PXD10RM Datasheet, PDF(1095/1332 Page) Freescale Semiconductor, Inc – PXD10 Microcontroller

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PXD10RM Datasheet, PDF (1095/1332 Pages) Freescale Semiconductor, Inc – PXD10 Microcontroller

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â¢ Short reset sequence configuration

â¢ Bidirectional reset behavior configuration

â¢ Selection of alternate boot via the backup RAM on STANDBY mode exit (for further mode details,

please see the MC_ME chapter)

â¢ Boot mode capture on RESET deassertion

32.1.3 Modes of Operation

The different reset sources are organized into two families: âdestructiveâ and âfunctionalâ.

â¢ A âdestructiveâ reset source is associated with an event related to a critical - usually hardware -

error or dysfunction. When a âdestructiveâ reset event occurs, the full reset sequence is applied to

the device starting from PHASE0. This resets the full device ensuring a safe start-up state for both

digital and analog modules. âDestructiveâ resets are

â power-on reset

â 1.2V low-voltage detected (power domain #0)

â 1.2V low-voltage detected (power domain #1)

â software watchdog timer

â 2.7V low-voltage detected

â¢ A âfunctionalâ reset source is associated with an event related to a less-critical - usually

non-hardware - error or dysfunction. When a âfunctionalâ reset event occurs, a partial reset

sequence is applied to the device starting from PHASE1. In this case, most digital modules are reset

normally, while analog modules or specific digital modulesâ (e.g. debug modules, flash modules)

state is preserved. âFunctionalâ resets are

â external reset

â JTAG initiated reset

â core reset

â software reset

â checkstop reset

â FMPLL0 fail

â FXOSC frequency lower than reference

â CMU0 clock frequency higher/lower than reference

â 4.5V low-voltage detected

â code or data flash fatal error

When a reset is triggered, the MC_RGM state machine is activated and proceeds through the different

phases (i.e. PHASEn states). Each phase is associated with a particular device reset being provided to the

system. A phase is completed when all corresponding phase completion gates from either the system or

internal to the MC_RGM are acknowledged. The device reset associated with the phase is then released,

and the state machine proceeds to the next phase up to entering the IDLE phase. During this entire process,

the MC_ME state machine is held in RESET mode. Only at the end of the reset sequence, when the IDLE

phase is reached, does the MC_ME enter the DRUN mode.

Freescale Semiconductor

PXD10 Microcontroller Reference Manual, Rev. 1

PreliminaryâSubject to Change Without Notice

32-3

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