SRM UNIVERSITY FACULTY OF SCIENCE AND HUMANITIES DEPARTMENT OF PHYSICS AND NANOTECHNOLOGY COURSE PLAN FOR PHY0408 Course Code : PHY0408 Course Title : MICROPROCESSORS AND MICROCONTROLLERS Semester : II Course Duration : JAN MAY 2013 Location : SRM University, Kattankulathur COURSE DETAILS: Course Code Course Title Credits Class schedule L T P C Day Order I : 1, 2 periods PHY0408 3-2 4 Day Order IV : 6,7 Microprocessors periods Microcontrollers Day Order V : 1,2 periods L :Lectures T : Tutorials P : Practicals C : Credits FACULTY DETAILS: THEORY Name of the faculty Office Office hours Mr. V. Piyarasan H104 (Hi-Tech Building) 8.30AM 4.00PM PRACTICALS Name of the faculty Office Office hours 8.30AM Mr. V. Piyarasan H104 4.00PM Mail id piyarasan.v@ktr.srmuniv.ac.i n Mail id piyarasan.v@ktr.srmuniv.ac.in REQUIRED TEXTBOOKS: 1. Ramesh S Goankar, Micro processor Architecture, ming & Applications with the 8085, Penram International Publishing (India) Pvt. Ltd., Fourth Edition, 2002. 2. Douglas V. Hall,Microprocessors interfacing hardware Gregg Division, McGraw-Hill, 1986 3. Kenneth J. Ayala, The Microcontroller, Edition3, PublisherCengage Learning, 2004
4. Mazidi,The Microcontroller And Embedded Systems,2 nd Edition, PublisherPearson Education India, 2007 WEB RESOURCES: http://www.daenotes.com/electronics/digital-electronics/intel-8085-8-bit#axzz2i9yuse7i http://www.engineersgarage.com/ INSTRUCTIONALOBJECTIVES: To study the Architecture of 8085 & To study the addressing modes & instruction set of 8085 &. To introduce the need & use of Interrupt structure 8085 &. ASSESSMENT DETAILS: Cycle Test I : 7.5 Marks Cycle Test II : 7.5 Marks Lab internals : 15 Marks Attendance : 5 Marks Model Exam : 15 Marks Univ. Exam : 50 Marks TEST SCHEDULE: S. No. TEST SYLLABUS TEST DURATION 1. Cycle Test I Sessions 1 to 6 2 hours 2. Cycle Test II Sessions 7 to 12 2 hours 3. Lab internals s 2 to 11 2 hours 4. Model Exam Sessions 1 to 30 3 hours OUTCOMES: Course At the end of this course, students will be able to Underst the architecture of 8085 Impart the knowledge about the instruction set Underst the basic idea about the data transfer schemes its applications develop skill in simple program writing for & 8085 applications The program competencies in Physics its applications in a technology-rich, The program interpretation of complex. The program prepares successfully employment in Teaching
THEORY LESSON PLAN UNIT I : ARCHITECTURE AND PROGRAMMING OF 8085 Architecture of 8085- organization of 8085-control, data address buses-registers in 8085-addressing modes in 8085- Pin configuration of 8085. 1. Microprocessors, Microcomputers Assembly Language 2. Architecture of 8085 3. Organization of 8085 data, address, control busses registers 4. & 5. Addressing modes 6. Pin configuration of 8085 Chapters 1, 2,3 4 of Micro processor Architecture, ming & Applications with the 8085, Ramesh S Goankar, Penram International Publishing (India) Pvt. Ltd., Fourth Edition, 2002 To underst the architecture of 8085 competencies in Physics its applications in a technology-rich, interpretation of complex prepares students to successfully
UNIT II : INSTRUCTION SET Instruction set of 8085-instruction types(bsed on number of bytes, operation), data transfer, arithmetic, logical, branching- stack I/O instructions. Timing sequencing instruction cycles- machine cycle of weight state-timing diagram of opcode fetch, memory read memory write cycles- Assembly language : simple programs arithmetic logical operations- interruptsmaskable, non maskable,hardware multilevel interrupts. Session No. Topics to be covered 7. Instruction set Chapter 4,5,6 8. Data transfer 7of techniques Understing Interfacing 8085/8086 memories I/O s Peripheral 9. Timing diagram IC s, S.K. Minimum Sen, New Age Maximum mode International 10. Stack Publishers, Subroutines Second edition, 11. Interrupts service 2010 routines 12. ming Techniques- Assembly language programs in 8085 To Underst the addressing modes competencies in Physics its applications in a technology-rich, interpretation of complex prepares students to successfully
