FAAC 820, 860 Installation Manual

Leading the way ...

Installation Manual

820/860

Leading the way ...

Sliding Gate System

Leading the way ...

1

EC MACHINE DIRECTIVE COMPLIANCE DECLARATION

(DIRECTIVE 89/392 EEC, APPENDIX II, PART B)

Manufacturer: FAAC S.p.A.

Address: Via Benini, 1

40069 - Zola Predosa
BOLOGNA - ITALY

Hereby declares that: the 820-860 automation system

•is intended to be incorporated into machinery, or to be assembled with
other machinery to constitute machinery in compliance with the requirements
of Directive 89/392 EEC, and subsequent amendments 91/368 EEC, 93/44
EEC and 93/68 EEC;

• complies with the essential safety requirements in the following EEC Directives:

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

and furthermore declares that unit must not be put into service until the
machinery into which it is incorporated or of which it is a component has
been identified and declared to be in conformity with the provisions of
Directive 89/392 EEC and subsequent amendments enacted by the national
implementing legislation.

Bologna, 1 January 1997

Managing
Director

A. Bassi

2

IMPORTANT NOTICE FOR THE INSTALLER

GENERAL SAFETY REGULATIONS

1) WARNING! FAAC strongly recommends to follow these instructions literally for the safety of persons. Improper
installation or misuse of the product will cause very serious damages to persons.

2) Packaging material (plastic, polystyrene etc.) is a potential hazard and must be kept out of reach of children.

3)

Read the instructions carefully before installing the product.

4) Keep these instructions for future reference.

5) This product has been designed and manufactured only for the use stated in this manual. Any other use not expressly
set forth will affect the reliability of the product and/or could be source of hazard.

6) FAAC S.p.A. cannot be held responsible for any damage caused by improper use or different from the use for which
the automation system is destined to.

7) Do not use this device in areas subject to explosion: the presence of flammable gas or fumes is a serious hazard.

8) Mechanical constructive elements must comply with UNI8612, CEN pr EN 12604 and CEN pr EN 12605 standards.
Countries outside the EC shall follow the regulations above besides their national normative references in order to
offer the utmost safety.

9) FAAC cannot be held responsible for failure to observe technical standards in the construction of gates and doors,
or for any deformation of the gates which may occur during use.

10) Installation must comply with UNI8612, CEN pr EN 12453 and CEN pr EN 12635.
The degree of safety of the automation must be C+E.

11) Before carrying out any operations, turn off the system’s main switch.

12) An omnipower switch shall be provided for the installation with an opening distance of the contacts of 3 mm or more.
Alternatively, use a 6A thermomagnetic breaker with multi-pole switching.

13) Ensure that there is a differential switch up-line of the electrical system, with a trip threshold of 0.03A.

14) Check that the earthing plant is in perfect condition and connect it to the metallic parts. Also earth the yellow/green
wire of the operator.

15) The automation is fitted with an anti-crush safety system that is a torque control device. In any case, further safety
devices shall be installed.

16) The safety devices (e.g. photocells, safety edges, etc.) protect areas where there is a mechanical movement
hazard, e.g. crushing, entrapment and cutting.

17) Each installation must be fitted with at least one flashing light (e.g. FAAC LAMP, MINILAMP etc.) as well as a warning
plate suitably fixed to the gate, besides the safety devices as per point 16. above.

18) FAAC cannot be held responsible regarding safety and correct functioning of the automation in the event that parts
other than FAAC original parts are used.

19) Use only FAAC original spare parts for maintenance operations.

20) Do not carry out any modifications to automation components.

21) The installer must supply all information regarding manual operation of the system in the event of an emergency
and provide the end-user with the "End-user Guide" attached to the product.

22) Keep out of persons when the product is in operation.

23) Keep out of reach of children the remote radio controls and any control devices. The automation could be
operated unintentionally.

24) The end-user must avoid any attempt to repair or adjust the automation personally. These operations must be
carried out exclusively by qualified personnel.

25) What is not explicitly stated in these instructions is not permitted.

3

These instructions apply to the following models:
820 EMC Z20 CR - 820 EMC - 820 EMC RF - 860 MC Z16 - 860
MC - 860 MC RF - 860 EMC Z16 - 860 EMC

The FAAC model 820 and 860 automations for sliding gates
are electromechanical operators which transmit movement
to the leaf by means of a pinion with rack or chain coupled
in an appropriate manner to the sliding gate.
The system is guaranteed to be mechanically locked
when the motor is not in operation so a lock does not need
to be installed. The gear motors have mechanical/
electronic clutches which provide the necessary adjustable
anti-crushing safety. A convenient manual release device
allows the gate to be operated in the event of a power
failure or malfunction. An electronic device allows the
open/closed limit switches to be programmed by a simple
operation without the need to weld limit switch plates. The
electronic control unit is incorporated in the gear motors.
The automations 820 - 860 & 826 MPS have been designed
and built for vehicle access control. Do not use for any
other purpose.

