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Intel 8051

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Intel 8051 Another family of microcontroller is the Intel 8051 family. The basic 8051 microcontroller has four parallel input/output ports, port 0, 1, 2 and 3. – PowerPoint PPT presentation

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Title: Intel 8051


1
Intel 8051
  • Another family of microcontroller is the Intel
    8051 family. The basic 8051 microcontroller has
    four parallel input/output ports, port 0, 1, 2
    and 3. The 8051AH version has 4K x 8 bytes ROM ,
    128 x 8 bytes RAM, two 16-bit timers and
    interrupt control for five interrupt sources.

2
Intel 8051
  • The 8051 is a second-generation Intel 8-bit
    microcontroller. The first Intel 8-bit
    microcontroller was the 8048.
  • Later, Intel introduced the 8049, which double
    the amount of ROM and RAM. Its architecture is
    the same as the 8048
  • A later introduction, the 8052, expands the size
    of ROM and RAM, but otherwise the architecture is
    the same as the 8051.

3
Intel 8051
  • An 8-bit ALU
  • 4K x 8 ROM (or EPROM)
  • 128 x RAM
  • Dual 16-bit timer event counter
  • 32 I/O lines (4 I/O ports, 8-bit each)
  • Powerful 111-instruction set
  • Full-featured serial port
  • Up to 12-Mhz clock
  • Two external interrupts

4
Intel 8051
  • The 8051 can address external memory if there is
    not enough internal RAM and/or ROM. When used to
    address external memory, two ports provide the
    memory addressing.
  • The 8051 internal ROM is for program memory
    space. The program memory space is a read-only
    space. The processor cannot write data or read
    data from these memory locations.

5
Intel 8051
  • The RAM is the data memory space. It is a
    read-write memory space.
  • The processor can read data from this memory
    space and can write data to this memory space. It
    cannot execute program instructions from this
    memory space.
  • The 128 bytes of internal RAM (00H to 7FH)
    provide general read-write data storage. Part of
    this memory space is often referred to as general
    purpose registers.

6
Intel 8051
  • The 8051 also has 22 special-function registers
    occupy data memory space from 80H to F8H.
    Although addressable as memory locations, these
    registers must be used for their intended
    purpose.
  • If more program memory (ROM) is needed, the
    internal 4-Kbyte memory can be expanded by
    additional 60-Kbytes, giving the 8051 a full
    64-kbytes program memory space. (see figure 9.1)

7
Intel 8051
  • If the 8051 EA pin is connected to ground, it
    does not use the internal 4K ROM. The external
    memory must start at memory location 0000H and
    can be up to a full 64kbytes. (8031 does not have
    internal ROM)

8
Figure 9.1
9
Figure 9.2
10
Intel 8051
  • If you need more RAM, you can add external data
    memory. You always have full use of all 64-kbytes
    of the external memory space. This memory is
    addressed separately from the internal 128 bytes
    of RAM.

11
Downloaded Program
  • Although the 8051 normally operates with separate
    program memory and data memory space, there are
    applications where 8051 can input a block of data
    through its serial communications port, load that
    data into memory, and then execute that data as a
    program. It is a very common technique used to
    change the program operating in a remote
    microprocessor-based controller.

12
Intel 8051 Internal RAM
  • The first 32 RAM locations are addressable as
    registers or as memory locations. By calling some
    memory locations registers, we can access them
    with single-byte instruction.
  • 16 bytes of 8051 RAM are both bit and
    byte-addressable. The general instructions can
    address a byte of data at these memory locations.
    Other special instructions can address any
    individual bit in these memory locations. Bit
    instructions are very powerful tools when you
    need to process data words from external hardware
    devices.

13
Intel 8051 Internal RAM ..
  • Figure 9.2 is a memory map of the first 128
    internal memory locations. The first 32 memory
    locations can be used as four register banks.
    There are eight registers in each bank. A
    register is an 8-bit read-write memory location
    which is addressed in a single-byte instruction.
    Because these single-byte instructions have only
    3 bits available to address the register, they
    address only one of eight registers.

14
Special Function Registers
  • Special-function registers (SFRs). Each
    special-function register is dedicated to a
    single job.
  • The microprocessors SFRs are the accumulator
    (ACC E0H), the B register (B F0H), the program
    status word (PSW D0H), the stack pointer (SP
    81H), the data pointer (DPTR) which is a 2 bytes
    register (DPL 82H and DPH 87H), and the power
    control register (PCON 87H).

15
Special Function Registers
  • Some of these SFRs are bit- and byte-addressable
    and others are only byte-addressable.
  • The accumulator is byte- or bit-addressable. It
    contains the operands or one of the operands of
    arithmetic or logical instruction and holds the
    result of that instruction.
  • The B register is used during multiply and divide
    operations as one 8-bit source and to hold the
    high-order 8 bits. It also can be as a simple
    scratch-pad register.

