BRAIN 16
7327891_Rev.B 1 Brain 16
ENGLISH
CE DECLARATION OF CONFORMITY
Manufacturer: FAAC S.p.A.
Address: Via Calari, 10 - 40069 Zola Predosa BOLOGNA - ITALY
Declares that: The control unit GENIUS - Brain 16
conforms to the essential safety requirements of the following EEC directives
2006/95/EC Low Voltage directive.
2004/108/EC Electromagnetic Compatibility directive
99/05/EC R&TTE
Thisproductunderwentatestinatypical,uniformconguration
(all products of FAAC S.p.A.).
Bologna, 10 - 06 - 2014
The Managing Director A.Marcellan
1. GENERAL CHARACTERISTICS
To ensure the safety of people, it is important, before starting with the installation
of the product, that you read the whole manual with the utmost care and follow
all the warnings and instructions contained. Incorrect installation or incorrect
use of the product can cause serious harm to people.
Before carrying out any work on the control unit (connections, maintenance,)
always cut off the electrical power.
Ensure that upstream of the system there is a suitable differential switch, as
provided for in current safety regulations
Provide the power supply line with a magnetothermic switch with omnipolar
switching.
Check for the presence of an adequate earthing system.
Always separate the power cables from the control and safety cables (button,
receiver, photocells, etc.). Avoid any electrical disturbance using separate
sheathing or a shielded cable (with shield connected to the earth)
2. TECHNICAL SPECIFICATIONS
Mains power supply (+6 % -10% ) 230 V~ 50/60 Hz
Power absorbed from mains 10 W
Max. load per motors 800 W+800W
Accessories power supply and max. accessories current 24V
"
max 500 mA
Operating ambient temperature (-20.......+55 ) °C
Opening/Closing time
Programmable using the “F” key
from 1 to 120 seconds
Integrated radio (Max 250 codify)
433 MHz frequency RC
BRAVO - ECHO system coding
(Total opening)
WARNINGS
• ATTENTION! To ensure the safety of people, it is important that you read all the following instructions.
• Incorrect installation or incorrect use of the product could cause serious harm to people.
• Carefully read the instructions before beginning to install the product and store them for future reference.
• The symbol indicates notes that are important for the safety of persons and for the good
condition of the automated system.
• The symbol
draws your attention to the notes on the characteristics and operation of
the product.
7327891_Rev.B 2 Brain 16
BRAIN 16
CH1
LOCK
FSWOP
OP
+24V
OP-B
OP-A
LAMPCOM
OP
- M1 -
PE
ON
4
F
19
-
17 1816
TX
FSW
-
FSWCL
FSW
STOP
OP-B
OP-A
- M2 -
CL
1
COM
L
N
1
12
15
14
13
12
CL
11
10
9
876
CL
OP
5
43
2
BRAIN 16
ON
42
1142
3
1
121098
76
5
31
ON
TH1
DL5
DL4
DL2
DL8
DL6
DL3
DL1
DS1
STOP
F1
F 2
ON
4
211
4
2 3
1
12109
87
6
5
3
1
ON
SW1
SW2
DS2
J4J3
SW2
F1
DL5
DL4
DL3
DL2
DL1
SW1
F2
J1
ENGLISH
3. BOARD LAYOUT - BRAIN 16
DL7
DL6
SW1 WORK TIME LEARNING BUTTON
