FAAC B680H Manual
FAAC B680H keeps unauthorized vehicles out and authorized vehicles in. Designed to last, this barrier gate operator automates the opening and closing of gates and barriers, providing secure access control for commercial and residential properties. Easy to install and featuring a reversing mechanism for added safety, the FAAC B680H is the perfect solution for controlling access to parking lots, gated communities, and other restricted areas.
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B680H
FAAC International Inc.
Headquarter & East Coast Operations
3160 Murrell Road
Rockledge, FL 32955
Tel. 800 221 8278 www.faacusa.com
FAAC International Inc.
West Coast Operations
357 South Acacia Avenue
Fullerton, CA 92831
TABLE OF CONTENTS
B680H BARRIER GATE OPERATOR
1. TECHNICAL SPECIFICATIONS ............................................................................................................................................................6
2. ELECTRICAL LAYOUT .........................................................................................................................................................................7
3. DIMENSIONS .........................................................................................................................................................................................7
4. INSTALLING THE OPERATOR..............................................................................................................................................................7
4.1 Preliminary checks .......................................................................................................................................................................7
4.2 Install the foundation plate ..........................................................................................................................................................7
4.3 Mechanical installation ................................................................................................................................................................7
4.5 Balancing the Beam ....................................................................................................................................................................12
5. MANUAL OPERATION ........................................................................................................................................................................12
5.1 Restore normal operations ........................................................................................................................................................12
6. POWER CONNECTION .......................................................................................................................................................................12
7. FIELD INSTALL LABELS ....................................................................................................................................................................13
8. REVERSING THE OPENING DIRECTION ..........................................................................................................................................13
9. MAINTENANCE ...................................................................................................................................................................................13
8.1 Topping up the oil .......................................................................................................................................................................13
8.2 Air bleeding .................................................................................................................................................................................13
10. INSTALL THE BEAM LIGHTS ...........................................................................................................................................................14
11. INSTALL THE COVER .......................................................................................................................................................................15
12. SPARE PARTS ...................................................................................................................................................................................16
E680 CONTROL BOARD
1. WARNINGS ..........................................................................................................................................................................................18
2. DESCRIPTION OF THE COMPONENTS ............................................................................................................................................18
3. TECHNICAL SPECIFICATIONS ..........................................................................................................................................................18
4. ELECTRICAL CONNECTIONS ............................................................................................................................................................19
4.1 Terminal board J1 (inputs) .........................................................................................................................................................19
4.2 Terminal board J2 (outputs).......................................................................................................................................................20
4.3 Terminal board J3 (external flashing lamp) .............................................................................................................................20
4.4 Terminal board J4 (loop detector) ............................................................................................................................................20
4.5 Connector J5 (Motor)..................................................................................................................................................................20
4.6 Connector J7 (Encoder) .............................................................................................................................................................20
4.7 Connector J10 (Radio) ................................................................................................................................................................20
4.8 Connector J11 (Beam break-out sensor) .................................................................................................................................20
4.9 Connector J12 (Emergency battery) .........................................................................................................................................20
4.10 Connector J13 (36VDC Power Supply) ...................................................................................................................................20
4.11 Connector J15 (flashing traffic light) ......................................................................................................................................20
4.12 Connector J16 (beam lights) ....................................................................................................................................................21
5. PROGRAMMING ..................................................................................................................................................................................21
5.1 Basic configuration .....................................................................................................................................................................21
5.2 Changing the predefined parameters set ................................................................................................................................22
5.3 Default Selection Tables ............................................................................................................................................................23
6. Advanced Configuration ....................................................................................................................................................................24
6.1 Configuring the loop detector ...................................................................................................................................................25
6.2 Expert Configuration ..................................................................................................................................................................26
6.3 Pre-Defined Parameter Sets ......................................................................................................................................................29
6.4 “Expert” default parameters .....................................................................................................................................................30
7. START-UP .............................................................................................................................................................................................30
7.1 Verifying the diagnostic LEDs ...................................................................................................................................................30
7.2 Setup .............................................................................................................................................................................................30
8. TESTING THE AUTOMATED SYSTEM ...............................................................................................................................................30
9. MASTER/SLAVE CONFIGURATION ...................................................................................................................................................31
10. INTERLOCK .......................................................................................................................................................................................32
11. OPERATING LOGICS TABLE ............................................................................................................................................................33
B680H Rev. A October 2016
2
IMPORTANT SAFETY INFORMATION
Important Safety Instructions
WARNING - TO REDUCE THE RISK OF SEVERE
INJURY OR DEATH:
• READ AND FOLLOW ALL INSTRUCTIONS.
