RS-232 to J1939 Converter CE
Model 1939STB
Documentation Number 1939STB4600
International Headquarters
B&B Electronics Mfg. Co. Inc.
707 Dayton Road -- P.O. Box 1040 -- Ottawa, IL 61350 USA
Phone (815) 433-5100 -- General Fax (815) 433-5105
European Headquarters
B&B Electronics Ltd.
Westlink Commercial Park, Oranmore, Co. Galway, Ireland
Phone +353 91 792444 -- Fax +353 91 792445
B&B Electronics – November 2000
1939STB4600 Manual
Cover Page
B&B Electronics Mfg Co Inc – 707 Dayton Rd - PO Box 1040 - Ottawa IL 61350 - Ph 815-433-5100 - Fax 815-433-5104
B&B Electronics Ltd – Westlink Commercial Park – Oranmore, Galway, Ireland – Ph +353 91-792444 – Fax +353 91-792445
Introduction
SAE-J1939 is a communication protocol developed by SAE (Society of
Automotive Engineers). The communication protocol is based on the CAN
specification developed by Bosch 2.0 part B (September, 1991).
Before using the Model 1939STB the user should be familiar with the
SAE publications listed below, and follow all the guidelines before
attempting to connect to an active J1939 network.
The SAE-J1939 specifications are guidelines. Many manufacturers have
proprietary data codes developed for their own use. The user must obtain
these codes from the manufacturer of the vehicle. B&B Electronics does not
have access to the SAE-J1939 codes, and cannot provide any assistance in
obtaining these codes. It is the responsibility of the user to obtain and
implement the specific J1939 codes for the vehicle(s) that the 1939STB is
interfaced to.
SAE Publications
Surface Vehicle Recommended Practice
SAE-J1939/11
Physical Layer – 250k bits/s, Shielded Twisted Pair
(issued DEC94)
SAE-J1939/21
SAE-J1939/31
Data Link Layer (issued JUL94)
Recommended Practice for Serial Control and
Communications
Vehicle Network – Part 31- Network Layer
(issued DEC94)
SAE-J1939/71
SAE-J1939/73
SAE-J1939/81
Vehicle Application Layer (revised MAY96)
Application Layer –Diagnostics (issued FEB96)
Recommended Practice for Serial Control and
Communications
Vehicle Network – Park 81 – Network Management
(issued JUL97)
You may order these documents from SAE at (412) 776-4970
FAX: (412) 776-0790
Or on the web at
CAN Specification 2.0 Robert Bosch GmbH
Postfach 50
D-7000 Stuttgart 1, Germany
1939STB4600 Manual
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B&B Electronics Mfg Co Inc – 707 Dayton Rd - PO Box 1040 - Ottawa IL 61350 - Ph 815-433-5100 - Fax 815-433-5104
B&B Electronics Ltd – Westlink Commercial Park – Oranmore, Galway, Ireland – Ph +353 91 792444 – Fax +353 91 792445
WARNING!
This Model 1939STB Converter Module allows you to connect
to active SAE J-1939 networks. It is possible that your
transmissions through this converter module could cause
malfunction of the network operation, damage to the software or
equipment, or bodily harm.
Do Not Transmit Any Messages to The Network without a
complete understanding of the operation of the network.
B&B Electronics Mfg. Co. specifically disclaims any
responsibility for damage or injury to software, hardware,
equipment or persons as a result of using this product.
WARNING!
2
1939STB4600 Manual
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Description
The 1939STB is an interface device allowing the user to connect a PC to
an SAE-1939 bus via a serial port. The 1939STB conforms to the Physical
Layer specification as set forth in SAE-J1939/11. The 1939STB allows the
reception and transmission of messages over an SAE-J1939 standard bus.
This converter has 14 message “slots” that can be configured for either
reception or transmission. A sample program is provided to aid in the setup
of the interface. Source code is provided and can be found in a subdirectory
under B&B Electronics/J1939/VB6. The Visual Basic program runs under
Windows: however, setup and data transfers can be sent and received by any
terminal capable of serial communications.
The power supply is a wide-range design and will accept a DC voltage
between 10 and 42 volts. The 1939STB has reverse polarity protection.
Power is connected to the 1939STB though a terminal block located under
the snap cover. +DC is connected to the terminal marked “POWER”. -DC is
connected to the terminal marked “GND”.
The serial port on the 1939STB is a 9-pin male connection, configured as
DCE (pin 2 receive// pin 3 transmit). The serial baud rate is user selectable
between 300 and 57600. The stop, parity, and word length can also be
adjusted.
Two LED’s are provided on the 1939STB. One indicates that DC power
is connected to the converter and the power supply is working properly. This
LED will be lit constantly. The second LED is labeled “DATA”. This LED
monitors the function of the converter. After the device is connected, the
LED should flash approximately once every 2 seconds. The flashing LED
confirms that the converter is operating properly and is ready to accept data.
