Microprocessors and Peripheral Devices EEN 208 4 CREDITS 3-0-2
EEN 208 Course Objectives: At the end of the course, the students should be able to Explain the architecture of 8086 microprocessor Enhance the programming techniques Demonstrate various interfacing techniques. Design a microprocessor based application
Microprocessor 8086 Introduction to Microprocessors and Microcomputers, 8086 Microprocessor architecture, Pin configuration, Register organisation of 8086, physical memory organisation, General bus operation, Special processor activities, Minimum Mode 8086 System and Timings, Maximum Mode 8086 System and Timings. Instruction Set And Assembler Directives Machine Language Instruction Formats, Addressing Modes of 8086, Instruction Set of 8086, , Data transfer, Arithmetic, Branch, loop, machine control, logical, shift and rotate instructions, I/O Assembler Directives and Operators. Assembly Language Programming With 8086 Machine Level Programs, Programming with an Assembler, Assembly Language Example Programs. Special Architectural Features And Related Programming: Introduction to stack, stack Structure of 8086, Interrupts and Interrupt Service Routines, Interrupt Cycle of 8086, Non Maskable Interrupt, Maskable Interrupt, Interrupt Programming, .
Basic Peripherals And Their Intrfacing With 8086 Memory interfacing, Programmable Interval Timer (8253/8254), Programmable Interrupt Controller (8259), Keyboard/Display Controller (8279),, DMA Controller (8237/8257). Interfacing I/O Ports, PIO 8255 (Programmable Input-Output Port), Operation of 8255, Interfacing Analog to Digital Data Converters, Interfacing Digital to Analog Data Converters. Special Purpose Programmable Peripheral Devices And Their Interfacing : Programmable Interval Timer 8253, Introduction to Serial Communication, Programmable Communication Interface 8251. Microprocessor applications –Stepper motor control ,Temp. Control.etc
List of Experiments: 8086 based experiments for data transfer operations. 8086 based experiments for arithmetic operations. 8086 based experiments for logical operations. 8086 based experiments for sorting. 8086 based experiments for data conversions 8086 based experiments for interfacing various add on cards To study and interface 8255 chip with 80x86/Pentium Trainer system. To study and interface 8251 chip with 8086/80x86/Pentium Trainer system. To study and interface 8259 chip with 8086/80x86/Pentium Trainer system. To interface and control a stepper motor using the stepper motor controller card and stepper motor drives. To acquire a unipolar analog signal and convert it into a digital value using A/D Card. To acquire a bipolar analog signal and convert it into a digital value using A/D Card.
Course Outcomes: By the end of this course student will be able to: 1 Explain the functioning of microprocessor.
- Fall '16
- Rintu khanna
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MICROPROCESSORS AND MICROCONTROLLERS.pdf