FAAC E024 User Manual

INDEX

1 WARNINGS ....................................................................................................................2

2 LAYOUT AND CONNECTIONS .........................................................................................2

3 TECHNICAL SPECIFICATIONS ........................................................................................3

3.1 DESCRIPTION OF COMPONENTS ........................................................................................... 3

3.2 DESCRIPTION OF TERMINAL-BOARDS ....................................................................................3

4 PROGRAMMING THE LOGIC ..........................................................................................3

5 PROGRAMMING THE SPEED ...........................................................................................3

6. START-UP ........................................................................................................................4

6.1 LEDS CHECK ........................................................................................................................4

6.2 PROGRAMMING THE DIPS-SWITCH ........................................................................................4

6.3 PRE-FLASHING ....................................................................................................................4

6.4 TIME - SETUP LEARNING .......................................................................................................4

6.4.1 AUTOMATIC SET-UP ........................................................................................................................4

6.4.2 MANUAL SET-UP .............................................................................................................................4

7 INSTALLATION OF BUS ACCESSORIES .............................................................................5

7.1 ADDRESSING THE BUS PHOTOCELLS ..................................................................................... 5

7.2 MEMORY STORAGE OF BUS ACCESSORIES..........................................................................6

8 MEMORY STORING THE RADIO CODE ............................................................................6

8.1 MEMORY STORAGE OF DS RADIO CONTROLS ......................................................................6

8.2 MEMORY STORAGE OF SLH RADIO CONTROLS .................................................................... 6

8.3 MEMORY STORAGE OF LC RADIO CONTROLS (for some markets only) .............................7

8.3.1 REMOTE MEMORY STORAGE OF LC RADIO CONTROLS .................................................................7

8.4 RADIO CONTROLS DELETION PROCEDURE ........................................................................... 7

9 CONNECTION OF BUFFER BATTERIES (OPTIONAL) ...........................................................7

10 AUTOMATED SYSTEM TEST..............................................................................................7

11 LOGIC TABLES ...............................................................................................................8

ENGLISH

CE DECLARATION OF CONFORMITY

Manufacturer: FAAC S.p.A.
Address: Via Benini, 1 - 40069 Zola Predosa BOLOGNA - ITALY
Declares that: Control board mod. E024,

• conforms to the essential safety requirements of the following EEC directives:

73/23/EEC and subsequent amendment 93/68/EEC.
89/336/EEC and subsequent amendment 92/31/EEC and 93/68/EEC

Additional information:
This product underwent a test in a typical, uniform configuration.
(all products made by FAAC S.p.A)

Bologna 01-06-2007. The Managing Director
A. Bassi

WARNINGS

• Important! For the safety of people, it is important that all the instructions be carefully observed.

• 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 keep them for future
reference.

• The symbol
of the automated system.

• The symbol
product.

indicates notes that are important for the safety of persons and for the good condition

draws your attention to the notes on the characteristics and operation of the

1

CONTROL UNIT E024

1 WARNINGS

Before attempting any work on the control unit (connections, maintenance), always turn off power.

- Install, upstream of the system, a differential thermal breaker with adequate tripping threshold,

- Always separate power cables from control and safety cables (push-button, receiver, photocells, etc.).

- To avoid any electrical disturbance, use separate sheaths or a screened cable (with the screen earthed).

2 LAYOUT AND CONNECTIONS

(PARTIAL OPENING)

ENGLISH

(TOTAL OPENING)

Fig. 1

2

3 TECHNICAL SPECIFICATIONS

3

STOP

Device with NC
contact which causes
the automated
system to shut down

3.2 DESCRIPTION OF TERMINAL-BOARDS

Power supply voltage

Absorbed power

Motor max. load

Accessories max. current
(+24V)

BUS Accessories max.current

Operating ambient tempera­ture

Fuses

Function logics

Work time (time-out)

Pause time

Terminal board inputs

Connector inputs

Terminal board outputs

Programmable functions

Learning functions

Integrated radio channels
type

230Vac (+6% -10%) - 50Hz

20W

150W x 2

100 mA

400 mA

-20°C - +55°C

F1 = self-resetting; F2 = T2A-

250V

EP, A

1 minute (fixed)

Varies according to learning

(max. 10 min.)

