Start-Up
05.05
7-40
SIEMENS AG 6RX1700-0AD76
SIMOREG DC Master Operating Instructions
7.7.4
Procedure for starting up the SIMOLINK board (SLB):
1
Disconnect the power supply and insert adapter board (ADB) containing SLB in a location.
Please remember to insert a board in location 2 before you use location 3. .
2
The SLBs must be connected up using fiber optics in such a manner as to avoid long
distances between two units (max. 40m with plastic fiber optics and max. 300 m with glass
fiber optics). Please also note that the transmitter (in center of SLB) on one unit is
connected to the receiver (at corner of SLB) on the next unit. These connections must be
made on all units until they are linked in a closed circuit.
3
The following are important communication parameters. Index 1 of each parameter is set for
the 1
st
SIMOLINK board (1
st
SLB) and index 2 for the 2
nd
SIMOLINK board (2
nd
SLB) (the
use of a 2
nd
SLB is planned for future software versions):
- U740 Node address (address 0 identifies the dispatcher)
Node addresses must be assigned consecutively unless a SIMOLINK master is
being used.
- U741 Telegram failure time (0 = deactivated)
- U742 Transmitter power
The output of the fiber optic transmitter module can be set on each active bus node.
- U744 Reserved for SLB selection (leave at 0 setting)
- U745 Number of channels (telegrams) used per node
The SLB with dispatcher function assigns the same number of channels to all nodes
- U746 Traffic cycle time
In contrast to converters of the SIMOVERT series, the line-synchronous SIMOREG
converter cannot be synchronized with the cycle time of the SIMOLINK bus in order to
minimize the data interchange time.
The user data in the telegrams are exchanged cyclically (6x per mains period, i.e. every 3.3
ms at 50 HZ) between the SIMOREG converter and the SLB, irrespective of the cycle time
on the bus (U746). A shorter cycle time still means, however, that the data are transferred
more quickly after they have been made available by the converter or more up-to-date
information for the converter.
U745 and U746 together determine the number of addressable nodes (this can be checked
with diagnostic parameter n748.4 in the converter with the dispatcher board).
No. of addressable nodes =
The number of nodes serves only to check whether data can be exchanged with the values
set in U745 and U746. These parameters must otherwise be corrected.
A maximum of 201 nodes (dispatcher and 200 transceivers) can be connected to the
SIMOLINK bus. Node addresses 201 to 255 are reserved for special telegrams and others.
Consequently, with 8 channels per node, a bus cycle can be a maximum of 6.4 ms in
duration.
[ ]
745
1
*
2
36
,
6
18
,
3
746
U
us
us
us
U
⎟⎟
⎠
⎞
⎜⎜
⎝
⎛
−
+
Summary of Contents for 6RA7013-6DV62
Page 10: ...Contents 05 05 0 8 Siemens AG 6RX1700 0AD76 SIMOREG DC Master Operating Instructions ...
Page 158: ...Connections 05 05 6 72 Siemens AG 6RX1700 0AD76 SIMOREG DC Master Operating Instructions ...
Page 648: ...Parameter list 05 05 11 184 SIEMENS AG 6RX1700 0AD76 SIMOREG DC Master Operating Instructions ...
Page 720: ...Maintenance 05 05 13 10 SIEMENS AG 6RX1700 0AD76 SIMOREG DC Master Operating Instructions ...
Page 728: ...Applications 01 04 17 2 SIEMENS AG 6RX1700 0AD76 SIMOREG DC Master Operating Instructions ...
Page 730: ...Appendix 05 05 18 2 SIEMENS AG 6RX1700 0AD76 SIMOREG DC Master Operating Instructions ...
Page 732: ...Appendix 05 05 18 4 SIEMENS AG 6RX1700 0AD76 SIMOREG DC Master Operating Instructions ...
Page 733: ......