11) ADJUSTING TRAVEL LIMIT STOPS (Fig. N)
If the positions of the RH and LH travel limit stops (parts. 10 Fig. AA) need to be
fine-tuned, carefully check the travel and alignment of the runners carrying the
doors.
It is important to remember that the position of the travel limit stops also deter-
mine the control board's self-learning.
----------------------------------------------------------
12) ARIA CONTROL BOARD
12.1) TERMINAL BOARD WIRING (Fig. P)
WARNINGS - When performing wiring and installation, refer to the
standards in force and, whatever the case, apply good practice prin-
ciples.
The wires carrying a very low safe voltage (24V) must be kept physically separate
from low-voltage wires, or they must be suitably insulated with at least 1mm of
additional insulation. Wires must be secured with additional fastening near the
terminals, using devices such as cable clamps.
13.1) FACTORY CONNECTIONS (Fig. Q Rif. 1)
TERMINAL
DESCRIPTION
Power supply unit wiring
JP2-JP4
JP2= brown
JP4= white/blue
Gearbox wiring
JP7-JP8
JP7=brown
JP8=white/blue
JP12
Encoder wiring
JP19
Solenoid lock wiring
13.2) USER CONNECTIONS (Fig. P - Q)
TERMINAL
DESCRIPTION
L
PHASE
N
NEUTRAL
EARTH
JP18
Universal palmtop programmer connector
JP10
Connector for additional optional boards
1
Controllers common
2
OPENING PHOTOCELL (NC) input
3
CLOSING PHOTOCELL (NC) input
4
STOP (NC) input
5
EXT. RADAR control (NO) input
6
INT. RADAR control (NO) input
7
OPEN KEY (NO) input
8
EMERGENCY input
9
Control common
10
OPENING PHOTOCELL FAULT (NO) input
11
CLOSING PHOTOCELL FAULT (NO) input
24V~ VSAFE 180mA max output
12-13
Power supply to devices with checking function.
Serial RS485.
14 = A
15 = B
14-15
Connection to external programming devices.
Controllers common
Connection of remote door in cage mode
24V~ 500mA max output
16-17
Power supply to radar controls, photocells or other devices.
"Alarm" output
18 = NO (voltage-free contact)
18-19-20
19 = COM (voltage-free contact)
20 = NC (voltage-free contact)
"Door status" output
21 = NO (voltage-free contact)
21-22-23
22 = COM (voltage-free contact)
23 = NC (voltage-free contact)
14) CENTRAL PROGRAMMING (Fig.C1)
14.1) PARAMETER MENU (PARA )
(TABLE "A" PARAMETERS)
14.2) LOGIC MENU (logic)
(TABLE "B" LOGIC)
20
- VISTA SL
INSTALLATION MANUAL
14.3) RADIO MENU (RADIO)
Logic
add open
add
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read
erase 64
cod RX
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-
IMPORTANT NOTE: THE FIRST TRANSMITTER MEMORIZED MUST BE
IDENTIFIED BY ATTACHING THE KEY LABEL (MASTER).
In the event of manual programming, the first transmitter assigns the RECEIVER'S
KEY CODE: this code is required to subsequently clone the radio transmitters.
The Clonix built-in on-board receiver also has a number of important advanced
features:
• Cloning of master transmitter (rolling code or fixed code)
• Cloning to replace transmitters already entered in receiver
• Transmitter database management
• Receiver community management
To use these advanced features, refer to the universal handheld programmer's
instructions and to the CLONIX Programming Guide, which come with the uni-
versal handheld programmer device.
14.4) LANGUAGE MENU (language)
Used to set the programmer's language on the display.
14.5) DEFAULT MENU (default)
Restores the controller's default factory settings.
14.6) AUTOSET MENU (Autoset) (Fig. R)
When this function is activated, the parameters relating to door movement and
obstacle detection are automatically set to their optimum values:
- Running speed during opening
- Running speed during closing
- Opening slow-down distance
- Closing slow-down distance
- Opening deceleration distance
- Closing deceleration distance
- Acceleration
- Deceleration
- Opening torque
- Closing torque
3 complete cycles are performed as the autoset function is run.
While autoset is running, the anti-crush function is not active.
The door must not be stopped or slowed down at any point during its
travel while autoset is running.
15) CENTRAL OPERATION:
15.1) DOOR OPERATION MODE
Mode 0) Standard operation door (Fig. S)
Reaction to commands:
- Open key:
Opens at high speed, closes at low speed. Opens and activates an Open-key
operation, if activated while the door is open, it sets clear time to zero; reopens
if activated during closing. With the door open, the clear-time countdown is
active. During closing, photocells stop movement instead of reversing. Once
they are cleared, closing is resumed following the TCA countdown. During the
Open-key operation, the radars are not active.
- External radar:
Performs a high-speed cycle. Opens, with the door open, it triggers the auto-
matic closing time; if activated while the door is open, it sets automatic closing
time to zero. Following the automatic closing time, the door closes. During
closing, it causes the door to open again.
During closing, it carries out a reopening manoeuvre.
- Internal radar:
Performs a high-speed cycle. Opens, with the door open, it triggers the automatic
closing time; if activated while the door is open, it sets automatic closing time
to zero. Following the automatic closing time, the door closes. During closing,
it causes the door to open again.
- Opening photocell:
Presence sensor logic OFF:
During opening, it stops movement until the photocell is cleared. With the
door open, it sets the TCA or clear time to zero. If triggered, it prevents the
https://appceso.com
Description
Add Start Open
associates the desired key with the Open command
Add Open Key
associates the desired key with the Open Key command
Read
Checks a key of a receiver and, if memorized, returns the
number of the receiver in the memory location (from 01 to
63) and number of the key (T1-T2-T3 or T4).
Erase List
WARNING! Erases all memorized remote controls from
the receiver's memory.
Read receiver code
Displays receiver code required for cloning remote controls.
ON = Enables remote programming of cards via a previously me-
morized W LINK transmitter. It remains enabled for 3 minutes
from the time the W LINK remote control is last pressed.
OFF= W LINK programming disabled.