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M16C/6S Group Interrupts

R01DS0201EJ0502 Rev.5.02 page 55 of 203

Dec 25, 2012

Interrupt Sequence

An interrupt sequence — what are performed over a period from the instant an interrupt is accepted to the

instant the interrupt routine is executed — is described here.

If an interrupt occurs during execution of an instruction, the processor determines its priority when the

execution of the instruction is completed, and transfers control to the interrupt sequence from the next

cycle. If an interrupt occurs during execution of either the SMOVB, SMOVF, SSTR or RMPA instruction,

the processor temporarily suspends the instruction being executed, and transfers control to the interrupt

sequence.

The CPU behavior during the interrupt sequence is described below. Figure 1.9.4 shows time required for

executing the interrupt sequence.

(1) The CPU gets interrupt information (interrupt number and interrupt request priority level) by reading the

address 0000016. Then it clears the IR bit for the corresponding interrupt to “0” (interrupt not re-

quested).

(2) The FLG register immediately before entering the interrupt sequence is saved to the CPU’s internal

temporary register

(Note 1)

(3) The I, D and U flags in the FLG register become as follows:

The I flag is cleared to “0” (interrupts disabled).

The D flag is cleared to “0” (single-step interrupt disabled).

The U flag is cleared to “0” (ISP selected).

However, the U flag does not change state if an INT instruction for software interrupt Nos. 32 to 63 is

executed.

(4) The CPU’s internal temporary register

(Note 1)

is saved to the stack.

(5) The PC is saved to the stack.

(6) The interrupt priority level of the accepted interrupt is set in the IPL.

(7) The start address of the relevant interrupt routine set in the interrupt vector is stored in the PC.

After the interrupt sequence is completed, the processor resumes executing instructions from the start

address of the interrupt routine.

Note: This register cannot be used by user.

Indeterminate

12 34 56789 101112 13 14 15 16 17 18

Indeterminate

SP-2

contents

SP-4

contents

vec

contents

vec+2

contents

Interrupt

information

Address

0000

Indeterminate SP-2 SP-4 vec vec+2 PC

CPU clock

Address bus

Data bus

The indeterminate state depends on the instruction queue buffer. A read cycle occurs when the

instruction queue buffer is ready to accept instructions.

Figure 1.9.4. Time Required for Executing Interrupt Sequence