Open A, Open B, Stop, BUS

(I/O)

Power supply, batter y

module XF 433 or XF 868

Motors, flashing lamp, power

supply to accessories,

electric lock, service light

contact (90 sec fixed)

Logic (A, EP), Speed (depen-

ding on the motorization)

Pause time, leaf 2 delay at

closing

DS, SLH (max 250 channels)

LC (max 250 channels - FOR

SOME MARKETS ONLY)

Terminal and/or
terminal-board

1

Description Device connected

+24V

Power supply for
accessories

2 GND Negative

Device with NC

3

J5

STOP

4 OPEN B

contact which causes
the automated
system to shut down

Device with N.O
contact (see chap.

5 OPEN A

J10

RED terminal

BUS

FUNCTION LOGICS)

Safety devices with
BUS technology

Service Light control

J2

GREY terminal

SERVICE

LIGHT

output (connect a
relay coil at 24Vdc­100mA max)

J3

ORANGE terminal

J4

BLUE terminal

LAMP

LOCK

Flashing lamp 24Vdc

- 15W

Electric lock 12Vac or
24 Vdc (to be installed
on leaf 1)

J7 MOT1 Motor 1 (leaf 1)

ENGLISH

3.1 DESCRIPTION OF COMPONENTS

J1 POWER SUPPLY connector

J2

SERVICE LIGHT command terminal-board

J3 FLASHING LAMP terminal-board

J4 ELECTRIC LOCK terminal-board

J5 COMMANDS terminal-board

J7 MOTOR 1 terminal-board

J8 MOTOR 2 terminal-board

J9 Rapid connection for XF MODULE

J10 BUS terminal-board

J11 BATTERY connector

SW1 SET UP push-button

SW2 SPEED push-button

SW3 LOGIC push-button

DS1 Programming Dip-switch

F1 Accessories protective fuse

F2 Fuses protecting transformers and motors

J8 MOT2 Motor 2 (leaf 2)

Leaf 1 means the leaf which opens first during

the opening operation.

The service light control is active during the

entire gate opening or closing movement and
for the successive 90 seconds.

4 PROGRAMMING THE LOGIC

The function logic can be selected at any time by pressing
push-button SW3.
The selected logic is then displayed on LED LD7:

LED on = AUTOMATIC logic (A)
LED off = SEMIAUTOMATIC STEPPED logic (EP)

5 PROGRAMMING THE SPEED

The function logic can be adjusted at any time by pressing
push-button SW2.
The selected logic is then displayed on LED LD8:

LED on = HIGH speed
LED off = LOW speed

LED Signalling LEDs

3

6 START-UP

6.1 LEDS CHECK

The following table shows that status of the LEDs in relation to
the status of the inputs (the closed at rest automated system
condition is shown in bold).
Check the status of the signalling LEDs as per table below:

Tab.1 – Operation of inputs status LEDs

LED ON (closed contact) OFF (open contact)

STOP Command disabled Command enabled

OPEN A Command enabled Command disabled

OPEN B Command enabled Command disabled

BUS

ENGLISH

6.2 PROGRAMMING THE DIPS-SWITCH

The following tables show the settings of the DS1 dip-switch for
programming force, pre-flashing and reversing stroke.

Tab. 2 - DS1 programming (default settings in bold)

DS1 DS2 DS3 DS4 Description

OFF OFF LOW FORCE

OFF ON MEDIUM - LOW FORCE

ON OFF MEDIUM - HIGH FORCE

ON ON HIGH FORCE

ON ANTI-WIND ON

OFF ANTI-WIND OFF

If you connect an electric lock to terminal J4,

position DS4 to ON to enable the reversing stro­ke (before opening, the motors thrust to close,
thus facilitating the electric lock to uncouple).

By setting dip-switch DS3 on ON, a special

antiwind function is activated that enables the
gate operation even if strong wind is present.

