ST10F280 Datasheet, PDF(57/186 Page) STMicroelectronics – 16-BIT MCU WITH MAC UNIT, 512K BYTE FLASH MEMORY AND 18K BYTE RAM

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ST10F280 Datasheet, PDF (57/186 Pages) STMicroelectronics – 16-BIT MCU WITH MAC UNIT, 512K BYTE FLASH MEMORY AND 18K BYTE RAM

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ST10F280

10 - GENERAL PURPOSE TIMER UNIT

The GPT unit is a flexible multifunctional timer/

counter structure which is used for time related

tasks such as event timing and counting, pulse

width and duty cycle measurements, pulse

generation, or pulse multiplication. The GPT unit

contains five 16-bit timers organized into two

separate modules GPT1 and GPT2. Each timer in

each module may operate independently in

several different modes, or may be concatenated

with another timer of the same module.

10.1 - GPT1

Each of the three timers T2, T3, T4 of the GPT1

module can be configured individually for one of

four basic modes of operation: timer, gated timer,

counter mode and incremental interface

mode.

In timer mode, the input clock for a timer is derived

from the CPU clock, divided by a programmable

prescaler.

In counter mode, the timer is clocked in reference

to external events.

Pulse width or duty cycle measurement is

supported in gated timer mode where the

operation of a timer is controlled by the âgateâ level

on an external input pin. For these purposes, each

timer has one associated port pin (TxIN) which

serves as gate or clock input.

Table 11 lists the timer input frequencies,

resolution and periods for each pre-scaler option

at 40MHz CPU clock. This also applies to the

Gated Timer Mode of T3 and to the auxiliary

timers T2 and T4 in Timer and Gated Timer Mode.

The count direction (up/down) for each timer is

programmable by software or may be altered

dynamically by an external signal on a port pin

(TxEUD).

In Incremental Interface Mode, the GPT1 timers

(T2, T3, T4) can be directly connected to the

incremental position sensor signals A and B by

their respective inputs TxIN and TxEUD.

Direction and count signals are internally derived

from these two input signals so that the contents

of the respective timer Tx corresponds to the

sensor position. The third position sensor signal

TOP0 can be connected to an interrupt input.

Timer T3 has output toggle latches (TxOTL) which

changes state on each timer over flow / underflow.

The state of this latch may be output on port pins

(TxOUT) for time out monitoring of external

hardware components, or may be used internally

to clock timers T2 and T4 for high resolution of

long duration measurements.

In addition to their basic operating modes, timers

T2 and T4 may be configured as reload or capture

registers for timer T3. When used as capture or

reload registers, timers T2 and T4 are stopped.

The contents of timer T3 is captured into T2 or T4

in response to a signal at their associated input

pins (TxIN).

Timer T3 is reloaded with the contents of T2 or T4

triggered either by an external signal or by a

selectable state transition of its toggle latch

T3OTL. When both T2 and T4 are configured to

alternately reload T3 on opposite state transitions

of T3OTL with the low and high times of a PWM

signal, this signal can be constantly generated

without software intervention.

Table 11 : GPT1 Timer Input Frequencies, Resolution and Periods

fCPU = 40MHz

Pre-scaler factor

Input Freq

Resolution

Period maximum

000b

5MHz

200ns

13.1ms

Timer Input Selection T2I / T3I / T4I

001b

010b

011b

100b

101b

110b

111b

2.5MHz

400ns

26.2ms

1.25MHz

0.8Âµs

52.4ms

128

256

512

625kHz 312.5kHz 156.25kHz 78.125kHz

1.6Âµs

3.2Âµs

6.4Âµs

12.8Âµs

104.8ms 209.7ms 419.4ms 838.9ms

1024

39.1kHz

25.6Âµs

1.678s

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