Data structure defines the parameters for bit timing calculation. Bit timing related to data phase will be valid only in case where MCAN is put in CANFD mode and will be '0' otherwise.
Data Fields | |
uint32_t | nomBrp |
uint32_t | nomPropSeg |
uint32_t | nomPseg1 |
uint32_t | nomPseg2 |
uint32_t | nomSjw |
uint32_t | dataBrp |
uint32_t | dataPropSeg |
uint32_t | dataPseg1 |
uint32_t | dataPseg2 |
uint32_t | dataSjw |
uint32_t CANFDLLD_MCANBitTimingParams::nomBrp |
Nominal Baud Rate Pre-scaler
uint32_t CANFDLLD_MCANBitTimingParams::nomPropSeg |
NominalProp Segment value
uint32_t CANFDLLD_MCANBitTimingParams::nomPseg1 |
NominalPhase Segment1 value
uint32_t CANFDLLD_MCANBitTimingParams::nomPseg2 |
NominalPhase Segment2 value
uint32_t CANFDLLD_MCANBitTimingParams::nomSjw |
Nominal (Re)Synchronization Jump Width
uint32_t CANFDLLD_MCANBitTimingParams::dataBrp |
Nominal Baud Rate Pre-scaler
uint32_t CANFDLLD_MCANBitTimingParams::dataPropSeg |
NominalProp Segment value
uint32_t CANFDLLD_MCANBitTimingParams::dataPseg1 |
NominalPhase Segment1 value
uint32_t CANFDLLD_MCANBitTimingParams::dataPseg2 |
NominalPhase Segment2 value
uint32_t CANFDLLD_MCANBitTimingParams::dataSjw |
Nominal (Re)Synchronization Jump Width