1. DESCRIPTION AND TECHNICAL CHARACTERISTICS

AUTOMATION 820 - 860 & 826 MPS

MODEL 820 860

Power supply 230 V (+6% -10%)
Power consumption (W) 400 600
Reduction ratio 1:30
No. of pinion teeth Z 16 / Z 20
Rack 4 module pitch 12.566
Max. thrust daN 50 110
Winding thermal protection 135 °C
Duty rating 30% (see graph)
Oil quantity (l) 0,800
Type of oil FAAC XD 220
Temperature range -20 to +55°c
Gear motor weight (kg) 14 15
Housing protection IP 44
Max. gate weight (kg) 600 1200
Gate speed 12 m/min 9,6 m/min
Max. gate length 13 m 10 m
Partial opening length 1,60 m 1,20 m
Cooling self-ventilated
Clutch single disc in oil bath
Housing treatment cataphoresis
Casing painting polyester RAL 7042
Control unit 826 MPS (incorporated)
Limit switches programmable memory (ADL)
Deceleration electronic
Gear motor dimensions LxHxD (mm) see Fig. 3

Table 1 Gear motor technical characteristics

1

3

5

8

9

7

6

11

12

2

10

4

Fig. 1

햲 Transformer
햳 826 MPS electronic control unit
햴 Surge capacitor
햵 Breather/clutch adjustment screw
햶 Electric motor
햷 ADL electronic card

햸 Limit switch unit
햹 Worm screw
햺 Crown wheel
햻 Emergency release
햽 Pinion
햾 Casing

10

20

30

40

50

60

70

80

90

100

0

12345678910

10 11 12

Percentuale
di lav. %

Tiempo(h

)

% Duty cycle

% Fréquence
d'utilisation

% Benutzungs­frequenz

% Frecuencia
de utilización

Zeit(Std.

)

Temps(h

)

Time (h

)

Tempo(h

)

Electric motor technical specifications

Model 820 860
Motor speed (rpm) 1400 1400
Power consumption (W) 400 600
Current draw (A) 23
Surge condenser 20 µF 30 µF
Power supply 230 V (+6 -10%) 50 Hz

1.1. MAXIMUM UTILISATION CURVE

The curve allows the maximum working time (T) to be
obtained as a function of duty cycle (F).
For example, the 820-860 gear motors can operate
uninterruptedly at a duty cycle of 30%.
To ensure good operation, keep to the field of operation
lying below the curve.
Important: The curve refers to a temperature of 24°C.
Exposure to direct sunlight can result in a reduction in duty
cycle to as low as 20%.

Calculating duty cycle

The duty cycle is the percentage of effective working time
(opening + closing) with respect to the total cycle time
(opening + closing + pause times).
It is calculated using the following formula:

Ta + Tc

%F =

X 100

Ta + Tc + Tp + Ti

where:
Ta = opening time
Tc = closing time
Tp = pause time
Ti =

interval between one complete cycle and the next.

Graph of duty cycle

4

4. INSTALLING THE AUTOMATION

4.1. PRELIMINARY CHECKS

For safe, correct operation of the automation, make sure
that the following requirements are met:

• The gate’s structure must be suitable for automation.
Take special care to ensure that the wheels are large
enough to support the full weight of the gate, that a
top runner is installed and that mechanical limit stops
are fitted to prevent the gate from coming off the
runner.

• The characteristics of the ground must ensure sufficient
support for the foundation plinth.

• There must be no pipes or electrical cables in the area
to be dug for installing the foundation plinth.

• If the gear motor is located in a vehicle transit area, it
is a good idea to provide protection against accidental
collisions.

• Check that the gear motor has an efficient earth
connection.

4.2. INSTALLING THE BASE PLATE

1) The base plate must be positioned as shown in Fig. 4
(right-handed closure) or Fig. 5 (left-handed closure) to
ensure that the pinion and rack mesh correctly.

N.B.: It is advisable to install the base plate on a concrete
base raised about 50 mm from the ground (Fig. 7).

2) Assemble the foundation plate as shown in Fig. 6.

3) Prepare a foundation plinth as shown in Fig. 8 and install
the base plate providing one or more conduits for
electrical cables. Use a level to check that the plate is
perfectly horizontal and wait for the cement to set.

4) Set up the electrical cables for connection to the

accessories and the electricity supply as described in
section 2. For ease of connection, ensure that the
cables protrude by about 45 cm from the hole in the
base plate.

햲 820/860 operator with

826 MPS control unit

햳 Photocells
햴 Key switch
햵 Flashing light
햶 Radio receiver

Fig. 2

3. DIMENSIONS

221,2

140

Fig. 3

Values are expressed in mm.

40

165

40

165

235

235

0

¸

50

0

¸

50

Fig. 4

Fig. 6

4.3. MECHANICAL INSTALLATION

1) With the aid of a Teflon hammer insert the adjustable
feet into the hexagonal holes under the base of the
gear motor as shown in Fig. 9.