SW2 RADIO CHANNEL PROGRAMMING BUTTON
DL1
“OPEN A” INPUT STATUS CONTROL LED
(total opening)
DL2
“OPEN B” INPUT STATUS CONTROL LED
(partial opening)
DL3 “STOP” INPUT STATUS CONTROL LED
DL4
“FSW CL” INPUT STATUS CONTROL LED
(photocells for protection during closing)
DL5
“FSW OP”INPUT STATUS CONTROL LED
(photocells for protection during opening)
DL6 RADIO CHANNEL MEMORISATION LED
DL7 TIME LEARNING SIGNALLING LED
F1 MOTOR FUSES AND TRANSFORMER PRIMARY (F 5A - 250V)
F2 LOW-VOLTAGE AND ACCESSORIES FUSE (T 800mA - 250V)
J3 MAINS POWER SUPPLY TERMINAL BOARD
J4 TERMINAL BOARD FOR CONNECTION OF MOTORS AND FLASHING LAMP
J1 LOW-VOLTAGE TERMINAL BOARD
DS1 1
st
PROGRAMMING MICROSWITCH GROUP
DS2 2
nd
PROGRAMMING MICROSWITCH GROUP
ANTENNA
Fig. 1
7327891_Rev.B 3 Brain 16
230 V ~
50 Hz
LOCK
OP
+24V
OP-A
LAMPCOM
OP
- M1 -
PE
19
-
17 18
16
TX
FSW
-
FSW
OP-B
- M2 -
CL
1
COM
LN
1514
1312
CL
11109
876
CL
OP
5
4
3
2
STOP
C1
C1
M1
M2
230/115V~
MAX 60W
*
12V ~
24V
"
-
+
230V ~
50/60 Hz
J3
J4
J1
C2C1
ENGLISH
Example for connecting 2 N.O. contacts in parallel
Example for connecting
2 N.C. contacts in series
Lock
Fig. 2
FIRST MOTOR
THAT STARTS
Terminal board J3 - Main Power Supply
PE Earthing connection
N Connection from 90 V~ to 260 V~ Neutral
L Connection from 90 V~ to 260 V~ Line
Terminal board J4 - Motors and Flashing Lamp
1 M1- COM Common contact motor 1
2 M1 - OP OP phase motor 1
3 M1 - CL CL phase motor 1
4 M2 -COM Common contact motor 2
5 M2 - OP OP phase motor 2
6 M2 - CL CL phase motor 2
7 LAMP Flashing lamp connection
8 LAMP Flashing lamp connection
Connector J1 - Inputs
9 OP-A OPEN A Contact - N.O.
10 OP-B OPEN B Contact- N.O.
11 STOP STOP Contact- N.C.
12 FSW CL Closing photocells
contact - N.C.
13 FSW OP Opening photocells
contact- N.C.
14 GND Accessories negative
15 + 24V
"
Accessories positive
16 TX FSW Fail Safe
17 LOCK Electric lock 12V~ 24V
"
18 GND Accessories negative
19 ANT Antenna
4. CONNECTIONS
OPEN A total opening
(N.O. Contact)
OPEN B partial opening
(N.O. Contact)
Emergency STOP
(N.C. Contact)
* SEE SECTION 4.3
7327891_Rev.B 4 Brain 16
M1
M2
c
c
g
h
i
n
j
n
k
n
+
o
q
-
+
+
+
+
TX CL
RX CL
1
2
5
4
3
1
2
TX OP/CL RX OP/CL
1
2
5
4
3
1
2
STOP
TX CL
RX CL
RX
OP/CL
TX
OP/CL
ENGLISH
OPEN A
Total
Opening
(N.O. Contact)
OPEN B
Partial Opening
(N.O. Contact)
STOP
Emergency Stop
(N.C. Contact)
ELECTRIC LOCK
12 V ~
24 V
"
c COMMON CONTACT (blue or grey cable)
b DIRECTION 1 PHASE
a DIRECTION 2 PHASE
c COMMON CONTACT (blue or grey cable)
b DIRECTION 1 PHASE
a DIRECTION 2 PHASE
1.1 MOTOR AND FLASHING LAMP CONNECTION
1.2 COMMAND EMITTER AND ELECTRIC LOCK CONNECTION
1.3 SAFETY DEVICE CONNECTION ( * )
Fig. 3
Fig. 4
Fig. 5
Fig. 6
Closing
safety devices
Opening/Closing
safety devices
If you wish to carry out a FAIL SAFE test of the photocells before starting the
automated system, set dip-switch 3 of DS2 to ON and connect the transmitter
negative (TX) to terminal 16.
