CANopen Cabling

Section summary

CAN topology

Bus length

Drop lines

Star hub

CAN cable

Screening

Cable colors

BK5151, EL6751, FC51xx,CX805x, CX-B/M510: D-sub, 9 pin

BK51x0, BX5100: 5- pin open style connector

LC5100 bus connection

Fieldbus Box: M 12 CAN socket

Notes related to checking the CAN wiring can be found in the Trouble Shooting section.

CAN topology

CAN topology

CAN is a 2-wire bus system, to which all participating devices are connected in parallel (i.e. using short drop lines). The bus must be terminated at each end with a 120 (or 121) Ohm terminating resistor to prevent reflections. This is also necessary even if the cable lengths are very short!

CANopen Cabling 1:

Since the CAN signals are represented on the bus as the difference between the two levels, the CAN leads are not very sensitive to incoming interference (EMI): Both leads are affected, so the interference has very little effect on the difference.

CANopen Cabling 2:

Bus length

Bus length

The maximum length of a CAN bus is primarily limited by the signal transit time. The multi-master bus access procedure (arbitration) requires signals to reach all the nodes at effectively the same time (before the sampling within a bit period). Since the signal transit times in the CAN connecting equipment (transceivers, opto-couplers, CAN controllers) are almost constant, the line length must be chosen in accordance with the baud rate:

Baud Rate

Bus length

1 Mbit/s

< 20 m*

500 kbit/s

< 100 m

250 kbit/s

< 250 m

125 kbit/s

< 500 m

50 kbit/s

< 1000 m

20 kbit/s

< 2500 m

10 kbit/s

< 5000 m

*) A figure of 40 m at 1 Mbit/s is often found in the CAN literature. This does not, however, apply to networks with optically isolated CAN controllers. The worst case calculation for opto-couplers yields a figure 5 m at 1 Mbit/s - in practice, however, 20 m can be reached without difficulty.

It may be necessary to use repeaters for bus lengths greater than 1000 m.

Drop lines

Drop lines

Drop lines must always be avoided as far as possible, since they inevitably cause reflections. The reflections caused by drop lines are not however usually critical, provided they have decayed fully before the sampling time. In the case of the bit timing settings selected in the Bus Couplers it can be assumed that this is the case, provided the following drop line lengths are not exceeded:

Baud Rate

Drop line length

Total length of all drop lines

1 Mbit/s

< 1m

< 5 m

500 kbit/s

< 5 m

< 25 m

250 kbit/s

< 10m

< 50 m

125 kbit/s

< 20m

< 100 m

50 kbit/s

< 50m

< 250 m

Drop lines must not have terminating resistors.

CANopen Cabling 3:

Star Hub (Multiport Tap)

Star Hub

Shorter drop line lengths must be maintained when passive distributors ("multiport taps"), such as the Beckhoff ZS5052-4500 Distributor Box. The following table indicates the maximum drop line lengths and the maximum length of the trunk line (without the drop lines):

Baud Rate

Drop line length with multiport topology

Trunk line length (without drop lines)

1 Mbit/s

< 0,3 m

< 25 m

500 kbit/s

< 1,2 m

< 66 m

250 kbit/s

< 2,4 m

< 120 m

125 kbit/s

< 4.8 m

< 310 m

CAN cable

CAN cable

Screened twisted-pair cables (2x2) with a characteristic impedance of between 108 and 132 Ohm is recommended for the CAN wiring. If the CAN transceiver’s reference potential (CAN ground) is not to be connected, the second pair of conductors can be omitted. (This is only recommended for networks of small physical size with a common power supply for all the participating devices).

ZB5100 CAN Cable

ZB5100

A high quality CAN cable with the following properties is included in Beckhoff's range:

  • 2 x 2 x 0.25 mm² (AWG 24) twisted pairs, cable colors: red/black + white/black
  • double screened
  • braided screen with filler strand (can be attached directly to pin 3 of the 5-pin connection terminal),
  • flexible (minimum bending radius 35 mm when bent once, 70 mm for repeated bending)
  • characteristic impedance (60 kHz): 120 Ohm
  • conductor resistance < 80 Ohm/km
  • sheath: grey PVC, external diameter 7.3 +/- 0.4 mm
  • Weight: 64 kg/km.
  • printed with "BECKHOFF ZB5100 CAN-BUS 2x2x0.25" and meter marking (length data every 20 cm)

CANopen Cabling 4:

ZB5200 CAN/DeviceNet Cable

ZB5200

The ZB5200 cable material corresponds to the DeviceNet specification, and is also suitable for CANopen systems. The ready-made ZK1052-xxxx-xxxx bus cables for the Fieldbus Box modules are made from this cable material. It has the following specification:

