ABB Network Partner AB
Local man machine
communication
Version 1.0-00
1MRK 580 156-XEN
Page 3 - 32
After the correct signal appears in the data window (Fig. 13f), select the E
button to confirm this action. Then the window changes from Fig. 13f to
Fig. 13g. This window indicates that the function and signal were config-
ured to the corresponding binary output.
Select the right arrow and E to switch to the window in Fig. 13h. Here,
you can select the preferred name for the selected signal on the binary out-
put as displayed in row two.
Use the same setting procedure that you used for setting string values.
After you rename the signal, select E to confirm the change.
6.6 Configuration of the
functional inputs
Configurable functional inputs are connectable to any of the configurable
functional outputs and to different binary inputs. Fig. 14 shows the proce-
dure necessary for the configuration of functional inputs, where an input
signal (m) that belongs to function n will be connected to the output signal
(l+1) belonging to a function (k+1).
You configure the functional inputs from the configuration menu. You
can access the function and input signals from the first three data windows
(Figures 14a, 14b, and 14c). Rows three and four in Fig. 14c also display a
function and a signal that was already connected to function n.
Select E to confirm the selection of the input signal to be changed. The
window changes as shown in Fig. 14d.
Fig. 14 Configuration of the functional inputs
Select the up or down arrows to select another function. Select E to con-
firm the selection. After confirmation, the window changes from Fig. 14d
to 14e.
Select the up or down arrows to select the output signal. During the selec-
tion, the window changes as shown in Fig. 14f. Select E to confirm the
selection.
REx 5xx/Config
Function Inputs
Slot 11-BIM1
a)
Function n
b)
.FuncInp/Func n
Function k
c)
E
V
.Config/FuncInp
Function n-1
Slot 13-BOM2
Function n+1
Signal h
E
V
V
Input signal m=
.FuncInp/Func n
Input signal m =
Function k
d)
Function k+1
e)
.FuncInp/Func n
Function k+1
f)
.FuncInp/Func n
Input signal m =
Signal l
Signal l+1
Input signal m=
E
(X80156-14)
E
E
V
V
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