SJA1000TD-T NXP Semiconductors, SJA1000TD-T Datasheet - Page 18

SJA1000TD-T

Manufacturer Part Number

SJA1000TD-T

Description

Network Controller & Processor ICs STAND ALONE CAN CONTROLLER

Manufacturer

NXP Semiconductors

Datasheet

1.SJA1000TN1118.pdf (68 pages)

Specifications of SJA1000TD-T

Product

Controller Area Network (CAN)

Number Of Transceivers

Data Rate

1 Mbps

Supply Voltage (max)

5.5 V

Supply Voltage (min)

4.5 V

Supply Current (max)

15 mA

Maximum Operating Temperature

+ 125 C

Minimum Operating Temperature

- 40 C

Mounting Style

SMD/SMT

Package / Case

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

SJA1000T/N1,118

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6.3.7

The global layout of the transmit buffer is shown in Table 7. The buffer serves to store a message from the microcontroller

to be transmitted by the SJA1000. It is subdivided into a descriptor and data field. The transmit buffer can be written to

and read out by the microcontroller in operating mode only. In reset mode a ‘FFH’ is reflected for all bytes.

Table 7 Layout of transmit buffer

6.3.7.1

The identifier consists of 11 bits (ID.10 to ID.0). ID.10 is

the most significant bit, which is transmitted first on the bus

during the arbitration process. The identifier acts as the

message’s name. It is used in a receiver for acceptance

filtering and also determining the bus access priority

during the arbitration process. The lower the binary value

of the identifier the higher the priority. This is due to a

larger number of leading dominant bits during arbitration.

6.3.7.2

If this bit is set, a remote frame will be transmitted via the

bus. This means that no data bytes are included within this

frame. Nevertheless, it is necessary to specify the correct

data length code which depends on the corresponding

data frame with the same identifier coding.

If the RTR bit is not set, a data frame will be sent including

the number of data bytes as specified by the data length

code.

6.3.7.3

The number of bytes in the data field of a message is

coded by the data length code. At the start of a remote

frame transmission the data length code is not considered

due to the RTR bit being at logic 1 (remote). This forces

the number of transmitted/received data bytes to be

logic 0. Nevertheless, the data length code must be

2000 Jan 04

ADDRESS

Stand-alone CAN controller

CAN

RANSMIT BUFFER LAYOUT

Identiﬁer (ID)

Remote Transmission Request (RTR)

Data Length Code (DLC)

descriptor identiﬁer byte 1

data

FIELD

identiﬁer byte 2

TX data 1

TX data 2

TX data 3

TX data 4

TX data 5

TX data 6

TX data 7

TX data 8

NAME

ID.10

ID.2

transmit data byte 1

transmit data byte 2

transmit data byte 3

transmit data byte 4

transmit data byte 5

transmit data byte 6

transmit data byte 7

transmit data byte 8

ID.9

ID.1

specified correctly to avoid bus errors if two

CAN controllers start a remote frame transmission with the

same identifier simultaneously.

The range of the data byte count is 0 to 8 bytes and is

coded as follows:

DataByteCount = 8

DLC.0

For reasons of compatibility no data length code >8 should

be used. If a value >8 is selected, 8 bytes are transmitted

in the data frame with the data length code specified in

DLC.

6.3.7.4

The number of transferred data bytes is determined by the

data length code. The first bit transmitted is the most

significant bit of data byte 1 at address 12.

6.3.8

The global layout of the receive buffer is very similar to the

transmit buffer described in Section 6.3.7. The receive

buffer is the accessible part of the RXFIFO and is located

in the range between CAN address 20 and 29.

ID.8

ID.0

ECEIVE BUFFER

Data ﬁeld

ID.7

RTR

BITS

DLC.3 + 4

ID.6

DLC.3

ID.5

DLC.2

DLC.2 + 2

Product speciﬁcation

ID.4

DLC.1

SJA1000

DLC.1 +

ID.3

DLC.0

SJA1000TD-T NXP Semiconductors, SJA1000TD-T Datasheet - Page 18

SJA1000TD-T

Specifications of SJA1000TD-T

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