• Never let children operate or play with the gate controls. Keep remote controls away from children.
• Always keep people and objects away from the gate. NO ONE SHOULD CROSS THE PATH OF A
MOVING GATE.
• Test the gate operator monthly. The gate MUST reverse on contact with a rigid object or when an object activates a non-contact sensor. If necessary, adjust the force or the limit of travel and then retest the gate operator. Failure to properly adjust and retest the gate operator can increase the risk of injury or death.
• Use the manual release mechanism only when the gate is not moving.
• KEEP GATE PROPERLY MAINTAINED. Have a qualified service person make repairs to gate hardware.
• The entrance is for vehicles only. Pedestrians must use a separate entrance.
• SAVE THESE INSTRUCTIONS.
Important Installation Instructions
1. Install the gate operator only when the following conditions have been met:
• The operator is appropriate for the type and usage class of the gate.
• All openings of a horizontal slide gate have been guarded or screened from the bottom of the gate to a minimum of 4 feet (1.25 m) above the ground to prevent a 2.25 inch (55 mm) diameter sphere from passing through openings anywhere in the gate or through that portion of the adjacent fence that the gate covers when in the open position.
• All exposed pinch points are eliminated or guarded.
• Guarding is supplied for exposed rollers.
2. The operator is intended for installation on gates used by vehicles only. Pedestrians must be provided with a separate access opening.
3. To reduce the risk of entrapment when opening and closing, the gate must be installed in a location that allows adequate clearance between the gate and adjacent structures. Swinging gates shall not open outward into public access areas.
4. Before installing the gate operator, ensure that the gate has been properly installed and that it swings freely in both directions. Do not over-tighten the operator clutch or pressure relief valve to compensate for a damaged gate.
5. User controls must be installed at least 6 feet (1.83 m) away from any moving part of the gate and located where the user is prevented from reaching over, under, around or through the gate to operate the controls.
Controls located outdoors or those that are easily accessible shall have security features to prevent unauthorized use.
6. The Stop and/or Reset buttons must be located within line-of-sight of the gate. Activation of the reset control shall not cause the operator to start.
7. All warning signs and placards must be installed and easily seen within visible proximity of the gate. A minimum of one warning sign shall be installed on each side of the gate.
8. For gate operators that utilize a non-contact sensor
(photo beam or the like):
• See instructions on the placement of non-contact sensors for each type of application.
• Exercise care to reduce the risk of nuisance tripping, such as when a vehicle trips the sensor while the gate is still moving.
• Locate one or more non-contact sensors where the risk of entrapment or obstruction exists, such as at the reachable perimeter of a moving gate or barrier.
• Use only FAAC “Photobeam” photoelectric eyes to comply with UL325.
3
Important Installation Instructions (continued)
9. For gate operators that utilize a contact sensor (edge sensor or similar):
• Locate one or more contact sensors where the risk of entrapment or obstruction exists, such as at the leading edge, trailing edge, and post mounted both inside and outside of a vehicular horizontal slide gate
• Locate one or more contact sensors at the bottom edge of a vehicular vertical lift gate.
• Locate one or more contact sensors at the bottom edge of a vertical barrier (arm).
• Locate one or more contact sensors at the pinch point of a vehicular vertical pivot gate.
• Locate hard-wired contact sensors and wiring so that communication between sensor and gate operator is not subjected to mechanical damage.
• Locate wireless contact sensors, such as those that transmit radio frequency (RF) signals, where the transmission of signals are not obstructed or impeded by building structures, natural landscaping or similar hindrances. Wireless contact sensors shall function under their intended end-use conditions.
• Use only FAAC CN60E edge sensor.
General Safety Precautions
Gate Construction
Vehicular gates should be constructed and installed in accordance with ASTM F2200: Standard Specifica tion for Automated Vehicular Gate Construction.
For more information, contact ASTM at: www.astm.org
Installation
• If you have any questions or concerns regarding the safety of the gate operating system, do not install the operator and consult the manufacturer.
• The condition of the gate structure itself directly affects the reliability and safety of the gate operator.
• Only qualified personnel should install this equipment.
Failure to meet this requirement could cause severe injury and/or death, for which the manufacturer cannot be held responsible.
• The installer must provide a main power switch that meets all applicable safety regulations.
• It is extremely unsafe to compensate for a damaged gate by increasing hydraulic pressure.
• Install devices such as reversing edges and photo beams to provide better protection for personal property and pedestrians. Install reversing devices that are appropriate to the gate design and application.
• Before applying electrical power, ensure that voltage requirements of the equipment correspond to the supply voltage. Refer to the label on your gate operator system.