2) Remove the casing and position the gear motor on the
foundation plate, threading the electrical cables into
the conduit in the operator body.

3) Adjust the height of the feet and the distance from the
gate as shown in Fig. 7.

4) Secure the gear motor onto the base plate using the
two nuts and the plates provided as shown in Fig. 10.

5) Set up the operator for manual operation as described
in section 6.

6) Remove the breather screw as shown in Fig. 11 and
keep it in a safe place.

13

53

221,2

50

Z20 131 mm (820)

Z16 123 mm (860)

Fig. 7

2. ELECTRICAL SET-UP (standard system)

Fig. 5

5

3) Rest the first rack element level on the pinion and weld
the threaded pawl onto the gate as shown in Fig. 15.

4) Slide the gate manually making sure that the rack rests
on the pinion. Weld the second and third pawls.

5) Place another rack element next to the first and use a
section of rack to set the teeth of the two elements in
phase as shown in Fig. 16.

6) Open the gate manually and weld the three threaded
pawls. Proceed in this manner until the entire gate has
been covered.

4.4.2. SCREW-ON STEEL RACK (Fig. 13)

4.4.1. WELD-ON STEEL RACK (Fig. 12)

1) Mount the three threaded pawls on the rack element,
positioning them in the upper part of the slot. This way
the play provided by the slot will allow for future
adjustment.

2) Slide the leaf manually to the closed position.

Fig. 8

2

1

Fig. 9

Fig. 10

1) Slide the leaf manually to the closed position.

2) Rest the first rack element level on the pinion and insert
the spacer in the upper part of the slot between the
rack and the gate.

3) Mark the point to be drilled on the gate. Drill a 6.5 mm
diameter hole and thread using 8 mm screw taps.
Tighten the bolt.

4) Slide the gate manually making sure that the rack rests
on the pinion and repeat the operations of point 3.

5) Place another rack element next to the first and use a
section of rack to set the teeth of the two elements in
phase as shown in Fig. 16.

6) Slide the gate manually and secure the rack element
in the same manner as the first element. Proceed in this
manner until the entire gate has been covered.

Fig. 12

4.4.3. SCREW-ON NYLON RACK (Fig. 14)

1) Move the leaf manually to the closed position.

2) Rest the first rack element level on the pinion and mark
the point to be drilled on the gate. Drill a 4 mm
diameter hole and screw on the 6x20 mm self-tapping
screw with reinforcement plate.

3)

Move the gate manually making sure that the rack rests
on the pinion and repeat the operations of point 2.

4) Place another rack element next to the first using a
section of rack to set the teeth of the two elements in
phase as shown in Fig. 16.

5) Move the gate manually and carry out the fixing
operations the same way as for the first element. Proceed
in this manner until the entire gate has been covered.

Fig. 11

4.4. MOUNTING THE RACK

Fig. 14

Fig. 13

6

Fig. 15

Fig. 16

N.B.: Check that none of the rack elements come off the

pinion during the movement of the gate.
Important: Do not weld the rack elements either to the

spacers or to each other (for steel rack only).
After installing the rack, lower the position of the gear motor
by adjusting the feet (Fig. 17) by about 1.5 mm to ensure
correct meshing with the pinion.

1.5

Fig. 17

5. START-UP

5.1. CONNECTION TO ELECTRONIC CONTROL UNIT

Warning: Always turn off the electricity supply before
carrying out any work on the electronic control unit
(connections, programming, maintenance).
Warning: When terminal board J2 is disconnected, high
voltage remains on the outputs of the capacitor, motor and
transformer power supplies.

Observe points 10, 11, 12, 13 and 14 in the GENERAL SAFETY
INSTRUCTIONS.
As shown in Fig. 2, prepare the conduits and make the
electrical connections from the 826 MPS electronic control
unit to the chosen accessories.

7

2

1

6

5

4

31

4.5.2 MODEL 820 EMC RF - 860 MC RF (figs. 20-21)

- Insert the elastic pin 7 in the shaft with the aid of a
hammer.

- Fit the chain pinion on the shaft by matching up the
pinion seats with the elastic pin and tighten up screw 4
and washers 5 and 6.

- Fit the idle transmission bracket on the gear motor flange,
removing the four upper bolts and replacing them with
the 5x12 hex bolts 1 and washers 2 in the kit as shown in
Fig. 20.

- Fit the chain as shown in Fig. 21 and mount the casing with
screws 1 and washers 3 (Fig. 20).

Fig. 20

Fig. 21

Check manually that the gate reaches the mechanical
travel limits correctly and that it does not encounter
friction during its travel.
Do not use grease or other lubricants between the pinion
and the rack.

