HT46R65-56 데이터 시트보기 (PDF) - Holtek Semiconductor

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HT46R65-56

(HT46R063B - HT46R065B) Enhanced A/D Type 8-Bit OTP MCU

Holtek Semiconductor 

HT46R65/HT46C65

The real time clock interrupt is initialized by setting the

real time clock interrupt request flag (RTF; bit 6 of

INTC1), that is caused by a regular real time clock sig-

nal. After the interrupt is enabled, and the stack is not

full, and the RTF bit is set, a subroutine call to location

18H occurs. The related interrupt request flag (RTF) is

reset and the EMI bit is cleared to disable further

maskable interrupts.

During the execution of an interrupt subroutine, other

maskable interrupt acknowledgments are all held until

the ²RETI² instruction is executed or the EMI bit and the

related interrupt control bit are set both to 1 (if the stack

is not full). To return from the interrupt subroutine, ²RET²

or ²RETI² may be invoked. RETI sets the EMI bit and en-

ables an interrupt service, but RET does not.

Interrupts occurring in the interval between the rising

edges of two consecutive T2 pulses are serviced on the

latter of the two T2 pulses if the corresponding interrupts

are enabled. In the case of simultaneous requests, the

priorities in the following table apply. These can be

masked by resetting the EMI bit.

Interrupt Source

Priority Vector

External interrupt 0

1

04H

External interrupt 1

2

08H

Timer/Event Counter 0 overflow

3

0CH

Timer/Event Counter 1 overflow

4

10H

Time base interrupt

5

14H

Real time clock interrupt

6

18H

The Timer/Event Counter 0 interrupt request flag (T0F),

external interrupt 1 request flag (EIF1), external inter-

rupt 0 request flag (EIF0), enable Timer/Event Counter

0 interrupt bit (ET0I), enable external interrupt 1 bit

(EEI1), enable external interrupt 0 bit (EEI0), and en-

able master interrupt bit (EMI) make up of the Interrupt

Control register 0 (INTC0) which is located at 0BH in the

RAM. The real time clock interrupt request flag (RTF),

time base interrupt request flag (TBF), Timer/Event

Counter 1 interrupt request flag (T1F), enable real time

clock interrupt bit (ERTI), and enable time base interrupt

bit (ETBI), enable Timer/Event Counter 1 interrupt bit

(ET1I) on the other hand, constitute the Interrupt Control

O SC3

register 1 (INTC1) which is located at 1EH in the RAM.

EMI, EEI0, EEI1, ET0I, ET1I, ETBI, and ERTI are all

used to control the enable/disable status of interrupts.

These bits prevent the requested interrupt from being

serviced. Once the interrupt request flags (RTF, TBF, T0F,

T1F, EIF1, EIF0) are all set, they remain in the INTC1 or

INTC0 respectively until the interrupts are serviced or

cleared by a software instruction.

It is recommended that a program should not use the

²CALL subroutine² within the interrupt subroutine. It¢s be-

cause interrupts often occur in an unpredictable manner

or require to be serviced immediately in some applica-

tions. During that period, if only one stack is left, and en-

abling the interrupt is not well controlled, operation of the

²call² in the interrupt subroutine may damage the origi-

nal control sequence.

Oscillator Configuration

The device provides three oscillator circuits for system

clocks, i.e., RC oscillator, crystal oscillator and 32768Hz

crystal oscillator, determined by options. No matter what

type of oscillator is selected, the signal is used for the

system clock. The HALT mode stops the system oscilla-

tor (RC and crystal oscillator only) and ignores external

signal in order to conserve power. The 32768Hz crystal

oscillator still runs at HALT mode. If the 32768Hz crystal

oscillator is selected as the system oscillator, the system

oscillator is not stopped; but the instruction execution is

stopped. Since the 32768Hz oscillator is also designed

for timing purposes, the internal timing (RTC, time base,

WDT) operation still runs even if the system enters the

HALT mode.

Of the three oscillators, if the RC oscillator is used, an

external resistor between OSC1 and VSS is required,

and the range of the resistance should be from 30kW to

750kW. The system clock, divided by 4, is available on

OSC2 with pull-high resistor, which can be used to syn-

chronize external logic. The RC oscillator provides the

most cost effective solution. However, the frequency of

the oscillation may vary with VDD, temperature, and the

chip itself due to process variations. It is therefore, not

suitable for timing sensitive operations where accurate

oscillator frequency is desired.

O SC1

V DD

470pF

O SC1

O SC4

O SC2

3 2 7 6 8 H z C r y s ta l/R T C O s c illa to r

C r y s ta l O s c illa to r

System Oscillator

fS Y S /4

O SC2

R C O s c illa to r

Note:

32768Hz crystal enable condition: For WDT clock source or for system clock source.

The external resistor and capacitor components connected to the 32768Hz crystal are not necessary to pro-

vide oscillation. For applications where precise RTC frequencies are essential, these components may be re-

quired to provide frequency compensation due to different crystal manufacturing tolerances.

Rev. 1.80

12

July 14, 2005

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