Connecting one pair of closing photocells and one pair of opening and closing photocells
7327891_Rev.B 5 Brain 16
TX CL1
RX CL1
RX CL2
TX CL2
+
+
+
+
TX CL1
RX CL1
1
2
5
4
3
1
2
TX CL2 RX CL2
1
2
5
4
3
1
2
STOP
+
+
+
+
TX CL
RX CL
1
2
5
4
3
1
2
TX OP RX OP
1
2
5
4
3
1
2
STOP
TX CL1
RX CL1
RX OP
TX OP
TX CL
RX CL
+
+
TX CL
RX CL
1
2
5
4
3
1
2
STOP
ENGLISH
Fig. 7
Closing safety
devices 1
Closing safety
devices 2
Closing safety
devices
Opening safety
devices
Fig. 8
Closing safety
devices
Fig. 9
Collegamento di una coppia di fotocellule in chiusuraConnecting one pair of closing photocells
Connecting two pairs of closing photocells
Connecting one pair of closing photocells and one pair of opening photocells
7327891_Rev.B 6 Brain 16
ON
OFF
BRAIN 16
CH1
LOCK
FSWOP
OP
+24V
OP-B
OP-A
LAMPCOM
OP
- M1 -
PE
ON
4
F
19
-
17 1816
TX
FSW
-
FSWCL
FSW
STOP
OP-B
OP-A
- M2 -
CL
1
COM
LN
1
12
15
14
13
12
CL
11109
876
CL
OP
5
43
2
BRAIN 16
ON
4
2
1142
3
1
121098
76
5
31
ON
TH1
DL5
DL4
DL2
DL8
DL6
DL3
DL1
DS1
STOP
F1
F 2
ON
4
2
11
4
2
3
1
12109
87
6
5
3
1
ON
SW1
SW2
DS2
DS1
ENGLISH
MOTOR 1
POWER
SW1 SW2 SW3
1 (Min) ON ON ON
2 OFF ON ON
3 ON OFF ON
4 OFF OFF ON
5 ON ON OFF
6 OFF ON OFF
7 ON OFF OFF
8 (Max) OFF OFF OFF
MOTOR 2
POWER
SW4 SW5 SW6
1 (Min) ON ON ON
2 OFF ON ON
3 ON OFF ON
4 OFF OFF ON
5 ON ON OFF
6 OFF ON OFF
7 ON OFF OFF
8 (Max) OFF OFF OFF
5. PROGRAMMING
LOGIC
(see section 6)
PAUSE
TIME
SW7 SW8 SW9 SW10
E ( Semi-automatic ) / ON ON ON ON
EP ( Semi-automatic step-by-step ) / OFF ON ON ON
B ( Semi-automatic “B” ) / ON OFF ON ON
C ( Dead-man ) / OFF OFF ON ON
A
( Automatic )
0 ON ON OFF ON
10 OFF ON OFF ON
20 ON OFF OFF ON
30 OFF OFF OFF ON
60 ON ON ON OFF
120 OFF ON ON OFF
AP
( Automatic step-by-step )
0 ON OFF ON OFF
10 OFF OFF ON OFF
20 ON ON OFF OFF
30 OFF ON OFF OFF
60 ON OFF OFF OFF
120 OFF OFF OFF OFF
LEAF
DELAY AT
CLOSING
(Seconds)
SW11 SW12
20 ON ON
10 OFF ON
5 ON OFF
0 OFF OFF
7327891_Rev.B 7 Brain 16
BRAIN 16
CH1
LOCK
FSWOP
OP
+24V
OP-B
OP-A
LAMPCOM
OP
- M1 -
PE
ON
4
F
19
-
17 1816
TX
FSW
-
FSWCL
FSW
STOP
OP-B
OP-A
- M2 -
CL
1
COM
LN
1
12
1514
1312
CL
11109
876
CL
OP
5
43
2
BRAIN 16
ON
4
2
1142
3
1
12109876531
ON
TH1
DL5
DL4
DL2
DL8
DL6
DL3
DL1
DS1
STOP
F1
F 2
ON
4
2
11
42
3
1
12109
876
5
3
1
ON
SW1
SW2
DS2
DS2
ON
OFF
ENGLISH
LEAF DELAY
AT OPENING
SW1
2 ON
0 OFF
CLOSING PHOTOCELLS
LOGIC
SW2
Reverses when no longer engaged
ON
Reverses immediately OFF
FAIL SAFE SW3
Yes ON
No OFF
REVERSE STROKE +
OVER-PUSHING STROKE
SW4
Yes ON
No OFF
1.4 DS1 SETTING
Leaf 1 and 2
Using microswitches SW1, SW2 and SW3, you
can program the power of the operator connected
to leaf 1. Using microswitches SW4, SW5 and
SW6, you can program the power of the operator
connected to leaf 2.
