HT48R70A-1_07 HOLTEK [Holtek Semiconductor Inc], HT48R70A-1_07 Datasheet - Page 12

HT48R70A-1_07

Manufacturer Part Number

HT48R70A-1_07

Description

I/O Type 8-Bit MCU

Manufacturer

HOLTEK [Holtek Semiconductor Inc]

Datasheet

1.HT48R70A-1_07.pdf (39 pages)

Current page: 12 of 39
Download datasheet (302Kb)

The system can leave the HALT mode by means of an

external reset, an interrupt, an external falling edge sig-

nal on port A or a WDT overflow. An external reset

causes a device initialization and the WDT overflow per-

forms a warm reset . After the TO and PDF flags are

examined, the reason for chip reset can be determined.

The PDF flag is cleared by system power-up or execut-

ing the CLR WDT instruction and is set when execut-

ing the HALT instruction. The TO flag is set if the WDT

time-out occurs, and causes a wake-up that only resets

the Program Counter and SP; the others remain in their

original status.

The port A wake-up and interrupt methods can be con-

sidered as a continuation of normal execution. Each bit

in port A can be independently selected to wake-up the

device by options. Awakening from an I/O port stimulus,

the program will resume execution of the next instruc-

tion. If it awakens from an interrupt, two sequence may

occur. If the related interrupt is disabled or the interrupt

is enabled but the stack is full, the program will resume

execution at the next instruction. If the interrupt is en-

abled and the stack is not full, the regular interrupt re-

sponse takes place. If an interrupt request flag is set to

tion of the related interrupt will be disabled. Once a

wake-up event occurs, it takes 1024 t

period) to resume normal operation. In other words, a

dummy period will be inserted after a wake-up. If the

wake-up results from an interrupt acknowledge signal,

the actual interrupt subroutine execution will be delayed

by one or more cycles. If the wake-up results in the next

instruction execution, this will be executed immediately

after the dummy period is finished.

To minimize power consumption, all the I/O pins should

be carefully managed before entering the HALT status.

The RTC oscillator still runs in the HALT mode (if the

RTC oscillator is enabled).

Reset

There are three ways in which a reset can occur:

The WDT time-out during HALT is different from other

chip reset conditions, since it can perform a warm re -

set that resets only the Program Counter and SP, leav-

ing the other circuits in their original state. Some regis-

ters remain unchanged during other reset conditions.

Most registers are reset to the initial condition when

the reset conditions are met. By examining the PDF and

TO flags, the program can distinguish between different

Rev. 2.10

1 before entering the HALT mode, the wake-up func-

chip resets .

RES reset during normal operation

RES reset during HALT

WDT time-out reset during normal operation

SYS

(system clock

Note: Most applications can use the Basic Reset Cir-

Note: u stands for unchanged

To guarantee that the system oscillator is started and

stabilized, the SST (System Start-up Timer) provides an

extra-delay of 1024 system clock pulses when the sys-

tem reset (power-up, WDT time-out or RES reset) or the

system awakes from the HALT state.

When a system reset occurs, the SST delay is added

during the reset period. Any wake-up from HALT will en-

able the SST delay.

TO PDF

cuit as shown, however for applications with ex-

tensive noise, it is recommended to use the

Hi-noise Reset Circuit.

RES reset during power-up

RES reset during normal operation

RES wake-up HALT

WDT time-out during normal operation

WDT wake-up HALT

HT48R70A-1/HT48C70-1

Reset Configuration

Reset Timing Chart

Reset Circuit

RESET Conditions

August 7, 2007

HT48R70A-1_07 HOLTEK [Holtek Semiconductor Inc], HT48R70A-1_07 Datasheet - Page 12

HT48R70A-1_07

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