4.5. MOUNTING CHAIN PINIONS

In versions for chain and idle transmission applications,
mount the Z16 or Z20 chain pinion. Proceed as follows:

4.5.1 MODEL 820 EMC - 860 MC - 860 EMC (figs. 18-19)

- Insert the elastic pin in the shaft with the aid of a hammer.

- Fit the chain pinion on the shaft by matching up the pinion
seats with the elastic pin and tighten up the screw with the
washers.

Fig. 18

Fig. 19

7

5.1.2. ELECTRICAL CONNECTIONS

123456

78910

11

12

-

+

-

1

2

3

4

5

1

2

3

4

5

1

2

1

2

FX1

FX2

OPEN

A/C

STOP

FX

230 V
+6% -10%
50-60 Hz

FAAC
LAMP

LAMP
24V 3W

13

14

CONTATTO COSTA DI SICUREZZA

SAFETY EDGE CONTACT

CONTACT TRANCHE DE SÉCURITÉ

KONTAKT SICHERHEITSKANTE

CONTACTO BANDA DE SEGURIDAD

5.2. DESCRIPTION OF TERMINAL BLOCK

5.2.1. OPEN (terminals 1-2)

This means any control device with a N.O. contact which
causes the gate to open when activated. In automatic
and semiautomatic logics it is active for both opening and
closure.

5.2.2. A/C (terminals 1-3)

This means any control device with a N.O. contact which
causes partial opening of the gate when activated in E1,
E2, A1, A2, S1 and S2 logics. In B and C logics it causes the
gate to close.

5.2.3. STOP (terminals 1-4)

This means a control device with a N.C. contact which
causes the gate status (opening-pause-closure) to be
interrupted until the next impulse is sent.

N.B.: If stop devices are not connected, jumper terminals 1-4.

5.2.4. SAFETY FX (terminals 5 - 6)

This means all devices (photocells, safety edges, magnetic
loops) with a N.C. contact which stop the movement of
the gate when an obstacle is present in the area protected
by the safety devices.

N.B.: If stop devices are not connected, jumper terminals 5-6.

5.2.5. + - LOW VOLTAGE POWER SUPPLY (terminals 6 - 7)

These are the 24 Vdc terminals to which the accessories
must be connected.
Proceed as shown in Table 3 in order not to exceed the
maximum permitted load.

5.2.6. LAMP (terminals 8 - 9 - 10)

These are the 24 Vac terminals to which the warning lamp
must be connected.
Warning lamp operation illustrated in Fig. 24 refers to
connection to terminals 8-9. Connecting the warning
lamp to terminals 8-10 gives inverse operation.

5.2.7. FAAC LAMP (terminals 11 - 12)

These are the 230 Vac terminals to which the flashing light
must be connected.

5.2.8. 230 V MAINS SUPPLY (terminals 13 - 14)

These are the terminals to which the 230 Vac electricity
supply must be connected.
Connect the earth cable to the post as shown in Fig. 23b.

5.2.9. BEHAVIOUR OF SAFETY DEVICES

The safety devices operate during closure only. In A1, E1
and S1 logics, interrupting the safety device contacts causes
the gate to stop closing and start opening immediately. In

Fig. 22

826MPS

FAAC

CAP.

MOTOR

141312111098

765

4

32

1

J3

J8

J7

P1

P2

P3

LD5 LD6 LD7 LD8

DECODER

LD1

LD2 LD3 LD4

DS1

J1

87

65

43

2

1

F2

J2

J4

F1

J9

J6

J5

Table 4 826 MPS control unit components

LD1 OPEN LED
LD2 PARTIAL OPEN/CLOSE LED
LD3 STOP LED
LD4 SAFETY LED
LD5 LIMIT SWITCH ALARM LED
LD6 OPENING LIMIT SWITCH LED
LD7 CLOSURE LIMIT SWITCH LED
LD8 SLIDING SPEED LED
P1 OPENING LIMIT SWITCH PROGRAMMING BUTTON
P2 CLOSURE LIMIT SWITCH PROGRAMMING BUTTON
P3 LIMIT SWITCH / RESET PROGRAMMING BUTTON
J1 DECODER CONNECTOR
J2 LOW VOLTAGE TERMINAL BLOCK
J3 ADL CONNECTOR
J4 FAAC LAMP OUTPUT TERMINAL BLOCK
J5 CAPACITOR CONNECTOR
J6 ELECTRIC MOTOR CONNECTOR
J7 TRANSFORMER PRIMARY CONNECTOR
J8 TRANSFORMER SECONDARY CONNECTOR
J9 230 Vac POWER SUPPLY TERMINAL STRIP
F1 ELECTRIC MOTOR FUSE (F 5 A)
F2 ACCESSORIES FUSE (T 1.6 A)
DS1 PROGRAMMING DIPSWITCH

TABLE 2 TECHNICAL CHARACTERISTICS OF 826 MPS

POWER SUPPLY 230 V (+6 -10%) 50 Hz

MAX. MOTOR LOAD 600 W

MAX. ACCESSORIES LOAD 500 mA

MAX. WARNING LAMP POWER 5 W (24Vac)