  • 2 x 2 x 0.34 mm² (AWG 22) twisted pairs
  • double screened braided screen with filler strand
  • characteristic impedance (1 MHz): 126 Ohm
  • conductor resistance 54 Ohm/km
  • sheath: grey PVC, external diameter 7.3 mm
  • printed with "InterlinkBT DeviceNet Type 572" as well as UL and CSA ratings
  • stranded wire colours correspond to the DeviceNet specification
  • UL recognized AWM Type 2476 rating
  • CSA AWM I/II A/B 80°C 300V FT1
  • corresponds to the DeviceNet "Thin Cable" specification

CANopen Cabling 5:

Screening

Screening

The screen is to be connected over the entire length of the bus cable, and only galvanically grounded at one point, in order to avoid ground loops.
The design of the screening, in which HF interference is diverted through R/C elements to the mounting rail assumes that the rail is appropriately earthed and free from interference. If this is not the case, it is possible that HF interference will be transmitted from the mounting rail to the screen of the bus cable. In that case the screen should not be attached to the couplers - it should nevertheless still be fully connected through.

Notes related to checking the CAN wiring can be found in the Trouble Shooting section.

Cable colors

Cable colors

Suggested method of using the Beckhoff CAN cable on Bus Terminal and Fieldbus Box:

BK51x0 pin
BC5150/BX5100

BK5151, CX805x, CX-B510/M510

Fieldbus Box pin

FC51xx pin/EL6751

Function

ZB5100 cable color

ZB5200 cable color

1

3

3

3

CAN Ground

black/ (red)

black

2

2

5

2

CAN Low

black

blue

3

5

1

5

Screen

Filler strand

Filler strand

4

7

4

7

CAN high

white

white

5

9

2

9

not used

(red)

(red)

BK5151, EL6751, CX805x, CX-B/M510 and FC510x: D-sub, 9 pin

BK5151, EL6751, CX805x, CX-B/M510 and FC510x: D-sub, 9 pin

The CAN bus cable is connected to the FC51x1 and FC51x1/2 CANopen cards via 9-pin sub-D sockets, with pins assigned as follows.

Pin

Assignment

2

CAN low (CAN-)

3

CAN ground (internally connected to pin 6)

6

CAN ground (internally connected to pin 3)

7

CAN high (CAN+)

The unlisted pins are not connected.
The top-hat contact clip and the connector shield are connected..

Note: An auxiliary voltage of up to 30 VDC may be connected to pin 9. Some CAN devices use this to supply the transceiver.

BK5151

EL6751

CANopen Cabling 6:

CANopen Cabling 7:

FC5102

CANopen Cabling 8:

BK51x0: 5- pin open style connector

BK51x0: 5- pin open style connector

The BK51x0 Bus Couplers have a recessed front surface on the left hand side with a five pin connector.
The supplied CANopen socket can be inserted here.

CANopen Cabling 9:

The left figure shows the socket in the BK51x0 Bus Coupler. Pin 5 is the connection strip's top most pin. Pin 5 is not used. Pin 4 is the CAN high connection, pin 2 is the CAN low connection, and the screen is connected to pin 3 (which is connected to the mounting rail via an R/C network). CAN GND can optionally be connected to pin 1. If all the CAN ground pins are connected, this provides a common reference potential for the CAN transceivers in the network. It is recommended that the CAN GND be connected to earth at one location, so that the common CAN reference potential is close to the supply potential. Since the CANopen BK51X0 Bus Couplers provide full electrical isolation of the bus connection, it may in appropriate cases be possible to omit wiring up the CAN ground.

ZS1052-3000 Bus Interface Connector

ZS1052-3000 Bus Interface Connector

The ZS1052-3000 CAN Interface Connector can be used as an alternative to the supplied connector. This makes the wiring significantly easier. There are separate terminals for incoming and outgoing leads and a large area of the screen is connected via the strain relief. The integrated terminating resistor can be switched externally. When it is switched on, the outgoing bus lead is electrically isolated - this allows rapid wiring fault location and guarantees that no more than two resistors are active in the network.

  LC5100: Bus connection via spring-loaded terminals

LC5100: Bus connection

In the low cost LC5100 Coupler, the CAN wires are connected directly to the contact points 1 (CAN-H, marked with C+) and 5 (CAN-L, marked with C-). The screen can optionally be connected to contact points 4 or 8, which are connected to the mounting rail via an R/C network.

CANopen Cabling 10:

Note
Attention

The LC5100 has no galvanic isolation and an incorrect wiring can by destroyed or damaged the CAN driver.

Fieldbus Box: M12 CAN socket

Fieldbus Box

The IPxxxx-B510, IL230x-B510 and IL230x-C510 Fieldbus Boxes are connected to the bus using 5- pin M12 plug-in connectors.

CANopen Cabling 11:

Beckhoff offer plugs for field assembly, passive distributor's, terminating resistors and a wide range of pre-assembled cables for the Fieldbus Box system. Details be found in the catalog, or under www.beckhoff.com.