BFT THALIA P Instrucciones De Instalación página 31

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IC logic= 0 - Input configured as Start E. Operation according to STEP-BY-STEP MOV. logic. External start for traffic light control.
IC logic= 1 - Input configured as Start I. Operation according to STEP-BY-STEP MOV. logic. Internal start for traffic light control.
IC logic= 2 - Input configured as Open.
The command causes the leaves to open. If the input stays closed, the leaves stay open until the contact is opened. When the contact is open, the automated device closes following
the TCA time, where activated.
IC logic= 3 - Input configured as Closed.
The command causes the leaves to close.
IC logic= 4 - Input configured as Ped.
The command causes the leaf to open to the pedestrian (partial) opening position. Operation according to STEP-BY-STEP. logic
IC logic= 5 - Input configured as Timer.
Operation same as open except closing is guaranteed even after a mains power outage.
IC logic= 6 - Input configured as Timer Ped.
The command causes the leaf to open to the pedestrian (partial) opening position. If the input stays closed, the leaf stays open until the contact is opened. If the input stays closed and a Start E,
Start I or Open command is activated, a complete opening-closing cycle is performed before returning to the pedestrian opening position. Closing is guaranteed even after a mains power outage.
SAFE logic= 0 - Input configured as Phot (photocell) non tested (*). (fig.F, ref.1).
Enables connection of devices not equipped with supplementary test contacts. When beam is broken, photocells are active during both opening and closing. When beam is broken
during closing, movement is reversed only once the photocell is cleared. If not used, leave jumper inserted.
SAFE logic= 1 - Input configured as Phot test (tested photocell). (fig.F, ref.2).
Switches photocell testing on at start of operation. When beam is broken, photocells are active during both opening and closing. When beam is broken during closing, movement is
reversed only once the photocell is cleared.
SAFE logic= 2 - Input configured as Phot op (photocell active during opening only) non tested (*). (fig.F, ref.1).
Enables connection of devices not equipped with supplementary test contacts. In the event beam is broken, photocell operation is disabled during closing. During opening, stops
motion for as long as the photocell beam stays broken. If not used, leave jumper inserted.
SAFE logic= 3 - Input configured as Phot op test (tested photocell active during opening only (fig.F, ref.2).
Switches photocell testing on at start of operation. In the event beam is broken, photocell operation is disabled during closing. During opening, stops motion for as long as the photo-
cell beam stays broken.
SAFE logic= 4 - Input configured as Phot cl (photocell active during closing only) non tested (*). (fig.F, ref.1).
Enables connection of devices not equipped with supplementary test contacts. In the event beam is broken, photocell operation is disabled during opening. During closing, move-
ment is reversed immediately. If not used, leave jumper inserted.
SAFE logic= 5 - Input configured as Phot cl test (tested photocell active during closing only (fig.F, ref.2).
Switches photocell testing on at start of operation. In the event beam is broken, photocell operation is disabled during opening. During closing, movement is reversed immediately.
SAFE logic= 6 - Input configured as Bar (safety edge) non tested (*). (fig.F, ref.3).
Enables connection of devices not equipped with supplementary test contacts. The command reverses movement for 2 sec.. If not used, leave jumper inserted.
SAFE logic= 7 - Input configured as Bar (tested safety edge (fig.F, ref.4).
Switches safety edge testing on at start of operation. The command reverses movement for 2 sec.
SAFE logic= 8 - Input configured as Bar 8k2 (fig.F, ref.5). Input for resistive edge 8K2.
The command reverses movement for 2 sec.
SAFE logic=9 Input configured as Bar op, safety edge with active inversion only while opening, if activated while closing, the automation stops (STOP) (Fig. F, ref. 3).
Allows connecting devices not fitted with supplementary test contact. The operation while opening causes the movement to be reversed for 2 seconds, the operation while closing causes the
automation to stop. If not used, leave jumper inserted.
SAFE logic=10 Input configured as Bar op test, safety edge checked with active inversion only while opening, if activated while closing, the automation stops (STOP) (Fig. F, ref. 4).
Activates testing safety edges when starting operation. The operation while opening causes the movement to be reversed for 2 seconds, the operation while closing causes the automation to stop.
SAFE logic=11 Input configured as Bar 8k2 op, 8k2 safety edge with active inversion only while opening, if activated while closing, the automation stops (STOP) (Fig. F, ref. 5).
