ST72324J6 STMicroelectronics, ST72324J6 Datasheet - Page 31

ST72324J6

Manufacturer Part Number

ST72324J6

Description

8-BIT MCU WITH NESTED INTERRUPTS, FLASH, 10-BIT ADC, 4 TIMERS, SPI, SCI INTERFACE

Manufacturer

STMicroelectronics

Datasheet

1.ST72324J6.pdf (164 pages)

Specifications of ST72324J6

Hdflash Endurance

100 cycles, data retention

Clock Sources

crystal/ceramic resonator oscillators, internal RC oscillator, clock security system and bypass for external clock

Four Power Saving Modes

Halt, Active-Halt, Wait and Slow

Main Clock Controller With

Real time base, Beep and Clock-out capabilities

16-bit Timer A With

1 input capture, 1 output compare, external clock input, PWM and pulse generator modes

16-bit Timer B With

2 input captures, 2 output compares, PWM and pulse generator modes

Current page: 31 of 164
Download datasheet (3Mb)

7 INTERRUPTS

7.1 INTRODUCTION

The ST7 enhanced interrupt management pro-

vides the following features:

■

This interrupt management is based on:

– Bit 5 and bit 3 of the CPU CC register (I1:0),

– Interrupt software priority registers (ISPRx),

– Fixed interrupt vector addresses located at the

This enhanced interrupt controller guarantees full

upward compatibility with the standard (not nest-

ed) ST7 interrupt controller.

7.2 MASKING AND PROCESSING FLOW

The interrupt masking is managed by the I1 and I0

bits of the CC register and the ISPRx registers

which give the interrupt software priority level of

each interrupt vector (see

ing flow is shown in

Figure 17. Interrupt Processing Flowchart

high addresses of the memory map (FFE0h to

FFFFh) sorted by hardware priority order.

– Up to 4 software programmable nesting levels

– Up to 16 interrupt vectors fixed by hardware

– 2 non maskable events: RESET, TRAP

Hardware interrupts

Software interrupt (TRAP)

Nested or concurrent interrupt management

with

management:

flexible

RESTORE PC, X, A, CC

FROM STACK

RESET

interrupt

Figure 17

Table

priority

6). The process-

and

INSTRUCTION

INTERRUPT

INSTRUCTION

FETCH NEXT

PENDING

EXECUTE

“IRET”

level

When an interrupt request has to be serviced:

– Normal processing is suspended at the end of

– The PC, X, A and CC registers are saved onto

– I1 and I0 bits of CC register are set according to

– The PC is then loaded with the interrupt vector of

The interrupt service routine should end with the

IRET instruction which causes the contents of the

saved registers to be recovered from the stack.

Note: As a consequence of the IRET instruction,

the I1 and I0 bits will be restored from the stack

and the program in the previous level will resume.

Table 6. Interrupt Software Priority Levels

Level 0 (main)

Level 1

Level 2

Level 3 (= interrupt disable)

Interrupt software priority

the current instruction execution.

the stack.

the corresponding values in the ISPRx registers

of the serviced interrupt vector.

the interrupt to service and the first instruction of

the interrupt service routine is fetched (refer to

“Interrupt Mapping” table for vector addresses).

THE INTERRUPT

STAYS PENDING

Interrupt has the same or a

LOAD I1:0 FROM INTERRUPT SW REG.

LOAD PC FROM INTERRUPT VECTOR

lower software priority

than current one

STACK PC, X, A, CC

ST72324Jx ST72324Kx

Level

High

Low

TRAP

I1:0

31/164

ST72324J6 STMicroelectronics, ST72324J6 Datasheet - Page 31

ST72324J6

Specifications of ST72324J6

Related parts for ST72324J6