EKT 222/4Microprocessor Systems

SUBJECT INTRODUCTION

LECTURERS

1.Dr. Nasim Ahmed (c) – Communication Eng. (RK 53)

2.Dr. Layth Abdulkareem – Computer Eng. (RK 20)

3.En. Muhamad Sani Bin Mustafa – Network Eng. (RK 93)

Grading:

Examination = 70%

• Test 1 = 10%

• Test 2 = 10%

• Final Exam = 50%

Course work = 30%

• Mini project = 20%

• Assignments / Quizzes = 10%

Main Text Booki.William A. Rautt, “Microprocessor Architecture, Programming and System Featuring the 8085”, Thomson / Delmar Learning, 2007.

Reference Booksi.R.S. Gaonkar, “Microprocessor Architecture, Programming and Applications with the 8085”, 5th Edition, Prentice Hall, 2012

ii.W. Kleitz, Microprocessor and Microcontroller Fundamentals: The 8085 and 8051 Hardware and Software, Prentice hall, 1998

Teaching Plan

Important Dates

WEEK SIX (6) Test 1(27th Mar 2014)

WEEK TWELVE (12) Test 2 (22nd May 2014)Note: Test will conduct at night from 8.30 pm to 10 pm.

The place will announce later.

MINI PROJECT STARTWeek 10th (Apr 28- May 4)

Mini Project Viva (26, 27 and 28 th May)

Mini Project

Groups of 4 (max).Title can be your own, recommended to

work towards the RPS i-project. Please consult Lecturers or PLVs for

clarification on project suitability.

• Will be asked to submit proposal.

Chapter 1: Introduction to Microprocessor System

• Briefing regarding of course curriculum.• Basic architecture of digital computer• Memory system• Input/output devices• Microprocessor interface• Busses & typical control system

Outline

Chapter 2 : Computer Operation

•Sequential machine.•Function memory system.•Instruction cycle.•Instruction decoder and control logic.•The program counter.•8085 internal architecture.•Register file and other 8085A CPU.•ALU subsystem.•The flag register.•8085A bus interface.

OUTLINE

Chapter 3 : CPU Sequencing

• Introduction cycles• Machine cycles.• T-states• State diagram• State processor functions and other

states

OUTLINE

Chapter 4: Assembly Language Programming

• Introduction to assembly language programming,

• 8085A, • Instruction set• Programming model.• Data transfer instruction• Arithmetic instruction• Logic instruction• Branch instruction.• Stack.• I/O and machine control instruction.

OUTLINE

Chapter 5: Introduction to Input output device

• 8085A address space• memory and I/O instruction• I/O decoding• I/O mapping• I/O device (8255)

Chapter 6: The Programmable Peripheral Interface (8255A)

•Features of 8255A•Architecture•Block functions•Interface•Address and initialization.•Mode of word I/O interface to real world device (LED, switches, 7 segments display, etc)

Chapter 7: Interrupts

•Interrupts event sequence.•Direct and vectored interrupts.•Maskable and non-maskable interrupts.•Interrupt priority and machine cycle involved.

Chapter 8: Serial Communications

•Simplex and Duplex system•Data rates•Synchoronous and asynchronous serial Communication•8251 UART.

Chapter 9: Memory Systems

•Memory classes•Nain memory•Architecture•Operation•System design•Decoding system•Read/write cycles

Chapter 10: 8085A Design

•Bus organization•Memory and I/O mapping•ROM/RAM•I/O address decoding•Bus interfaces•Address latches.•Timing requirement

Course Outcomes (COs)

CO1: Ability to discover the theory and basic architecture of microprocessor.

• CO2: Ability to program a microprocessor using assembly language.

CO3: Ability to interface the microprocessor with I/O devices.

CO4: Ability to design and develop a simple application on a microprocessor based system.

What to do BEFORE Lab …

Download the lab sheet and relevant materials from portal / e-learning.

“IMPORTANT NOTES DURING CLASS”

Switch-off your mobile.

Don’t talk with your friends.

Enter class room before 10 min from schedule time.

Make sure your attendance in every class.

Don’t raise your foot on top of the chair.

Be punctual and give full attention to the class.

THANK YOU