Connection to the SAE-J1939 bus is made by a terminal connection. The
terminal, located under the snap cover, is marked “CAN LOW and “CAN
HIGH”. In some applications it may be necessary to add a terminating
resistor across the CAN high/low terminals. Consult the SAE-J1939/11
publication for details concerning terminating resistors.
The terminals marked “ A” and “B” are not used.
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Physical Description
Length:
5.25 in. (134mm)
Width:
2.75 in. (70mm)
Height:
1.00 in (25.4mm)
Serial Connection:
SAE-J1939 Connection:
Power Connection:
Temperature:
DB-9 female, DCE
Terminal block, CAN HIGH/CAN LOW
Terminal block, POWER/GND
0 to +70 degrees Centigrade
Electrical Specification
Input Power Requirement: 10 to 42 volts DC, 1 Watt max.
Meets Physical Layer SAE-J1939/11
Fully compatible with ISO 11898-24v standard
RS-232 driver meets EIA-232-E and V.28 specification
CAN transceiver meets ISO 11898-24 V standard
4
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Communication directed to the device
Format:
Table 1. J1939STB Format
Message Information
Message header
Data Payload
B
1
B
2
B
3
B
4
B
5
B
6
B
7
B
8
B
9
B
1
0
4
0
B
1
1
8
c
B
1
2
4
1
B
1
3
4
2
B
1
4
4
3
B
1
5
4
4
B
1
6
4
5
B
1
8
4
6
B
1
9
4
7
B
2
0
4
8
8
1
2
1
1
F
0
5
9
5
E
7
0
c
8
0
0
0
All communications to the device start with a message header (white
area). This header is removed from any message sent to the J1939 bus. The
header is four bytes long. Two bytes (B1& B2) are used to confirm start of
frame. The next two bytes (B3 & B4) contain information controlling how
the 1939STB functions. The remainder of the packet is the data payload and
can contain from zero to sixteen bytes depending on function.
Table 2. Transmit Data Format
Byte 1
Check
1
Byte 2
Check
2
Byte 3
Control
1
Byte 4
Control
2
Message Information
Data Payload
The first two bytes (Check 1 and Check 2) are always set to 81hex and
21hex. These bytes must precede all data sent to the device. If the Check
bytes are not sent consecutively the message will be rejected. The entire
message must be resent before data can be transmitted to the device. Control
(byte 3 and byte 4) contain information that is used by the converter. This
information is not passed to the J1939 bus. Both control bytes must contain
data (cannot have a value of 00) or the transmission will be rejected.
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Control Byte 3
Byte 3 directs the data packet to the proper destination. The setting of
this byte will affect the rest of the message. That is to say changing this byte
changes the meaning of the following data bytes.
Table 3. Bits of Byte 3
Nibble 2
Bit 6 Bit 5
Nibble 1
Bit 2
Bit 7
Bit 4
Bit 3
Bit 1
Bit 0
Byte 3 has two parts, Nibble 1 and Nibble 2. Nibble 2 (bits 4 – 7) sets
the control code as follows:
Table 4. Byte 3 Nibble 2
Bit Number
Bit 7
Value
Function
1
0
1
0
1
0
1
0
Reserved not used
Reserved not used
Reserved not used
Reserved not used
Internal commands (Baud rate, Version number)
No function
External commands (Messages to J1939 bus)
No function
Bit 6
Bit 5
Bit 4
Nibble 1 (bits 0 – 3) of control byte 3 defines the number of bytes in the
data payload of the message. The byte count does NOT include the message
header (bytes 1 through 4). The message payload is limited to 16 bytes. This
limit allows a complete J1939 packet to be sent or received from the bus.
Table 5. Transmit Data Format
Byte 1 Byte 2
Byte 3
Byte 4
Message Information Data Payload
Check
1
Check
2
Control Control
1
2
<< Count Number of Bytes for byte 3 nibble 1 >>
Nibble 1 of control byte 3 can be set to any value between 0 and 16
(0 to F hex).
Table 6. Byte 3 Nibble 1
Bit Number
Bit 3
Value
Function
1
0
1
0
1
0
1
0
Number of bytes in data payload (MSB)
Bit 2
Bit 1
Bit 0
Number of bytes in data payload
Number of bytes in data payload
Number of bytes in data payload (LSB)
6
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Control Byte 4
When control byte 3 is set to “external commands” (bit 4 set to 1), nibble
1 of control byte 4 is used to tell the J1939 in which message slot location (1
through 15) to place the message data. NOTE: Message location number 15
is receive only.
Table 7. Byte 4
Nibble 2
Bit 5
Nibble 1
Bit 2
Bit 7
Bit 6
Bit 4
Bit 3
Bit 1
Bit 0
When control byte 3 is set to “ internal commands” (bit 5 set to 1), nibble
1 of control byte 4 has the following functions:
Table 8. Nibble 1 Bit Values
Nibble 1 Value
0001
Function
Display vender number & version
Set baud rate, stop, start bits
Not used
0010
0100
1000
Not used
Nibble 2 of control byte 4 is reserved for future use and is set to 0.