See par. 7.2

ON REVERSING STROKE ON

OFF REVERSING STROKE OFF

6.4 TIME - SETUP LEARNING

Before any manoeuvre is executed, a SETUP

cycle must first be run.

During SETUP do not interrupt the photocells

because their interruption causes the immedi­ate stop of the leaves. To end the procedure,
repeat SETUP from the beginning.

When the board is powered up and a SETUP cycle has never
been executed, LEDs LD4 and LD5 begin to flash slowly to signal
that a SETUP cycle must be executed.
There are two possible types of SETUP: AUTOMATIC and
MANUAL

6.4.1 AUTOMATIC SET-UP

To execute an AUTOMATIC SETUP, follow the procedure below:

1.

Take the leaves to mid-point.

2.

Hold down the SETUP (SW1) push-button until the 2 adjacent
LEDs (LD4 and LD5) light up on steady beam.

3.

Release the SETUP push-button, LEDs LD4 and LD5 begin
to flash rapidly.

4.

Leaf 2 (if present) starts the closing movement, stopping
when it reaches the closing mechanical stop.

5.

Leaf 1 starts the closing movement, stopping when it
reaches the closing mechanical stop.

6.

Leaf 1 starts the opening movement.

7.

Leaf 2 (if present) starts the opening movement after a
fixed delay at opening.

8.

Leaves 1 and 2 (if present) stop when they reach the
opening mechanical stop.

9.

Wait for LEDs LD4 and LD5 to go OFF, which means that the
SETUP procedure has finished.

10.

Give an OPEN pulse to close the gate.

When the SETUP procedure has been started,

if the leaves at point 4 and 5 open instead of
closing, the motor power supply cables must
be changed over.

When using the AUTOMATIC SETUP, the slow

down spaces, the leaf opening and closing
delays, and the pause time (30 sec., with A
logic), are all preset by the board and cannot
be modified.

6.4.2 MANUAL SET-UP

6.3 PRE-FLASHING

The pre-flashing function can be activated and disabled (fol­lowing an OPEN command, the unit activates the flashing lamp
for 3 seconds before it starts the movement). Procedure:

1.

Press LOGIC key (SW3) for at least 5 secs. to ACTIVATE
pre-flashing.

2.

Press SPEED key (SW2) for at least 5 secs. to DESACTIVATE
pre-flashing.

In both cases check if the LED of the pressed key

changes its status: in such cases it means that
the function of the key and not the pre-flashing
was changed.

To execute a MANUAL SETUP, follow the procedure below:

Take the leaves to mid-point.

1.
Hold down the SETUP (SW1) push-button until the leaves

2.
start to move.

Release the SETUP push-button, LEDs LD4 and LD5 begin

3.
to flash rapidly

Leaf 2 (if present) starts the closing movement, stopping

4.
when it reaches the closing mechanical stop

Leaf 1 starts the closing movement, stopping when it rea-

5.
ches the closing mechanical stop

Leaf 1 starts the opening movement.

6.
Leaf 2 (if present) starts the opening movement after a

7.
fixed delay at opening.

Leaves 1 and 2 (if present) stop when they reach the ope-

8.
ning mechanical stop.

If LOW force was set, wait for about 5 sec checking if the

9.
flashing lamp goes OFF.

4

If the A Logic was selected, the board begins to count the

10.
pause time (max 10 min) and, after the required time has
elapsed, give an OPENING pulse to continue the proce­dure. Otherwise, if you have selected the EP logic, give an
OPEN pulse to continue the procedure.

Leaf 2 (if present) starts the closing movement an the board

11.
begins to count the delay of the leaf at closing.

After the required time has elapsed, give an OPEN pulse

12.
to make leaf 1 start the closing movement. If leaf 2 is not
present, the pulse given in point 9 directly makes leaf 1
close.

Leaves 1 and 2 (if present) stop when they reach the closing

13.
mechanical stop.

Wait for LEDs LD4 and LD5 to go OFF, which means that the

14.
SETUP procedure has finished.

When the SETUP procedure has been started,

if the leaves at point 4 and 5 open instead of
closing, the motor power supply cables must
be changed over.