TEMPERATURE RANGE - 20°C + 55°C

TABLE3 ACCESSORIES CURRENT DRAW

TYPE OF ACCESSORY NOMINAL CURRENT DRAW

R 31 50mA

PLUS 433 E 20mA

MINIDEC SL / DS 6mA

DECODER SL / DS 20mA / 55mA

RP 433 ESL / EDS 12mA / 6mA

DIGICARD 15mA

METALDIGIKEY 15mA

FOTOSWITCH 90mA

DETECTOR F4 / PS6 50mA

MINIBEAM 70mA

Always route the power supply cables separately from the
control and safety cables (keyswitch, receiver, photocells,
etc.). Use separate conduits to avoid any interference.

5.1.1. 826 MPS CONTROL UNIT

Fig. 23a

8

Fig. 23b

A2, E2 and S2 logics interrupting the safety device contacts
causes the gate to stop closing, then to start opening again
when the safety devices are released.

5.2.10. ELECTRONIC SAFETY DEVICE

(models 820 EMC - 860 EMC only)
The operator is equipped with a system which cuts in when
it senses a 20% reduction in pinion speed. The device inverts
the closing movement and inhibits opening movement.
When this safety device cuts in, LED S goes out for a few
seconds. Automatic re-closure is inhibited if the electronic
anti-crushing safety has cut in.

5.3. DIPSWITCH SETTINGS

N.B.: PRESS THE RESET BUTTON AFTER ALL PROGRAMMING

OPERATIONS

5.4. OPERATION IN VARIOUS LOGICS

TABLE 5 LOGIC E1 (SEMIAUTOMATIC)

SAFETY
no effect
no effect

inverts motion

no effect
no effect

GATE STATUS

CLOSED

OPEN
CLOSING
OPENING

STOPPED

OPEN - A/C (1) -

opens (2)

recloses (2

inverts motion

stops

recloses (reopens when safety

devices are engaged) (2)

STOP
no effect
no effect

stops

stops
no effect

IMPULSES

LOGIC E1

GATE STATUS

CLOSED

OPEN

CLOSING

OPENING

STOPPED

OPEN -A/C(1)-

opens (2)

recloses (2)

inverts motion

stops

recloses (reopens when

safety devices are

engaged) (2)

STOP
no effect
no effect

stops

stops
no effect

LOGIC E2

SAFETY
no effect
no effect

stops and inverts motion

when disengaged (2)

no effect
no effect

IMPULSES

IMPULSES

LOGIC A1

SAFETY
no effect

freezes pause until

disengagement

inverts motion

no effect
no effect

STOP

no effect

stops counting

stops
stops

no effect

GATE STATUS

CLOSED

OPEN

CLOSING
OPENING
STOPPED

OPEN - A/C (1) -

opens and recloses after

pause time (2)

recloses after 5 s (3)

inverts motion

no effect

recloses (2)

TABLE 7 LOGIC A1 (AUTOMATIC)

IMPULSES

LOGIC A2

GATE STATUS

CLOSED

OPEN

CLOSING

OPENING
STOPPED

OPEN - A/C (1) -

opens and recloses after

pause time (2)

recloses after 5 s (3)

inverts motion

no effect

recloses (2)

STOP

no effect

stops counting

stops

stops

no effect

SAFETY
no effect

recloses after 5 s

stops and inverts motion

when disengaged (2)

no effect
no effect

TABLE 8 LOGIC A2 (AUTOMATIC)

LOGIC S1

IMPULSES

GATE STATUS

CLOSED

OPEN

CLOSING
OPENING

STOPPED

OPEN - A/C (1) -

opens and recloses after

pause time (2)

recloses immediately

(2 and 3)
inverts motion
inverts motion

recloses (2)

STOP

no effect

stops counting

stops
stops

no effect

SAFETY

no effect

recloses after 5 s

inverts motion

no effect
no effect

TABLE 9 LOGIC S1 (SAFETY)

LOGIC S2

IMPULSES

STOP

no effect

stops counting

stops

stops

no effect

GATE STATUS

CLOSED

OPEN

CLOSING

OPENING

STOPPED

OPEN - A/C (1) -

opens and recloses after

pause time (2)

recloses immediately

(2 and 3)

inverts motion

inverts motion

recloses (2)

SAFETY

no effect

freezes pause until

disengagement

stops and inverts motion

when disengaged (2)

no effect
no effect

TABLE 10 LOGIC S2 (SAFETY)

GATE STATUS

CLOSED

OPEN
CLOSING
OPENING

STOPPED

LOGIC B IMPULSES

OPEN

opening (2)

no effect
no effect
no effect

completes
opening (2)

A/C (5)

no effect
closing (2)
no effect
no effect

completes

opening (2)

