HT46R64 Holtek Semiconductor Inc., HT46R64 Datasheet - Page 11

HT46R64

Manufacturer Part Number

HT46R64

Description

Ht46r64/ht46c64 -- A/d With Lcd Type 8-bit Mcu

Manufacturer

Holtek Semiconductor Inc.

Datasheet

1.HT46R64.pdf (48 pages)

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Once an interrupt subroutine is serviced, other inter-

rupts are all blocked (by clearing the EMI bit). This

scheme may prevent any further interrupt nesting. Other

interrupt requests may take place during this interval,

but only the interrupt request flag will be recorded. If a

certain interrupt requires servicing within the service

routine, the EMI bit and the corresponding bit of the

INTC0 or of INTC1 may be set in order to allow interrupt

nesting. Once the stack is full, the interrupt request will

not be acknowledged, even if the related interrupt is en-

abled, until the SP is decremented. If immediate service

is desired, the stack should be prevented from becom-

ing full.

All these interrupts can support a wake-up function. As

an interrupt is serviced, a control transfer occurs by

pushing the contents of the program counter onto the

stack followed by a branch to a subroutine at the speci-

fied location in the ROM. Only the contents of the pro-

gram counter is pushed onto the stack. If the contents of

the register or of the status register (STATUS) is altered

by the interrupt service program which corrupts the de-

sired control sequence, the contents should be saved in

advance.

External interrupts are triggered by a an edge transition

of INT0 or INT1 (ROM code option: high to low, low to

high, low to high or high to low), and the related interrupt

request flag (EIF0; bit 4 of INTC0, EIF1; bit 5 of INTC0)

is set as well. After the interrupt is enabled, the stack is

not full, and the external interrupt is active, a subroutine

Rev. 1.80

Bit No.

3, 7

Label

ETBI

ERTI

EEI0

EEI1

ET0I

EIF0

EIF1

ET1I

TBF

RTF

EMI

T0F

T1F

Control the master (global) interrupt (1=enabled; 0=disabled)

Control the external interrupt 0 (1=enabled; 0=disabled)

Control the external interrupt 1 (1=enabled; 0=disabled)

Control the Timer/Event Counter 0 interrupt (1=enabled; 0=disabled)

External interrupt 0 request flag (1=active; 0=inactive)

External interrupt 1 request flag (1=active; 0=inactive)

Internal Timer/Event Counter 0 request flag (1=active; 0=inactive)

For test mode used only.

Must be written as 0 ; otherwise may result in unpredictable operation.

Control the Timer/Event Counter 1 interrupt (1=enabled; 0=disabled)

Control the time base interrupt (1=enabled; 0:disabled)

Control the real time clock interrupt (1=enabled; 0:disabled)

Unused bit, read as 0

Internal Timer/Event Counter 1 request flag (1=active; 0=inactive)

Time base request flag (1=active; 0=inactive)

Real time clock request flag (1=active; 0=inactive)

INTC0 (0BH) Register

INTC1 (1EH) Register

call to location 04H or 08H occurs. The interrupt request

flag (EIF0 or EIF1) and EMI bits are all cleared to disable

other maskable interrupts.

The internal Timer/Event Counter 0 interrupt is initial-

ized by setting the Timer/Event Counter 0 interrupt re-

quest flag (T0F; bit 6 of INTC0), which is normally

caused by a timer overflow. After the interrupt is en-

abled, and the stack is not full, and the T0F bit is set, a

subroutine call to location 0CH occurs. The related inter-

rupt request flag (T0F) is reset, and the EMI bit is

cleared to disable other maskable interrupts.

Timer/Event Counter 1 is operated in the same manner

but its related interrupt request flag is T1F (bit 4 of

INTC1) and its subroutine call location is 10H.

The time base interrupt is initialized by setting the time

base interrupt request flag (TBF; bit 5 of INTC1), that is

caused by a regular time base signal. After the interrupt

is enabled, and the stack is not full, and the TBF bit is

set, a subroutine call to location 14H occurs. The related

interrupt request flag (TBF) is reset and the EMI bit is

cleared to disable further maskable interrupts.

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.

Function

HT46R64/HT46C64

February 14, 2006

HT46R64 Holtek Semiconductor Inc., HT46R64 Datasheet - Page 11

HT46R64

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