HBM QuantumX User manual
Operating Manual | Bedienungsanleitung
English Deutsch
/
CANBus
Hottinger Baldwin Messtechnik GmbH
Im Tiefen See 45
D-64239 Darmstadt
Tel. +49 6151 803-0
Fax +49 6151 803-9100
www.hbm.com
Mat.: 7-2002.4461
DVS: A4461-2.0 HBM: public
03.2017
EHottinger Baldwin Messtechnik GmbH.
Subject to modifications.
All product descriptions are for general information only.
They are not to be understood as a guarantee of quality or
durability.
Änderungen vorbehalten.
Alle Angaben beschreiben unsere Produkte in allgemeiner
Form. Sie stellen keine Beschaffenheits- oder Haltbarkeits
garantie dar.
Operating Manual | Bedienungsanleitung
English Deutsch
/
CANBus
Receive / Transmit
2A4461-2.0 HBM: public CANBus
English
1 Safety instructions 5........................................
2 Markings used 12............................................
2.1 The markings used in this document 12..........................
3 QuantumX / SomatXR documentation 14......................
4 CANbus 15..................................................
5 QuantumX / SomatXR and CAN 16............................
5.1 General information 16........................................
5.2 CAN bus 18..................................................
5.2.1 LEDs status display 20........................................
5.2.2 Receiving CAN messages 22...................................
6 Functional description 23....................................
6.1 Global parameters 23.........................................
6.1.1 Bit rates 23..................................................
6.1.2 CANBus line termination 23....................................
6.1.3 Error handling 24.............................................
6.2 Error events 25...............................................
6.2.1 Detecting transmit and receive path errors 25.....................
6.2.2 LED and error status behavior 25...............................
6.2.3 Possible error causes in CAN mode 26..........................
6.2.3.1 CANbus warning, CANbus error, CANbus OFF 26..................
6.2.3.2 CAN “Receiver Overrun” 26......................................
6.2.3.3 CAN “Transmitter Overrun” 27...................................
6.2.3.4 CAN decoder “Timeout” 27......................................
6.2.3.5 CAN decoder “Loss of Signal” 27.................................
6.2.3.6 Module resources 28...........................................
6.3 State indication by LED 28.....................................
6.3.1 MX840B 28..................................................
6.3.2 MX471B 29..................................................
6.4 CAN decoder: receiving CAN data 31............................
CANBus A4461-2.0 HBM: public 3
6.4.1 Remote frames (RTR) 31......................................
6.4.2 User-defined data type selection 31.............................
6.4.3 Calculation rule data types 32..................................
6.4.4 Floating point scaling 32.......................................
6.4.6 Integer scaling 36.............................................
6.5 CAN encoder (mappable CAN transmit messages) 39.............
6.5.1 Motivation 39.................................................
6.5.2 Signal source definition 39.....................................
6.5.3 Measured value scaling 40.....................................
6.5.4 Data types and bit positions of a measured value 41...............
6.5.5 Transmit data in the event of an error 42.........................
6.5.6 CAN message parameters 43..................................
6.5.6.1 Data length of the CAN message 43..............................
6.5.7 Example of the different signal sources within a single CAN
message 44..................................................
6.5.8 Transmission type 46..........................................
6.5.8.1 Control 47.....................................................
6.5.8.2 Timer 47......................................................
6.5.8.3 SourceChange 47..............................................
6.5.8.4 IsoEvent 48...................................................
6.5.9 Constraints for MX840B 48.....................................
6.6 Data bit numbering systems according to the vector DBC format 49.
6.6.1 Numbering systems used in QuantumX / SomatXR
parameterization 49............................................
6.6.1.1 INTEL Standard format 50.......................................
6.6.1.2 MOTOROLA Forward MSB format 51.............................
6.6.2 Other numbering systems not used in QuantumX / SomatXR
parameterization 52...........................................