SAFETY (until

disengagement)

no effect

inhibits closing

stops

no effect

inhibits closing

STOP

no effect

no effect
stops movement
stops movement

no effect

TABLE 11 LOGIC B (SEMIAUTOMATIC)

TABLE 6 LOGIC E2 (SEMIAUTOMATIC)

12345678

Logic SW1 SW2 SW3

E1 ON ON ON

A1 OFF ON ON

S2 O N OFF ON
S1 OFF OFF ON

BONONOFF

COFFONOFF
E2 ON OFF OFF
A2 OFF OFF OFF

Pause time (sec) (1)

Logic

A1 A2 S2 S1 SW4 SW5

515ONON
10 30 OFF ON
30 60 ON OFF

120 180 OFF OFF

Gate closure direction as viewed from inside SW8

To right ON
To left OFF

Pre-flashing (2) SW7

Yes ON
No OFF

Warning light operation (3)

Gate status

SW6

Closed

Opening/Open Closing
ON
OFF

Steady light

Flashing

Off

Steady light

(1) Pause times include pre-flashing.
(2) Pre-flashing commences 5 seconds before the start of each

movement.

(3) Warning light connected between 8 and 9 (if connected

between 8 and 10, operation is inverted).

Fig. 24

9

(1) The A/C input enables partial opening.
(2) With pre-flashing selected movement starts after 5

seconds.
(3) If the impulse is sent after pre-flashing the timer recounts.
(4) For operation in C logic keep the pushbutton depressed.

Movement stops upon release.
(5) The A/C input controls closure.

5.5. PROGRAMMING LIMIT SWITCHES

IMPORTANT: CHECK THE LENGTH OF THE GATE. THE

OPERATOR HAS A LIMIT SWITCH SYSTEM WHICH ALLOWS
FOR AUTOMATION OF GATES WITH A MAXIMUM LENGTH OF
13 m FOR MODELS 820 (Z 20 PINION) AND 10 m FOR
MODELS 860 (Z 16 PINION).

FAILURE TO OBSERVE THESE RECOMMENDATIONS WILL
ADVERSELY AFFECT OPERATION OF THE ADL LIMIT SWITCH.

1) To facilitate installation, it is advisable to program the

control unit in E1 logic (semi-automatic) by positioning

the relative dipswitches as follows:

SW1 - SW2 - SW3 to ON.

It is also advisable to inhibit pre-flashing by positioning
dipswitch SW7 to OFF.

7) Without moving the gate carry out the following
operations on the 826 MPS control unit (Fig. 27) in the
stated order:

a) hold down FCA.
b) press the RESET button for about 1 second. The ADL

LED will light up for approximately one second to
confirm that the limit switch has been recognised.

c) release the FCA button.

GATE STATUS

CLOSED

OPEN
CLOSING
OPENING

STOPPED

LOGIC C IMPULSES

OPEN (4)

opens
no effect
no effect

completes opening

A/C (4 and 5)

no effect

closes

no effect

completes closing

SAFETY (until

disengagement)

no effect

inhibits closing

stops

no effect

inhibits closing

STOP

no effect
no effect

stops
stops

no effect

TABLE 12 LOGIC C (DEADMAN)

2) Position dipswitch SW8 according to the direction in
which the gate closes (see Fig. 25) (Rack application).

IMPORTANT: In chain applications the dipswitch SW8 must
be positioned to ON for closure to left and OFF for closure
to right.

The positions of dipswitches SW4, SW5 and SW6 have no
effect.

3) Move the gate manually to its mid-travel position.

4) Switch on the electricity supply to the system and
check that the status of the LEDs is as follows:

LED ON LED OFF

ADL - FCA - FCC OPEN - A/C -

S (860) - STOP - FSW S (820)

IMPORTANT: MAKE SURE THAT THE GATE IS AT ITS MID­TRAVEL POSITION.

5) Remove the safety tab as illustrated in Fig. 26 and keep
it for future maintenance work.

6) Open the gate until it is just a few centimetres away
from the open position end stop.

Fig. 26

Fig. 25

SW8 OFF

SW8 ON

8) Wait for a few seconds, then slide the gate manually
until it is a few centimetres from the closed position end
stop.

9) Without moving the gate carry out the following
operations on the 826 MPS control unit (fig. 27) in the
stated order:
a) hold down FCC.
b) press the RESET button for about 1 second. The ADL

LED will light up for approximately one second to
confirm that the limit switch has been recognised.

c) release the FCC button.

10)Re-engage the operator by sliding the gate until the
release device engages.

11)Send an open impulse and check that the gate opens,
performs a brief deceleration, then stops at the
programmed open position limit switch.

12)Send another impulse and check that the gate closes.

13)To modify limit switch settings, repeat the sequence of
operations from point 3) to point 12).

IMPORTANT: If the LED starts flashing quickly (0.25 s) during
the limit switch setting operations, follow the instructions
given in the ALARM CONDITIONS section.

