DSPIC33EPXXXGP50X Datasheet, PDF(279/504 Page) Microchip Technology – 16-bit Microcontrollers and Digital Signal Controllers (up to 256 KB Flash and 32 KB SRAM) with High-Speed PWM, Op amps, and Advanced Analog

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DSPIC33EPXXXGP50X Datasheet, PDF (279/504 Pages) Microchip Technology – 16-bit Microcontrollers and Digital Signal Controllers (up to 256 KB Flash and 32 KB SRAM) with High-Speed PWM, Op amps, and Advanced Analog

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dsPIC33EPXXXGP50X, dsPIC33EPXXXMC20X/50X, AND PIC24EPXXXGP/MC20X

21.0 ENHANCED CAN (ECANâ¢)

MODULE (dsPIC33EPXXXGP/

MC50X DEVICES ONLY)

Note 1: This data sheet summarizes the features

of

the

dsPIC33EPXXXGP50X,

dsPIC33EPXXXMC20X/50X,

and

PIC24EPXXXGP/MC20X families of

devices. It is not intended to be a

comprehensive reference source. To

complement the information in this data

sheet, refer to Section 21. âEnhanced

Controller Area Network (ECANâ¢)â

(DS70353) of the âdsPIC33E/PIC24E

Family Reference Manualâ, which is

available from the Microchip web site

(www.microchip.com).

2: Some registers and associated bits

described in this section may not be

available on all devices. Refer to

Section 4.0 âMemory Organizationâ in

this data sheet for device-specific register

and bit information.

21.1 Overview

The Enhanced Controller Area Network (ECAN)

module is a serial interface, useful for communicat-

ing with other CAN modules or microcontroller

devices. This interface/protocol was designed to

allow communications within noisy environments.

The dsPIC33EPXXXGP/MC50X devices contain one

ECAN module.

The ECAN module is a communication controller

implementing the CAN 2.0 A/B protocol, as defined in

the BOSCH CAN specification. The module supports

CAN 1.2, CAN 2.0A, CAN 2.0B Passive and CAN 2.0B

Active versions of the protocol. The module implemen-

tation is a full CAN system. The CAN specification is

not covered within this data sheet. The reader can refer

to the BOSCH CAN specification for further details.

The ECAN module features are as follows:

â¢ Implementation of the CAN protocol, CAN 1.2,

CAN 2.0A and CAN 2.0B

â¢ Standard and extended data frames

â¢ 0-8 bytes data length

â¢ Programmable bit rate up to 1 Mbit/sec

â¢ Automatic response to remote transmission

requests

â¢ Up to eight transmit buffers with application speci-

fied prioritization and abort capability (each buffer

can contain up to 8 bytes of data)

â¢ Up to 32 receive buffers (each buffer can contain

up to 8 bytes of data)

â¢ Up to 16 full (standard/extended identifier)

acceptance filters

â¢ Three full acceptance filter masks

â¢ DeviceNetâ¢ addressing support

â¢ Programmable wake-up functionality with

integrated low-pass filter

â¢ Programmable Loopback mode supports self-test

operation

â¢ Signaling via interrupt capabilities for all CAN

receiver and transmitter error states

â¢ Programmable clock source

â¢ Programmable link to Input Capture module (IC2)

for time-stamping and network synchronization

â¢ Low-power Sleep and Idle mode

The CAN bus module consists of a protocol engine and

message buffering/control. The CAN protocol engine

handles all functions for receiving and transmitting

messages on the CAN bus. Messages are transmitted

by first loading the appropriate data registers. Status

and errors can be checked by reading the appropriate

registers. Any message detected on the CAN bus is

checked for errors and then matched against filters to

see if it should be received and stored in one of the

receive registers.

Â© 2011 Microchip Technology Inc.

Preliminary

DS70657D-page 279

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