M16C62N Datasheet, PDF(12/213 Page) Renesas Technology Corp – SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER

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M16C62N Datasheet, PDF (12/213 Pages) Renesas Technology Corp – SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER

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CPU

Mitsubishi microcomputers

M16C / 62N Group (80-pin)

SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER

Central Processing Unit (CPU)

The CPU has a total of 13 registers shown in Figure 1.5.1. Seven of these registers (R0, R1, R2, R3, A0,

A1, and FB) come in two sets; therefore, these have two register banks.

b15

b8 b7

b0

R0(Note)

H

L

b15

b8 b7

b0

R1(Note)

H

L

b19

PC

b15

R2(Note)

Data

registers

b0

b19

INTB H

L

b15

b0

R3(Note)

b15

USP

b15

A0(Note)

b15

A1(Note)

b0

Address

b0

registers

b15

ISP

b15

SB

b15

FB(Note)

b0

Frame base

registers

b15

FLG

b0

Program counter

b0

Interrupt table

register

b0

User stack pointer

b0

Interrupt stack

pointer

b0

Static base

register

b0

Flag register

IPL

U I OB S Z D C

Note: These registers consist of two register banks.

Figure 1.5.1. Central processing unit register

(1) Data registers (R0, R0H, R0L, R1, R1H, R1L, R2, and R3)

Data registers (R0, R1, R2, and R3) are configured with 16 bits, and are used primarily for transfer and

arithmetic/logic operations.

Registers R0 and R1 each can be used as separate 8-bit data registers, high-order bits as (R0H/R1H),

and low-order bits as (R0L/R1L). In some instructions, registers R2 and R0, as well as R3 and R1 can

use as 32-bit data registers (R2R0/R3R1).

(2) Address registers (A0 and A1)

Address registers (A0 and A1) are configured with 16 bits, and have functions equivalent to those of data

registers. These registers can also be used for address register indirect addressing and address register

relative addressing.

In some instructions, registers A1 and A0 can be combined for use as a 32-bit address register (A1A0).

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