HT45R37V Holtek Semiconductor Inc., HT45R37V Datasheet - Page 25

HT45R37V

Manufacturer Part Number

HT45R37V

Description

C/r-f Type 8-bit Otp Mcu

Manufacturer

Holtek Semiconductor Inc.

Datasheet

1.HT45R37V.pdf (90 pages)

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Timer/Event Counters

The provision of timers form an important part of any

microcontroller, giving the designer a means of carrying

out time related functions. The device contains two 8-bit

count-up timers. As each timer has three different oper-

ating modes, they can be configured to operate as a

general timer, an external event counter or as a pulse

width measurement device. The provision of a prescaler

to the clock circuitry of the 8-bit Timer/Event Counter

also gives added range to this timer.

There are two types of registers related to the

Timer/Event Counters. The first are the registers that

contain the actual value of the Timer/Event Counter and

into which an initial value can be preloaded. Reading

from these registers retrieves the contents of the

Timer/Event Counter. The second type of associated

timer options and determines how the Timer/Event

Counter is to be used. The Timer/Event Counters can

have the their clock configured to come from an internal

clock source. In addition, their clock source can also be

configured to come from an external timer pin.

Configuring the Timer/Event Counter Input Clock

Source

The internal timer s clock can originate from various

sources. The system clock source is used when the

Timer/Event Counter is in the timer mode or in the pulse

width measurement mode. This internal clock source is

tio of which is conditioned by the Timer Control Register,

TMRnC, bits TnPSC0~ TnPSC2.

An external clock source is used when the timer is in the

event counting mode, the clock source being provided

on an external timer pin TMR0 or TMR1 depending

upon which timer is used. Depending upon the condition

of the TnE bit, each high to low, or low to high transition

on the external timer pin will increment the counter by

one.

Timer Registers - TMR0, TMR1

The timer registers are special function registers located in

the Special Purpose Data Memory and is the place where

the actual timer value is stored. These registers are known

as TMR0 or TMR1. The value in the timer registers in-

creases by one each time an internal clock pulse is re-

ceived or an external transition occurs on the external

timer pin. The timer will count from the initial value loaded

by the preload register to the full count of FFH at which

point the timer overflows and an internal interrupt signal is

generated. The timer value will then be reset with the initial

preload register value and continue counting.

To achieve a maximum full range count of FFH for the

8-bit timer, the preload registers must first be cleared to

all zeros. It should be noted that after power-on, the

Rev. 1.00

SYS

which is also divided by a prescaler, the division ra-

preload register will be in an unknown condition. Note

that if the Timer/Event Counter is switched off and data

is written to its preload registers, this data will be imme-

diately written into the actual timer registers. However, if

the Timer/Event Counter is enabled and counting, any

new data written into the preload data registers during

this period will remain in the preload registers and will

only be written into the timer registers the next time an

overflow occurs.

Timer Control Registers - TMR0C, TMR1C

The flexible features of the Holtek microcontroller

Timer/Event Counters enable them to operate in three

different modes, the options of which are determined by

the contents of their respective control register.

It is the Timer Control Register together with its corre-

sponding timer registers that control the full operation of

the Timer/Event Counters. Before the timers can be

used, it is essential that the appropriate Timer Control

sure its correct operation, a process that is normally car-

ried out during program initialisation.

To choose which of the three modes the timer is to oper-

ate in, either in the timer mode, the event counting mode

or the pulse width measurement mode, bits 7 and 6 of

the corresponding Timer Control Register, which are

known as the bit pair TnM1/TnM0, must be set to the re-

quired logic levels. The timer-on bit, which is bit 4 of the

Timer Control Register and known as TnON, depending

upon which timer is used, provides the basic on/off con-

trol of the respective timer. Setting the bit high allows the

counter to run, clearing the bit stops the counter. For tim-

ers that have prescalers, bits 0~2 of the Timer Control

prescaler. The prescaler bit settings have no effect if an

external clock source is used. If the timer is in the event

count or pulse width measurement mode, the active

transition edge level type is selected by the logic level of

bit 3 of the Timer Control Register which is known as

TnE.

Configuring the Timer Mode

In this mode, the Timer/Event Counter can be utilised to

measure fixed time intervals, providing an internal inter-

rupt signal each time the Timer/Event Counter over-

flows. To operate in this mode, the Operating Mode

Select bit pair, TnM1/TnM0, in the Timer Control Regis-

ter must be set to the correct value as shown.

In this mode the internal clock, f

nal clock for the Timer/Event Counter. However, the

clock source, f

Control Register Operating Mode

Select Bits for the Timer Mode

SYS

, for the 8-bit timer is further divided by

SYS

, is used as the inter-

October 20, 2009

HT45R37V

Bit7 Bit6

HT45R37V Holtek Semiconductor Inc., HT45R37V Datasheet - Page 25

HT45R37V

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