Download presentation
Presentation is loading. Please wait.
1
Architecture & Support Components
8085 Microprocessor: Architecture & Support Components
2
Contents Pin diagram of 8085 8085 Operations Architecture of 8085
8085 Communication with Memory
3
Pinout Diagram of 8085 A 40-pin IC Six groups of signals Address Bus
Data Bus Control and Status pins Power Supply & frequency signals Externally initiated Signals Serial I/O ports
4
Logic Pinout of 8085 Power Supply & frequency Data Bus Address Bus
Serial I/O ports Address Bus Externally initiated signals Control & Status Control & Status
5
8085 Operations Microprocessor Initiated Operations
Internal Operations Peripheral/Externally Initiated Operations
6
Microprocessor Initiated Operations
Memory Read Memory Write I/O Read I/O Write
7
Internal Operations Store 8-bit data
Perform Arithmetic and Logic Operations Test for conditions Sequence the execution of instructions Store/Retrieve data from stack during execution
8
Peripheral/Externally Initiated Operations
Reset Interrupt Ready Hold
9
Architecture of 8085 Power Supply – a +5V DC power supply
Maximum clock frequency of 3MHz 8-bit general purpose microprocessor 16-bit Address Bus Capable of addressing 64K of memory
10
Architecture of 8085
11
Architecture 0f 8085 Cont… ALU Timing and Control Unit
General Purpose Registers Program Status word Program Counter Stack Pointer Instruction Register and Decoder Interrupt Control Serial I/O Control Address Bus Data Bus
12
Architecture 0f 8085 Cont… Arithmetic Logic Unit (ALU)
8085 has 8-bit ALU Performs arithmetic & Logic operations on data Timing & Control Unit Generates timing and control signals General Purpose Registers 8-bit registers (B,C,D,E,H,L) 16-bit register pairs (BC, DE, HL,PSW)
13
Architecture 0f 8085 Cont… Program Status Word (PSW)
Accumulator and Flag Register can be combined as a register pair called PSW Instruction Register and Decoder Instruction fetched from memory is stored in Instruction register (8-bit register) Decoder decodes the instruction and directs the Timing & Control Unit accordingly
14
Architecture 0f 8085 Cont… Interrupt Control
8085 has 5 interrupt signals INTR – general purpose interrupt RST 5.5 Restart Interrupts RST 6.5 RST 7.5 TRAP – non-maskable interrupt The interrupts listed above are in increasing order of priority
15
Architecture 0f 8085 Cont… Serial I/O Control
8085 has two signals for serial communication SID – Serial Input Data SOD – Serial Output Data
16
Architecture 0f 8085 Cont… Address Bus Data Bus
Used to address memory & I/O devices 8085 has a 16-bit address bus Higher-order Address Lower-order Address A15 A14 A13 A12 A11 A10 A9 A8 AD7 AD6 AD5 AD4 AD3 AD2 AD1 AD0 Data Bus Data Bus Used to transfer instructions and data 8085 has a 8-bit data bus
17
8085 Communication with Memory
Involves the following three steps Identify the memory location (with address) Generate Timing & Control signals Data transfer takes place
18
Example: Memory Read Operation
1 3 2
19
1 3 2
20
Timing Diagram
21
Demultiplexing Address/Data Bus
8085 identifies a memory location with its 16 address lines, (AD0 to AD7) & (A8 to A15) 8085 performs data transfer using its data lines, AD0 to AD7 Lower order address bus & Data bus are multiplexed on same lines i.e. AD0 to AD7. Demultiplexing refers to separating Address & Data signals for read/write operations
22
Need for Demultiplexing…
8085 A8-A15 Memory 20H AD0-AD7 05H 4FH 2005H
24
8085 Interfacing with Memory chips
Address Address Memory Interface Memory Chip Data Data 8085 Control Control
25
8085 Interfacing with Memory chips
Data Memory Chip 74LS373 8085 AD0-AD7 A0 – A7 ALE A8-A15 A8-A15 Control Memory Interface
26
8085 Interfacing with Memory chips
Data Program Memory 74LS373 8085 AD0-AD7 A0 – A7 ALE A8-A15 A8-A15 CS IO/M RD RD Memory Interface
28
Memory Mapping 8085 has 16-bit Address Bus
The complete address space is thus given by the range of addresses 0000H – FFFFH The range of addresses allocated to a memory device is known as its memory map
29
Memory map: 64K memory device
Address lines required: 16 (A0 – A15) Memory map: 0000H - FFFFH So the memory map is A15 A14 A13 A12 A11 to A0 0…. 0 0 = 0000H to A15 A14 A13 A12 A11 to A0 1 1…. 111 = FFFFH
30
Interfacing I/O devices with 8085
Peripheral-mapped I/O & Memory-mapped I/O
31
Interfacing I/O devices with 8085
Interface I/O Devices 8085 System Bus Memory Interface Memory Devices
32
Techniques for I/O Interfacing
Memory-mapped I/O Peripheral-mapped I/O
33
Memory-mapped I/O 8085 uses its 16-bit address bus to identify a memory location Memory address space: 0000H to FFFFH 8085 needs to identify I/O devices also I/O devices can be interfaced using addresses from memory space 8085 treats such an I/O device as a memory location This is called Memory-mapped I/O
34
Peripheral-mapped I/O
8085 has a separate 8-bit addressing scheme for I/O devices I/O address space: 00H to FFH This is called Peripheral-mapped I/O or I/O-mapped I/O
35
8085 Communication with I/O devices
Involves the following three steps Identify the I/O device (with address) Generate Timing & Control signals Data transfer takes place 8085 communicates with a I/O device only if there is a Program Instruction to do so
36
1.Identify the I/O device (with address)
Memory-mapped I/O (16-bit address) Peripheral-mapped I/O (8-bit address)
37
2.Generate Timing & Control Signals
Memory-mapped I/O Reading Input: IO/M = 0, RD = 0 Write to Output: IO/M = 0, WR = 0 Peripheral-mapped I/O Reading Input: IO/M = 1, RD = 0 Write to Output: IO/M = 1, WR = 0 3. Data transfer takes place
38
Peripheral I/O Instructions
IN Instruction Inputs data from input device into the accumulator It is a 2-byte instruction Format: IN 8-bit port address Example: IN 01H
39
OUT Instruction Outputs the contents of accumulator to an output device It is a 2-byte instruction Format: OUT 8-bit port address Example: OUT 02H
40
----------Example Program----------
WAP to read a number from input port (port address 01H) and display it on ASCII display connected to output port (port address 02H) IN 01H ;reads data value 03H (example)into ;accumulator, A = 03H MVI B, 30H;loads register B with 30H ADD B ;A = 33H, ASCII code for 3 OUT 02H ;display 3 on ASCII display
41
Memory-mapped I/O Instructions
I/O devices are identified by 16-bit addresses 8085 communicates with an I/O device as if it were one of the memory locations Memory related instructions are used For e.g. LDA, STA LDA 8000H Loads A with data read from input device with 16-bit address 8000H STA 8001H Stores (Outputs) contents of A to output device with 16-bit address 8001H
42
----------Example Program----------
WAP to read a number from input port (port address 8000H) and display it on ASCII display connected to output port (port address 8001H) LDA 8000H;reads data value 03H (example)into ;accumulator, A = 03H MVI B, 30H;loads register B with 30H ADD B ;A = 33H, ASCII code for 3 STA 8001H;display 3 on ASCII display
Similar presentations
© 2024 SlidePlayer.com Inc.
All rights reserved.