PXD10RM Datasheet, PDF(683/1332 Page) Freescale Semiconductor, Inc – PXD10 Microcontroller

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PXD10RM Datasheet, PDF (683/1332 Pages) Freescale Semiconductor, Inc – PXD10 Microcontroller

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Table 18-8. Module Configuration Register (MCR) field descriptions (continued)

Field

Description

HALT

Halt FlexCAN

Assertion of this bit puts the FlexCAN module into Freeze Mode. The CPU should clear it after

initializing the Message Buffers and Control Register. No reception or transmission is performed by

FlexCAN before this bit is cleared. While in Freeze Mode, the CPU has write access to the Error

Counter Register, that is otherwise read-only. Freeze Mode can not be entered while FlexCAN is in

any of the low power modes. See Section 18.4.9.1, Freeze Mode for more information.

1 = Enters Freeze Mode if the FRZ bit is asserted.

0 = No Freeze Mode request.

NOT_RDY

FlexCAN Not Ready

This read-only bit indicates that FlexCAN is either in Disable Mode or Freeze Mode. It is negated

once FlexCAN has exited these modes.

1 = FlexCAN module is either in Disable Mode Freeze Mode

0 = FlexCAN module is either in Normal Mode, Listen-Only Mode or Loop-Back Mode

SOFT_RST

Soft Reset

When this bit is asserted, FlexCAN resets its internal state machines and some of the memory

mapped registers. The following registers are reset: MCR (except the MDIS bit), TIMER, ECR, ESR,

IMRL, IMRH, IFRL, IFRH. Configuration registers that control the interface to the CAN bus are not

affected by soft reset. The following registers are unaffected:

â¢ CTRL

â¢ RXIMR0âRXIMR63

â¢ RXGMASK, RX14MASK, RX15MASK

â¢ all Message Buffers

The SOFT_RST bit can be asserted directly by the CPU when it writes to the MCR Register, but it

is also asserted when global soft reset is requested at MCU level. Since soft reset is synchronous

and has to follow a request/acknowledge procedure across clock domains, it may take some time

to fully propagate its effect. The SOFT_RST bit remains asserted while reset is pending, and is

automatically negated when reset completes. Therefore, software can poll this bit to know when the

soft reset has completed.

Soft reset cannot be applied while clocks are shut down in any of the low power modes. The module

should be first removed from low power mode, and then soft reset can be applied.

1 = Resets the registers marked as âaffected by soft resetâ in Table 18-2

0 = No reset request

FRZ_ACK

Freeze Mode Acknowledge

This read-only bit indicates that FlexCAN is in Freeze Mode and its prescaler is stopped. The Freeze

Mode request cannot be granted until current transmission or reception processes have finished.

Therefore the software can poll the FRZ_ACK bit to know when FlexCAN has actually entered

Freeze Mode. If Freeze Mode request is negated, then this bit is negated once the FlexCAN

prescaler is running again. If Freeze Mode is requested while FlexCAN is in any of the low power

modes, then the FRZ_ACK bit will only be set when the low power mode is exited. See

Section 18.4.9.1, Freeze Mode for more information.

1 = FlexCAN in Freeze Mode, prescaler stopped

0 = FlexCAN not in Freeze Mode, prescaler running

SUPV

Supervisor Mode

This bit configures some of the FlexCAN registers to be either in Supervisor or Unrestricted memory

space. The registers affected by this bit are marked as S/U in the Access Type column of Table 18-2.

Reset value of this bit is â1â, so the affected registers start with Supervisor access restrictions.

1 = Affected registers are in Supervisor memory space. Any access without supervisor permission

behaves as though the access was done to an unimplemented register location

0 = Affected registers are in Unrestricted memory space

Freescale Semiconductor

PXD10 Microcontroller Reference Manual, Rev. 1

PreliminaryâSubject to Change Without Notice

18-13

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