MC68HC11F1_13 Datasheet, PDF(47/158 Page) Freescale Semiconductor, Inc

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MC68HC11F1_13 Datasheet, PDF (47/158 Pages) Freescale Semiconductor, Inc – Technical Data

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Freescale Semiconductor, Inc.

4.3.2 Initialization

Because bits in the following registers control the basic configuration of the MCU, an

accidental change of their values could cause serious system problems. The protec-

tion mechanism, overridden in special operating modes, requires a write to the protect-

ed bits only within the first 64 bus cycles after any reset, or only once after each reset.

Table 4-2 summarizes the write access limited registers.

4.3.2.1 CONFIG Register

CONFIG controls the presence and position of the EEPROM in the memory map.

CONFIG also enables the COP watchdog timer.

CONFIG â System Configuration Register

$103F

Bit 7

EE3

EE2

EE1

EE0

RESET:

NOCOP

P(L)

Bit 0

EEON

Single Chip

Bootstrap

Expanded

Special Test

P indicates a previously programmed bit. P(L) indicates that the bit resets to the logic

level held in the latch prior to reset, but the function of COP is controlled by DISR bit

in TEST1 register.

The CONFIG register consists of an EEPROM byte and static latches that control the

start-up conï¬guration of the MCU. The contents of the EEPROM byte are transferred

into static working latches during reset sequences. The operation of the MCU is con-

trolled directly by these latches and not by CONFIG itself. In normal modes, changes

to CONFIG do not affect operation of the MCU until after the next reset sequence.

When programming, the CONFIG register itself is accessed. When the CONFIG reg-

ister is read, the static latches are accessed.

These bits can be read at any time. The value read is the one latched into the register

from the EEPROM cells during the last reset sequence. A new value programmed into

this register cannot be read until after a subsequent reset sequence. Unused bits al-

ways read as ones.

In special test mode, the static latches can be written directly at any time. In all modes,

CONFIG bits can only be programmed using the EEPROM programming sequence,

and are neither readable nor active until latched via the next reset. Refer to 4.4.3 CON-

FIG Register Programming.

EE[3:0] â EEPROM Mapping Control

EE[3:0] select the upper four bits of the EEPROM base address. In single-chip and

bootstrap modes, EEPROM is forced to $FE00â$FFFF regardless of the value of

EE[3:0].

OPERATING MODES AND ON-CHIP MEMORY

TECHNICAL DATA

For More Information On This Product,

4-9

Go to: www.freescale.com

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