Operating Logic
Using microswitches SW7, SW8, SW9 and SW10,
you can choose the automated system operating
logic. If an automatic logic is chosen (A, AP), the
combination of microswitches also lets you choose
the pause time (wait time, in open position, before
automatic reclosing).
Leaf delay at closing
Programming microswitches SW11 and SW12 lets
you delay the start of leaf 1 closing with respect
to leaf 2, to avoid the leaves overlapping during
movement and therefore increasing system safety.
1.5 DS2 SETTING
Leaf delay at opening
Programming microswitch SW1 lets you delay the
start of leaf 2 closing with respect to leaf 1, to avoid
the leaves interfering with each other during the
initial movement phase.
Closing photocells logic
Using microswitch SW2, you can choose the
behaviour of the automated system should the
photocells protecting the closing movement of the
gate be engaged. You can obtain immediate reversal
of the leaves or stop reversal when the photocells
are no longer engaged.
Failsafe
Programming microswitch SW3 lets you activate or
disable the photocell check test. When Failsafe is
active, the unit will test the photocells before each
opening and closing movement.
Reverse and over-pushing
Using microswitch SW4, you can activate
the opening reverse stroke and the closing
over-pushing stroke. The reverse stroke pushes
the closing leaf for a few seconds before opening
the gate, therefore facilitating the release of the
electric lock. During the closing over-pushing
stroke, once operation time has elapsed, the
motors are activated for 2 seconds, at maximum
power, to facilitate latching of the electric lock.
7327891_Rev.B 8 Brain 16
ENGLISH
6. OPERATING LOGICS
Description of the E logic: With the automated system stationary - An OPEN pulse opens the
gate and the following one will close it.
With the automated system moving - An OPEN pulse while opening
locks and reopens during closing.
Photocell engagement - During motion, the photocells reverse
Description of the EP logic: With the automated system stationary - An OPEN pulse opens the
gate and the following one will close it.
With the automated system moving - An OPEN pulse during motion
locks.
Photocell engagement - During motion, the photocells reverse
Description of the B logic:
With the automated system stationary - Logic with two separate
commands: OPEN-A pulse opens; OPEN-B pulse closes
With the automated system moving - An OPEN-A pulse during closing
opens..
Photocell engagement - During motion, the photocells reverse
Description of the C logic:
With the automated system stationary - logic with two separate
commands: OPEN-A maintained opens; OPEN-B maintained closes
With the automated system moving - An OPEN-A command during
closing opens, an OPEN-B command during opening stop.
Photocell engagement - During motion, the photocells reverse
Description of the A logic:
With the automated system stationary - an OPEN pulse opens the
gate and, when the pause time elapses, closes it automatically.
With the automated system moving - An OPEN pulse during opening
is ignored, during the pause it resets and during closing it reopens.
Photocell engagement - The closing photocells reset the pause.
During motion, the photocells reverse
Description of the AP logic:With the automated system stationary - an OPEN pulse opens the
gate and, when the pause time elapses, closes it automatically.
With the automated system moving - An OPEN pulse during the pause
locks, during opening it locks and during closing it reverses.
Photocell engagement - The closing photocells reset the pause.
