PIC18F26K80-I Datasheet, PDF(440/622 Page) Microchip Technology – 28/40/44/64-Pin, Enhanced Flash Microcontrollers with ECAN™ and nanoWatt XLP Technology

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PIC18F26K80-I Datasheet, PDF (440/622 Pages) Microchip Technology – 28/40/44/64-Pin, Enhanced Flash Microcontrollers with ECAN™ and nanoWatt XLP Technology

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PIC18F66K80 FAMILY

27.4.3 MODE 2 â ENHANCED FIFO MODE

In Mode 2, two or more receive buffers are used to form

the receive FIFO (first in, first out) buffer. There is no

one-to-one relationship between the receive buffer and

acceptance filter registers. Any filter that is enabled and

linked to any FIFO receive buffer can generate

acceptance and cause FIFO to be updated.

FIFO length is user-programmable, from 2-8 buffers

deep. FIFO length is determined by the very first

programmable buffer that is configured as a transmit

buffer. For example, if Buffer 2 (B2) is programmed as a

transmit buffer, FIFO consists of RXB0, RXB1, B0 and

B1, creating a FIFO length of 4. If all programmable

buffers are configured as receive buffers, FIFO will have

the maximum length of 8.

The following is the list of resources available in Mode 2:

â¢ Three transmit buffers: TXB0, TXB1 and TXB2

â¢ Two receive buffers: RXB0 and RXB1

â¢ Six buffers programmable as TX or RX; receive

buffers form FIFO: B0-B5

â¢ Automatic RTR handling on B0-B5

â¢ Sixteen acceptance filters: RXF0-RXF15

â¢ Two dedicated acceptance mask registers;

RXF15 programmable as third mask:

RXM0-RXM1, RXF15

â¢ Programmable data filter on standard identifier

messages: SDFLC, useful for DeviceNet protocol

27.5 CAN Message Buffers

27.5.1 DEDICATED TRANSMIT BUFFERS

The PIC18F66K80 family devices implement three

dedicated transmit buffers â TXB0, TXB1 and TXB2.

Each of these buffers occupies 14 bytes of SRAM and

are mapped into the SFR memory map. These are the

only transmit buffers available in Mode 0. Mode 1 and

2 may access these and other additional buffers.

Each transmit buffer contains one Control register

(TXBnCON), four Identifier registers (TXBnSIDL,

TXBnSIDH, TXBnEIDL, TXBnEIDH), one Data Length

Count register (TXBnDLC) and eight Data Byte

registers (TXBnDm).

27.5.2 DEDICATED RECEIVE BUFFERS

The PIC18F66K80 family devices implement two dedi-

cated receive buffers: RXB0 and RXB1. Each of these

buffers occupies 14 bytes of SRAM and are mapped

into SFR memory map. These are the only receive buf-

fers available in Mode 0. Mode 1 and 2 may access

these and other additional buffers.

Each receive buffer contains one Control register

(RXBnCON), four Identifier registers (RXBnSIDL,

RXBnSIDH, RXBnEIDL, RXBnEIDH), one Data Length

Count register (RXBnDLC) and eight Data Byte

registers (RXBnDm).

There is also a separate Message Assembly Buffer

(MAB) which acts as an additional receive buffer. MAB

is always committed to receiving the next message

from the bus and is not directly accessible to user firm-

ware. The MAB assembles all incoming messages one

by one. A message is transferred to appropriate

receive buffers only if the corresponding acceptance

filter criteria is met.

27.5.3

PROGRAMMABLE TRANSMIT/

RECEIVE BUFFERS

The ECAN module implements six new buffers: B0-B5.

These buffers are individually programmable as either

transmit or receive buffers. These buffers are available

only in Mode 1 and 2. As with dedicated transmit and

receive buffers, each of these programmable buffers

occupies 14 bytes of SRAM and are mapped into SFR

memory map.

Each buffer contains one Control register (BnCON),

four Identifier registers (BnSIDL, BnSIDH, BnEIDL,

BnEIDH), one Data Length Count register (BnDLC)

and eight Data Byte registers (BnDm). Each of these

registers contains two sets of control bits. Depending

on whether the buffer is configured as transmit or

receive, one would use the corresponding control bit

set. By default, all buffers are configured as receive

buffers. Each buffer can be individually configured as a

transmit or receive buffer by setting the corresponding

TXENn bit in the BSEL0 register.

When configured as transmit buffers, user firmware

may access transmit buffers in any order similar to

accessing dedicated transmit buffers. In receive

configuration with Mode 1 enabled, user firmware may

also access receive buffers in any order required. But

in Mode 2, all receive buffers are combined to form a

single FIFO. Actual FIFO length is programmable by

user firmware. Access to FIFO must be done through

the FIFO Pointer bits (FP<4:0>) in the CANCON

register. It must be noted that there is no hardware

protection against out of order FIFO reads.

DS39977F-page 440

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