The operation while opening causes the movement to be reversed for 2 seconds, the operation while closing causes the automation to stop.
SAFE logic=12 Input configured as Bar cl, safety edge with active inversion only while closing, if activated while opening, the automation stops (STOP) (Fig. F, ref. 3).
Allows connecting devices not fitted with supplementary test contact. The operation while closing causes the movement to be reversed for 2 seconds, the operation while opening causes
the automation to stop. If not used, leave jumper inserted.
SAFE logic=13 Input configured as Bar cl test, safety edge checked with active inversion only while closing, if activated while opening, the automation stops (STOP) (Fig. F, ref. 4).
Activates testing safety edges when starting operation. The operation while closing causes the movement to be reversed for 2 seconds, the operation while opening causes the automation to stop.
SAFE logic=14 Input configured as Bar 8k2 cl, safety edge with active inversion only while closing, if activated while opening, the automation stops (STOP) (Fig. F, ref. 5).
The operation while closing causes the movement to be reversed for 2 seconds, the operation while opening causes the automation to stop.
(*) If "D" type devices are installed (as defined by EN12453), connect in un-
verified mode, foresee mandatory maintenance at least every six months.
6) MOTOR WIRING Fig. E
7) SAFETY DEVICES
Note: only use receiving safety devices with free changeover contact.
7.1) TESTED DEVICES Fig. F
7.2) CONNECTION OF 1 PAIR OF NON-CHECKED PHOTOCELLS FIG. D1
7.3) CONNECTION OF 1 PAIR OF CHECKED PHOTOCELLS FIG. D2
8) CALLING UP MENUS: FIG. 1
8.1) PARAMETERS MENU (PARA ) (PARAMETERS TABLE "A")
8.2) LOGIC MENU (LOGIC) (LOGIC TABLE "B")
8.3) RADIO MENU (radio) (RADIO TABLE "C")
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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 general receiver programming guide.
8.4) DEFAULT MENU (default)
Restores the controller's DEFAULT factory settings. Following this reset, you will
need to run the AUTOSET function again.
8.5) LANGUAGE MENU (language)
Used to set the programmer's language on the display.
8.6) AUTOSET MENU (AUTOset)
• Launch an autoset operation by going to the relevant menu.
• As soon as you press the OK button, the ".... .... .... " message is displayed and the control
INSTALLATION MANUAL
Command input configuration
Safety input configuration
unit commands the device to perform a full cycle (opening followed by closing), dur-
ing which the minimum torque value required to move the leaf is set automatically.
The number of cycles required for the autoset function can range from 1 to 3.
During this stage, it is important to avoid breaking the photocells' beams and not
to use the START and STOP commands or the display.
Once this operation is complete, the control unit will have automatically set the
optimum torque values. Check them and, where necessary, edit them as described
in the programming section.
WARNING!! Check that the force of impact measured at the points
provided for by standard EN 12445 is lower than the value laid down
by standard EN 12453.
Impact forces can be reduced by using deformable edges.
Warning!! While the autoset function is running, the obstacle detection
function is not active. Consequently, the installer must monitor the
automated system's movements and keep people and property out
of range of the automated system.
8.7)INSTALLATION TEST PROCEDURE
1. Run the AUTOSET cycle (*)
2. Check the impact forces: if they fall within the limits (**) skip to point 10 of the procedure,
otherwise
3. Where necessary, adjust the speed and sensitivity (force) parameters: see parameters
table.
4. Check the impact forces again: if they fall within the limits (**) skip to point 10 of the
procedure, otherwise
5. Apply a shock absorber profile
6. Check the impact forces again: if they fall within the limits (**) skip to point 10 of the
procedure, otherwise
7. Apply pressure-sensitive or electro-sensitive protective devices (such as a safety edge)
(**)
8. Check the impact forces again: if they fall within the limits (**) skip to point 10 of the
procedure, otherwise
9. Allow the drive to move only in "Deadman" mode
10. Make sure all devices designed to detect obstacles within the system's operating range
are working properly
(*) Before running the autoset function, make sure you have performed all the assembly and
make-safe operations correctly, as set out in the installation warnings in the drive's manual.
(**) Based on the risk analysis, you may find it necessary to apply sensitive protective
devices anyway
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