7.2.5) Level one programming example (ON-OFF functions)
The sequence to follow in order to change the factory settings of the functions for activating "Automatic Closing" (L1) and "Always close"
(L3) have been included as examples.).
Table 11: Level one programming
1.
Press and hold [Set] (approx. 3 s)
2.
Release the [Set] key when L1 LED starts flashing
3.
Press [Set] once to change the state of the function associated with L1 (Automatic Closing).
LED L1 will now flash with long flashes.
4.
Press [t] twice to move the flashing LED to LED L3
5.
Press the [Set] key once to change the state of the function associated with L3 (Always Close).
LED L3 will now flash with long flashes.
6.
Wait 10 seconds before leaving the programme to allow the maximum time to lapse.
Once these operations have been completed, LEDs L1 and L3 must remain on to indicate that the "Automatic Closing" and the "Always
Close" functions are active.
7.2.6) Level two programming example (adjustable parameters)
The example shows the sequence to follow to change the factory settings of parameters and increase the "Pause Time" to 60 seconds (input
on L1 and level on L5) and reduce the "Motor Torque" of 60% (input on L5 and level on L3).
Table 12: Level two programming
1.
Press and hold [Set] (approx. 3 s)
2.
Release [Set] when L1 LED starts flashing
3.
Press and hold [Set] during steps 4 and 5
4.
Wait approx. 3 seconds until LED L3, representing the current level of the "Pause Time" will light up
5.
Press [t] twice to move the LED which is lit to LED L5, which represents the new "Pause Time" value
6.
Release [Set]
7.
Press [t] four times to move the flashing LED to LED L5
8.
Press and hold [Set] during steps 9 and 10
9.
Wait approx. 3 seconds until LED L5, representing the current level of the "Motor Torque" will light up
10.
Press [s] twice to move the LED which is lit to LED L3, which represents the new "Motor Torque" value
11.
Release [Set]
12.
Wait 10 seconds before leaving the programme to allow the maximum time to lapse.
7.3) Adding or removing devices
Devices can be added to or removed from the RUN automation
system at any time. In particular, various devices types can be con-
nected to "BlueBUS" and "STOP" input as explained in the following
paragraphs.
7.3.1) BlueBUS
BlueBUS technology enables the connection of compatible devices
using only two wires which carry both the power supply and the
communication signals. All the devices are connected in parallel
on the 2 wires of the BlueBUS itself. It is not necessary to observe
any polarity; each device is individually recognized because a uni-
vocal address is assigned to it during installation. Photocells, safety
devices, control keys, signalling lights etc. can be connected to
BlueBUS.
16
After adding or removing any devices, the automation system
must go through the self-learning process again according
to the directions contained in paragraph 7.3.6 "Device self-
learning".
The RUN control unit recognizes all the connected devices individ-
ually through a suitable self-learning process, and can detect all the
possible abnormalities with absolute precision. For this reason, each
time a device connected to BlueBUS is added or removed, the con-
trol unit must go through the self-learning process; see paragraph
7.3.6 "Self-learning Other Devices".
Example
SET
3s
SET
L1
SET
L1
L3
SET
L3
10s
Example
SET
3s
SET
L1
SET
L3
3s
L5
SET
L5
SET
3s
L5
L3
SET
10s