GMS81C5108 Datasheet, PDF(27/102 Page) Hynix Semiconductor – HYNIX SEMICONDUCTOR INC. 8-BIT SINGLE-CHIP MICROCONTROLLERS

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

GMS81C5108 Datasheet, PDF (27/102 Pages) Hynix Semiconductor – HYNIX SEMICONDUCTOR INC. 8-BIT SINGLE-CHIP MICROCONTROLLERS

◁

GMS81C5108

8.3 Data Memory

Figure 8-8 shows the internal Data Memory space availa-

ble. Data Memory is divided into four groups, a user RAM,

control registers, Stack, and LCD memory.

0000H

USER MEMORY

(Including STACK Area)

(192 Bytes)

00BFH

00C0H

00FFH

0100H

0124H

PERIPHERAL CONTROL

REGISTERS

LCD DISPLAY

MEMORY

PAGE0

PAGE1

Figure 8-8 Data Memory Map

User Memory

The GMS81C5108 has 192 Ã 8 bits for the user memory

(RAM).

There are two page internal RAM. Page is selected by G-

flag and RAM page selection register RPR. When G-flag

is cleared to â0â, always page 0 is selected regardless of

RPR value. If G-flag is set to â1â, page will be selected ac-

cording to RPR value.

RPR=0, G=0

RPR=1, G=1

Page 0

Page 1

Page 0: 00~FFH

Page 1: 100~124H

Control Registers

The control registers are used by the CPU and Peripheral

function blocks for controlling the desired operation of the

device. Therefore these registers contain control and status

bits for the interrupt system, the timer/ counters, analog to

digital converters and I/O ports. The control registers are in

address range of 0C0H to 0FFH.

Note that unoccupied addresses may not be implemented

on the chip. Read accesses to these addresses will in gen-

eral return random data, and write accesses will have an in-

determinate effect.

More detailed informations of each register are explained

in each peripheral section.

Note: Write only registers can not be accessed by bit ma-

nipulation instruction. Do not use read-modify-write instruc-

tion. Use byte manipulation instruction.

Example; To write at CKCTLR

LDM CKCTLR,#05H ;Divide ratio Ã·8

Stack Area

The stack provides the area where the return address is

saved before a jump is performed during the processing

routine at the execution of a subroutine call instruction or

the acceptance of an interrupt.

When returning from the processing routine, executing the

subroutine return instruction [RET] restores the contents of

the program counter from the stack; executing the interrupt

return instruction [RETI] restores the contents of the pro-

gram counter and flags.

The save/restore locations in the stack are determined by

the stack pointed (SP). The SP is automatically decreased

after the saving, and increased before the restoring. This

means the value of the SP indicates the stack location

number for the next save. Refer to Figure 8-4 on page 20.

LCD Display Memory

LCD display data area is handled in LCD section.

See "19.3 LCD Display Memory" on page 73.

Figure 8-9 RAM page configuration

JUNE 2001 Ver 1.0

▷