MC9S08AW16CFUE Datasheet, PDF(112/324 Page) Freescale Semiconductor, Inc – MC9S08AW60 Features

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MC9S08AW16CFUE Datasheet, PDF (112/324 Pages) Freescale Semiconductor, Inc – MC9S08AW60 Features

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Chapter 7 Central Processor Unit (S08CPUV2)

7

0

CONDITION CODE REGISTER V 1 1 H I N Z C CCR

CARRY

ZERO

NEGATIVE

INTERRUPT MASK

HALF-CARRY (FROM BIT 3)

TWOâS COMPLEMENT OVERFLOW

Figure 7-2. Condition Code Register

Table 7-1. CCR Register Field Descriptions

Field

7

V

4

H

3

I

2

N

1

Z

0

C

Description

Twoâs Complement Overï¬ow Flag â The CPU sets the overï¬ow ï¬ag when a twoâs complement overï¬ow occurs.

The signed branch instructions BGT, BGE, BLE, and BLT use the overï¬ow ï¬ag.

0 No overï¬ow

1 Overï¬ow

Half-Carry Flag â The CPU sets the half-carry ï¬ag when a carry occurs between accumulator bits 3 and 4 during

an add-without-carry (ADD) or add-with-carry (ADC) operation. The half-carry ï¬ag is required for binary-coded

decimal (BCD) arithmetic operations. The DAA instruction uses the states of the H and C condition code bits to

automatically add a correction value to the result from a previous ADD or ADC on BCD operands to correct the

result to a valid BCD value.

0 No carry between bits 3 and 4

1 Carry between bits 3 and 4

Interrupt Mask Bit â When the interrupt mask is set, all maskable CPU interrupts are disabled. CPU interrupts

are enabled when the interrupt mask is cleared. When a CPU interrupt occurs, the interrupt mask is set

automatically after the CPU registers are saved on the stack, but before the ï¬rst instruction of the interrupt service

routine is executed.

Interrupts are not recognized at the instruction boundary after any instruction that clears I (CLI or TAP). This

ensures that the next instruction after a CLI or TAP will always be executed without the possibility of an intervening

interrupt, provided I was set.

0 Interrupts enabled

1 Interrupts disabled

Negative Flag â The CPU sets the negative ï¬ag when an arithmetic operation, logic operation, or data

manipulation produces a negative result, setting bit 7 of the result. Simply loading or storing an 8-bit or 16-bit value

causes N to be set if the most signiï¬cant bit of the loaded or stored value was 1.

0 Non-negative result

1 Negative result

Zero Flag â The CPU sets the zero ï¬ag when an arithmetic operation, logic operation, or data manipulation

produces a result of 0x00 or 0x0000. Simply loading or storing an 8-bit or 16-bit value causes Z to be set if the

loaded or stored value was all 0s.

0 Non-zero result

1 Zero result

Carry/Borrow Flag â The CPU sets the carry/borrow ï¬ag when an addition operation produces a carry out of bit

7 of the accumulator or when a subtraction operation requires a borrow. Some instructions â such as bit test and

branch, shift, and rotate â also clear or set the carry/borrow ï¬ag.

0 No carry out of bit 7

1 Carry out of bit 7

MC9S08AW60 Data Sheet, Rev 2

112

Freescale Semiconductor

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