UNIT III : DATA TRANSFER SCHEMES AND APPLICATIONS med data transfer scheme- synchronous asynchronous serial data transfer schemes-interfacing devices- types of interfacing devices- mable Peripheral Interface (PPI- 8255), Communication interfacing device (USART- ), mable DMA controller (8257). 13. IO Memory Interfacing concepts 14. Serial I/O data communication 15. mable peripheral interface 16. mable communication interface device (USART) 17. mable DMA controller Chapters 3, 4,5,6 of Microprocessors interfacing hardware, Doubhlas.V. Hall, McGraw- Hill, 1991 To underst various interfacing circuits necessary for the various applications. To underst various interfacing concepts competencies in Physics its applications in a technologyrich, interpretation of complex prepares successfully
UNIT IV : ARCHITECTURE OF MICROCONTROLLER Introduction comparison between -architecture of -key features of - memory organization- data program memoryinternal RAM organization-special function registers-control registers-i/o portcounters timers- interrupt structures. 18. Introduction comparison of 19. Architecture of 20. Memory organization I/O memory addressing 21. Registers set 22. & 23. Counters Timers 24. Interrupts Structures Chapters 2, 3, 4, of The Microcontroller,, Kenneth J. Ayala. Publisher Cengage Learning, 2004 To underst the basic concepts of To Study the architecture of. To introduce the need & use of Interrupt structure. competencies in Physics its applications in a technologyrich, interpretation of complex prepares successfully
UNIT V : PROGRAMMING THE MICROCONTROLLER Instruction set of -arithmetic, logical, data, movable, jump call instructionsaddressing modes-immediate, register, direct indirect addressing modes-assembly language -simple program to illustrate arithmetic logical operations sum of numbers, biggest smallest numbers in an array- software time delay system. 25. & 26. Instruction set 27. Addressing modes 28. IO Memory Interfacing concepts 29. & 30. ming Techniques- Assembly language programs in 1) Chapters 7, 8 of The Microcontroller And Embedded Systems, Muhammad Ali Mazidi Janice Gillispie Mazidi, 7 th Edition, Pearson Education, 2004. To study the instruction set & addressing modes of. competencies in Physics its applications in a technology-rich, interpretation of complex prepares successfully
PRACTICALS LESSON PLAN MICROPROCESSORS AND MICROCONTROLLERS 1 Basic Mnemonics coding addressing modes, registers, interfaces 2 Perform the Arithmetic operations (addition Subtraction) 8085. 3 Perform the Arithmetic operations (multiplication division) 8085. 4 Code conversion 8085 5 Temperature conversion 8085. 6 Decimal counter 8085 7 Perform the Arithmetic operations (addition Subtraction) Microprocessor architecture, applications with the 8085, Ramesh Gaokar, 5 th edition, penram international publication private limited, 2009. The Microcontroller Architecture, ming applications, Kenneth J.Ayala, 3 rd Edition, west publication company, 2007. Familiarize the architecture of 8085 processor, assembling language interfacing with various modules. The student can also underst of Microcontroller concepts, architecture, application of Microcontrollers. Student able to do any type of VLSI, embedded systems, industrial real time applications by knowing the concepts of Microprocessor Microcontrollers. 1) The program competencies in Physics its applications in a technologyrich, 2) The program interpretation of complex 3) The program prepares successfully
. 8 Perform the Arithmetic operations (multiplication division) 9 Code conversion 10 Temperature conversion 11 Decimal counter