AT83C51SND1C_03 ATMEL [ATMEL Corporation], AT83C51SND1C_03 Datasheet - Page 51

AT83C51SND1C_03

Manufacturer Part Number

AT83C51SND1C_03

Description

Single-Chip Flash Microcontroller with MP3 Decoder and Human Interface

Manufacturer

ATMEL [ATMEL Corporation]

Datasheet

1.AT83C51SND1C_03.pdf (210 pages)

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Timers/Counters

Timer/Counter

Operations

Timer Clock Controller

4109E–8051–06/03

The AT8xC51SND1C implement 2 general-purpose, 16-bit Timers/Counters. They are

identified as Timer 0 and Timer 1, and can be independently configured to operate in a

variety of modes as a Timer or as an event Counter. When operating as a Timer, the

Timer/Counter runs for a programmed length of time, then issues an interrupt request.

When operating as a Counter, the Timer/Counter counts negative transitions on an

external pin. After a preset number of counts, the Counter issues an interrupt request.

The various operating modes of each Timer/Counter are described in the following

sections.

For instance, a basic operation is Timer registers THx and TLx (x = 0, 1) connected in

cascade to form a 16-bit Timer. Setting the run control bit (TRx) in TCON register (see

Table 60) turns the Timer on by allowing the selected input to increment TLx. When TLx

overflows it increments THx; when THx overflows it sets the Timer overflow flag (TFx) in

TCON register. Setting the TRx does not clear the THx and TLx Timer registers. Timer

registers can be accessed to obtain the current count or to enter preset values. They

can be read at any time but TRx bit must be cleared to preset their values, otherwise,

the behavior of the Timer/Counter is unpredictable.

The C/Tx# control bit selects Timer operation or Counter operation by selecting the

divided-down peripheral clock or external pin Tx as the source for the counted signal.

TRx bit must be cleared when changing the mode of operation, otherwise the behavior

of the Timer/Counter is unpredictable.

For Timer operation (C/Tx# = 0), the Timer register counts the divided-down peripheral

clock. The Timer register is incremented once every peripheral cycle (6 peripheral clock

periods). The Timer clock rate is F

mode.

For Counter operation (C/Tx# = 1), the Timer register counts the negative transitions on

the Tx external input pin. The external input is sampled every peripheral cycles. When

the sample is high in one cycle and low in the next one, the Counter is incremented.

Since it takes 2 cycles (12 peripheral clock periods) to recognize a negative transition,

the maximum count rate is F

mode. There are no restrictions on the duty cycle of the external input signal, but to

ensure that a given level is sampled at least once before it changes, it should be held for

at least one full peripheral cycle.

As shown in Figure 28, the Timer 0 (FT0) and Timer 1 (FT1) clocks are derived from

either the peripheral clock (F

and T1X2 bits in CKCON register. These clocks are issued from the Clock Controller

block as detailed in Section “Clock Controller”, page 12. When T0X2 or T1X2 bit is set,

the Timer 0 or Timer 1 clock frequency is fixed and equal to the oscillator clock fre-

quency divided by 2. When cleared, the Timer clock frequency is equal to the oscillator

clock frequency divided by 2 in standard mode or to the oscillator clock frequency in X2

mode.

PER

) or the oscillator clock (F

/12, i.e., F

PER

/6, i.e., F

OSC

/24 in standard mode or F

/12 in standard mode or F

AT8xC51SND1C

OSC

) depending on the T0X2

OSC

/12 in X2

/6 in X2

AT83C51SND1C_03 ATMEL [ATMEL Corporation], AT83C51SND1C_03 Datasheet - Page 51

AT83C51SND1C_03

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