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Internal Functions
While most of the information sent and received from the 1939STB will
be transferred to the J1939 bus, the internal function codes allow the user to
set up the serial port, and receive an identity string from the 1939STB. The
identity string may be used to verify that the 1939STB is connected and
working properly.
Vendor String
The vendor string function is sent to the 1939STB as shown in the table
below. This function is strictly internal and can be sent to the 1939STB at
any time whether or not the 1939STB is connected to an active J1939 bus.
The shaded areas are to be set by the user.
Table 9. Vendor String Setup
Byte 1
Byte 2
Byte 3
Byte 4
Nibble 2
0000
01hex
Nibble 2
0010
Nibble 1
0000
Nibble 1
0001
81
81
21
21
20hex
After this is sent to the 1939STB the device will respond with:
Table 10. Message Received from the SAE-J1939 Bus
Function
I
J1939
MC
Data
D
4
2
Address
xx xx xx xx xx xx xx
28
0 0
0 0
0
0
0
0
00
A
A
A
A
See “Reception of Data” for an explanation of codes.
The xx may change.
The included Visual Basic application has a script file, VENDN.CVS,
that can be sent to the 1939STB to illustrate the vendor string function.
8
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RS-232 Baud Change
Setting byte-3/nibble-2 to 2 and byte-4/nibble-1 to 2 causes the 1939STB
to change baud. This function also requires 3 bytes of additional information
bytes 5, 6, and 7. It is important to note that after a baud change the PC must
have its baud changed to match the baud of the 1939STB for communication
to exist. If communication is lost after a baud change and cannot be
recovered, disconnecting the 1939STB from its power source will restore the
1939STB to its default baud rate of 9600 baud, 1 stop bit, 8 data bits, no
parity.
Table 11. Baud Rate Setup
Byte Byte
Byte 3
Nibble 2
0010
Byte 4
Byte 5
UB3
Byte 6
Baud 1
Byte 7
Baud 2
1
2
Nibble 1
0011
Nibble 2
0000
Nibble 1
0010
81
81
21
21
23 hex
02 hex
03 hex
00 hex
06 hex
Table 11 shows how an internal command is used to set the 1939STB to a
baud rate of 300, 1 stop bit, 8 data words, and no parity. Byte 3 nibble 2 sets
the internal command function. A nibble value of 2 sets the J1939STB into
the Internal Function mode. Nibble 1 of byte 3 tells the 1939STB 3 bytes will
follow Byte 4. Byte 4, nibble 1 is set to 2 telling the 1939STB to perform a
baud change using the information contained in bytes 5, 6, and 7.
Table 12. Baud Rate Setup
Baud Rate Decimal Divisor
Hex Divisor MSB (Baud 2)
Hex Divisor LSB (Baud 1)
300
1200
2400
9600
19200
38,400
57,600
1556
384
192
48
24
12
06 hex
01 hex
00 hex
00 hex *
00 hex
00 hex
00 hex
00 hex
80 hex
C0 hex
30 hex *
18 hex
0C hex
08 hex
8
* Setup default value.
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RS-232 Baud Rate Change - cont’d.
All baud rates are entered as hex numbers. To determine the decimal
divisor use the following formula. The decimal number must be converted to
hexadecimal before entering the number into byte 6 and 7. Baud rates faster
than 57,600 are not supported.
UART clock = 7,372,800 Hz
Decimal Divisor = Clock frequency (7,372,800)
Baud output x 16
If you want a baud rate output of 300 baud:
Decimal Divisor = 7,372,800
300 x 16
Decimal Divisor = 1536 = 600 hex
Baud 1= 00
Baud 2= 06
Programming a baud rate change to 300 baud, 1 stop bit, 8 bit data, no parity.
Table 13. Baud Rate Setup
Byte Byte
Byte 3
Nibble 2
0010
Byte 4
Nibble 2
0000
Byte 5
UB3
Byte 6
Baud 1
Byte 7
Baud 2
1
2
21
21
Nibble 1
0011
Nibble 1
0010
81
81
23 hex
02 hex
03 hex
00 hex
06 hex
Table 13 is set to produce a baud rate of 300, 1stop bit, an 8 bit data
word, and no parity.
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RS-232 Baud Rate Change cont’d.
Baud Change; Parity, word length, stop bits.
Byte 5 (UB3)
UB3 sets the LCR register on the UART
Table 14. Byte 5 (UB3)
Bit 7
Divisor
latch
Bit 6
Set
break
Bit 5
Set
parity
Bit 4
Even
parity
Bit 3
Bit 2
Stop
bits
Bit 1
Word
length 1
Bit 0
Word
length 0
Parity
enable
Bit 7 = 1 allows baud rate divisor to be changed.
