OPAMP 1. OPAMP 28-7-03 FILTERS 2. FILTERS 4-8-03 555 TIMER DAC 3. 555 Timer 25-8-03 ADC 4. ADC/DAC 1-9-03 OPTO TRANS.AMP PROJECT 5. PROJECT 15-9-03 TRANS. AMP 5i) Design 15-9-03 POWER AMP 5ii) Proto 22-9-03 ⇐= MID SEMESTER BREAK =⇒ PID CONTROL 5iii) Test 6-10-03 PLL 5iv) Demo 20-10-03 REVIEW 5v) Report Table 1: SUBJECT SCHEDULE N. Bhattacharjee 2 Rep. Due 8-8-03 29-8-03 5-9-03 19-9-03 6-10-03 27-10-03
