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MICROPROCESSOR AND INTERFACING

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MICROPROCESSOR AND INTERFACING AUTHORS :RAMESH.S.GAONKAR BADRI RAM DOUGLAS.V.HALL LIU AND GIBSON Syllabus of Microprocessor Introduction to microprocessor ... – PowerPoint PPT presentation

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Title: MICROPROCESSOR AND INTERFACING


1
MICROPROCESSOR AND INTERFACING
  • AUTHORS RAMESH.S.GAONKAR
  • BADRI RAM
  • DOUGLAS.V.HALL
  • LIU AND GIBSON

2
Syllabus of Microprocessor
  • Introduction to microprocessor
  • Architecture and block diagram of microprocessor
  • 8085 microprocesso
  • 8237 DMA Controller
  • 8255 Programmable peripheral interface device
  • 8254 programmable interval timer
  • 8259 programmable inttrupt controller
  • 8086 microprocessor

3
What is Microprocessor?
  • A silicon chip that contains a CPU. In the world
    of personal computers, the terms microprocessor
    and CPU are used interchangeably. At the heart of
    all personal computers and most workstations sits
    a microprocessor. Microprocessors also control
    the logic of almost all digital devices, from
    clock radios to fuel-injection systems for
    automobiles

4
Microprocessor def.. Con..
  • Microprocessor is a programmable device
  • It can be instructed to perform given tasks with
    in its capability.
  • The programmer selects instruction from the list
    and determines the sequence of execution for a
    given task.
  • It takes input from the input device and process
    the input as it behaves like a CPU and gives the
    output.

5
Microprocessor def.. Con..
  • Microprocessor is a clock driven semiconductor
    device consisting of electronic logic circuits
    manufactured by using a LSI or VLSI technique.
  • Microprocessor can be divided into three segments
  • 1)ALU
  • 2)Register array
  • 3)Control unit

6
Block diagram of microprocessor
OUTPUT
Microprocessor As CPU
INPUT
MEMORY
7
Characterstics which differentiate microprocessors
  • Instruction set The set of instructions that the
    microprocessor can execute.
  • bandwidth The number of bits processed in a
    single instruction.
  • clock speed Given in megahertz (MHz), the clock
    speed determines how many instructions per second
    the processor can execute.

8
Structure of microprocessor
  • Chip containing no. of elements for the
    processing purposes.

9
History of microprocessor
  • Intel's 4004 is considered the first
    microprocesor .
  • The 4004 was later followed in 1972 by the 8008,
    the world's first 8-bit microprocessor.

10
History of microprocessor
  • then is the 8080 microprocessor evolved in 1974.
  • Then comes 8085 that is the 8 bit microprocessor

11
Continued
  • Often the processor is required to manage various
    different tasks that have to be scheduled somehow
    and must also deal with outside interrupt sources
    such as an alarm when something goes wrong.
  • Real-time systems are those in which timeliness
    is as important as the correctness of the
    outputs, although this does NOT mean that they
    have to be ?fast systems?.
  • A real-time system does not have to process data
    in microseconds to be considered real-time - it
    must simply have response times that are
    constrained and thus predictable.

12
Real life applications of microprocessor
  • Microprocessors are used to handle a set of tasks
    that control one or more external events or
    systems.
  • Microprocessors are typically used in either
    reactive or embedded systems.
  • Reactive systems are those that have an ongoing
    interaction with their environment - for example,
    a fire-control system that constantly reacts to
    buttons pressed by a pilot.
  • Embedded systems are those used to control
    specialized hardware in which the computer system
    is installed - for example, the microprocessor
    system used to control the fuel/air mixture in
    the carburetor of many automobiles.
  •  In embedded systems the software system is
    completely encapsulated by the hardware that it
    controls.

13
Some questions
  • What is SSI,MSI and LSI?
  • What is difference between microprocessor,
    microcontroller and microcomputer?
  • What is a bit, byte, nibble and a word?
  • What is difference between compiler and
    interpreter?
  • What is instruction and mnemonic?

