HT46R4A Holtek Semiconductor, HT46R4A Datasheet - Page 38

HT46R4A

Manufacturer Part Number

HT46R4A

Description

Cost-Effective A/D Type 8-Bit MCU

Manufacturer

Holtek Semiconductor

Datasheet

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If the system is woken up by an interrupt, then two possi-

ble situations may occur. The first is where the related

interrupt is disabled or the interrupt is enabled but the

stack is full, in which case the program will resume exe-

cution at the instruction following the HALT instruction.

In this situation, the interrupt which woke-up the device

will not be immediately serviced, but will rather be ser-

viced later when the related interrupt is finally enabled or

when a stack level becomes free. The other situation is

where the related interrupt is enabled and the stack is

not full, in which case the regular interrupt response

takes place. If an interrupt request flag is set to 1 be-

fore entering the Power Down Mode, the wake-up func-

tion of the related interrupt will be disabled.

No matter what the source of the wake-up event is, once

a wake-up situation occurs, a time period equal to 1024

system clock periods will be required before normal sys-

tem operation resumes. However, if the wake-up has

originated due to an interrupt, the actual interrupt sub-

routine execution will be delayed by an additional one or

more cycles. If the wake-up results in the execution of

the next instruction following the HALT instruction, this

will be executed immediately after the 1024 system

clock period delay has ended.

Watchdog Timer

The Watchdog Timer is provided to prevent program mal-

functions or sequences from jumping to unknown loca-

tions, due to certain uncontrollable external events such

as electrical noise. It operates by providing a device reset

when the WDT counter overflows. The WDT clock is sup-

plied by one of two sources selected by configuration op-

tion: its own self contained dedicated internal WDT

oscillator or f

tion has been disabled, then any instruction relating to its

operation will result in no operation.

In the device, all Watchdog Timer options, such as en-

able/disable, WDT clock source and clear instruction

type all selected through configuration options. There

are no internal registers associated with the WDT in the

Cost-Effective A/D Type MCU series. One of the WDT

clock sources is an internal oscillator which has an ap-

proximate period of 65 s at a supply voltage of 5V. How-

ever, it should be noted that this specified internal clock

period can vary with VDD, temperature and process

variations. The other WDT clock source option is the

Rev. 1.00

SYS

/4 clock. Whether the WDT clock source is its own

SYS

/4. Note that if the WDT configuration op-

Watchdog Timer

internal WDT oscillator, or from f

vided by 16 via an internal 15-bit counter and a clearable

single bit counter to give longer Watchdog time-outs. As

this ratio is fixed it gives an overall Watchdog Timer

time-out value of 2

only resets the last stage of the divider chain, for this

reason the actual division ratio and corresponding

Watchdog Timer time-out can vary by a factor of two.

The exact division ratio depends upon the residual value

in the Watchdog Timer counter before the clear instruc-

tion is executed. It is important to realise that as there

are no independent internal registers or configuration

options associated with the length of the Watchdog

Timer time-out, it is completely dependent upon the fre-

quency of f

If the f

should be noted that when the system enters the Power

Down Mode, then the instruction clock is stopped and

the WDT will lose its protecting purposes. For systems

that operate in noisy environments, using the internal

WDT oscillator is strongly recommended.

Under normal program operation, a WDT time-out will

initialise a device reset and set the status bit TO. How-

ever, if the system is in the Power Down Mode, when a

WDT time-out occurs, the TO bit in the status register

will be set and only the Program Counter and Stack

Pointer will be reset. Three methods can be adopted to

clear the contents of the WDT. The first is an external

hardware reset, which means a low level on the RES

pin, the second is using the watchdog software instruc-

tions and the third is via a HALT instruction.

There are two methods of using software instructions to

clear the Watchdog Timer, one of which must be chosen

by configuration option. The first option is to use the sin-

gle CLR WDT instruction while the second is to use the

two commands CLR WDT1 and CLR WDT2 . For the

first option, a simple execution of CLR WDT will clear

the WDT while for the second option, both CLR WDT1

and CLR WDT2 must both be executed to successfully

clear the WDT. Note that for this second option, if CLR

WDT1 is used to clear the WDT, successive executions

of this instruction will have no effect, only the execution of

a CLR WDT2 instruction will clear the WDT. Similarly

after the CLR WDT2 instruction has been executed,

only a successive CLR WDT1 instruction can clear the

Watchdog Timer.

SYS

/4 clock is used as the WDT clock source, it

SYS

/4 or the internal WDT oscillator.

to 2

. As the clear instruction

SYS

November 28, 2007

/4, it is further di-

HT46R4A

HT46R4A Holtek Semiconductor, HT46R4A Datasheet - Page 38

HT46R4A

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