Start-Up
05.05
7-20
SIEMENS AG 6RX1700-0AD76
SIMOREG DC Master Operating Instructions
7.7
Starting up optional supplementary boards
For board mounting instructions, see Section 5.3.2 , Mounting Optional Supplementary Boards.
This section also contains details on the number of supplementary boards that can be installed and
in which slots they may be inserted.
The basic converter automatically detects all installed supplementary boards during power-up.
All communications-related settings must be made by means of parameters. The function
diagrams in Section 8 show a general overview of the parameters provided for this purpose.
If two boards of the same type (e.g. two EB1s) are installed in a converter, the slots in which they
are installed determine the parameter settings. The board in the slot with the lower slot letter is the
1
st
board (e.g. the 1
st
EB1) of this particular type and the board with the higher letter the 2
nd
board
(e.g. 2
nd
EB1).
The 1
st
board is parameterized via index 1 and the 2
nd
board via index 2 of the corresponding
parameter (e.g. to define the signal type of the analog inputs of boards of type EB1, parameter
U755.001 is used for the 1
st
EB1 and parameter U755.002 for the 2
nd
EB1).
7.7.1
Procedure for starting up technology boards (T100, T300, T400):
NOTE
Freely configurable technology boards T300 and T400 are guaranteed to operate correctly (board
run up and data exchange with the SIMOREG 6RA70). The user, however, must bear
responsibility for ensuring that the system is properly configured.
1
Disconnect the power supply and insert the board in location 2.
2
Power up the system again to gain access to the parameters of the technology board (d and
H parameters, as well as c and L parameters if programmed).
The process data are interconnected at the basic converter end by means of the appropriate
connectors and binectors (see Section 8, function diagram Z110)
For meaning of bits of control and status words, please see Section 8, Sheets G180 to
G183.
If a communication board is used in addition to a technology board, then data are exchanged
with the basic converter via the technology board. The basic converter cannot directly
access the data of the communication board. The connections of the transfer data are then
determined by the configuration or parameter settings of the technology board.
Module T100 comprising software submodule MS100 already contains several technology
functions and arithmetic, control, and logic modules, which are freely configurable using
parameters. This software can be expanded with customized components, if required.
As module T300 has already been replaced by T400, T300 should only be used in special
circumstances.
Only one communication module (CBC, CBD, CBP2, SCB1) is permitted in slot G in addition
to the technology modules T100 and T300 in slot 2.
Module T400 is already available with standard configurations for frequent applications.
They permit the use of several functions (e.g. inputs/outputs, serial interfaces, link to a
communications module) without any additional configuration.
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: ......