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BFT SIRIO TMA Installations- Und Gebrauchsanleitung Seite 12

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18-19
Antenna input for radio receiver board (18 signal, 19 braid).
JP7
20-21-22
23-24-25 Outputs for the connection of safety devices which are to be checked
(see fig.5).
JP4
26-27
START button (n.o.).
26-28
Block button (n.c.). Additional buttons to be connected in series
with one another.
26-29
Photocell contact input (n.c.). If not used, leave on. If used while
checking, observe wiring diagram in fig.5.
26-30
Opening limit switch (n.c.). If not used, leave bridged.
26-31
Closing limit switch (n.c.). If not used, leave bridged.
26-32
Pedestrian access button (n.o.).
26-33
Open button (n.o.).
26-34
Close button (n.o.).
26-35
IR edge contact input (n.c.). If not used, leave bridged.
26-36
Individual passage micro input (pedestrian access control).
JP5
37-38
CAUTION! mains voltage across terminals.
Emergency button connection (n.c.).
Use a hold-to-run button with two n.c. contacts having a distance
of at least 8mm between the two contacts. When not used, leave
bridged.
39-40
Change of voltage to 400V
40-41
Change of voltage to 230V
JP6
1-2
channel radio receiver board connector.
-SSBB1 TERMINAL BOARD
1
Connected to terminal 26 of control board.
2-3-4
Auxiliary common connection.
4-5
Stop.
6-7
N.C. contact of pedestrian access micro. If not used, leave
bridged.
8-9
(N.C.) contact for SPRING 1 breakage. If not used, leave
bridged.
10-11
(N.C.) contact for SPRING 2 breakage. If not used, leave
bridged.
12
Connected to terminal 28 of control board.
5) CONNECTION TO SAFETY DEVICES
In case of standard devices with 4 terminals and without self-diagnostic
function, the connection can be carried out without verification as indicated
in point 5.1.
In case of devices featuring internal self-diagnostic function, refer to point
5.2.
The standard devices with 5 terminals and without self-diagnostic func-
tion can be included in the control and self-diagnostic cycle observing
the instructions given in point 5.3.
5.1) Safety devices WITHOUT SELF-DIAGNOSIS
Connections must be carried out as shown in fig. 4. Keep the Dip-switches
9 and 10 in the ON position (standard setting). The tripping contacts of a
group of devices of the same type, must be connected in series with one
another.
5.2) Safety devices WITH INTERNAL SELF-DIAGNOSIS
Connections must be carried out as shown in fig.4. Keep the Dip-switches
9 and 10 in the ON position (standard setting). The tripping contacts of several
devices of the same type, must be connected in series.
5.3) Safety devices WITHOUT SELF-DIAGNOSIS but with voltage-free
EX-CHANGE CONTACTS.
We conventionally make reference to a receiving device (RCS- fig.5) with 5
terminals which have the following functions: terminals 1 and 2 are for 24Vac
power supply, terminal 3 is a common terminal, terminal 4 is a normally closed
contact not in use, terminal 5 is a normally open contact not in use.
A) Fig. 5 "A" shows the wiring diagram for connecting the power supply to
those receivers and transmitters for which a self-diagnosis is required.
B) Fig. 5 "B". Connection of one or more receivers (photocell) of the same
type up to a maximum of four (Dip 9 OFF/Dip 10 ON, photocells only, leave
jumped 35-26). For example, if there are two photocells, connect F1 and
F2, then interrupt the connection chain by connecting the terminal 4 of
F2 to LOOP1 and the terminal 5 of F2 to COM. If only one receiver has
to be connected, connection must be made as shown in fig.5 ref.1. If the
receivers to be connected are less than four, it is necessary to interrupt
the connection chain by performing the connections as shown in fig.5
ref. 2 or 3. If rubber edges instead of photocells have to be connected,
12 -
SIRIO FR-TMA / SIRIO TMA / SIRIO MA - Ver. 13
INSTALLATION MANUAL
~
three-phase.
~
single-phase.
use terminal 35-BAR of the control unit.
If the devices concerned are rubber edges instead of photocells, use
terminal 35-BAR in the control unit (Dip 9 ON/Dip 10 OFF, leave jumped
29-26).
