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Table Of Contents

MCF5282 and MCF5216 ColdFire® Microcontroller User’s Manual

FlexCAN

25-16 Freescale Semiconductor

To exit low-power stop mode:

• Reset the FlexCAN either by asserting RSTI or by setting the SOFTRST bit CANMCR.

• Clear the STOP bit in CANMCR.

• The FlexCAN module can optionally exit low-power stop mode via the self-wake mechanism. If

the SELFWAKE bit in CANMCR was set at the time the FlexCAN entered stop mode, then upon

detection of a recessive to dominant transition on the CAN bus, the FlexCAN clears the STOP bit

in CANMCR and its clocks begin running.

When in low-power stop mode, a recessive to dominant transition on the CAN bus causes the WAKEINT

bit in the error and status register (ESTAT) to be set. This event can generate an interrupt if the WAKEMSK

bit in CANMCR is set.

Consider the following notes regarding low-power stop mode:

• When the self-wake mechanism activates, the FlexCAN tries to receive the frame that woke it up.

(It assumes that the dominant bit detected is a start-of-frame bit). It will not arbitrate for the CAN

bus at this time.

• The CPU should disable all interrupts in the FlexCAN before entering low-power stop mode.

Otherwise it may be interrupted while in STOP mode upon a non wake-up condition; If desired,

the WAKEMASK bit should be set to enable the WAKEINT.

• If the STOP bit is set while the FlexCAN is in the bus off state, then the FlexCAN will enter

low-power stop mode and stop counting recessive bit times. The count will continue when STOP

is cleared.

• To place the FlexCAN in low-power stop mode with the self-wake mechanism engaged, write to

CANMCR with both STOP and SELFWAKE set, then wait for the FlexCAN to set the STOPACK

bit.

• To take the FlexCAN out of low-power stop mode when the self-wake mechanism is enabled, write

to CANMCR with both STOP and SELFWAKE clear, then wait for the FlexCAN to clear the

STOPACK bit.

• The SELFWAKE bit should not be set after the FlexCAN has already entered low-power stop

mode.

• If both STOP and SELFWAKE are set and a recessive to dominant edge immediately occurs on the

CAN bus, the FlexCAN may never set the STOPACK bit, and the STOP bit will be cleared.

• To prevent old frames from being sent when the FlexCAN awakes from low-power stop mode via

the self-wake mechanism, disable all transmit sources, including transmit buffers configured for

remote request responses, before placing the FlexCAN in low-power stop mode.

• If the FlexCAN is in debug mode when the STOP bit is set, the FlexCAN will assume that debug

mode should be exited. As a result, it will try to synchronize with the CAN bus, and only then will

it await the conditions required for entry into low-power stop mode.

• Unlike other modules, the FlexCAN does not come out of reset in low-power stop mode. The basic

FlexCAN initialization procedure (see Section 25.4.10, “FlexCAN Initialization Sequence”)

should be executed before placing the module in low-power stop mode.

• If the FlexCAN is in low-power stop mode with the self-wake mechanism engaged and is operating

with a single system clock per time quantum, there can be extreme cases in which FlexCAN

wake-up on recessive to dominant edge may not conform to the CAN protocol. FlexCAN

synchronization will be shifted one time quantum from the wake-up event. This shift lasts until the

next recessive to dominant edge, which resynchronizes the FlexCAN to be in conformance with

the CAN protocol. The same holds true when the FlexCAN is in auto-power save mode and

awakens on a recessive to dominant edge.

MCF5282 and MCF5216 ColdFire Microcontroller User’s Manual, Rev. 3