IC - Integrated circuits ,we are totally surrounded by IC in today life hey are made by semiconductors which are like silicon ,germanium ,etc. have valency 4.
Bits :Bit is the smallest unit of binary size which uses only two symbols zero and one.
Microprocessor are made up of different IC .Nowadays,in our day to day life we are surrounded by different microprocessors ,many people think that they are only in computers but this not true they are in most of the electronic instruments like mobiles,smart phones,refrigerator,Air-conditioner,microwave,and many more appliances,also in calculators.Microprocessors are also used in other advanced electronic systems, such as computer printers, automobiles,home security systems, radio ,automotive and jet airliners.
Actually the evolution of Microprocessor was ,it was the Japanese who told in 1960 to INTEL to make microprocessor for doing calculation .Then the work on it started and finally in 1971 they developed a 4 bit Microprocessor 4004 which not so powerful but did only the work of calculator.µΡ symbol is used for microprocessor.This was the first generation of microprocessor.In this generation INTEL intorduced the first general purpose 8 bit µΡ with the development of LSI(Large Scale Integration)technology.
Byte:It is symbol used to represent eight bits.
| B7 | B6 | B5 | B4 | B3 | B2 | B1 | B0 |
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
Second Generation:- The successor to the 8080 and 6800 were introduced the Z80,8085 from INTEL,6809 from MOTOROLA,etc.In 1976 8085µΡ of intel was introduced.This µΡs were 8-bit microprocessors.
This µΡs had complete µC (microcomputer) system with CPU(Central Processing Unit),ROM (Read Only Memory),RAM(Random Access Memory),CLOCK,I/O ports(Input Output),all in single package.
Examples INTEL 8048,8028,MOTOROLA MC 6801,Z80(Zilog) in 1974.
There were 12 bit µΡs also developed as a enhancement in 8 bit µΡs example-In 1977,IM6100(Intersil)and T8190(Toshiba).
Third Generation:- In this generation 16-bit microprocessors were introduced with high performance.Example Intel 8086 microprocessor.
Fourth Generation:- In this first 32 -bit µΡs were introduced which can address physical memory of 4GB.Example:- Intel 80386
Fifth Generation:- In this 64 -bit µΡs were introduced. Example:- Intel Pentium,I,II,III and so on.
Generic Block Diagram of Microprocessors:-
A microprocessor includes mainly of blocks and buses to connect them.They are as follows:- Arithmetic Logic Unit (A.L.U.)
- Registers
- Instruction Decoder
- Timing and control
- Interrupt Control
- Buses
They have Flag Registers in it which is used to perform result and to send it.
2.Registers:-There are many several registers in it they are as follow:-
I) Accumulator registers:-It is an 8-bit unit.This are the main
registers which store the result of the arithmetic operations.
II) General Purpose Registers:-
They are as follow :
- Register B-It is 8-bit.
- Register C-It is 8-bit.
- Register D-It is 8-bit.
- Register E-It is 8-bit.
- Register H - It is 8-bit.
- Register L-It is 8-bit.
- Temporary Register-It is 8-bit.
Register B-C pair ,Register D-E pair,Register H-L pair.
III)Status Register:-It is set of flip-flops called Flags.Microprocessor has two flags carry and zero flag.
IV)Program Counter:-It is 16-bit used to store the address of next memory location.
V)Stack Pointer:- It is 16-bit used to store address of a memory called stack.
VI)Instruction Register :-It is8-bit the first byte of instruction is loaded in this register.
3.Instruction Decoder: As its name suggest it take instruction from Instruction register and decodes it by driving control section.
4.Timing and Control Section :-It generates signals to control respective devices as by instruction decoder.
5.Interrupt Control:-It is process which executes certain steps when interrupt occurs,and decides the priority for the interrupt occur.
6.Buses :There are three types of buses in microprocessor:-
A) Address bus:- It is 16-bit bus with unidirectional.
B)Data bus:- It is 8- bit with bidirectional.
C)Control bus:- Carries signal to execute operation.
Instruction Format-
- An instruction is a combination of bit pattern.
- They can be viewed as a collection of two parts.One part ,which gives the task to be performed,is rightly called OPCODE(OPERATION CODE) and the other part gives the data to be operated on called as OPERAND.The operand can be specified in many ways.
- Instruction for 8085 are of three formats:-
ii)Two byte instructions
iii)Three byte instructions Block Diagram of 8085 microprocessor :-
Pin Diagram of 8085:-
Signals involved in transferring data and executing instructions in microprocessor.
· Classification of Signals
1.Power Supply
2.Clock Signals
3.Interrupt Signals
4.Address and Data bus
5.Control and Status signals
6.Serial I/O Port
7.DMA Request Signals
The various signals in a microprocessor can be classified as
Power supply and Frequency signals: Signals which aids in supplying power and generating frequency are associated with this type. Pins like Vcc and ground are classified under this type.
Address signals: Signals associated with the lower order address bus and time multiplexed higher order address bus comes under this type of signals.
