Table of Contents
Advertisement
4.5.2 CAN wiring
A very low error bit rate over CAN can only be achieved with a suitable wiring scheme, so the
following points should be observed:
The two-wire data bus line may be routed parallel, twisted and/or shielded, depending on
H
EMC requirements. Baldor recommend a twisted pair cable with the shield/screen
connected to the connector backshell, in order to reduce RF emissions and provide
immunity to conducted interference.
The bus must be terminated at both ends only (not at intermediate
H
points) with resistors of a nominal value of 120Ω. This is to reduce
reflections of the electrical signals on the bus, which helps a node to
interpret the bus voltage levels correctly. If the NextMove ESB is at
the end of the network then ensure that jumper JP1, located just
behind the status display, is in position. This will connect an internal
terminating resistor. To access the jumper it will be necessary to
remove the top cover from the NextMove ESB. Before removing the
top cover be sure to discharge static electricity from your body and
clothing by touching a grounded metal surface. Alternatively, wear an
earth strap while handling the unit.
All cables and connectors should have a nominal impedance of 120Ω. Cables should have
H
a length related resistance of 70mΩ/m and a nominal line delay of 5ns/m. A range of suitable
CAN cables are available from Baldor, with catalog numbers beginning CBL004-5... .
The maximum bus length depends on the bit-timing
H
configuration (baud rate). The table opposite shows
the approximate maximum bus length (worst-case),
assuming 5ns/m propagation delay and a total
effective device internal in-out delay of 210ns at
1Mbit/s, 300ns at 500 - 250Kbit/s, 450ns at 125Kbit/s
and 1.5ms at 50 - 10Kbit/s.
(1)
CAN baud rate not supported on Baldor CAN.
(2)
For bus lengths greater than about 1000m,
bridge or repeater devices may be needed.
The compromise between bus length and CAN baud rate must be determined for each
H
application. The CAN baud rate can be set using the BUSBAUD keyword. It is essential
that all nodes on the network are configured to run at the same baud rate.
The wiring topology of a CAN network should be as close as possible to a single line/bus
H
structure. However, stub lines are allowed provided they are kept to a minimum (<0.3m at
1Mbit/s).
The 0V connection of all of the nodes on the network must be tied together through the
H
CAN cabling. This ensures that the CAN signal levels transmitted by NextMove ESB or
CAN peripheral devices are within the common mode range of the receiver circuitry of
other nodes on the network.
4.5.2.1 Opto-isolation
On the NextMove ESB, the CAN channel is opto-isolated. A voltage in the range 12-24V must
be applied to pin 5 of the CAN connector. From this supply, an internal voltage regulator
provides the 5V at 100mA required for the isolated CAN circuit. CAN cables supplied by
Baldor are 'category 5' and have a maximum current rating of 1A, so the maximum number of
NextMove ESB units that may be used on one network is limited to ten. Practical operation of
the CAN channel is limited to 500Kbit/s owing to the propagation delay of the opto-isolators.
4-20 Input / Output
www.supportme.net
JP1
CAN
Maximum
Baud Rate
Bus Length
1Mbit/s
25m
500Kbit/s
100m
250Kbit/s
250m
125Kbit/s
500m
(1)
100Kbit/s
600m
50Kbit/s
1000m
20Kbit/s
2500m
10Kbit/s
5000m
MN1924
(2)
(2)
Advertisement
Table of Contents