During motion, the photocells reverse
7. MEMORISING THE BRAVO - ECHO RADIOCONTROLS - 433 RC
1. Press SW2 for one second (OPEN A programming)
2. LED DL6 will begin to flash slowly for about 20 seconds.
3. During radio LED flashing, press the desired button of the BRAVO - ECHO radio control.
4. The corresponding DL6 LED on the board will turn on steady for approximately 2 seconds,
indicating that memorisation has been completed, and will then continue to flash for about 20
sec. during which you can memorise another radio control. When the 20 sec. have elapsed, the
LED will turn off, indicating that the procedure has been completed.
5. To add other radio controls, repeat the operation from point 1 or proceed as described in section 7.1
7.1 REMOTE MEMORISATION OF THE BRAVO - ECHO RADIO CONTROL - 433 RC
With BRAVO - ECHO radio controls you can remotely memorise other radio controls, using a previously
memorised radio control. (NOTE: move to the vicinity of the board)
1. Use an already memorised radio control and press and hold buttons P1 and P2 simultaneously
for approximately 3 seconds (until the DL6 LED on the board flashes rapidly for 5 sec.)
2. Within 5 seconds, press the previously memorised radio control button to activate the learning
phase for the selected channel.
3. The LED on the board corresponding to the channel in learning mode will flash slowly for 20 sec.
within which the new radio control code is transmitted by pressing the key.
4. The corresponding LED on the board will turn on steady for 2 seconds, indicating that memorisation
has been completed, and will then continue to flash for about 20 sec., during which you can
memorise other radio controls, and finally turn off
7327891_Rev.B 9 Brain 16
ENGLISH
9. OPERATING TIME LEARNING
The first movement at learning start must be for opening. Should this occur
during system closing, reverse the motor opening and closing phase.
You must always install mechanical opening and closing stops.
During the learning procedure, the stop and safety devices are disabled.
Therefore, carry out the operation while avoiding any transit in the leaf movement
area.
If there is only one leaf, you must in any case complete the entire sequence.
Once the leaf is completely open, send 5 Open A pulses until the leaf begins to
close, then resume the normal procedure for leaf 1.
1. Ensure that the leaves are closed.
2. Keep “F” pressed until leaf 1 starts opening, and LED DL7 begins to flash.
3. Using the OPEN A pulses (from the radio control or the key button) the following functions are
commanded:
• 1
st
OPEN A - Start of opening deceleration of leaf 1
• 2
nd
OPEN A - Stop during opening of leaf 1 and start of opening movement of leaf 2 at full speed.
• 3
rd
OPEN A - Deceleration during opening of leaf 2
• 4
th
OPEN A - Stop during opening of leaf 2 and immediate start of closing movement of leaf 1 at full
speed.
• 5
th
OPEN A - Start of closing deceleration of leaf 2
• 6
th
OPEN A - Stop during closing of leaf 2 and start of closing movement of leaf 2 at full speed.
• 7
th
OPEN A - Start of closing deceleration of leaf 1
• 8
th
OPEN A - Stop during closing of leaf 1.
4. LED DL7 stops flashing and the gate is ready for normal operation.
If you wish to eliminate deceleration in some phases, you must wait for the leaf
to reach the stop and send 2 consecutive Open A pulses (within 1 sec.).
During normal operation, if in the opening/closing phase the cycle is interrupted
consecutively more than once, the leaf will not reach the stop with deceleration.
At the first complete cycle without interruptions, the system will reach the stops
and carry out the programmed decelerations.
8. TOTAL DELETION OF THE RADIO MEMORY
1. Press and hold the radio learning button SW2; the LED starts flashing slowly.
2. After about 10 seconds the LED starts flashing faster;
3. After about another 10 seconds the LED switches on and stays fixed on for 5 seconds, before
switching off;
4. When the LED switches off, release the learning button.
Note: If the button is released while the LED is flashing (slow or fast), the memory
is not deleted.