0 baud rate change is blocked.
Bit seven should not be set. The setting and resetting of this bit is
handled internally.
Bit 6 = 1 forces the transmitter output to a logic 0 for alerting the remote
receiver to a line break.
0 No break condition.
Bits 5, 4, 3 work together to set parity.
Table 15. Parity Setup
Bit 5
Bit 4
Bit 3
Parity Selection
No parity *
Odd parity
Even parity
Force parity “1”
Force parity “0”
X
0
0
1
1
X
0
1
0
1
0
1
1
1
1
* Setup Default Value.
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RS-232 Baud Rate Change cont’d.
Bit 2 stop bit works in conjunction with bits 1 and bit 0.
Table 16. Stop Bit Setup
Bit 2
Word length (bits)
Stop bit length
0
1
1
5, 6, 7, 8
5
6, 7, 8
1*
1½
2
* Setup default value.
Bits 1 and 0 set the word length.
Table 17. Word Length
Bit 1
Bit 2
Word length
0
0
1
1
0
1
0
1
5
6
7
8*
* Setup default value.
12
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External Commands
The SAE-J1939 format is based on the CAN extended data frame. A
detailed breakdown of the data frame is shown in Appendix A.
The arbitration field is changed to conform to the SAE-J1939 message
frame. The message frame must be broken down further before it can be sent
to the 1939STB.
The format for transmitting data to the 1939STB is shown in the
following table:
Table 18. J1939 Format
Message Information
Message Header
Data Payload
B
1
B
2
B
3
B
4
B
5
B
6
B
7
B
8
B
9
B
1
0
4
0
B
1
1
8
c
B
1
2
4
1
B
1
3
4
2
B
1
4
4
3
B
1
5
4
4
B
1
6
4
5
B
1
8
4
6
B
1
9
4
7
B
2
0
4
8
8
1
2
1
1
F
0
5
9
5
E
7
0
c
8
0
0
0
The message sent to the converter is formatted as shown above. The
format is divided into three sections. Each section performs a specific
function as follows:
Bytes 1 through 4 (B1-B4) are internal commands for the converter.
These bytes tell the converter if the following message is intended for the
SAE-J1939 bus, the slot where the message should be stored on the
1939STB, and the length of the data payload.
Bytes 5 through 11 are for message control - if it is to be transmitted
(data frame) or received (remote frame). This area contains the J1939
message information: priority, data page, PDU format, PDU specific, and
source address. The last section is the data section. This is the data that will
be sent to, or received from, the bus. It may contain 0 to 8 bytes.
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Message Header Setup
Before a message can be sent to the SAE-J1939 bus, the message header
must be configured to direct the data correctly. The following table shows the
bytes that must be set to direct a message to the SAE-J1939 bus.
Table 19. J1939 Message Header
Message Header
B
1
B
2
B
3
B
4
81
21
1F
05
The first two bytes are for the start of message. The third byte (B3)
containing hex 1F,1 directs the message to the J1939 bus. (F) hex is the
number of bytes in the payload. Byte four (B4) tells the converter in which
message slot to put the message (slot 5). Valid slots are 1 through 15, but slot
15 is reserved for receive only.
Table 20. Valid Codes for Byte 3
Nibble 2
Nibble 1
Value
1
2
Function
Message directed to SAE-J1939 bus
Internal commands, vender #, baud change
0 to 15
Number of bytes to follow byte 4
Table 21. Valid Codes for Byte 4
Function
Nibble 2
Nibble 1
No function (reserved)
Message slot number
Value = 0
Value = 1 to 15 (1 to F hex)
Each message must have a unique slot number. A message sent
to the same slot number overwrites the previous message.
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Message Information
Table 22. J1939 Message Information
Message Information
B
5
95
B
6
E7
B
7
0C
B
8
80
B
9
00
B
10
40
B
11
8C
The message information controls the action of the message. It also
contains the header information that will be sent out on the J1939 bus. The
bytes that control the message and are not transmitted to the bus are grayed
in. Byte 5 and 6 are the message control bytes. They work together to control
the message. The bit fields are set up in a two bit configuration as follows:
NOTE: Byte 11 covered on page 18.
Table 23. Two Bit Values for Byte 5 and 6
Value of 2 bit field
Function on write
Reserved
Reset element
Set element
No change
Function on read
Reserved
Element is reset
Element is set
Reserved
0
0
1
1
0
1
0
1
The bit values shown in gray are the only values valid for the setup
of the 1939STB.
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Byte 5
Table 24. Byte 5
Byte 5
Bit 4
TXIE
Bit Function
Bit 7
Bit 6
Bit 5
Bit 3
RXIE
Bit 2
Bit 1
INTPND
Bit 0
MSGVAL
Sets the message valid
Sets the message invalid
Transmit interrupt set
Transmit interrupt not set
Receive interrupt set
Receive not set
1
0
0
1
1
0
0
1
1
0
0
1
Interrupt has occurred
No interrupt pending
1
0
0
1
NOTE: The dark gray (white letters) should be set to this value when sending a new message
to the 1939STB.
