MCBSTM32EXL Keil, MCBSTM32EXL Datasheet - Page 558

MCBSTM32EXL

Manufacturer Part Number

MCBSTM32EXL

Description

BOARD EVALUATION FOR STM32F103ZE

Manufacturer

Keil

Datasheets

1.MCBSTM32EXL.pdf (995 pages)

2.MCBSTM32EXL.pdf (1 pages)

Specifications of MCBSTM32EXL

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Controller area network (bxCAN)

22.7.6

Note:

22.7.7

558/995

Error management

The error management as described in the CAN protocol is handled entirely by hardware

using a Transmit Error Counter (TEC value, in CAN_ESR register) and a Receive Error

Counter (REC value, in the CAN_ESR register), which get incremented or decremented

according to the error condition. For detailed information about TEC and REC management,

please refer to the CAN standard.

Both of them may be read by software to determine the stability of the network.

Furthermore, the CAN hardware provides detailed information on the current error status in

CAN_ESR register. By means of the CAN_IER register (ERRIE bit, etc.), the software can

configure the interrupt generation on error detection in a very flexible way.

Bus-Off recovery

The Bus-Off state is reached when TEC is greater than 255, this state is indicated by BOFF

bit in CAN_ESR register. In Bus-Off state, the bxCAN is no longer able to transmit and

receive messages.

Depending on the ABOM bit in the CAN_MCR register bxCAN will recover from Bus-Off

(become error active again) either automatically or on software request. But in both cases

the bxCAN has to wait at least for the recovery sequence specified in the CAN standard

(128 occurrences of 11 consecutive recessive bits monitored on CANRX).

If ABOM is set, the bxCAN will start the recovering sequence automatically after it has

entered Bus-Off state.

If ABOM is cleared, the software must initiate the recovering sequence by requesting

bxCAN to enter and to leave initialization mode.

In initialization mode, bxCAN does not monitor the CANRX signal, therefore it cannot

complete the recovery sequence. To recover, bxCAN must be in normal mode.

Bit timing

The bit timing logic monitors the serial bus-line and performs sampling and adjustment of

the sample point by synchronizing on the start-bit edge and resynchronizing on the following

edges.

Its operation may be explained simply by splitting nominal bit time into three segments as

follows:

●

The resynchronization Jump Width (SJW) defines an upper bound to the amount of

lengthening or shortening of the bit segments. It is programmable between 1 and 4 time

quanta.

Synchronization segment (SYNC_SEG): a bit change is expected to occur within this

time segment. It has a fixed length of one time quantum (1 x t

Bit segment 1 (BS1): defines the location of the sample point. It includes the

PROP_SEG and PHASE_SEG1 of the CAN standard. Its duration is programmable

between 1 and 16 time quanta but may be automatically lengthened to compensate for

positive phase drifts due to differences in the frequency of the various nodes of the

network.

Bit segment 2 (BS2): defines the location of the transmit point. It represents the

PHASE_SEG2 of the CAN standard. Its duration is programmable between 1 and 8

time quanta but may also be automatically shortened to compensate for negative

phase drifts.

Doc ID 13902 Rev 9

CAN

RM0008

MCBSTM32EXL Keil, MCBSTM32EXL Datasheet - Page 558

MCBSTM32EXL

Specifications of MCBSTM32EXL

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