C) Connection of one photocell and one rubber edge.(Dip 9 OFF/Dip 10
OFF)
D) Connection of two photocells and one rubber edge.(Dip 9 OFF/Dip 10
OFF)
When connecting two rubber edges and one photocell, F1 and F2 in fig.5
"D" become 2 rubber edges, and C1 one photocell; invert the connections
PHOT and BAR of the control unit with one another.(Dip 9 OFF/Dip 10
OFF)
E) Connection of three photocells and one rubber edge. When connecting
three rubber edges and one photocell, F1, F2 and F3 (fig.5 "E") become
3 rubber edges and C1 one photocell; invert the connections PHOT and
BAR of the control unit with one another.(Dip 9 OFF/Dip 10 OFF)
F) Connection of three photocells and two rubber edges When connecting
three rubber edges and two photocells, F1, F2 and F3 (fig.5 "F") become
three rubber edges, C1 and C2 two photocells; invert the connections
PHOT and BAR of the control unit with one another.(Dip 9 OFF/Dip 10
OFF)
G) Connection of four photocells and one rubber edge. When connecting four
rubber edges and one photocell, F1, F2 , F3 and F4 (fig.5 "G") become
four rubber edges and C1 one photocell; invert the connections PHOT
and BAR of the control unit with one another.(Dip 9 OFF/Dip 10 OFF)
6) OPERATION LOGIC
6.1) Dip-switch
Dip 1 and 2 ................................................................... Photocells (FCH)
ON - Excludes photocell operation during gate opening, and immediately
reverses movement during the closing phase when the photocell is ob-
scured.
OFF - In the case where the photocell is obscured by an obstacle during the
closing manoeuvre, the gate is stopped; when the obstacle is removed, the
gate reopens. In the case where the photocell is obscured by an obstacle
during the opening manoeuvre, the gate is stopped; when the obstacle is
removed, the gate continues to open.
Dip 3 ..................................................................... Impulse blocking (IBL)
ON - The Start / Start pedestrian impulse has no effect during the opening
phase.
OFF - The Start / Start pedestrian impulse during the opening phase causes
the gate to stop.
Dip 4 .................................................................. Automatic closing (TCA)
ON - Automatically closes the gate after a dwell time set by the TCA trimmer.
The automatic closing manoeuvre is activated after the gate has reached the
opening end-of-stroke position, after the gate opening time has ended, or
after the gate has stopped in the opening phase due to a Start impulse.
OFF - Excludes automatic closing.
Dip 5 2 or 4 step logic (2P/4P)
ON - A Start impulse given during the closing phase reverses the direction
of movement, during the opening phase it stops the gate. (Dip-switch
OFF).
OFF - A Start impulse given while the gate is moving, causes it to stop; the
following impulse reverses the running direction. (4-step logic).
N.B.: The Start impulse in the opening phase has no effect when Dip-switch
3 is ON.
Dip 6 ......................................................................... Pre-alarm (PREALL)
ON - The blinker comes on about 3 seconds before the motor starts.
OFF - The blinker comes on at the same time as the motor starts.
Dip 7 ............................................................Open/Close command (U.P.)
Activates the signals connected to terminals 33-34.
ON - Hold-to-run operation: the manoeuvre continues as long as pressure
is maintained on the command button.
OFF - Separate automatic Open/Close operation: by means of an impulse,
it opens the gate if closed and vice versa.
Dip 8 ..........................Reduced or normal operation time range (S.TW)
ON - TW operation time ranging between 1-90 seconds (TW.PED pedes-trian
operation time from 1 to 20 seconds).
OFF - TW operation time ranging between 3÷210 seconds (TW.PED pedes-
trian operation time from 5 to 60 seconds).
Dip 9 ........................................................... Unchecked photocells (FNV)
Activates the photocell control logic.
ON - The photocells are excluded from the safety check cycle which is
carried out before each manoeuvre; however their logic state is analysed
(for connection, refer to the typical method of connecting photocells with
continuously active beams). This is used to connect photocells which have
not been checked or have internal self-diagnosing systems, and always
provide a voltage-free output contact.

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