16
Special Function Registers
  • The program status word (PSW) is the 8051 status
    register. It is a bit-addressable
    register.7 CY PSW.7 Carry flag6 AC PSW.6 Auxili
    ary carry flag5 F0 PSW.5 For general purpose
    use4 RS1 PSW.4 Register bank selector bit
    13 RS0 PSW.3 Register bank selector bit
    02 OV PSW.2 Overflow bit1 - PSW.1 Reserved0 P P
    SW.0 Parity flag

17
Special Function Registers
  • Note that the 8051 PSW does not have zero bit.
  • Two special bits in the PSW (RS1 and RS0)
    indicate the current register bank. These bits
    can be set to select the current register bank or
    can be read to find out what register bank is
    selected
  • The 8051 stack pointer register is an 8-bit
    register, so it only addresses memory locations
    within the internal 128-bytes memory. It is
    incremental just before data is stored by using
    the push or call instruction, or the interrupt.

18
Data Pointer
  • The data pointer (DPTR) is a 16-bit register. It
    is made up of a High byte (DPH) and a Low byte
    (DPL). The data pointer holds a 16-bit address
    used when addressing external memory. The 8051
    instructions let you work with the data pointer
    as a 16-bit register or as two separate 8-bit
    registers. If needed, a single- or double-byte
    instruction can operate on either the High or Low
    byte.

19
Power Control Register
  • Two bits of this register, PD (Power Down) and
    IDL (Idle), are only used in CMOS versions of the
    8051. Bit 7 SMOD Double baud rate bitBit
    3 GF1 General purpose flag bitBit
    2 GF0 General purpose flag bitBit 1 PD Power
    down bitBit 0 IDL Idle mode bit

20
Counter-Timer Control Register
  • TCON is used to control the function of
    counter-timer.TF1 TCON.7 Timer 1 overflow
    flagTR1 TCON.6 Timer 1 run control
    bitTF0 TCON.5 Timer 0 overflow
    flagTR0 TCON.4 Timer 0 run control
    bitIE1 TCON.3 External interrupt 1
    flagIT1 TCON.2 Interrupt 1 type
    controlIE0 TCON.1 External interrupt 0
    flagIT0 TCON.0 Interrupt 0 type control

21
Counter-Timer Mode Control Register
  • It is used to set the mode of counter-timers.Bit
    7 (Timer 1) Gate, when TR1 of TCON is set
    and Gate1, Timer1 will run only while INT1
    pin is high.Bit 6 (Timer 1), C/T, timer or
    counter selectorBit 5 (Timer 1) M1, Mode
    selector bit 1
  • Bit 4 (Timer 1) M0, Mode selector bit 0

22
8051 Interrupt System
  • There are five different ways to interrupt an
    8051. Two of these are from external electrical
    signals. The other three are caused by internal
    8051 I/O hardware operations.
  • The two external inputs come from the INT0 and
    INT1 inputs. A logic 0 on INT0 sets bit IE0
    (interrupt external 0) in the timer control
    register. A logic 0 on INT1 sets bit IE1

23
Intel 8051
24
(No Transcript)
25
Intel 8051
  • Port 0 is at address 80H, port 1 at address 90H,
    port 2 at address A0H and port 3 at address B0H.
    When a port is to be used as an output port the
    data is put into the corresponding special
    register. When a port is to be used as an input
    port, the value FFH must first be written to it.

26
Intel 8051
  • RXD is the serial input port
  • TXD is the serial output port
  • INT0 is the external interrupt 0
  • INT1 is the external interrupt 1
  • T0 is the timer/counter 0 external input
  • T1 is the timer/counter 1 external input
  • WR is the external memory write strobe
  • RD is the external memory read strobe

27
Intel 8051
  • The term strobe describes a connection used to
    enable or disable a particular function.
  • ALE
  • The address latch enable pin provides an output
    pulse for latching the low-order byte of the
    address during access to external memory. This
    allows 16-bit addresses to be used. (see next
    slide)

28
Use of ALE
29
Intel 8051
  • PSEN
  • The program store enable pin is the read signal
    pin for external program memory and is active
    when low. It is connected to the output enable
    pin of external ROM or EPROM.
  • EA
  • The external access pin is taken low for the
    microprocessor to access only external program
    code when high it automatically accesses
    internal or external code, depending on the
    address. This pin also used on a microcontroller
    with EPROM to receive the programming supply
    voltage for programming the EPROM

30
Intel 8051
  • XTAL1, XTAL2
  • These are the connecting pins for a crystal or
    external oscillator.
  • RESETA high signal for a minimum of two machine
    cycles on this pin resets the microcontroller.

31
Intel 8051
  • Serial input/output
  • Writing to the serial data buffer SBUF at
    address 99H load data for transmission reading
    SBUF accesses received data.
  • TimingThe timer mode register TMOD at address
    89H is used to set the operating mode for timer 0
    and timer 1. The timer control register TCON
    contains status and control bit for timer 0 and
    timer 1.

32
Intel 8051
  • Interrupts
  • Interrupts force program to call a subroutine
    located at a specified address in memory they
    are enable by writing to the interrupt enable
    register IE at address A8H.
  • Bit 7 EA (Global Enable/Disable)Bit 4 ES
    (Enable serial port interrupt)Bit 3 ET1
    (Enable Timer 1 interrupt)
  • Bit 2 EX1 (Enable external 1 interrupt)Bit 1
    ET0 (Enable timer 0 interrupt)Bit 0 EX0
    (Enable external 0 interrupt)
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