ST10R167-Q STMicroelectronics, ST10R167-Q Datasheet - Page 43

ST10R167-Q

Manufacturer Part Number

ST10R167-Q

Description

16B ROMLESS MCU

Manufacturer

STMicroelectronics

Datasheet

1.ST10R167-Q.pdf (63 pages)

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XX - ELECTRICAL CHARACTERISTICS (continued)

XX.4.3 - Prescaler operation

When pins P0.15-13 (P0H.7-5) equal ’001’ during

reset the CPU clock is derived from the internal

oscillator (input clock signal) by a 2:1 prescaler.

The frequency of f

duration of an individual TCL) is defined by the

period of the input clock f

The timings listed in the AC Characteristics that

refer to TCLs, therefore, can be calculated using

the period of f

Note that if the bit OWDDIS in SYSCON register

is cleared, the PLL is running on its free-running

frequency and delivers the clock signal for the

Oscillator Watchdog. If bit OWDDIS is set, then

the PLL is switched off.

XX.4.4 - Direct drive

When pins P0.15-13 (P0H.7-5) equal ’011’ during

reset the on-chip phase locked loop is disabled and

the CPU clock is directly driven from the internal

oscillator with the input clock signal.

The frequency of f

frequency of f

defined by the duty cycle of the input clock f

The timings listed below that refer to TCL

therefore must be calculated using the minimum

TCL that is possible under the respective

circumstances. This minimum value can be

calculated by the following formula:

For two consecutive TCLs the deviation caused

by the duty cycle of f

duration of 2TCL is always 1/f

value TCL

for timings that require an odd number of TCLs

(1,3,...). Timings that require an even number of

TCLs (2,4,...) may use the formula:

Note The address float timings in Multiplexed

Note that if the bit OWDDIS in SYSCON register

is cleared, the PLL is running on its free-running

frequency and delivers the clock signal for the

Oscillator Watchdog. If bit OWDDIS is set, then

the PLL is switched off.

XTAL

CPU

(i.e. the duration of an individual TCL) is

and the high and low time of f

bus mode (t

duration of TCL (TCL

instead of TCL

min

TCL m in

XTAL

therefore has to be used only once

XTAL

2TCL

for any TCL.

CPU

so the high and low time of

min

XTAL

and t

1 f XTAL *DC m in

duty cycle

CPU

1 f XTAL

is half the frequency of

XTAL

is compensated so the

max

directly follows the

) use the maximum

XTAL

= 1/f

. The minimum

XTAL

CPU

x DC

(i.e. the

XTAL

max

)

XX.4.5 - Oscillator watchdog (OWD)

When the clock option selected is direct drive or

direct drive with prescaler, in order to provide a fail

safe mechanism in case of a loss of the external

clock, an oscillator watchdog is implemented as

an additional functionality of the PLL circuitry. This

oscillator watchdog operates as follows :

After a reset, the Oscillator Watchdog is enabled

by default. To disable the OWD, the bit OWDDIS

(bit 4 of SYSCON register) must be set.

When the OWD is enabled, the PLL is running on

its free-running frequency, and increment the

Oscillator Watchdog counter. On each transition

of XTAL1 pin, the Oscillator Watchdog is cleared.

If an external clock failure occurs, then the

Oscillator Watchdog counter overflows (after 16

PLL clock cycles).

The CPU clock signal will be switched to the PLL

free-running clock signal, and the Oscillator

Watchdog Interrupt Request (XP3INT) is flagged.

The CPU clock will not switch back to the external

clock even if a valid external clock exits on XTAL1

pin. Only a hardware reset can switch the CPU

clock source back to direct clock input.

When the OWD is disabled, the CPU clock is

always fed from the oscillator input and the PLL is

switched off to decrease power supply current.

XX.4.6 - Phase locked loop

For all other combinations of pins P0.15-13

(P0H.7-5) during reset the on-chip phase locked

loop is enabled and provides the CPU clock (see

table above). The PLL multiplies the input

frequency by the factor F which is selected via the

combination of pins P0.15-13 (i.e. f

F). With every F’th transition of f

circuit synchronizes the CPU clock to the input

clock. This synchronization is done smoothly, i.e.

the CPU clock frequency does not change

abruptly.

Due to this adaptation to the input clock the

frequency of f

locked to f

of f

individual TCLs.

The timings listed in the AC Characteristics that

refer to TCL therefore must be calculated using

the minimum TCL that is possible under the

respective circumstances.

CPU

which also effects the duration of

XTAL

CPU

. The slight variation causes a jitter

is constantly adjusted so it is

XTAL

CPU

ST10R167

= f

the PLL

XTAL

43/63

ST10R167-Q STMicroelectronics, ST10R167-Q Datasheet - Page 43

ST10R167-Q

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