6.6.2.1 MOTOROLA Forward LSB format 53.............................
6.6.2.2 MOTOROLA Backward format 54................................
6.6.2.3 INTEL Sequential format 55.....................................
6.6.2.4 MOTOROLA Sequential format 56................................
4A4461-2.0 HBM: public CANBus
7 QuantumX / SomatXR and CCP / XCP-on-CAN 57..............
7.1 Introduction to CCP and XCP 57................................
7.2 MX471B and CAN / XCP-on-CAN 58............................
7.3 Initialization per XML 60.......................................
7.4 Starting and stopping with the "CANECU" control item 60..........
7.5 General Workflow 61..........................................
8 Glossary 71.................................................
Safety instructions
CANBus A4461-2.0 HBM: public 5
1 Safety instructions
Notice
The safety instructions described here also apply to the
power pack NTX001 and the active backplane BPX001
and BPX002.
Appropriate use
A module integrated into the CANbus by the relevant
connector is to be used exclusively for measurement and
test tasks. Use for any purpose other than the above is
deemed to be non-designated use.
To ensure safe operation, the module must only be ope
rated as described in the general operating manual and in
accordance with the information detailed in this document.
It is also essential to comply with the legal and safety re
quirements for the application concerned during use. The
same applies to the use of accessories.
Each time you start up the module, you must first run a
project planning and risk analysis that takes into account
all the safety aspects of automation technology. This par
ticularly concerns personal and machine protection.
Additional safety precautions must be taken in plants
where malfunctions could cause major damage, loss of
data or even personal injury. In the event of a fault, these
precautions establish safe operating conditions.
This can be done, forexample, by mechanical
interlocking, error signaling, etc.
Safety instructions
6A4461-2.0 HBM: public CANBus
Notice
The module must not be connected directly to a power
supply system. The supply voltage must be 10 V … 30 V
(DC).
General dangers of failing to follow the safety
instructions
Every module is a state of the art device and as such is
failsafe. The module may give rise to residual dangers if
it is inappropriately installed and operated by untrained
personnel. Any person instructed to carry out installation,
commissioning, maintenance or repair of the modules
must have read and understood the Operating Manuals
and in particular the technical safety instructions.
The scope of supply and performance of the modules
only covers a small area of measurement technology. In
addition, equipment planners, installers and operators
should plan, implement and respond to the safety
engineering considerations of measurement technology
in such a way as to minimize residual dangers. On-site
regulations must be complied with at all times. There
must be reference to the residual dangers connected
with measurement technology. After making settings and
carrying out activities that are password-protected, you
must make sure that any controls that may be connected
remain in safe condition until the switching performance
of the module has been tested.
Safety instructions
CANBus A4461-2.0 HBM: public 7
Maintenance and cleaning
The modules are maintenance-free.
SBefore cleaning, disconnect all connections.
SClean the housing with a soft, slightly damp (not wet!)
cloth. Never use solvent, as this could damage the
label or the housing.
SWhen cleaning, ensure that no liquid gets into the
module or connections.
Bus connecting and Outputs
Particular attention must be paid to safety when
connecting to the CANbus and when sending CANbus
messages. Ensure that integration alone, status or
control signals cannot initiate any actions that may pose
a danger to persons or the environment.
Product liability
In the following cases, the protection provided for the
device may be adversely affected. Liability for device
functionality then passes to the operator:
SThe device is not used in accordance with the operat
ing manual.
SThe device is used outside the field of application de
scribed in this section.
SThe operator makes unauthorized changes to the
device.
Warning signs and danger symbols
Important instructions for your safety are specifically
identified. It is essential to follow these instructions in
order to prevent accidents and damage to property.
Safety instructions
8A4461-2.0 HBM: public CANBus
Safety instructions are structured as follows:
WARNING
Type of danger
Consequences of non-compliance
Averting the danger
SWarning sign: draws attention to the danger
SSignal word: indicates the severity of the danger
(see table below)
SType of danger: identifies the type or source of the
danger
SConsequences:describes the consequences of non-
compliance
SDefense: indicates how the danger can be avoided/
bypassed.
Danger classes as per ANSI
Warning sign, signal word Meaning
WARNING This marking warns of a potentially dangerous situ
ation in which failure to comply with safety require
ments may result in death or serious physical injury.
CAUTION This marking warns of a potentially dangerous situ
ation in which failure to comply with safety require
ments may result in slight or moderate physical injury.
Note This marking draws your attention to a situation in
which failure to comply with safety requirements may
lead to damage to property.
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