M16C6NK Datasheet, PDF(255/404 Page) Renesas Technology Corp – 16-BIT SINGLE-CHIP MICROCOMPUTER M16C FAMILY / M16C/60 SERIES

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

M16C6NK Datasheet, PDF (255/404 Pages) Renesas Technology Corp – 16-BIT SINGLE-CHIP MICROCOMPUTER M16C FAMILY / M16C/60 SERIES

◁

Under development

This document is under development and its contents are subject to change.

M16C/6N Group (M16C/6NK, M16C/6NM)

19. CAN Module

19.6 Configuration CAN Module System Clock

The M16C/6N Group (M16C/6NK, M16C/6NM) has a CAN module system clock select circuit.

Configuration of the CAN module system clock can be done through manipulating the CCLKR register and

the BRP bit in the CiCONR register (i = 0, 1).

For the CCLKR register, refer to 8. Clock Generating Circuit.

Figure 19.14 shows a block diagram of the clock generating circuit of the CAN module system.

Divide-by-1 (undivided)

CAN module Divide-by-2

Prescaler

f1

system clock Divide-by-4

divider

Divide-by-8

Value: 1, 2, 4, 8, 16 Divide-by-16

fCAN

1/2

Baud rate

prescaler

division value

fCANCLK

CCLKR register

:P+1

CAN module

fCAN : CAN module system clock

P

: The value written in the BRP bit in the CiCONR register ( i = 0, 1). P = 0 to 15

fCANCLK : CAN communication clock fCANCLK = fCAN/2(P + 1)

Figure 19.14 Block Diagram of CAN Module System Clock Generating Circuit

19.7 Bit Timing Configuration

The bit time consists of the following four segments:

â¢ Synchronization segment (SS)

This serves for monitoring a falling edge for synchronization.

â¢ Propagation time segment (PTS)

This segment absorbs physical delay on the CAN network which amounts to double the total sum of

delay on the CAN bus, the input comparator delay, and the output driver delay.

â¢ Phase buffer segment 1 (PBS1)

This serves for compensating the phase error. When the falling edge of the bit falls later than expected,

the segment can become longer by the maximum of the value defined in SJW.

â¢ Phase buffer segment 2 (PBS2)

This segment has the same function as the phase buffer segment 1. When the falling edge of the bit

falls earlier than expected, the segment can become shorter by the maximum of the value defined in SJW.

Figure 19.15 shows the bit timing.

Bit time

SS

PTS

PBS1

PBS2

The range of each segment: Bit time = 8 to 25Tq

SS = 1Tq

PTS = 1Tq to 8Tq

PBS1 = 2Tq to 8Tq

PBS2 = 2Tq to 8Tq

SJW = 1Tq to 4Tq

SJW

SJW

Sampling point

Configuration of PBS1 and PBS2:

PBS1 â¥ PBS2

PBS1 â¥ SJW

PBS2 â¥ 2 when SJW = 1

PBS2 â¥ SJW when 2 â¤ SJW â¤ 4

Figure 19.15 Bit Timing

Rev.2.00 Nov 28, 2005 page 237 of 378

REJ09B0124-0200

▷