7327891_Rev.B 10 Brain 16
BRAIN 16
CH1
LOCK
FSWOP
OP
+24V
OP-B
OP-A
LAMPCOM
OP
- M1 -
PE
ON
4
F
19
-
17 1816
TX
FSW
-
FSWCL
FSW
STOP
OP-B
OP-A
- M2 -
CL
1
COM
L
N
1
12
15
14
13
12
CL
11
10
9
876
CL
OP
5
43
2
BRAIN 16
ON
42
1142
3
1
121098765
31
ON
TH1
DL5
DL4
DL2
DL8
DL6
DL3
DL1
DS1
STOP
F1
F 2
ON
42
11
42
3
1
12109
876
5
3
1
ON
SW1
SW2
DS2
DL5
DL4
DL3
DL2
DL1
ENGLISH
10. DIAGNOSTICS
The status of the LEDs with the gate in stand-by and ready to receive the
commands is highlighted in bold.
DESCRIPTION OF THE INPUT LEDs STATUS
LED CORRESPONDING
INPUT
ON
OFF
OP-A OPEN A (terminal 9) Input activated
Input not activated
OP-B OPEN B (terminal 10) Input activated
Input not activated
STOP STOP (terminal 11)
Input not activated
Input activated
FSW CL FSW CL (terminal 12)
Input not activated
Input activated
FSW OP FSW OP (terminal 13)
Input not activated
Input activated
10. TROUBLESHOOTING
Description Solution
A
The board does not turn on
• Ensure that the board is receiving the 230/115V~.
• Check the fuses
B
The gate will not open after
an OPEN pulse
• Check that when the command is given, the
corresponding LED (OPEN A or OPEN B) goes from
OFF to ON
• Check that the LEDs corresponding to the safety devices
FSW OP and STOP are ON. If necessary, check the
wiring and alignment.
C
The gate does not reverse when
passing over the photocells
• Ensure that the photocell wiring is correct and that,
when the beam between RX and TX is interrupted, the
corresponding LED goes off.
4
The gate will not close
• Check that when the command is given, the
corresponding LED (OPEN A or OPEN B) goes from
OFF to ON
• Check that the LEDs corresponding to the closing safety
devices FSW CL are ON. If necessary, check the wiring
and alignment.
• Check which operating logic has been chosen
(automatic or semi-automatic)
ANTENNA
Fig. 10
7327891_Rev.B 11 Brain 16
ENGLISH
ë
1
if the cycle began with OPEN-B, opens totally
ë
2
operation can be modified by programming
ë
3
it opens if, at power up, an OPEN (A or B) command is active. Otherwise it closes.
pulses
automated
system
status
open
a open b close stop fsw op fsw cl fsw cl/op
closed opens
opens
partially
no
effect no effect (open disabled) no effect
no
effect (open
disabled)
opening
stops
*
ë
1
stops* closes stops* reverses no effect
stops
; opens at
release
(open stops* -
saves close)
open
closes
ë
1
closes
no effect
(
open/close
disabled)
no effect
no
effect
(
close
disabled)
no effect (open/
close disabled)
closing opens no effect stops* no effect
reverses
ë
2
stops; opens
at release
(
open stops* -
saves close)
*
stopped closes
no
effect
(
open/close
disabled)
no effect
(
open
disabled)
no effect
(
close
disabled)
no effect
(
open stops* -
saves close)
pulses
automated
system
status
open
a open b close stop fsw op fsw cl fsw cl/op
closed
opens
;
closes after
pause time
opens
partially;
closes after
pause time
no
effect no effect (open disabled) no effect
no
effect
(
open disabled)
opening
no
effect
ë
1
no effect closes stops* reverses no effect
stops
; opens at
release
(saves close)
open in pause
recharges
pause
time
ë
1
recharges
pause time
closes stops* no effect
recharges
pause time (close disabled)
closing opens no effect stops* no effect
reverses
ë
2
stops; opens
at release
(
saves close)
*
stopped closes
no
effect
(
open/close
disabled)
no effect
(
open
disabled)
no effect
(
close
disabled)
no effect (open/
close disabled)
E
semi-automatic logic
A
automatic logic
7327891_Rev.B 12 Brain 16
ENGLISH
ë
1
if the cycle began with OPEN-B, opens totally
ë
2
operation can be modified by programming
ë
3
it opens if, at power up, an OPEN (A or B) command is active. Otherwise it closes.
