st10f269z1 STMicroelectronics, st10f269z1 Datasheet - Page 118

st10f269z1

Manufacturer Part Number

st10f269z1

Description

St10f269 16-bit Mcu With Mac Unit, 256k Byte Flash Memory And 12k Byte Ram

Manufacturer

STMicroelectronics

Datasheet

1.ST10F269Z1.pdf (184 pages)

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18 - SYSTEM RESET

programmed wait states. When READY is

sampled inactive (high) after the programmed wait

states the running external bus cycle is aborted.

Then the internal reset sequence (1024 TCL) is

started. The microcontroller behaviour is the

same as for a short hardware reset, except that

only

previously latched values of P0.5...P0.2 are

cleared.

18.5 - RSTOUT, RSTIN, Bidirectional Reset

18.5.1 - RSTOUT Pin

The RSTOUT pin is driven active (low level) at the

beginning of any reset sequence (synchronous/

asynchronous hardware, software and watchdog

timer resets). RSTOUT pin stays active low

beyond the end of the initialization routine, until

the

Initialization) is completed.

18.5.2 - Bidirectional Reset

The bidirectional reset function is enabled by

setting SYSCON.BDRSTEN (bit 3). This function

is disabled by any reset sequence which always

clears the SYSCON.BDRSTEN bit.

It can only be enabled during the initialization

routine, before EINIT instruction is completed.

If V

threshold (typically 2.5V for V

RSTIN pin is low or when RSTIN pin is internally

pulled low, the ST10 reset circuitry disables the

bidirectional reset function and RSTIN pin is no

more pulled low. The reset is processed as an

asynchronous reset.

The bidirectional reset function is useful for

external

because the reset signal output on RSTIN pin is

de-activated before the CPU starts its first

instruction fetch.

18.5.3 - RSTIN pin

When the bidirectional reset function is enabled,

the open-drain of the RSTIN pin is activated,

pulling down the reset signal, for the duration of

the internal reset sequence. See Figure 56 and

Figure 57. At the end of the sequence the

pull-down is released and the RSTIN pin gets

back its input function.

The bidirectional reset function can be used:

– to convert SW or WD resets to a hardware reset

118/184

so that the configuration can be (re-)latched

from PORT0.

RPD

protected

P0.12...P0.6

voltage drops below the RPD pin

peripherals

EINIT

bits

with

instruction

are

on-chip

latched,

= 5V) when

(End

memory

while

– to make visible SW or WDT resets at RSTIN pin

– to get a die-activated reset signal before CPU

The

determined by the kind of reset generated by the

application. (Refer to Table 38).

Converting a SW or WDT reset to a hardware

reset allows the PLL to re-lock or the PLL

configuration to be re-latched, provided a SW or

WDT reset is generated by the application

program is case of PLL unlock or input clock fail.

18.6 - Reset Circuitry

The internal reset circuitry is described in

Figure 58.

An internal pull-up resistor is implemented on

RSTIN pin. (50k

The minimum reset time must be calculated using

the lowest value. In addition, a programmable

pull-down (SYSCON.BDRSTEN bit 3) drives the

RSTIN pin according to the internal reset state.

The RSTOUT pin provides a signals to the

application. (Refer to Section 18.5 -).

A weak internal pull-down is connected to the

RPD pin to discharge external capacitor to V

a rate of 100 A to 200 A. This Pull-down is

turned on when RSTIN pin is low

If bit PWDCFG of SYSCON register is set, an

internal pull-up resistor is activated at the end of

the reset sequence. This pull-up charges the

capacitor connected to RPD pin.

If the bidirectional reset function is not used, the

simplest way to reset ST10F269 is to connect

external components as shown in Figure 59. It

works with reset from application (hardware or

manual) and with power-on. The value of C1

capacitor, connected on RSTIN pin with internal

pull-up resistor (50k

charging time long enough to let the internal or

external oscillator and / or the on-chip PLL to

stabilize.

The R0-C0 components on RPD pin are mainly

implemented to provide a time delay to exit Power

down mode (see Chapter : Power Reduction

Modes on page 122). Nevertheless, they drive

RPD pin level during resets and they lead to

different reset modes as explained hereafter. On

power-on, C0 is total discharged, a low level on

RPD pin forces an asynchronous hardware reset.

C0 capacitor starts to charge through R0 and at

the end of reset sequence ST10F269 restarts.

RPD pin threshold is typically 2.5V.

whenever RSTIN is the only reset signal used by

the application (RSTOUT not used).

starts its first instruction fetch.

configuration

minimum, to 250k

latched

to 250k ), must lead to a

from

ST10F269

PORT0

maximum).

st10f269z1 STMicroelectronics, st10f269z1 Datasheet - Page 118

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