ENGLISH
After this, if autosetting is successfully completed, the control unit
automatically exits the (.... .... ....) phase, and displays the "OK" message
which indicates correct autoset execution.
If "KO" is displayed, this means that autoset was not correctly performed
due to the presence of resistance points which did not allow the correct
setting of the ideal operation values on the control unit.
Proceed to find out whether there are any mechanical obstructions which
might prevent regular leaf movement.
Furthermore, the autoset function will not be successful, due to the
activation of any of the inputs during the manoeuvre.
WARNING! During autoset, the installer must check the movement of the
automation and prevent persons or things from approaching or standing
within the automation operating range.
WARNING: Check that the impact force value measured at the
points established by the EN 12445 standard is lower than that
specified in the EN 12453 standard.
Incorrect sensitivity setting can cause injuries to persons or
animals, or damage to things.
6.8) Statistics
Having connected the UNIPRO programmer to the control unit, enter the
CONTROL UNIT / STATISTICS menu and scroll the screenful showing the
statistical parameters:
-
Board microprocessor software version.
-
Number of cycles carried out. If motors are replaced, count the number of
manoeuvres carried out up to that time.
-
Number of cycles carried out from the latest maintenance operation.
It is automatically set to zero after each self-diagnosis or parameter writing.
-
Date of latest maintenance operation. To be updated manually from the
appropriate menu "Update maintenance date".
-
Installation description. 16 characters can be entered for installation
identification.
7) INTEGRATED RECEIVER TECHNICAL SPECIFICATION
Receiver output channels:
-
output channel 1, if activated, controls a START command.
-
output channel 2, if activated, controls the excitation of the 2nd radio
channel relay for 1s.
Transmitter versions which can be used:
all Rolling Code transmitters compatible with
ANTENNA INSTALLATION
Use an antenna tuned to 433MHz.
For Antenna-Receiver connection, use RG8 coaxial cable.
The presence of metallic masses next to the antenna can interfere with
radio reception. In case of insufficient transmitter range, move the antenna
to a more suitable position.
8) RECEIVER CONFIGURATION
The on-board receiver combines characteristics of utmost safety in copying
variable code (rolling code) coding with the convenience of carrying out
transmitter "cloning" operations thanks to an exclusive system.
Cloning a transmitter means creating a transmitter which can be automatically
included within the list of the transmitters memorised in the receiver, either
as an addition or as a replacement of a particular transmitter.
Cloning by replacement is used to create a new transmitter which takes the
place of the one previously memorised in the receiver; in this way a specific
transmitter can be removed from the memory and will no longer be usable.
Therefore it will be possible to remotely program a large number of
additional transmitters or, for example, replacement transmitters for those
which have been lost, without making changes directly to the receiver.
When coding safety is not a decisive factor, the on-board receiver allows
you to carry out fixed-code additional cloning which, although abandoning
the variable code, provides a high number of coding combinations, therefore
keeping it possible to "copy" any transmitter which has already been
programmed .
PROGRAMMING
Transmitter storage can be carried out in manual mode or by means of the
UNIRADIO programmer which allows the complete installation database to
be managed through the Eedbase software.
In this second case, receiver programming takes place through the
connection of UNIRADIO to the LEO-D-MA control panel, using the
UNIFLAT and UNIDA accessories as indicated in Fig. 4.
16 -
LEO-D-MA - Ver. 01
INSTALLATION MANUAL
9) MANUAL PROGRAMMING
In the case of standard installations where advanced functions are not
required, you can proceed to manual storage of the transmitters, making
reference to fig. B for basic programming.
-
If you wish the transmitter to activate output 1 (START) by means of
key1, key2, key3 or key4, enter the transmitter in menu "Start key", as
in fig. B.
-
If you wish the transmitter to activate output 2 (2nd radio channel relay)
by means of key1, key2, key3 or key4, enter the transmitter in menu "2nd
ch. key", as in fig. B.
Note: Hidden key P1 appears differently depending on the transmitter
model.
For transmitters with hidden key, press hidden key P1 (fig. B1). For
transmitters without hidden key, the key P1 function corresponds to
simultaneously pressing the 4 transmitter keys or, after opening the
battery compartment, bridging the two P1 points by means of a screwdriver
(fig. B2).
IMPORTANT NOTE: ATTACH THE ADH ESIVE KEY LABEL TO THE
FIRST MEMORISED TRANSMITTER (MASTER).
In the case of manual programming, the first transmitter assigns the key
code to the receiver; this code is necessary in order to carry out subsequent
cloning of the radio transmitters.
10) RADIO-TRANSMITTER CLONING
Rolling-code cloning / Fixed-code cloning
Make reference to the UNIRADIO Instructions and the CLONIX Programming
Guide.
10.1) ADVANCED PROGRAMMING: COLLECTIVE RECEIVERS
Make reference to the UNIRADIO Instructions and the CLONIX Programming
Guide.
11) SERIAL CONNECTION USING SCS1 BOARD (Fig.5)
The LEO-D-MA control panel allows several automation units (SCS1) to be
connected in a centralised way by means of appropriate serial inputs and
outputs. This makes it possible to use one single command to open and
close all the automation units connected.
Following the diagram in Fig.6, proceed to connecting all the LEO-D-MA
control panels, exclusively using a telephone-type line.
Should a telephone cable with more than one pair be needed, it is
.
indispensable to use wires from the same pair.
The length of the telephone cable between one appliance and the next must
not exceed 250 m.
At this point, each of the LEO-D-MA control panels must be appropriately
configured, by setting a MASTER unit first of all, which will have control over
all the others, to be necessarily set as SLAVE (see logic menu).
Also set the Zone number (see parameter menu) between 0 and 127.
The zone number allows you to create groups of automation units, each one
answering to the Zone Master unit. Each zone can only be assigned one
Master unit, the Master unit in zone 0 also controls the Slave units in
the other zones.
11.1) Opposite sliding leaves (Fig.6)
Serial connection also provides centralized control of two opposite
sliding gates (Fig.6a).
In this case, the Master M1 control board will perform closing and opening
of Slave M2 control board simultaneously.
In case of opposite sliding leaves, the M1 (master) control board and the M2
(slave) control board should bear the same area number without other
devices being connected in such area.
If the opening direction of one of the two motors is incorrect, invert the
connection 6 and 8 of the motor as well as the connections 25 and 26 of
the opening and closing limiting devices.
The unchecked photocells must be connected to the master panel, according
to diagram in fig. 7.
The checked photocells must be connected to the master panel, according
to the diagrams illustrated in fig. 8 and subsequent figures.
The safety edges must be connected to their respective control panel, in all cases.
For any type of photocell and safety-edge configuration, bridge together
terminals 24 of each control panel. The Start, Open, and Close buttons, and
the Timer contact are normally to be connected to the M1 panel (master).
The pedestrian command is to be connected to the M2 panel (slave).
For greater safety, the Stop command will use a button with double NC
contact connected to both control panels, as indicated in fig. 6b.
NOTE: Disable the TCA (automatic closing time) of the M2 panel (slave).
If the "Photocell test" logic is enabled in the master panel, it must necessarily
be disabled in the slave panel.