When using the MANUAL SETUP, the slow-down

spaces, and leaf delays at opening are preset
by the board and cannot be modified. However,
delay at leaf closing and pause time can be
programmed during learning.

Fig. 2

Fig. 2 shows a 2-swing leaf automated system indicating the
coverage beams of the photocells:

A: Photocells with OPENING and CLOSING action.

B: Photocells with OPENING action

C: Photocells with OPENING action

D: Photocells with CLOSING action

ENGLISH

7 INSTALLATION OF BUS ACCESSORIES

This board is supplied with a BUS circuit enabling easy con­nection of a high number of BUS accessories (e.g. up to 16
photocells pairs), appropriately programmed, using only two
cable without polarity.
Below we describe the addressing and memory storage of
the BUS photocells.
For other future accessories, refer to the specific instructions.

7.1 ADDRESSING THE BUS PHOTOCELLS

Important: the same address must be given to

both transmitter and receiver.

Make sure that there are no two or more

photocells pairs with the same address.

If no BUS accessory is used, leave the BUS con-

nector free (J10 - fig. 1).

A maximum of 16 BUS photocell pairs can be connected to
the board.
The photocells are split into groups:

Opening photocells: max 6
Closing photocells: max 7
Opening /Closing photocells: max 2
Photocell used as an OPEN pulse: max 1

Table 3 shows the programming operations of the dip-switch
inside the transmitter and of the BUS Photocells receiver.

Tab. 3 - Addressing of BUS Photocells

Dip1 Dip2 Dip3 Dip4 Ref. Type

OFF OFF OFF OFF

OFF OFF OFF ON

OFF OFF ON OFF

OFF OFF ON ON

OFF ON ON OFF

OFF ON ON ON

ON OFF OFF OFF

ON OFF OFF ON

ON OFF ON OFF

ON OFF ON ON

ON ON OFF OFF

ON ON OFF ON

ON ON ON OFF

OFF ON OFF OFF

OFF ON OFF ON

B -C OPENING

D CLOSING

A

OPENING and

CLOSING

ON ON ON ON / OPEN PULSE

5

7.2 MEMORY STORAGE OF BUS ACCESSORIES

You can add the BUS photocells to the system at any time,
simply by memory-storing them on the board, observing the
following procedure:

1.

Install and program the accessories using the required
address (see paragraph 7.1)

2.

Cut power to the board.

3.

Connect the two accessories cables to the red terminal­board J10 (any polarity will do).

4.

Power up the board, taking care to first connect the
main power supply (transformer output) and then any
batteries.

5.

Quickly press once only the SW1 (SETUP) push-button, to
execute learning. The BUS LED flashes.

6.

Give an OPEN impulse, leaves will move and the BUS
learning procedure is over.

The board has memory stored the BUS accessories. Follow the

ENGLISH

instructions in the table below to check if the BUS connection
is correct.

Tab. 4 - Description of BUS LED

Steady light

Slow flashing

(flash

lamp

every 0.5 sec)

Light OFF

(flash every 2.5
sec)

Fast flashing

(flash

lamp

every 0.2 sec)

Normal operation (LED ON even in the
absence of photocells)

At least one input engaged: photocell
engaged or not aligned, Open A or Open
B or Stop input engaged

BUS line short circuited

If you have detected a BUS connection
error, repeat the acquisition procedure. If
the error is repeated, make sure that there
is not more than one accessory with the
same address in the system (also see the
accessories instructions)

8 MEMORY STORING THE RADIO CODE

The control board has an integrated 2-channel decoding
system (DS, SLH, LC) named OMNIDEC. This system makes it
possible to memory-store both total opening (OPEN A) and
partial opening OPEN B) of the automated system - this is made
possible by an additional receiver module (fig.3 ref. 햲) and
radio controls on the same frequency.

햲

Fig. 3

8.1 MEMORY STORAGE OF DS RADIO CONTROLS

A maximum of two codes can be stored. One

on the OPEN A channel and one on the OPEN B
channel.

1.

On the DS radio control, select the required ON-OFF
combination for the 12 dip-switches.

2.

