C8051F581-IMR Silicon Labs, C8051F581-IMR Datasheet - Page 230

C8051F581-IMR

Manufacturer Part Number

C8051F581-IMR

Description

8-bit Microcontrollers - MCU 50MIPS 128kB 8kB SPI

Manufacturer

Silicon Labs

Datasheet

1.C8051F585-IQR.pdf (356 pages)

Specifications of C8051F581-IMR

Rohs

yes

Core

8051

Processor Series

C8051

Data Bus Width

8 bit

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C8051F58x/F59x

22.1. Bosch CAN Controller Operation

The CAN Controller featured in the C8051F580/2/4/6/8-F590 devices is a full implementation of Bosch’s

full CAN module and fully complies with CAN specification 2.0B. A block diagram of the CAN controller is

shown in Figure 22.2. The CAN Core provides shifting (CANTX and CANRX), serial/parallel conversion of

messages, and other protocol related tasks such as transmission of data and acceptance filtering. The

message RAM stores 32 message objects which can be received or transmitted on a CAN network. The

CAN registers and message handler provide an interface for data transfer and notification between the

CAN controller and the CIP-51.

The function and use of the CAN Controller is detailed in the Bosch CAN User’s Guide. The User’s Guide

should be used as a reference to configure and use the CAN controller. This data sheet describes how to

access the CAN controller.

All of the CAN controller registers are located on SFR Page 0x0C. Before accessing any of the CAN regis-

ters, the SFRPAGE register must be set to 0x0C.

The CAN Controller is typically initialized using the following steps:

1. Set the SFRPAGE register to the CAN registers page (page 0x0C).

2. Set the INIT and the CCE bits to 1 in CAN0CN. See the CAN User’s Guide for bit definitions.

3. Set timing parameters in the Bit Timing Register and the BRP Extension Register.

4. Initialize each message object or set its MsgVal bit to NOT VALID.

5. Reset the INIT bit to 0.

22.1.1. CAN Controller Timing

The CAN controller’s clock (f

is accurate to within 0.5% of 24 MHz across the entire temperature range and for VDD voltages greater

than or equal to the minimum output of the on-chip voltage regulator, so an external oscillator is not

required for CAN communication for most systems. Refer to Section “4.10.4 Oscillator Tolerance Range”

in the Bosch CAN User’s Guide for further information regarding this topic.

230

CAN Controller

(32 Objects)

Message

Handler

RAM

sys

) is derived from the CIP-51 system clock (SYSCLK). The internal oscillator

Figure 22.2. CAN Controller Diagram

CAN Core

Rev. 1.2

CAN0CFG

C8051F580-F590

System Clock

8051 MCU Core

CAN Registers

SFR space

mapped to

C8051F581-IMR Silicon Labs, C8051F581-IMR Datasheet - Page 230

C8051F581-IMR

Specifications of C8051F581-IMR

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