N.B.: Any interruption in the power supply will not affect
memorisation of the limit switch positions.

If during a manual operation the gate is moved beyond
the memorised limit switch positions, a series of open
impulses must be sent to move the gear motor to the zone
of normal operation.

FCA

FCC

RESET

Fig. 27

10

NUMBERED KEY RELEASE CAP (Fig. 30).

- Open the lock protection flap.

- Insert the key into the lock and turn.

- Turn the release cap anticlockwise.

- Perform the gate opening or closing operation manually.

- Turn the release cap anticlockwise.

7. RETURN TO NORMAL OPERATION

To prevent an accidental impulse from activating the
gate during the operation, turn off the electricity supply to
the system before relocking the operator.

LEVER RELEASE DEVICE (Fig. 29)

- Insert the lever provided into the triangular slot release
device and turn anticlockwise by about half a revolution.

- Refit the release device rubber cap

- Move the gate until the release device engages.

NUMBERED KEY RELEASE CAP (Fig. 30).

- Open the lock protection flap.

- Insert the key into the lock and turn.

- Turn the release cap anti-clockwise.

- Move the gate until the release device engages.

8. MAINTENANCE

When performing maintenance always check that the
anti-crushing clutch is correctly regulated and that the
safety devices operate correctly.

8.1. TOPPING UP WITH OIL

Check the quantity of oil in the operator periodically.
For medium-low duty cycles an annual check is sufficient;
for more intense use it is advisable to check every 6
months.
The level must not fall below the reference notch on the
dipstick attached to the oil filler cap (Fig. 31).
To top up, unscrew the filler cap (Fig. 31) and pour in oil up
to the correct level. Use exclusively FAAC XD 220 oil.

9. REPAIRS

For repairs contact an authorised FAAC Repair Centre.

10. ACCESSORIES AVAILABLE

10.1 CORD-OPERATED MANUAL RELEASE

If the gear motor is installed in an inconvenient position, it
is advisable to use the accessory shown in Fig. 32 to
perform the release operation. Pulling on cord A releases
the system, whereas pulling on cord B relocks the gear
motor.
Important: When the automation is reset, move the gate
until the release device engages before sending a control
impulse.

5.6. OPERATION OF ADL LIMIT SWITCH

The ADL limit switch detects the number of pinion rotations
by means of a toothed belt transmission.
The operator is supplied with the drive in idle and the ADL
system positioned in the mid-travel position. Removing the
safety tab engages the transmission.

IMPORTANT: If the tab has already been removed by
mistake, thereby losing the centre-scale position of the
ADL, the following steps must be carried out to restore the
start condition:

1) Release the operator.

2) Slide the gate manually to the mid-travel position.

3) Remove the rack element so as to free the pinion.

4) Turn the pinion by hand clockwise or, if the pinion
becomes hard to turn, anticlockwise until the ADL
(centre scale) LED lights up continuously.

5.7. ALARM CONDITIONS

The ADL LED flashes in the following cases:

1) ADL system overrun.

2) Incorrect position of dipswitch SW8.

3) ADL connector removed.

4) Opening/closure time longer than 120 seconds.

The warning light (if connected) flashes at the same time
as the ADL LED.
While this condition is active all the control unit functions
are inhibited. It is possible to return to normal conditions
only after eliminating the cause of the alarm and pressing
the RESET button on the control unit.

N.B.: When the warning light flashes with the ADL LED off,
this means that fuse F2 has blown.

5.8. REGULATING THE TRANSMITTED TORQUE

To regulate the transmitted torque turn the screw on the
electric motor shaft (Fig. 11).
To increase the torque, turn the screw clockwise.
To reduce the torque, turn the screw anticlockwise.

IMPORTANT: THE OPERATOR IS DELIVERED WITH THE CLUTCH
SET TO MAXIMUM, SO THE SCREW MUST BE TURNED
ANTICLOCKWISE TO REACH THE OPTIMAL SETTING.

Activate the operator and stop the gate manually to
check that the clutch engages. Bear in mind that when
this is done with model 820 the electronic anti-crushing
device cuts in and stops the movement of the gate if it is
opening and reverses it if it is closing.
The electronic anti-crushing device activation threshold
depends on the setting of the mechanical clutch.

5.9 TESTING THE AUTOMATION

When installation is complete, affix the danger warning
label to the top of the casing (Fig. 28). Thoroughly check
operation of the automation and all connected
accessories.
Give the customer the User Guide. Explain correct use and
operation of the gear motor and draw attention to the
potential danger zones of the automation.

6. MANUAL OPERATION

If it is necessary to operate the gate manually due to a
power failure or malfunction of the automation, operate
on the release device as follows.

LEVER RELEASE DEVICE (Fig. 29)

- Remove the release device rubber cap.

- Insert the lever provided into the triangular slot release

system and turn clockwise by about half a revolution.

- Open or close the gate manually.

