ENGLISH
CHECK
The control unit runs a check on the operating relays and safety mechanisms
(photocells, sensor ridge, etc.) before performing opening and closing
cycles.
In case of malfunctions, carry out self-diagnosis (paragraph 6.6) and check
the wiring.
CONNECTION OF PHOTOCELLS AND SENSOR RIDGE:
By convention, refer to a receiver (Rx- fig.7) with 5 terminals of which
terminals 1 and 2 are for the 24V AC power supply, terminal 3 is shared,
terminal 4 is the normally closed contact when at rest, terminal 5 is the
normally open contact when at rest. The contact is not powered.
LEGEND
RX: photocell or infrared edge receiver.
TX: photocell or infrared edge transmitter.
Numerous combinations can be obtained between photocells and infrared
edges; the most frequently used types of connections are illustrated in
figures 7 to 14.
-
Fig.7 shows the connection of LEO MA with 1 photocell and 1 infrared
edge unchecked. In the logic menu, set the "test phot" and "test bar"
functions to OFF.
-
Fig.8 shows the connection of LEO MA with 1 photocell and 1 infrared
edge checked.
8a
: 1 photocell checked
8b
: 1 infrared edge checked
8a+8b: 1 photocell + 1 edge checked
In the logic menu, set the "test phot" and "test bar" functions to ON.
-
Fig.9 shows the connection of LEO MA with 2 photocells and 2
infrared edges checked.
9a
: 2 photocells checked
9b
: 2 infrared edges checked
9a+9b: 2 photocells + 2 edges checked
In the logic menu, set the "test phot" and "test bar" functions to ON.
-
Fig.10 shows the connection of LEO MA with 3 photocells and 3
infrared edges checked.
10a
: 3 photocells checked
10b
: 3 infrared edges checked
10a+10b: 3 photocells + 3 edges checked
In the logic menu, set the "test phot" and "test bar" functions to ON.
-
Fig.11 shows the connection of LEO MA with 4 photocells and 1
infrared edge checked.
11a
: 4 photocells checked
11a+11b: 4 photocells + 1 edge checked
In the logic menu, set the "test phot" and "test bar" functions to ON.
-
Fig.12 shows the connection of LEO MA with 1 photocell and 4
infrared edges checked.
11b
: 4 infrared edges checked
11a+11b : 1 photocell + 4 edges checked
In the logic menu, set the "test phot" and "test bar" functions to ON.
-
Fig.13 shows the connection of LEO MA with 4 photocells and 2
infrared edges checked.
In the logic menu, set the "test phot" and "test bar" functions to ON.
-
Fig.14 shows the connection of LEO MA with 2 photocells and 4
infrared edges checked.
In the logic menu, set the "test phot" and "test bar" functions to ON.
3) TECHNICAL SPECIFICATIONS
Power supply: .......................................................... 120Va.c.±10% 50Hz*
Mains/low voltage insulation: ....................................... > 2MOhm 500Vdc
Dielectric strength: ..................... mains/low voltage 3750Vac for 1 minute
Motor output current: .................................................................... 1.5Amax
Maximum motor power: ................................................................... 750W
Supply to accessories: ................................... 24Vac (1A max absorption)
Blinker: ........................................................................ 120VA.C. 40W max
Dimensions: ............................................................................. see figure 1
Fuses: ...................................................................................... see figure 2
(* other voltages available on request)
4) TERMINAL BOARD CONNECTIONS (Fig.3)
WARNING – During the wiring and installation operations, refer to the
current standards as well as principles of good technical practice.
The cables must be tied by additional fastening next to the terminals, by
means of clips for example.
All the operator wiring operations must be carried out by qualified personnel.
JP1
1
GND terminal
2-3
Single-phase mains supply 120Va.c.±10% 50Hz (2=N) (3=L)
JP2
4-5
Blinker connection (mains voltage) 40W Max.