MSGVAL Bits 6 and 7
Message Valid. The message must be valid before any operations can be
preformed on it. Messages can be preloaded on the converter and activated /
deactivated as needed. Note that all messages locations are set invalid at
power up. Any time the converter is reset, all message information is lost.
TXIE Bits 5 and 4
Transmit Interrupt Enable. Set bit(s) INTPND after a message is successfully
sent to the bus.
RXIE Bits 3 and 2
Receive Interrupt Enable. Set bit(s) INTPND after a message is received
from the bus. NOTE: It is possible to send a remote frame by setting both the
TXIE and RXIE. The controller will clear the TXIE after the message is sent
or if the data is received before the message can be sent.
INTPND Bits 1 and 0
Interrupt Pending. Indicates that a message object has generated an
interrupt request. Be aware that when a message is being serviced by the
controller, it is temporarily inactive. This prevents a message from being
overwritten by the J1939 controller while the message is being loaded to the
serial port. During the upload the message location cannot receive or
transmit.
16
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Byte 6
Table 25. Byte 6
Byte 6
Bit 7 Bit 6 Bit 5 Bit 4 Bit 3
RMTPND TXRQ MSGLIST/CPUUPD
Bit Function
Bit 2
Bit 1 Bit 0
NEWDAT
Remote Pending
1
0
0
1
Transmit Request
1
0
0
1
Message lost/ CPU update
New data in message slot
1
0
0
1
1
0
0
1
NOTE: the dark gray (white letters) should be set to this value when sending a new message to
the 1939STB.
RMTPND Bits 7 and 6
Remote Pending (used for messages that are to be transmitted). Indicates
that the transmission of this object has been requested by a remote node, but
the data has not been sent yet. When RMTPND is set the controller also sets
TXRQ. Both RMTPND and TXRQ are cleared when the message has been
sent successfully.
TXRQ Bits 5 and 4
Transmit Request. This message is in the process of being transmitted and is
not finished yet.
MSGLST/CPUUPD Bits 3 and 2
This pair of bits has a dual function based on its direction.
Receive
MSGLST. Message Lost indicates the J1939 controller has stored a new
message into this location while NEWDAT was set. The previous message
was overwritten. This can occur for several reasons. The MPU was busy
doing other tasks, transmitting a serial message, error checking or servicing a
message with a higher slot number.
Transmit
CPUUPD. CPU update inhibits the transmission of a message while the CPU
updates the information. It can also be used to control the automatic
transmission of a message.
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NEWDAT Bits 1and 0
Indicates if new data has been written into this slot by either the bus
controller (receive messages) or the controller (transmit objects).
Byte 11
Table 26. Byte 11
Byte 11
Bit Function
Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0
DLC
XT
D
DIR
Number of data bytes (0 to 8)
Message direction: Transmit
Message direction: Receive
Extended identifier must be 1
Bit not used set to 0
1
0
1
X
Bit not used set to 0
X
DLC Bits 7, 6, 5 and 4
Data length code. The number of data bytes in the message.
DIR Bit 3
Direction. Defines if a message is transmit or receive.
Bit Set = 1
Transmit on reception of a remote frame matching the identifier.
Bit = 0
Receive. When a message is received with an identifier that matches the
identifier of the message stored in this slot the data is stored in this slot.
XTD Bit2
Extended identifier. This bit should always be set to 1. Bits 1 and 0 are
not used. To send a remote frame to Request Data, set up the message slot to
Receive Mode, then set TXRQ (10). This will be cleared by the control once
the data is sent or if the data is received before the remote frame could be
transmitted.
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SAE-J1939 Control Header
Bytes 7 though 10 are the bytes that set the header information
(“Arbitration Field” in the following table) for the SAE-J1939 bus. The areas
shown in Table 27 in dark gray are set by the CAN specification and are
NOT modified by SAE-J1939.
Table 27. J1939 Message Frame
ARBITRATION FIELD
CONTROL
DATA CRC
ACK
EOF
S
O
F
1
Identifier
(11 Bits)
S
R
S
1
I
Identifier
Extension
(18 Bits)
18 Bits
R
T
R
1
R
1
R
0
D
L
C
D
E
1
11 Bits
6 Bits
64 Bits 16 Bits 2 Bits
7 Bits
The frame above shows the entire J1939/CAN frame.
Table 28 on the following page shows the Arbitration field in detail.
Dark gray areas are part of the CAN standard and are set by the controller.
The double black lines separate the CAN message identifiers (upper part)
from the SAE-J1939 message identifiers (lower part). The area between the
black lines highlighted in dark gray/white letters shows the bytes that must be
entered to set up the SAE-J1939 message header. In the back of the manual
you will find a worksheet, (Appendix A) and an example (Appendix B) to
help set up the message header.
