7.4.2 - Flashing light signals
If a flashing light is connected to the FLASH output on the control unit (or the
led flashing light is used, optional accessory), during the performance of a
manoeuvre this emits a flash each second . If faults occur, the flashing light will
Signal
1 flash
second pause
1 flash
2 flashes
second pause
2 flashes
3 flashes
second pause
3 flashes
4 flashes
second pause
4 flashes
5 flashes
second pause
5 flashes
6 flashes
second pause
6 flashes
7 flashes
second pause
7 flashes
8 flashes
second pause
8 flashes
9 flashes
second pause
9 flashes
7.5 - Loop Detector
The control unit has two circuits used to detect metal masses (motorcycles,
cars, trucks, etc...); each circuit may be completed with the use of a inductive
loop, consisting of 1 unipolar cable, to be positioned below the ground at a
depth of a few centimeters .
7.5.1 - Operation
When the control unit detects a variation in frequency with the passage of a
metal mass above the loop, it activates a manoeuvre or an output (output 1,
2, 3) to activate the flashing light, the open barrier indicator or the lights for the
pole . The factory setting controls an opening manoeuvre of the pole; until the
loop is operating, it is not possible to control the closing manoeuvre .
When the control unit is powered, it carries out a calibration, i .e . a measure-
ment of the operating frequency of each loop; if no loop is connected to the
control unit, the circuit automatically turns off after 30 seconds .
There are 8 levels of "metal mass detection sensitivity" (see Table 7 chapter 6) .
The factory setting is 90% .
By using the Oview programmer, it is possible to modify the other parameters
and operating modes associated to the Loop Detector .
The following programs are possible, also see Table 15 for the values:
• Loop sensitivity: set the minimum frequency variation of the metal mass,
required to activate the manoeuvre . Reference parameters:
- set a "high sensitivity" for the detection of small sized metal masses
- set a "low sensitivity" for the detection of large sized metal masses .
• Loop power supply: activates or deactivates the circuits of the loop detec-
tor .
• Activate loop 1, 2: the activation of the loop makes the movement of the
barrier activate according to the set operating mode . If the function is DEAC-
TIVATED, the status of the loop is available, by suitably programming one of
the outputs (output 1, 2, 3) on the control unit, with the Oview programmer .
• Loop permanence time: time during which the loop is occupied . Once this
time has passed, a recalibration is automatically activated to signal the free
loop .
• Loop operation mode: if the function "Loop active" is enabled and the loop
command signal is ACTIVE, the behaviour of the barrier varies according to
the set "loop operation mode":
16 – English
Cause
Bluebus system error
Photocell activated
Activation of Motor Force limiter
STOP input activation
Error on internal parameters in control unit
Not used
Error in internal electric circuits
Not used
Block automation
emit shorter flashes; these are repeated twice, separated by a 1 second pause .
The same signals are also emitted by the led flashing light (optional accessory)
and the "Bluebus" led . Table 14 shows the cause and solution for each type
of signal .
TABLE 14
Solution
At the start of the manoeuvre, the devices connected to Bluebus
do not correspond to those recognized during the self-learning
phase . One or more devices may be faulty; check and, if neces-
sary, replace them. In case of modifications repeat the device self-
learning process (see paragraph 4 .5) .
At the start of the manoeuvre, one or more photocells do not ena-
ble it; check to see if there are any obstacles .
During the movement, the pole has experienced excessive fric-
tion; identify the cause .
At the start of the manoeuvre or during the movement, the STOP
input was activated; identify the cause .
Switch off the power and turn it on again . If the error continues
carry out the "Total deletion of the memory" as described in chapter
7 .1 and redo the installation; if the condition persists, there may be
a serious malfunction and the electronic board must be replaced .
–––
Disconnect all power circuits for a few seconds and then retry
a command; if the condition persists this may indicate a serious
fault with the board or motor wiring . Check and make replace-
ments as necessary .
–––
Send the command "Release automation" or control the manoeu-
vre with "High Priority Step Step" .
- only opens (apartment block opens)
- only closes
- alt
- photo closes (PHOTO with total inversion) . CAUTION! – The loop con-
figured as "photo close" is not a safety device; therefore, it is not
guaranteed to intervene in all conditions. In particular, at every start
movement the control unit calibrates the system by considering the
absence of metal items above the loops.
• Calibration: starts a calibration procedure; i .e . acknowledgement of the
connected loop . Note: the calibration automatically activates the parameter
"Loop power supply"
• Activation modes: see Table 16 (relay = loop command signal) .
• Loop activation time: is the time "t" linked to the operating modes described
in Table 16 .
• Loop frequency display: signals the fluctuation frequency of the loop
selected in Hz .
7.5.2 - Installation
WARNINGS
• It is advisable to install the magnetic loop near the barrier .
• The electric cables of the magnetic loops must be separated from the other
cables in the barrier (power supply, accessories, etc .) .
• If the magnetic loops are connected to other barriers, it is necessary to posi-
tion them at least 1 m between each other .
• Important! – The magnetic loop must be fixed in a way to make it immobile
since any movement caused by an unstable floor could cause false tripping .
• The size of the loop must be defined depending on the application; it is nec-
essary to consider that the loop must be positioned at a distance of at least
20 cm from fixed metal objects and 1 m from moving metal objects (fig. F) .
Note – To obtain optimal operation, it is worth using a loop that is the same
size as or smaller than the object to be detected .
• Usually the loop used for the passage of cars and trucks is rectangular in
shape, to be positioned 45° with respect to the route arranged for the pas-
sage of bicycles and motorbikes (fig. G) . Note – We recommend you cut the
45° corners of the outline on the floor to avoid breaking the cable .
• IMPORTANT – TO PREVENT INTERFERENCE, THE CONNECTION