In this tutorial, we are going to discuss the Timer module of 8051.
First, we will see what are timers, their working and later we will configure the 8051 timers to generate the delay of 100ms and 500ms respectively. At the end, we will see how to use the ExploreEmdedded Timer library.

8051 Timer Module

8051 has two indepenndent timer which can be used as timer(to generate delays)/Counters(count external events).
Timer 1 is also used for generating baud rate in serial communication, which we will discuss in the next tutorial
Below table provides the details of the 8051 Timers.

Timer Size Control Register Count Register Min Delay Max Delay
TIMER0 16-bit TMOD,TCON TH0,TL0 0.2usec 13.107ms
TIMER1 16-bit TMOD,TCON TH1,TL1 0.2usec 104.857ms
TIMER2(8052 only) 16-bit TMOD,TCON TH1,TL1 0.2usec 104.857ms

Timer Calculation

8051 Oscillator frequency is divided by 12 and then fed to the controller, Time to increment the Timer count by one(timer tick) can be determined as below.
tick = (1/(Fosc/12)
$$tick = 12/Fosc$$ For Fosc == 11.0592Mhz, the tick time will be
tick = 12/11.0592M = 1.085069444us = 1.085us

Now the Timer value for the required delay can be calculated as below.
Delay = TimerCount * tick
Count = (Delay/tick)
RegValue = TimerMax- Count
RegValue = TimerMax-(Delay/tick) = TimerMax - (Delay/1.085us)
$$RegValue = TimerMax-((Delay/1.085) * 10^6)$$

Timer Basics

As the name suggests these are used to measure the time or generate the accurate time delay. The microcontroller can also generate/measure the required time delays by running loops, but the timer/counter relieves the CPU from that redundant and repetitive task, allowing it to allocate maximum processing time for other tasks.

The timer is nothing but a simple binary counter that can be configured to count clock pulses(Internal/External). Once it reaches the Max value, it will roll back to zero setting up an OverFlow flag and generates the interrupt if enabled.

Timer.gif


fig 1:Basic Timer

The Timer 0 is 16 bit wide as shown. This can be accessed as 2 eight bit registers TL0 and TL1. Same applies to Timer 1. The 8051 timer and counter are the same units, but in this tutorial, we will discuss only the timer unit to simplify the discussion. Fig 1, shows the basic 8051 timer unit. The registers TCON and TMOD affect the timer operation. The clock frequency is divided by 12 and used by the timer unit. Thus if a 11.0592MHz external crystal is used, the timer uses a frequency of 921KHz. Thus timer increments every (1/921Khz) = 1.085μ seconds.

  • The C/Ṫ = 0 bit of TMOD register selects operation of Timer/counter unit as timer.
  • The TR bit of TCON register is used to start the timer.

Timer Registers

TMOD
Timer1 Timer 0
7 6 5 4 3 2 1 0
Gate C/T M1 M0 Gate C/T M1 M0
  • Gate Control

0 = Timer enabled
1 = Timer enabled if INTx\ is high

  • C/T:Counter or Timer Selector

0 = Internal count source (clock/12)
1 = External count source T0/T1(P3.4/P3.5) pin.

  • M1-M0:Mode Control

00-Mode 0, 13 bit count mode
01-Mode 1, 16 bit count mode
10-Mode 2, Auto reload mode
11-Mode 3, Split Timer mode

TCON Register

Table 4. TCON Register
TCON
D7 D6 D5 D4 D3 D2 D1 D0
TF1 TR1 TF0 TR0 IE1 IT1 IE0 IT0
Timer1 Timer 0 Interrupts
fig 2:Mode 0
fig 3:Mode 1
fig 4:Mode 2





Timer Example

This example will demonstrate use of Timer 0 for generating delay. We will use Timer 0 in mode 1 to generate a delay of 50ms and will toggle pins of P3 every 50ms

#include<reg51.h>
void delay_t0(void);// function prototype
 
void delay_t0()
{
   TMOD = 0x01; //Timer zero mode 1  
   TH0 = 0X4B; 
   TL0 = 0XFF;
   TR0 = 1; //turn ON Timer zero
   while(TF0 == 0);
   TF0 = 0; //clear the timer
   TR0 = 0;
}
void main()
{
  P3 = 0x00; //set port as output  
  while(1)
  {
   P3 = 0XFF;
   delay_t0();
   P3 = 0X00;
   delay_t0();
  } 
}


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