6-7-8-9
Motor connection:
6 operation 1 + capacitor
7 common (blue)
8 operation 2
9 capacitor
12 -
LEO-MA UL - Ver. 01
INSTALLATION MANUAL
JP3
10-11
12-13
13-14
15-16-17
18-19-20
JP5
JP8
21-22
21-23
21-24
21-25
21-26
21-27
21-28
21-29
21-30
21-31
JP9
32
33
34
35
36
37
38-39
40-41
5) PROGRAMMING
The control panel provided with a microprocessor is supplied with function
parameters preset by the manufacturer, suitable for standard installations.
The predefined parameters can be altered by means of either the
incorporated display programmer or UNIPRO.
In the case where programming is carried out by means of UNIPRO,
carefully read the instructions relating to UNIPRO, and proceed in the
following way.
Connect the UNIPRO programmer to the control unit through the UNIFLAT
accessory (See fig. 5). Enter the "CONTROL UNITS" menu, and the
"PARAMETERS" submenu, then scroll the display screenfuls using the up/
down arrows, and set the numerical values of the parameters listed below.
For the function logics, refer to the "LOGIC" submenu.
In the case where programming is carried out by means of the incorporated
programmer, refer to Fig. A and B and to the "configuration" paragraph.
6) CONFIGURATION
The display programmer is used to set all the LEO-MA UL control panel
functions.
The programmer is provided with three pushbuttons for menu scrolling and
function parameter configurations (Fig. 2):
+
menu scrolling/value increment key
-
menu scrolling/value reduction key
OK
Enter (confirm) key
The simultaneous pressure of the + and – keys is used to exit the active
menu and move to the preceding menu.
If the + and – keys are pressed simultaneously at the main menu level
(parameters, logics, radio, language, autosetting, self-diagnosis), programming
is exited and the display is switched off (the OK message is displayed).
The modifications made are only set if the OK key is subsequently pressed.
When the OK key is pressed for the first time, the programming mode is
entered.
The following pieces of information appear on the display at first:
-
Display Software version
-
Control unit Software version
-
Number of total manoeuvres carried out (the value is expressed in
thousands, therefore the display constantly shows 0000 during the first
thousand manoeuvres)
-
Number of manoeuvres carried out since the latest maintenance
operation (the value is expressed in thousands, therefore the display
constantly shows 0000 during the first thousand manoeuvres)
-
Number of memorised radio control devices.
When the OK key is pressed during the initial presentation phase, the first
Output 24V~ 1A max – power supply for photocells or other
devices.
24 V~ output for acoustic signal.
24V~ output for supply to photocell transmitters
Connection of safety devices checked (see fig. 7 to 14)
Connection of safety devices checked (see fig. 7 to 14)
Encoder connection
WARNING! The maximum length of the connection cable of the
encoder should not exceed 3.00 mt.
Open-Close button (N.O. Start), key selector.
Lock button (Stop N.C.). If not used, leave the jumper
connected.
NOTE: In case of activation, the STOP button also stops the
acoustic alarm signal. It is therefore recommended to have it
installed.
Photocell input (N.C.). If not used, leave jumped.
Opening limit switch connection (N.C. SWO). If not used, leave
jumped.
Closing limit switch connection (N.C. SWC). If not used, leave
jumped.
Partial open button connection (N.O. Part)
Open-Button connection (N.O. Open)
Close-Button connection (N.O. Close)
Rubber edge connection (N.C.). If not used, leave jumped.
Timer input connection (N.O.). If the contact is open the leaves
close and the gate is ready for normal operation. If the contact
is closed (N.C.), the leaves open and remain open until the
contact is opened.
Photocell check input (PHOT FAULT) (see fig. 7 to 14)
Electric edge check input (EDGE FAULT) (see fig. 7 to 14)
TX1 serial output
TX2 serial output
RX1 serial imput
RX2 serial input
Antenna input for radio-receiver (38 signal - 39 braid). Cable
RG58
Second radio-channel output for plug-in radio-receiver board