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Byte 7
(Shown in Table 29)
Bits 7, 6, and 5 of byte 7 set the J1939 priority bits. Bit 7 is the MSB. Bit 5 is
the LSB. To code a priority value = 6 set bit 7 = 1 bit 6 = 1 bit 5 = 0.
Bit 4 is the reserved bit - the J1939 specification sets this bit to zero. It may
be used in the future therefore it is NOT hard coded. The user must set this
bit to zero for every transmitted J1939 message.
Bit 3 is the data page bit and select page 0 or page 1and is set by the user.
Bits 2, 1, 0, are the MSB’s of the PDU format.
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Byte 8
(Shown in Table 30)
Bits 7, 6, 5, 4, and 3 of Byte 8 along with Bits 2, 1, and 0 of Byte 7 make up
the first part of the PDU (Protocol Data Unit). The first 8 bits are the PDU
format. The values for specific formats will have to be supplied by the user.
Bits 2, 1, and 0 of Byte 8 and bits 7, 6, 5, 4, and 3 of Byte 9 make up the
second part of the PDU. The eight bits are the PDU specific. Values for the
PDU specific will have to be supplied by the user .
NOTE: It is a common practice to combine the first and second parts of the
PDU into a single number. When given the PDU as a single number, bit 2 of
byte 7 is the MSB and bit 3 of byte 9 is the LSB.
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Bytes 9 and 10
(Shown in Table 31)
Bits 7, 6, 5, 4 and 3 complete the PDU.
Bits 2, 1, and 0 of byte 9 and bits 7, 6, 5,and 4 of byte 10 are the Source
Address for the converter. Each Source Address MUST be unique. SAE
J1939-81 describes address management and allocation in detail and should
be consulted before connecting to a J1939 bus. Addresses 249 and 250 are
designated for offboard diagnostic service tools. WARNING: These
addresses are SUGGESTED. The procedure described in SAE J1939-81
should be followed when connecting to any unknown bus.
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Byte 11
Table 32. J1939 Message Information
Message Information
B
B
B
B
B
B
B
5
6
7
8
9
10
11
95
E7
0C
80
00
40
8C
Table 33. J1939 Message Control
Message Information
B
5
95
B
6
E7
B
7
0C
B
8
80
B
9
00
B
10
40
B
11
8C
Byte 11
Byte 11 is not sent to the J1939 bus and is coded as follows:
Table 34. Byte 11
DLC
Bit 6
DIR
Bit 3
XTD
Bit 2
Bit 7
Bit 5
Bit 4
Bit 1
Bit 0
DLC Data Length Code
Number of bytes 0 to 8 in the data payload.
DIR Message Direction
DIR = 1 transmit. The loaded message is transmitted.
DIR = 0 receive. A remote frame with a matching identifier.
The message is stored in this message location.
XTD Extended IdentifierXTD = 1 Extended frame
This bit should always be set to one.
XTD = 0 Standard frame
J1939 does not support standard frames.
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Data Field
The next 8 bytes are the data field and can have from 0 to 8 bytes used.
This is the data payload.
Table 35. J1939 Message Frame
Arbitration Field
Control Data
CRC
ACK EOF
S
O
F
1
Identifier
(11 bits)
S
R
S
1
I
Identifier
Extension
(18 bits)
18 bits
R
T
R
1
R
1
R
0
D
L
C
D
E
1
11 bits
6 bits
64 bits
16 bits
2 bits
7 bits
The remaining fields are handled by the controller and are not accessible
through the converter.
28
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Reception of Data
The 1939STB sends data to the RS-232 port and onto the PC using a 16
byte format. The first byte of the message is 42hex. The next byte is the
Function byte. The next field displays the SAE-J1939 header. If an internal
message is received then this field is filled with zero. The receive message
header is detailed below.
Table 36. Message Received from the SAE-J1939 Bus
Func
I
D
4
J1939 Address
M
C
1
Data
09
28
C
80 00 40
00 00 00
41 42 43 44 45 46 47 48
F
F
2
E
4
2
0
0
0
0
A
A
A
A
Table 36 shows the receive message. The black line separates the two
types of messages that the 1939STB produces. Each message is detailed
separately below.
SAE-J1939 Bus
Referring to Table 36 this is a message received from the SAE-J1939
bus. The first byte (ID) is the start of frame byte and is fixed at 42hex. The
next byte is a function code byte. This byte is broken into two nibbles and
decoded as follows:
Table 37. Function
Nibble 2
Nibble 1
Bit 7
Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0
The gray area shown in Table 36 is information that was not received
from the bus, but is needed to track the message.
ID Byte
This is a start of a message and will always be 42Hex.