Data Signals: Signals associated with data bus comes under this type.
Control and Status Signals: Signals which are associated with timing and control unit such HOLD, RW’, WR’ etc. comes under this type of signals.
Interrupt Signals: We know that signals like TRAP, RST 5.5 etc. are interrupt signals. Such signals come under this category.
Serial I/O signals: These signals are used for giving serial input and output data. Signals like SID, SOD come under this category.
Acknowledgement Signals: Signals like INTA’, HLDA acts as acknowledgement signal for 8085 microprocessor.
Address Bus:
The pins A8-A15 denote the address bus. They are used for the most significant bit of memory address.
Address/Data Bus:
AD0-AD7 constitutes the Address/Data bus. They are time multiplexed. These pins are used for least significant bits of address bus in the first machine clock cycle and used as data bus for second and third clock cycle.
But what is a clock cycle? What is first clock cycle and second, third so on...
A clock cycle is nothing but the time taken between two adjacent pulses of the oscillator. In simple words clock cycle refers to the transition between o volts to 5 volts and back to 0 volts. So the first clock cycle means the first transition of pulse from 0volts to 5 volts and then back to 0 volts.
ALE: Address Latch Enable:
In the previous article we saw how ALE helps in demultiplexing the lower order address and data bus. This signal goes high during the first clock cycle and enables the lower order address bits. The lower order address bus is added to memory or any external latch.
IO/M’:
Consider we have an address to be processed. But how do the processors know whether the address is for memory or I/O functions? For this purpose a status signal called IO/M’ is used. This distinguishes whether the address is for memory or IO. When this pin goes high, the address is for an I/O device. While the pin goes low, the address is assigned for the memory.
S0-S1:
S0 and S1 are status signals which provides different status and functions depending on their status.
RD’:
This is an active low signal. That is, an operation is performed when the signal goes low. This signal is used to control READ operation of the microprocessor. When this pin goes low the microprocessor reads the data from memory or I/O device.
WR’:
WR’ is also an active low signal which controls the write operations of the microprocessor. When this pin goes low, the data is written to the memory or I/O device.
READY:
READY is used by the microprocessor to check whether a peripheral is ready to accept or transfer data. A peripheral may be a LCD display or analog to digital converter or any other. These peripherals are connected to microprocessor using the READY pin. If READY is high then the periphery is ready for data transfer. If not the microprocessor waits until READY goes high.
HOLD:
This indicates if any other device is requesting the use of address and data bus. Consider two peripheral devices. One is the LCD and the other Analog to Digital converter. Suppose if analog to digital converter is using the address and data bus and if LCD requests the use of address and data bus by giving HOLD signal, then the microprocessor transfers the control to the LCD as soon as the current cycle is over. After the LCD process is over, the control is transferred back to analog and digital converter.
HLDA:
HLDA is the acknowledgment signal for HOLD. It indicates whether the HOLD signal is received or not. After the execution of HOLD request, HLDA goes low.
INTR:
INTR is an interrupt request signal. It has the lowest priority among the interrupts. INTR can be enabled or disabled by using software. Whenever INTR goes high the microprocessor completes the current instruction which is being executed and then acknowledges the INTR signal and processes it.
INTA’:
Whenever the microprocessor receives interrupt signal. It has to be acknowledged. This acknowledgement is done by INTA’. So whenever the interrupt is received INTA’ goes high.
RST 5.5, 6.5, 7.5:
These are nothing but the restart interrupts. They insert an internal restart function automatically.
All the above mentioned interrupts are maskable interrupts. That is, they can be enabled or disabled using programs.
TRAP:
Among the interrupts of 8085 microprocessor, TRAP is the only non-maskable interrupt. It cannot be enabled or disabled using a program. It has the highest priority among the interrupts.
PRIORITY ORDER (From highest to lowest)
TRAP
RST 7.5
RST 6.5
RST 5.5
INTR
RESET IN’:
This pin resets the program counter to 0 and resets interrupt enable and HLDA flip-flops. The CPU is held in reset condition until this pin is high. However the flags and registers won’t get affected except for instruction register.
RESET OUT:
This pin indicates that the CPU has been reset by RESET IN’.
X1 X2:
These are the terminals which are connected to external oscillator to produce the necessary and suitable clock operation.
CLK:
Sometimes it is necessary for generating clock outputs from microprocessors so that they can be used for other peripherals or other digital IC’s. This is provided by CLK pin. Its frequency is always same as the frequency at which the microprocessor operates.
SID:
This pin provides serial input data. The serial data on this pin is loaded into the seventh bit of the accumulator when RIM instruction is executed.
RIM stands for READ INTERRUPT MASK, which checks whether the interrupt is masked or not.
SOD:
This pin provides the serial output data. The serial data on this pin delivers its output to the seventh bit of the accumulator when SIM instruction is executed.
Vcc and Vss:
Vcc is +5v pin and Vss is ground pin.
Thus the pin diagram and signals of 8085 microprocessor are explained in detail.
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