Basics

Timer/Counter Unit

Timers come in handy when you want to set some time interval like your alarm. This can be very precise to a few microseconds. Timers/Counters are essential part of any modern MCU. Remember it is the same hardware unit inside the MCU that is used either as Timers or Counter. Timers/counters are an independent unit inside a micro-controller. They basically run independently of what task CPU is performing. Hence they come in very handy, and are primarily used for the following:

  • Internal Timer: As an internal timer the unit, ticks on the oscillator frequency. The oscillator frequency can be directly feed to the timer or it can be pre-scaled. In this mode it used generate precise delays. Or as precise time counting machine.
  • External Counter: In this mode the unit is used to count events on a specific external pin on a MCU.
  • Pulse width Modulation(PWM) Generator: PWM is used in speed control of motors and various other applications.

Atmega32 has 3 timer units, timer 0, timer 1 and timer 2 respectively. Let us start our exploration with timer 0.

Timer 0 Basics

Timer 0.png

Timer 0 is a 8 bit timer. It basically means it can count from 0 to 2^8 255. The operation of timer 0 is straight forward. The TCNT0 register hold the timer Count and it is incremented on every timer "tick". If the timer is turned on it ticks from 0 to 255 and overflows. If it does so, a Timer OverFlow Flag(TOV) is set.

You can as well load a count value in TCNT0 and start the timer from a specific count. Another interesting feature is that a value can be set in the Output Compare Register (OCR0), and whenever TCNT0 reaches that value, the Output Compare Flag (OCF0) flag is Set.


TCNT0
Timer/Counter 0
D7 D6 D5 D4 D3 D2 D1 D0

The configuration of the Timer can be set using the TCCR0 register shown below. With this you can basically select two things:

  1. The Frequency of the Clock Source with CS02, CS01, CS00 bits.
  2. The mode of the timer. For the first example we will use it in normal mode where it ticks from zero to the highest value(255)
TCCR0
Timer Counter Control Register 0
D7 D6 D5 D4 D3 D2 D1 D0
FOC0 WGM00 COM01 COM00 WGM01 CS02 CS01 CS00


D2 D1 D0 Clock Source
CS02 CS01 CS00 Freq
0 0 0 No Clock (Stopped)
0 0 1 Clk
0 1 0 Clk/8
0 1 1 Clk/64
1 0 0 Clk/256
1 0 1 Clk/1024
1 1 0 Clk/T0-Falling edge
1 1 1 Clk/T0-Rising Edge


D6 D3 PWM
WGM00 WGM01 Mode
0 0 Normal
0 1 CTC (Clear timer on compare match)
1 0 PWM (Phase correct)
1 1 Fast PWM

The Timer/counter Interrupt Flag Register(TIFR) holds the two basic flags we need the TOV and OVF. Other bits correspond to the timer interrupts, which we will look at in another tutorial.

TIFR
Timer/Counter 0 Flag Register
D7 D6 D5 D4 D3 D2 D1 D0
OCF2 TOV2 ICF1 OCF1A OCF1B TOV1 OCF0 TOV0

Timer 0 Example

Let us do a simple example to set the timer 0 in normal mode and toggle an LED when it overflows. To accomplish this, we'll do the following steps.

  1. Load TCNT0 with 0x00
  2. Set CS00 and CS02 bits in TCCR0 register. This will start the timer at Clk/1024 speed. We will calculate the tick time in just a moment.
  3. Monitor the TOV0 flag in the TIFR0 register to check if the timer has over-flowed and toggle the LED status.

How much delay does it generate?

Okay, lets calculate. The Explore Ultra AVR dev board comes with a 16MHz on board crystal and the fuse bits are set appropriately. $$Ftimer = 16MHz/1024 = 15.625KHz $$ $$Ttick = 1/ 15.625K = 64 micro seconds$$ $$Ttotal = 64us x 255 = 16mSec$$

Timer 1

TCNT1H TCNT1L
Timer/Counter 1
D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0


COM1A1||COM1A0||COM1B1||COM1B0||FOC1A||FOC1B||WGM11||WGM10
TCCR1A
Timer Counter Control Register 0
D7 D6 D5 D4 D3 D2 D1 D0


D2 D1 D0 Clock Source
CS02 CS01 CS00 Freq
0 0 0 No Clock (Stopped)
0 0 1 Clk
0 1 0 Clk/8
0 1 1 Clk/64
1 0 0 Clk/256
1 0 1 Clk/1024
1 1 0 Clk/T0-Falling edge
1 1 1 Clk/T0-Rising Edge


D6 D3 PWM
WGM00 WGM01 Mode
0 0 Normal
0 1 CTC (Clear timer on compare match)
1 0 PWM (Phase correct)
1 1 Fast PWM


TIFR
Timer/Counter 1 Flag Register
D7 D6 D5 D4 D3 D2 D1 D0
OCF2 TOV2 ICF1 OCF1A OCF1B TOV1 OCF0 TOV0

Timer 2