Fig. 28

11

Fig. 29

Fig. 30

1

2

AB

Fig. 32

Fig. 31

OIL

12

23

USER’S GUIDE

820 - 860 AUTOMATION

Read the instructions carefully before using the product
and keep them for future reference.

GENERAL SAFETY INSTRUCTIONS

If correctly installed and operated, the 820-860 automations
ensure a high level of safety.
However, some simple rules should be followed to avoid
accidents:

- Do not stand in the vicinity of the automation or allow
anyone else, especially children, to do so and do not
place objects in the vicinity of the automation. This is
particularly important during operation.

- Keep remote controls or any other control device out of
the reach of children to prevent them from accidentally
operating the automation.

- Do not allow children to play with the automation.

- Do not deliberately obstruct the movement of the gate.

- Make sure that branches or bushes do not interfere with
the movement of the gate.

- Keep the luminous signalling systems efficient and clearly
visible.

- Do not attempt to operate the gate manually without
first releasing it.

- In the event of a malfunction, release the gate to allow
access and call a qualified technician for service.

- After setting manual operation, disconnect the electricity
supply from the system before returning to normal
operation.

- Do not make any modifications to components belonging
to the automation system.

- Do not attempt to perform any repair work or tamper with
the automation. Call FAAC qualified personnel for repairs.

- At least once every six months have the automation, the
safety devices and the earth connection checked by a
qualified technician.

DESCRIPTION

The FAAC 820 - 860 automations are ideal for controlling
vehicle access areas with medium-high transit frequencies.
The 820 and 860 for sliding gates are electromechanical
operators which transmit movement to the leaf by means
of a pinion with rack or chain coupled in an appropriate
manner to the sliding gate.
If automatic operation has been selected, sending an
impulse causes the gate to reclose on its own after the
selected pause time.
If semiautomatic operation has been selected, a second
impulse must be sent to reclose the gate.
An opening impulse send while the gate is reclosing
causes it to change direction of movement.
A stop command (if available) stops movement at any time.
For detailed information on operation of the sliding gate
in the various operating modes, contact the installation
technician.
The automations have safety devices (photocells) which
prevent the gate from reclosing when an obstacle lies
within the area they are protecting.
The system ensures mechanical locking when the motor is
not in operation, so it is not necessary to install a lock.
For this reason the release system must be used for manual
opening.
The gear motors have mechanical/electronic clutches
which offer the necessary anti-crushing safety. An
electronic device allows the open/closed limit switch
positions to be programmed. The electronic control unit is
incorporated in the gear motors.

A convenient manual release device allows the gate to
be operated in the event of a power failure or malfunction.
The light flashes while the gate is moving.

MANUAL OPERATION

If the gate has to be operated manually due to a power
failure or malfunction of the automation, use the release
device as follows.

LEVER RELEASE DEVICE (Fig. 1)

- Remove the release device rubber cap.

- Insert the lever provided into the triangular slot release
system and turn clockwise by about 1/2 a revolution.

- Open or close the gate manually.

NUMBERED KEY RELEASE CAP (Fig. 2)

- Open the lock protection flap.

- Insert the key in the lock and turn.

- Turn the release cap clockwise.

- Open or close the gate manually.

RETURN TO NORMAL OPERATION

To prevent an accidental impulse from activating the
gate during the operation, turn off the electricity supply to
the system before relocking the operator.

LEVER RELEASE DEVICE (Fig. 1)

- Insert the lever provided into the triangular slot release
device and turn anticlockwise by about half a revolution.

- Refit the release device rubber cap.

- Move the gate until the release device engages.

NUMBERED KEY RELEASE CAP (Fig. 2).

- Open the lock protection flap.

- Insert the key into the lock and turn.

- Turn the release cap anti-clockwise.

- Move the gate until the release device engages.

1

2

Fig. 2

Fig. 1

FAAC (UK) Limited, 6 Hamilton Close
Houndmills Estate, Basingstoke, RG21 6YT
Telephone: 01256 318100
Fax: 01256 318101
Email: sales@faac.co.uk
Website: www.faac.co.uk

V5 01/07

Your authorised FAAC dealer

The descriptions and illustrations contained in this manual are not
binding. FAAC reserve the right, whilst leaving the main features of
the main equipment unaltered, to undertake any modifi cations it holds
necessary for either technical or commercial reasons, at any time and
without revising the present publication.

FAAC (UK) Limited, 6 Hamilton Close
Houndmills Estate, Basingstoke, RG21 6YT
Telephone: 01256 318100
Fax: 01256 318101
Email: sales@faac.co.uk
Website: www.faac.co.uk

V5 01/07

Your authorised FAAC dealer

The descriptions and illustrations contained in this manual are not
binding. FAAC reserve the right, whilst leaving the main features of
the main equipment unaltered, to undertake any modifi cations it holds
necessary for either technical or commercial reasons, at any time and
without revising the present publication.