Press the LOGIC (SW3) or SPEED (SW2) push-button, to
memory store respectively total opening (OPEN A) or partial
opening (OPEN B), and as you hold it down, also press the
SETUP (SW1) push-button. The relevant LED starts to flash
slowly for 5 sec..

3.

Release both push-buttons.

4.

Within these 5 sec., press the appropriate push-button on
the radio control.

5.

The relevant LED lights up on steady beam for 1 second and
then goes OFF, indicating that storage was executed.

6.

To add other radio controls, set the same ON - OFF
combination used in point 1.

8.2 MEMORY STORAGE OF SLH RADIO CONTROLS

A maximum of 250 codes can be memory

stored, split between OPEN A and OPEN B.

The 3 types of radio codes (DS, LSH, LC) cannot

coexist.

Only one radio code can be used at a time.

To change over from one code to another, you
must delete the existing one (see paragraph
on deletion), and repeat the memory-storage
procedure.

On the SLH radio control, simultaneously press and hold

1.
down push-buttons P1 and P2.

The radio control LED begins to flash.

2.
Release both push-buttons.

3.
Press the LOGIC (SW3) or SPEED (SW2) push-button, to

4.
memory store respectively total opening (OPEN A) or partial
opening (OPEN B), and as you hold it down, also press the
SETUP (SW1) push-button. The relevant LED starts to flash
slowly for 5 sec.

Release both push-buttons.

5.
Within these 5 sec., while the radio control LED is still flashing,

6.
press and hold down the required push-button on the radio
control (the radio control LED lights up on steady beam).

The LED on the board lights up on steady beam for 1

7.
second and then goes OFF, indicating that storage was
executed.

Release the radio control push-button.

8.

6

+

Quickly press twice the memory stored radio control push-

9.
button.

The automated system performs one opening

operation. Make sure that the automated
system is free of any obstacle created by
persons or things.

To add other radio controls, transfer the code of the memory­stored push-button of the radio control to the relevant push­button of the radio controls to be added, observing the
following procedure.

•

On the memory stored radio control, simultaneously press
and hold down push-buttons P1 and P2.

•

The radio control LED begins to flash.

•

Release both push-buttons.

•

Press the memory stored push-button and hold it down
(the radio control LED lights up on steady beam).

•

Bring the radio controls near, press and hold down the
push-button of the radio control to be added, releasing
it only after the double flash of the radio control LED,
which indicates memory storage executed.

•

Quickly press twice the push-button of the memory stored
radio control.

The automated system performs one opening

operation. Make sure that the automated
system is free of any obstacle created by
persons or things.

8.3 MEMORY STORAGE OF LC RADIO CONTROLS
(for some markets only)

A maximum of 250 codes can be memory

stored, split between OPEN A and OPEN B.

The LED on the board relating to the channel being learned

4.
flashes for 5 sec., within which time the code of another
radio control must be transmitted.

The LED lights up on steady beam for 2 seconds, indicating

5.
memory storage executed, and then resumes flashing for
5 sec., during which other radio controls can be memory
stored, and then goes OFF.

8.4 RADIO CONTROLS DELETION PROCEDURE

To delete ALL the input radio control codes, press push-

1.
button LOGIC (SW3) or SPEED (SW2) and, while holding it
down, also press push-button SETUP (SW1) for 10 sec.

The LED relating to the pressed push-button flashes for

2.
the first 5 sec, and then flashes more quickly for the next
5 sec.

Both LEDs light up on steady beam for 2 sec and then go

3.
OFF (deletion completed).

Release both push-buttons.

4.

This operation is NOT reversible. All codes of

radio controls stored as OPEN A and OPEN B will
be deleted.

9 BATTERY KIT (OPZIONAL)

The buffer battery kit was built for insertion inside the control
board support.
This support (Fig.10 ref.햲) was pre-moulded to permit the
battery housing to be opened.

Remove the board support material covering the

1.
battery housing, cutting the material connections along
the perimeter.

