Bridge cards are not taken into account. Supply boards and UA-OFF monitoring
boards occupy one slot (see slot 7 in Fig. 3).
The numbering is continued in the I/O zone (slot 10 to slot 12 in Fig. 3). There,
numbering is continued starting from the bus coupler to the left end.
1
2
3
4
UA
P
Fig. 3: Numbering of slots in a valve system with I/O modules
1
Slot 12
3
Slot 10
5
Slot 2
7
Slot 4
9
Slot 6
11
Slot 8
S1
Section 1
S3
Section 3
A
Single pressure control working con-
nection
AV-
Pressure regulator
EP
For an explanation of the symbols for the valve zone components (see
"Valve zone").
Example
Fig. 3 shows a valve system with the following characteristics:
• Bus coupler
• Section 1 (S1) with 9 valves
– Valve driver board, 4x
– Valve driver board, 2x
– Valve driver board, 3x
• Section 2 (S2) with 8 valves
– Valve driver board, 4x
– Pressure regulator
– Valve driver board, 4x
• Section 3 (S3) with 7 valves
– Supply board
– Valve driver board, 4x
– Valve driver board, 3x
• Input module
• Input module
• Output module
The PLC configuration key for the entire unit is thus:
423–4M4U43
8DI8M8
8DI8M8
8DO8M8
5.4.2 Creating a configuration list
The configuration described in this section refers to the example from
Fig. 3.
1. In your PLC configuration software, open the window that displays the config-
uration and the window that contains the modules.
AVENTICS™ AES PROFINET IO | R412018140-BAL-001-AH | English
5
6
7
8
9 10 11 12
P
A
UA
S1
S2
2
Slot 11
4
Slot 1
6
Slot 3
8
Slot 5
10
Slot 7
12
Slot 9
S2
Section 2
P
Pressure supply
UA
Power supply
2. Use your mouse to drag the individual modules into the correct sequence
S3
from the "Module Selection" window into the configuration window.
The module selection window contains a list of all available devices. The designa-
tion used in the PLC configuration key is stated in parentheses after the module
designations.
Assign the desired output address to the valve drivers and output modules
u
and the desired input address to the input modules.
After the PLC configuration, the input and output bytes are assigned as follows:
Table 7: Example assignment of output bytes
Bit 7
Byte
AB1
AB2
AB3
Valve 4
Sol. 12
AB4
AB5
AB6
AB7
Valve 13
Sol. 12
AB8
8DO8M8
(slot 12)
X2O8
AB9
Valve 17
Sol. 12
AB10
Valve 21
Sol. 12
AB11
1)
Bit 6
Bit 5
Bit 4
x
x
x
x
x
x
x
x
Valve 4
Valve 3
Valve 3
Sol. 14
Sol. 12
Sol. 14
–
–
–
–
–
–
Valve 9
Valve 9
Sol. 12
Sol. 14
–
–
Valve 24
Valve 24
Sol. 12
Sol. 14
Valve 13
Valve 12
Valve 12
Sol. 14
Sol. 12
Sol. 14
8DO8M8
8DO8M8
8DO8M8
(slot 12)
(slot 12)
(slot 12)
X2O7
X2O6
X2O5
Valve 17
Valve 16
Valve 16
Sol. 14
Sol. 12
Sol. 14
Valve 21
Valve 20
Valve 20
Sol. 14
Sol. 12
Sol. 14
x
x
x
x
Bit 3
Bit 2
Bit 1
Bit 0
x
x
x
x
x
x
x
x
Valve 2
Valve 2
Valve 1
Valve 1
Sol. 12
Sol. 14
Sol. 12
Sol. 14
Valve 6
Valve 6
Valve 5
Valve 5
Sol. 12
Sol. 14
Sol. 12
Sol. 14
Valve 8
Valve 8
Valve 7
Valve 7
Sol. 12
Sol. 14
Sol. 12
Sol. 14
Valve 23
Valve 23
Valve 22
Valve 22
Sol. 12
Sol. 14
Sol. 12
Sol. 14
Valve 11
Valve 11
Valve 10
Valve 10
Sol. 12
Sol. 14
Sol. 12
Sol. 14
8DO8M8
8DO8M8
8DO8M8
8DO8M8
(slot 12)
(slot 12)
(slot 12)
(slot 12)
X2O4
X2O3
X2O2
X2O1
Valve 15
Valve 15
Valve 14
Valve 14
Sol. 12
Sol. 14
Sol. 12
Sol. 14
Valve 19
Valve 19
Valve 18
Valve 18
Sol. 12
Sol. 14
Sol. 12
Sol. 14
x
x
x
x
31