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Function
This is used to show where the message came from. Refer to Table 37. If
the Nibble 2 is set to 0, then the message is from the J1939 bus. If Nibble 2 is
set to 2, it is an internal message (for example, Vendor ID).
Table 38. MC
Nibble 2
Bit 5
Nibble 1
Bit 2 Bit 1
Bit 7
Bit 6
Bit 4
Bit 3
Bit 0
MC
This is a byte from the controller. Nibble 2 is the number of data bytes (0-
8) in the message. Nibble 1, Bit 3 is the message direction. Bit 2 should
always be set to 1. Bit 1 and 0 are not used.
30
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Internal Messages
Table 39. Message Received from the SAE-J1939 Bus
Func
I
J1939 Address
M
C
1
Data
D
4
2
09
C
80 00 40
41 42 43 44 45 46 47 48
F
F
E
4
2
28
0
0
00 00 00 00
A
A
A
A
Table 39 shows the data received from the J1939 bus highlighted in gray.
The bytes (C,80,00,40) are the J1939 priority, reserve bit, data page, and
PDU. The data field contains the data payload of the message and be from 0
to 8 bytes.
The message starts with 42 hex. The function code is 28 hex. This
identifies the message as an internal message 2 and type 8. The J1938
Address field is set to 0. The Data field has an AA hex at either end. The data
between is variable.
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Software
The program included with the 1939STB is a Visual Basic program that
allows the transmission and reception of simple messages from the SAE-
J1939 bus. The source code for the program is included on the disk to aid in
program development.
Installation
Two disks are provided with the 1939STB. Disk one is installed first.
Start Windows and insert the disk in A: drive.
Click on the Start icon.
Then click on the Run icon.
In the box type “a:setup”.
Follow the screen instructions.
If you follow all the default settings the program will be under
Start/ Programs/ B&B Electronics / J1939stb.
After installing the program use the icon to start the program. The first
screen sets the PC’s com port. Choose the serial port where the 1939STB is
connected. The default baud setting should be used. Click on enter to get to
the next screen.
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This screen is divided into two parts. The upper half of the screen
allows the user to fill out the individual bytes that configure the 1939STB.
The lower part of the screen displays data received from the 1939STB.
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Message Transmission
(sending data to the 1939STB)
The transmission window is divided into three rows. The first row is the
internal header information. The second row contains message control
information. The third row is the data payload sent with the information.
The first row has 4 bytes. Bytes 1 and 2 are set to 8 and 21 hex. All
data is entered in hex. The next two bytes, 3 and 4, are set by the user. Refer
to pages 6 and 7 of this manual for help setting theses two bytes. Setting a
byte is done by clicking in the box under the label and entering the proper
hex value. All values in this row must contain information or the message
will be rejected.
The second row contains bytes 5 though 11. These bytes are set by the
user. All values are entered in hex. All of the bytes in this row do NOT have
to contain data for the message to be accepted.
The last row is the data payload that is transmitted with an SAE-
J1939 message. This row may contain data or left blank.
Message Reception
To receive information from the SAE-J1939 bus, the user must
program the 1939STB to receive a message. This is done by first sending a
receive message to the 1939STB. Page 18 explains how to configure a
message to receive data. After the proper byte codes are entered into the
1939STB, the device “listens” on the SAE-J1939 bus for a message that
matches the identity code of the reception message. The message header
information and data are displayed in the lower window. The incoming data
will fill in the slots from top to bottom. Once the data moves off the page it is
lost. If a permanent copy of the data is needed use “Data Logging”.
NOTE: MicroSoft Visual Basic only allows a buffer of approximately
3K. You must manually clear the Receive Message buffer or you will get a
buffer overflow error.
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Saving Message Information
To save a configuration: “the byte data”
Click on File at the top of the page. When the box opens click on Save.
When the next box opens select a directory where the file should be stored
and name the file. Click Save. The file is saved.
To recall the information in a previously saved file use the File import
command. Select the name of the file you wish to use. Click on Open. The
data will be loaded into the Transmit window.
File Logging
File logging allows the user to save the data from the receive window. To
start data logging, click on Logging at the top of the page. Use SelectFile to
set up the file to hold the information. Data logging is started/stopped by
clicking on Toggle located on the Logging tab.
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Appendix A. The Extended CAN / SAE-J1939 Message Frame
Arbitration Field
Control Field
Data
Field
CRC
Field
Ack
Field
EOF
Identifier (11) bits
Identifier Extension (18 Bits)
DLC
2
S
O
F
S
R
S
I
D
E
R
T
R
R
1
R
0
1
2
3
4
4
5
6
7
8
9
1
0
1
1
1
2
3
4
5
6
7
8
9
1
0
1
1
1
2
1
3
1
4
1
5
1
6
1
7
1
8
1
3
4
8 bytes
64 bits
2 bytes
16 bits
Priority
(3 bits)
2
R
1
5
D
P
6
PDU Format (PF)
(8 bits)
PF
Cont
1
5
PDU Specific (PS)
(8 Bits)
Source Address
(8 Bits)
1
3
7
8
9
1
0
1
1
1
2
1
3
1
4
1
6
1
7
1
8
1
9
2
0
2
1
2
2
2
3
2
4
2
5
2
6
2
7
2
8
2
9
3
0
3
1
3
2
3
3
3
4
3
5
3
6
3
7
3
8
3
9
The table above shows a comparison between the SAE-J1939 message frame and the extended CAN message frame.
