CAN Bus Workshop_Version 03__06-2008_EN.pdf - 第73页

1 - 1 1 S tudent Guide CAN BUS W orkshop Edition 06/20 08 3 CAN B US 11 17 D at u m 06 /20 08 Ver s io n 0 3 CA N B u s W o r k sh op M at hi as M i c h el SIPL ACE Ca mp us Automati on and Drives Te rm in at ing Res ist…

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Student Guide CAN BUS Workshop

3 CAN BUS Edition 06/2008

15Datum06/2008 Version 03 CAN Bus Workshop Mathias Michel

SIPLACE Campus

Automation and Drives

3. Auswirkung der Abschlußwiderstände

Terminating Resistors 60 Ohm Æ OK

CAN High - level approx. 1,5V

CAN Low – Level approx. 1,5 V

3. Effect terminating resistors

16Datum06/2008 Version 03 CAN Bus Workshop Mathias Michel

SIPLACE Campus

Automation and Drives

3. Auswirkung falscher Abschlußwiderstände

Terminating Resistors 120 Ohm

CAN High - Level

CAN Low - Level

3. Effect wrong terminating resistors

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Student Guide CAN BUS Workshop

Edition 06/2008 3 CAN BUS

17Datum06/2008 Version 03 CAN Bus Workshop Mathias Michel

SIPLACE Campus

Automation and Drives

Terminating Resistors 40 Ohm

CAN High - Level < 1,5 V

CAN Low – Level < 1,5 V

3. Effect wrong terminating resistors

3. Auswirkung falscher Abschlußwiderstände

18Datum06/2008 Version 03 CAN Bus Workshop Mathias Michel

SIPLACE Campus

Automation and Drives

2. Check the Power fail, CAN init, -reset signals

Although the CAN Init and CAN Reset signals are not used in some cases (machine-specific),

they still have a voltage level of 5V (min.4,0V)

The sporadic drop in voltage or a short circuit to other signals could lead to logical faults in the

CAN bus system (e.g. CAN timeout).

Should problems with the CAN bus occur, always check the signal voltage levels

Note:

In some machines, the wires for CAN init,CAN reset and power fail may have been removed

from the CAN bus cable at the COM assembly. In this case, the easiest way to check

voltages levels is at the RS232 bridge, in the main and sub distributors.

3. Überprüfung der Spannungen

(CAN init,-reset,Power fail)

3. Checking the Power Fail, CAN Init,-Reset

Signals

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Student Guide CAN BUS Workshop

3 CAN BUS Edition 06/2008

19Datum06/2008 Version 03 CAN Bus Workshop Mathias Michel

SIPLACE Campus

Automation and Drives

3. Messung der Spannungspegel

3. Check the recessive level

The CAN levels for CAN_H and CAN_ L differentiate between recessive and dominant levels.

This two levels will convert into a TTL level, for the CAN Processor. The RxD Signal has the

same phase such as the CAN_L Signal.

3. Checking the CAN BUS voltage

level

CAN_L

CAN_H

RxD

TTL Pegel

(Level)

16bit Can

processor

TQM

module

RxD

Naming convention for the CAN Signals

CAN_H : Recessive Signal (r)

Logic 1 (1)

High (H)

CAN_L: dominate Signal (d)

Logic 0 (0)

Low (L)

20Datum06/2008 Version 03 CAN Bus Workshop Mathias Michel

SIPLACE Campus

Automation and Drives

3. Messung der Spannungspegel

3. Check the recessive level

The recessive level (when CAN bus is idle i.e. there is no data transmission) can be measured statically,

with a voltammeter. Make sure no telegrams are sent during the measurement procedure. This means that

measurement may only be performed when the machine is not in operation.

Recessive Pegel = Logic „1“

Attention: Switch ON the machine and wait, so that are no communication on the CAN Bus!

Measure between GND and Pin 3 and GND and Pin 6).

Voltage value: 2.5 +/- 0,3V for CAN_H

2.5 +/-0,3V for CAN_L

3. Checking the CAN BUS voltage

level