then scroll the display screenfuls using the up/down arrows, and set the
numerical values of the parameters listed below.
- Automatic Closing Time (TCA) [10s]
Set the numerical value of the automatic closing time from 2 to 120
seconds.
- Opening motor torque (Op torque) [ 50% ]
Set the numerical value of the motor torque between 1% and 99%.
- Closing motor torque (Cl torque) [ 50% ]
Set the numerical value of the motor torque between 1% and 99%.
- Zone (Zone) [ 0 ] (Only available for SCE-MA S.)
Set the zone number between a minimum value of 0 and a maximum
value of 127. See paragraph on “Serial connection”.
Enter the “CONTROL UNITS” menu and the “LOGIC” submenu, then scroll
the display screenfuls using the up/down arrows, and set the numerical
values of the parameters listed below.
- TCA (TCA) [ OFF ]
ON Activates automatic closing
OFF Excludes automatic closing
- 3 Steps/4Step (3 step) [ OFF ]
ON Enables 3-step logic. stops and reopens
OFF Enables 4-step logic.
- Impulse lock (ibl open) [ OFF ]
ON Enables impulse lock during the opening phase.
OFF Excludes impulse lock during the opening phase.
- Photocells on opening (photc. open) [ OFF ]
ON Enables on closing phase only.
OFF: Enables on opening and closing phase.
- Photocell test (test phot) [ OFF ]
(Only available for SCE-MA and SCE-MA S)
ON Activates photocell check
OFF Deactivates photocell check
- Gate-open or 2nd radio channel warning light (sca 2ch) [ ON ]
ON The output between terminals 23 and 24s configured as Gate-open
warning light.
OFF The output between terminals 23and 24is configured as 2nd radio
channel.
- Fixed Code (fixed code) [ OFF ]
ON The receiver is configured to operate in fixed code mode, see
paragraph on “Radio-transmitter cloning” .
OFF The receiver is configured to operate in rolling-code mode, see
paragraph on “Radio-transmitter cloning”.
- Loop (loop) [ OFF ] (Only available for SCE-MA S)
ON In the case of a closed loop centralised connection (Fig.29), set the
control unit to ON.
OFF In the case of an open centralised connection (Fig.29), set the control
unit to OFF.
- Master/Slave (Master) [ OFF ] (Only available for SCE-MA S)
ON The control panel is set as Master in a centralised connection (see
Paragraph “CENTRALISED SERIAL CONNECTION”).
OFF The control panel is set as Slave in a centralised connection (see
Paragraph “CENTRALISED SERIAL CONNECTION”).
8) 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:
- MITTO Transmitter
MITTO2 – double-channel, MITTO4 – four-channel.
Keys ............................................................................................... : Yellow
Power supply ............................... : 2 3V Lithium batteries (CR2016 type)
Range ............................................................................. : 50 / 100 metres
- TRC Transmitter
TRC1-single-channel, TRC2- double-channel, TRC4- four-channel.
Keys: .................................................................................................. : Red
Power supply: .......................................................... : 12V Alkaline battery
Range: ............................................................................ : 50 / 100 metres
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.
9) 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 SCE control panel, using the UNIFLAT and
UNIDA accessories as indicated in Fig. 26.
10) 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 TRC 1-2 / MITTO 2-4, press hidden key P1 (fig. B1A). For TRC 4,
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. B2A).
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.
11) RADIO TRANSMITTER CLONING
Clones can be added by means of UNIRADIO, and the only limitation to this
is the maximum number of transmitters the receiver can memorise.
Note: in rolling-code cloning, the level of safety of the code anti-copying
system is very high, and is the same as that of the transmitters memorised
manually in the receivers.
Knowledge of the cloning key code or the reading from the key transmitter
allow the operator to create additional clones by remote control, without
needing further information.
To create replacement clones, you need to have the complete receiver
memory data; therefore, if you plan to carry out replacement cloning
operations by remote control, you need to memorise the contents of the
receiver memory by reading it using UNIRADIO and entering it in the
EEdbase database.
When assigning a specific key on an additional clone transmitter to a
specific output channel on a receiver, a predefined procedure is followed.
This procedure can be modified as required if radio transmitter storage is
carried out by means of UNIRADIO, or otherwise it is identical to the
procedure for the first transmitter, the one with the KEY TRANSMITTER
LABEL.
The keys on the replacement clone transmitter maintain the same association
with the output channels of the receiver as the replaced transmitter.
Code reading:
In the case where a receiver code is not known, it can be displayed using
the “COD RX” submenu in the Radio menu.
Each time the OK key is pressed, the receiver code is displayed cyclically,
divided in two groups of four characters each and one group of two
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