AP
automatic “step-by-step” logic
EP
semi-automatic “step-by-step” logic
pulses
automated
system
status
open
a open b close stop fsw op fsw cl fsw cl/op
closed opens
opens
partially
no
effect no effect (open disabled) no effect
no
effect
(
open disabled)
opening
stops
*
ë
1
stops* closes stops* reverses no effect
stops
; opens at
release
(open stops* -
saves close)
open
closes
ë
1
closes
no effect
(
open/close
disabled)
no effect
no
effect
(
close
disabled)
no effect (open/
close disabled)
closing stops* no effect stops* no effect
reverses
ë
2
stops; opens at
release (open stops*
-
saves close)
*
stopped
restarts
moving in the
opposite direction.
always closes after stop
closes
no
effect
(
open/close
disabled)
no effect
(
open
disabled)
no effect
(
close
disabled)
no effect
(
open stops* -
saves close)
pulses
automated
system
status
open
a open b close stop fsw op fsw cl fsw cl/op
closed
opens
;
closes after
pause time
opens
partially;
closes after
pause time
no
effect no effect (open disabled) no effect
no
effect (open
disabled)
opening
stops
*
ë
1
stops* closes stops*
reverses
(
saves open)
no effect
stops
; opens at
release
(open stops* -
saves close)
open in pause
stops
*
1
stops* closes stops* no effect
recharges
pause time (close disabled)
closing opens no effect stops* no effect
reverses
ë
2
stops;
opens at
release
(open stops*
-
saves close)
*
stopped closes
no
effect
(
open/close
disabled)
no effect
(
open
disabled)
no effect
(
close
disabled)
no effect (open/
close disabled)
7327891_Rev.B 13 Brain 16
ENGLISH
ë
1
if the cycle began with OPEN-B, opens totally
ë
2
operation can be modified by programming
ë
3
it opens if, at power up, an OPEN (A or B) command is active. Otherwise it closes.
B
semi-automatic “b” logic (open-b inputs become close)
pulses
automated
system
status
open
a open b close stop fsw op fsw cl fsw cl/op
closed opens no
effect
no
effect
(open disabled)
no effect
no
effect (open
disabled)
opening no effect closes stops* reverses no effect
stops
; closes at
release
(saves open/close)
open no effect closes
no
effect
(
open/close
disabled)
no effect
no
effect
(
close
disabled)
no effect (open/
close disabled)
closing opens no effect stops* no effect
reverses
ë
2
stops; opens at
release (saves
open/close)
*
stopped opens closes
no
effect
(
open/close
disabled)
no effect
(
open
disabled)
no effect
(
close
disabled)
no effect (open/
close disabled)
C
dead-man logic (open-b inputs become close)
dead-man commands pulses
automated
system
status
open
a open b close stop fsw op fsw cl fsw cl/op
closed opens no
effect
no
effect
(open disabled)
no effect
no
effect
(
open disabled)
opening no effect closes stops* reverses no effect
stops
; closes at
release
(saves open/close)
open no effect closes
no
effect
(
open/close
disabled)
no effect
no
effect
(
close
disabled)
no effect (open/
close disabled)
closing opens no effect stops* no effect
reverses
ë
2
stops; opens at
release (saves
open/close)
*
stopped opens closes
no
effect
(
open/close
disabled)
no effect
(
open
disabled)
no effect
(
close
disabled)
no effect (open/
close disabled)
7327891_Rev.A1
Sede legale / Registered ofce: FAAC SpA - Via Calari, 10
40069 Zola Predosa (BO) - Italy Tel. + 39 051 61724 - Fax. +39 051 758518
Supporto tecnico Italia : 051 6172505
www.geniusg.com
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