The bold line separates the upper and lower parts of the table. The upper half of the table shows the CAN data frame labels and the lower part of the table contains
the SAE-J1939 data labels. The areas that are in gray are controlled by the CAN controller and cannot be altered.
The CAN extended frame is made up of 6 fields: Arbitration, Control, Data, CRC, ACK, EOF. The arbitration field is subdivided into two fields of 11 and 18 bit identifiers.
CAN uses these fields to determine both identification and priority.
The SAE-J1939 specification future subdivides the arbitration field as follows:
Priority
R1
3 bits with a value of 0 to 7 - with 0 having the highest priority.
1 bit. This bit is reserved by the SAE for future use and should be set to 0.
DP Data Page 1bit. Sets an auxiliary page of parameter groups.
PDU-Format
8 bit. One of the fields that makes up the Parameter Group Number.
PDU-Specific 8 bit. The second field the makes up the Parameter Group Number.
Source Address 8 bit. The address of the sending/receiving node.
The fields above are required to send a message on the SAE-J1939 bus. Additionally the 8 byte data field may or may not contain data.
An expanded view of the Arbitration field is shown on the following page.
1939STB4600 Manual
Appendix A
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Arbitration Field
S
O
F
X
X
X
X
X
X
Priority
3 Bits
R
1
*
0
5
D
P
PDU Format (PF)
8 Bits
S
R
S
X
X
X
X
X
X
I
PF
Cont.
PDU Specific
8 Bits
Source Address
8 Bits
(See note below.)
R
T
D
E
X
X
X
X
X
X
R
X
X
X
X
X
X
1
1
1
2
0
0
6
1
7
1
8
1
9
1
10
0
0
0
0
0
0
0
0
0
1
1
0
4
11 12
13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
Byte 7
Byte 8
Byte E 8 cont.
4
Byte 9
4
Byte 10
7
6
5
4
3
2
1
0
7
6
5
3
2
1
0
7
6
5
3
2
1
0
7
6
5
4
3
* R1 is the reserved bit. ALL messages should set the SAE reserved bit to 0 on transmit.
The frame above represents the J1939 frame and shows how the data is coded, to be entered into the frame.
The bits marked with an X are set by the controller and are NOT settable by the user and can be ignored.
The easiest way to fill this out is to start at SOF bit, fill in the priority bits (3), the R1 bit, the data page DP bit and so on.
After all 30 bits are set, break apart the bits in bytes following the separation highlighted in gray.
The bytes are converted to hex and can be entered into the communication program provided by B&B as follows:
NOTE: The bytes in the rest of the message (bytes 3, 4, 5, 6, and 11) must be filled out for the message to operate properly.
A-2
1939STB4600 Manual
Appendix A
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Appendix B. Example
This example uses the SAE “Electronic Axle Controller #1” (EAC#1). The specifications are as follows:
Transmission Repetition Rate:
Data Length:
500 ms
8 bytes
Data Page:
0
PDU Format:
240
PDU Specific:
5
Default Priority:
Parameter Group Number:
Source Address:
6
61,446 (00F006) hex
249 (off-board diagnostic / service tool #1). See note below.
S
O
F
X
X
X
X
X
X
Priority
3 Bits
R
1
*
1
5
D
P
PDU Format (PF)
8 Bits
S
R
S
X
X
X
X
X
X
I
PF
Cont.
PDU Specific
8 Bits
Source Address
8 Bits
(See note below.)
R
T
D
E
X
X
X
X
X
X
R
X
X
X
X
X
X
1
2
2
3
1
6
1
2
8
3
9
4
10
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
4
7
11 12
13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
Byte 7
Byte 8
Byte 8 cont.
3
0
Byte 9
4
0
Byte 10
7
1
6
1
5
0
4
0
3
0
2
1
1
1
0
1
7
1
6
0
5
0
4
0
2
0
1
0
0
0
7
0
6
0
5
1
3
1
2
1
0
7
6
5
4
3
* R1 is the reserved bit. ALL messages should set the SAE reserved bit to 0 on Transmit.
Byte 7
Convert to
Hex
Convert to
Decimal
Binary
7
1
6
1
5
0
4
0
3
0
2
1
1
1
0
1
C7
199
The hex number is the value sent to the 1939STB.
NOTE: See SAE J1939–81 for Source Address management.
1939STB4600 Manual
Appendix B
B-1
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|