ENGLISH

Use LC remote controls only with receiver module at 433

1.
MHz.

Press the LOGIC (SW3) or SPEED (SW2) push-button, to

2.
memory store respectively total opening (OPEN A) or partial
opening (OPEN B), and as you hold it down, also press the
SETUP (SW1) push-button. The relevant LED starts to flash
slowly for 5 sec.

Release both push-buttons. Within these 5 sec., press the

3.
appropriate push-button on the LC remote control.

The LED lights up on steady beam for 1 second, indicating

4.
memory storage executed, and then resumes flashing for
another 5 sec., during which another radio control (point

4) can be memory stored.
When the 5 sec. have elapsed, the LED goes OFF indicating

5.
the end of the procedure.

To add other radio controls, repeat the operation at point 1.

6.

8.3.1 REMOTE MEMORY STORAGE OF LC RADIO CON­TROLS

Other radio controls can be remotely stored only with the LC
radio controls, i.e. without using the LOGIC-SPEED-SETUP push­buttons, but using a previously stored radio control.

Get a radio control already stored on one of the 2 channels

1.
(OPEN A or OPEN B ).

Press and hold down push-buttons P1 and P2 simultaneously

2.
until both the LEDs flash slowly for 5 sec.

Within 5 sec. press the push-button of the radio control

3.
that had been memory stored to enable learning on the
selected channel.

햲

Fig. 10

Insert the battery in the housing you have just created, and

2.
secure it on the anchoring supports (Fig.11).

10 mm

16 mm

16 mm

+

Fig. 11

To correctly fasten and connect the kit to the control

3.
unit, consult the instructions enclosed with the
battery kit.

10 AUTOMATED SYSTEM TEST

When you have finished programming, check if the system is
operating correctly. In particular, check if the safety devices
are operating correctly.

7

11 LOGIC TABLES

FSW-OPEN

opens leaves and

closes after pause

inhibited)

no effect (opening

no effect

inhibited)

time

no effect (1)

to open at

disengagement

stops and continues

no effect

at closing

time

at opening

recharges pause

(closing inhibited) (1)

reverses immediately

time

stops and, at

recharges pause

(closing inhibited)

time

recharges pause

(closing inhibited)

disengagement,

reverses at opening

at opening

reverses immediately

opens leaves

no effect (opening

and closing inhibited)

inhibited)

no effect (closing

inhibited)

opens leaves

inhibited)

no effect (opening

no effect

inhibited)

no effect (1)

to open at

disengagement

stops and continues

no effect

at closing

no effect (1)

inhibited)

no effect (closing

inhibited)

no effect (closing

no effect

at opening

reverses immediately

stops and, at

disengagement,

reverses at opening

at opening

reverses immediately

opens leaves

no effect (opening

and closing inhibited)

inhibited)

no effect (closing

inhibited)

no effect (opening

inhibited)

no effect (opening

time

opens leaf 1 and

closes after pause

OPEN A OPEN B STOP FSW-OP FSW-CL FSW-OP/CL

time

opens leaves and

closes after pause

reverses immediately

no effect (opening

stops operation no effect

at opening

reverses immediately

at opening

reverses immediately

no effect (opening

and closing inhibited)

no effect (opening

inhibited)

no effect (opening

OPEN A OPEN B STOP FSW-OP FSW-CL FSW-OP/CL FSW-OPEN

opens leaves opens leaf 1

reverses immediately

inhibited)

no effect (closing

no effect (opening

no effect (opening

and closing inhibited)

(1)

direction

immediately

After STOP: Re-closes the leaf/ves

After OPEN: Restarts moving in reverse

Tab. 5

LOGIC “A” PULSES

STATUS OF AUTOMATED

SYSTEM

CLOSED

OPENING no effect stops operation

OPEN IN PAUSE recharge the pause time stops operation no effect

CLOSING

STOPPED closes closes

LOGIC “EP” PULSES

Tab. 6

SYSTEM

STATUS OF AUTOMATED

CLOSED

OPENING stops operation (1) stops operation stops operation

OPEN closes closes

CLOSING stops operation stops operation stops operation no effect

STOPPED

(1) If the cycle began with OPEN-B (partial opening), an OPEN-A pulse will activate both leaves to open.