14
8085 programming model
  • Program counter
  • Stack pointer
  • General purpose registers
  • Accumulator
  • Flag registers
  • Data and address buses

15
8085 instruction set
  • Data transfer operations
  • Arithmetic operations
  • Logical operations
  • Branch operations
  • Machine control operations

16
Data transfer operations
  • MOV Rd,Rs
  • MVI R,8 bit
  • HLT
  • IN 8 bit port address accept the data from
    the input port specified in the second byte and
    loads into the accumulator.
  • NOP
  • OUT 8 bit port address copies the contents of
    the accumulator to the output port specified in
    the second byte,2 byte instruction

17
Data transfer operations
  • This group of instructions copies data from a
    location called a source to another a location
    called destination without modifying the contents
    of the source.
  • Data transfer can be between 1)registers
  • Specified data byte to a register or memory
    location
  • Between a memory location and a register

18
Addressing mode
  • Immediate addressing mvi
  • Register addressing mov
  • Direct addressing in/out ports
  • Indirect addressing

19
Logical operations
  • ANA R
  • ANI 8 bit
  • ORA R
  • ORI 8 bit
  • XRA R
  • XRI 8 bit
  • CMA

20
Arthimetic operations
  • ADD R
  • ADI 8 bit
  • SUB R
  • SUI 8 bit
  • INR R
  • DCR R

21
Branch operations
  • JMP 16 bit 2nd(low) and 3rd(high) byte
    specifies 16 bit
  • Memory address
  • JC
  • JNC
  • JZ
  • JNZ
  • JP
  • JM

22
Microprocessor architecture
  • The process of data manipulation and
    communication is determined by the logic design
    of the microprocessor called the arcitecture.

23
Microprocessor architecture
  • Microprocessor initiated operations
  • Internal operations
  • Externally initiated operations
  • To perform these functions microprocessor
    requires a group of logic circuits and set of
    signals called control signals.

24
Microprocessor initiated operations
  • Memory read
  • Memory write
  • I/O read
  • I/O write

25
Internal operations
  • Store 8-bit data
  • Perform arthimetic and logical operations
  • Test for conditions
  • Sequence the excuetion of operations
  • Store data temporarily during excuetion

26
8085 pin diagram
  • Is 8 bit microprocessor, capable of addressing
    64k of memory
  • Has 40 pins ,operate with 3mhz single phase clock
  • Require 5v of single power supply

27
8085 pin diagram
28
8085 pin diagram
  • Is 8 bit microprocessor, capable of addressing
    64k of memory
  • Has 40 pins ,operate with 3mhz single phase clock
  • Require 5v of single power supply

29
Pin diagram conti.
  • All the signals are classified into 6 groups
  • Address bus
  • Data bus
  • Control and status signals
  • Power supply and frequency signals
  • Externally initiated signals
  • Serial input output ports

30
Block diagram of 8085 microprocessor
  • It includes
  • Arithmetic and logic unit
  • Timing and control unit
  • Instruction register and decoder
  • Register array
  • Interrupt control
  • Serial input output control

31
8085 interrupt
  • What is interrupt?
  • Vectored interrupt
  • Non vectored interrupt
  • Enable and disable interrupt instructions
  • Pending interrupts

32
8085 interrupt
  • Interrupt is a process where an external device
    can get the attention of the microprocessor.
  • The process starts from the I/O device
  • The process is asynchronous.
  • Classification of Interrupts
  • Interrupts can be classified into two types
  • Maskable Interrupts (Can be delayed or Rejected)
  • Non-Maskable Interrupts (Can not be delayed or
    Rejected)
  • Interrupts can also be classified into
  • Vectored (the address of the service routine is
    hard-wired)
  • Non-vectored (the address of the service routine
    needs to be supplied externally by the device)

33
Interrupts
  • An interrupt is considered to be an emergency
    signal that may be serviced.
  • The Microprocessor may respond to it as soon as
    possible.
  • What happens when MP is interrupted ?
  • When the Microprocessor receives an interrupt
    signal, it suspends the currently executing
    program and jumps to an Interrupt Service Routine
    (ISR) to respond to the incoming interrupt.
  • Each interrupt will most probably have its own
    ISR.

