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7 example for bit timing at high baudrate, Example for bit timing at high baudrate – Bosch TTCAN User Manual

Page 52

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User’s Manual

BOSCH

- 52/77 -

Revision 1.6

TTCAN

11.11.02

manual_about.fm

If more than one configuration is possible, that configuration allowing the highest oscillator
tolerance range should be chosen.

CAN nodes with different system clocks require different configurations to come to the same
bit rate. The calculation of the propagation time in the CAN network, based on the nodes with
the longest delay times, is done once for the whole network.

The CAN system’s oscillator tolerance range is limited by that node with the lowest tolerance
range.

The calculation may show that bus length or bit rate have to be decreased or that the oscillator
frequencies’ stability has to be increased in order to find a protocol compliant configuration of
the CAN bit timing.

The resulting configuration is written into the Bit Timing Register:

(Phase_Seg2-1)&(Phase_Seg1+Prop_Seg-1)&(SynchronisationJumpWidth-1)&(Prescaler-1)

4.2.1.7 Example for Bit Timing at high Baudrate

In this example, the frequency of CAN_CLK is 10 MHz, BRP is 0, the bit rate is 1 MBit/s.

t

q

100

ns

= t

CAN_CLK

delay of bus driver

50

ns

delay of receiver circuit

30

ns

delay of bus line (40m)

220

ns

t

Prop

600

ns

= 6 • t

q

t

SJW

100

ns

= 1 • t

q

t

TSeg1

700

ns

= t

Prop

+ t

SJW

t

TSeg2

200

ns

= Information Processing Time + 1 • t

q

t

Sync-Seg

100

ns

= 1 • t

q

bit time

1000

ns

= t

Sync-Seg

+ t

TSeg1

+ t

TSeg2

tolerance for CAN_CLK

0.39

%

=

=

In this example, the concatenated bit time parameters are (2-1)

3

&(7-1)

4

&(1-1)

2

&(1-1)

6

, the Bit

Timing Register is programmed to= 0x1600.

min PB 1 PB 2

,

(

)

2

13

bit time

PB2

Ч

(

)

Ч

----------------------------------------------------------------

0.1

µ

s

2

13

1

µ

s

0.2

µ

s

Ч

(

)

Ч

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