34
Interrupts
  • When a device interrupts, it actually wants the
    MP to give a service which is equivalent to
    asking the MP to call a subroutine. This
    subroutine is called ISR (Interrupt Service
    Routine)
  • The EI instruction is a one byte instruction
    and is used to Enable the non-maskable
    interrupts.
  • The DI instruction is a one byte instruction
    and is used to Disable the non-maskable
    interrupts.
  • The 8085 has a single Non-Maskable interrupt.
  • The non-maskable interrupt is not affected by the
    value of the Interrupt Enable flip flop.

35
8085 intrrupts
  • TRAP
  • RST7.5
  • RST6.5
  • RST 5.5
  • INTR
  • INTA

36
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37
Interrupt Vectors and the Vector Table
  • An interrupt vector is a pointer to where the ISR
    is stored in memory.
  • All interrupts (vectored or otherwise) are mapped
    onto a memory area called the Interrupt Vector
    Table (IVT).
  • The IVT is usually located in memory page 00
    (0000H - 00FFH).
  • The purpose of the IVT is to hold the vectors
    that redirect the microprocessor to the right
    place when an interrupt arrives.

38
  • GENERAL PURPOSE PROGRAMMABLE PERIPHERAL DEVICES

39
  • 8255A Programmable peripheral interface
  • 8254 programmable interval timer
  • 8259 Programmable interval timer
  • 8237 DMA Controller

40
8255 Programmable peripheral interface
  • It can be programmed to transfer data under
    various conditions.
  • It has 24 I/O pins.
  • The function of 8255A classified acc to two
    modes.
  • A) BSR mode
  • I/O mode

41
8255 Programmable peripheral interface
  • Block diagram of 8255A
  • Control word
  • BSR mode
  • Mode 0
  • Mode 1
  • Mode 2

42
  • Control Word
  • D7 D6 D5 D4 D3 D2 D1 D0
  • 0/1
  • BSR Mode I/O Mode
  • For port C Mode0 Mode 1
    Mode2
  • No effect on mode Simple I/O Handshake
    I/O

  • for ports for ports A and or
    B

  • A,B,C
  • Port C bits

43
8254 Programmable interval timer
44
8237 DMA Controller
  • DMA is an input output technique used for high
    speed data transfer
  • Data transfer between system memory and floppy
    disk
  • It introduces two new signals that are
  • HOLD
  • HLDA

45
DMA Controller cont.
  • DMA Controller consists of
  • DMA channels and interfacing
  • DMA Signals
  • System interface
  • Programming the 8237
  • DMA Execution consists of
  • Master and slave mode

46
8086 microprocessor
  • It is 16 bit microprocessor.
  • Contains 29000 transistors and is fabricated
    using HMOS technology.
  • Has addressing capacity of I megabyte.
  • Has 20 address pins.
  • 5v supply voltage

47
8086 Arcitecture
  • Internal registers
  • Control logic
  • Instruction queue
  • ALU
  • PSW
  • Pointers
  • Segment registers

48
8086 pin diagram
49
8086 effective address computations
  • To provide flexible base addressing and indexing
    a data address may be formed by addressing
    together a combination of the BX or BP register
    contents SI or DI contents and a displacement.The
    result of such and address computation is called
    effective address.

50
8086 memory segmentation
  • Address within segments
  • Overlapping segments

51
Program relocation using CS register
  • If a programmer wants to relocate the program by
    any means ,he can relocate the program using cs
    register.

52
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