Usage
• Use this equipment only in the capacity for which it was designed. Any use other than that stated should be considered improper and therefore dangerous.
• The manufacturer cannot be held responsible for damage caused by improper, erroneous or unreasonable use.
• If a gate system component malfunctions, disconnect the main power before attempting to repair it.
• Do not impede the movement of the gate, you may injure yourself or damage the gate system as a result.
• This equipment may reach high thermal temperatures during normal operation, therefore use caution when touching the external housing of the gate operator.
• Use the manual release mechanism according to the procedures presented in this manual.
• Before performing any cleaning or maintenance operations, disconnect power to the equipment.
• All cleaning, maintenance or repair work must performed by qualified personnel.
4
UL325 Gate Operator Classifications
RESIDENTIAL VEHICULAR GATE OPERATOR CLASS I
A vehicular gate operator system intended for use in a single family dwelling, garage or associated parking area.
COMMERCIAL / GENERAL ACCESS VEHICULAR GATE OPERATOR CLASS II
A vehicular gate operator system intended for use in commercial locations or buildings such as multi-family housing units (five or more single family units), hotels, parking garages, retail stores or other buildings that service the general public.
INDUSTRIAL / LIMITED ACCESS VEHICULAR GATE OPERATOR CLASS III
A vehicular gate operator system intended for use in industrial locations or buildings such as factories, loading docks or other locations not intended to service the general public.
RESTRICTED ACCESS VEHICULAR GATE OPERATOR CLASS IV
A vehicular gate operator system intended for use in guarded industrial locations or buildings such as airport security areas or other restricted access locations that do not service the general public, and in which unauthorized access is prevented via supervision by security personnel.
5
B680H BARRIER GATE OPERATOR
The B680H barrier gate operator system consists of a white aluminium beam with reflectors and optional lights, a steel upright profile and a metal cover. The operator is mounted on the upright profile and it's made with a hydraulic unit and two plunging pistons connected to it, which, by means of a rocker arm, rotate the beam.
The beam weight is balanced with a spring fitted on one of the two plunging pistons. The electronic control equipment is also housed on the upright profile, inside a transparent plastic compartment,
The whole operator is protected by the external metal cover.
The system features an adjustable electronic anti-crushing safety, a device that guarantees stopping and locking of the beam in any position, and a convenient manual release for use in case of power outage or malfunction.
p o n m
1. TECHNICAL SPECIFICATIONS
N L1 l
Power supply
Electric Motor
Absorbed power
Absorbed current
Motor rotation speed
Pump capacity
Yielded torque
Oil type
Oil quantity
Anti-crushing System
Deceleration type
Operating ambient temperature
Rated Operating Time (ROT)
Surface protection treatment
Beam type
Protection Class
Weight (body + cover)
Opening and closing times including deceleration
100-240 Vac / 50-60Hz
36Vdc Brushless
240W
1.1A at 230 Vac
1000-6000 rpm
3,2 l/min (max)
0-273 lbf.ft (0-370 Nm)
FAAC HP OIL
1.27 Qt (1.2 Lt)
Electronic with absolute encoder
Electronic with absolute encoder
-4 °F +131 °F (-20 °C +55 °C)
Continuous Duty at 131 °F (55 °C)
EP SL LF PRIMER
Rounded with lights and rubber bumper
IP56
143+44 lb (65+20 Kg)
1.5 s - 7.5 ft (2.3m) beam
6.0 s - 27 ft (8.3m) beam k j i a h
Fig. 1 References a Built-in flashing lamp b Electronic control board c Oil filling cap d
Right piston bleeder screw e Hydraulic unit f Right plunging piston g Built in heatsink h Right feed tube
Fig. 2 References a Support structure b Mechanical stops c Rocker arm d
Drive shaft i Left feed tube j Release lock k Left plunging piston l
Left piston bleeder screw m Cover n Encoder o Power Switch p Switching power supply e Mounting plate f Spring guide g Balance spring h
Preload adjustment ring nut g f
6 c d e a b c f g d e h
Fig. 1 b
Fig. 2
2. ELECTRICAL LAYOUT
Following the instructions shown in Fig. 3, prepare the conduits to make all the control board electrical connections with the chosen accessories.
Always separate the AC power cables from the control and safety cables (button, receiver, photocells, etc.).
2
5
5
100-240Vac
2
1
3
4
• If the barrier body is exposed to vehicle transit, provide for adequate protection against accidental impact, when possible.
• Ensure that there is an availabe and good earth ground connection.
Position the foundation plate so as to allow easy access to the barrier door. The foundation pad must be installed keeping in mind the characteristics of the ground to ensure perfect stability of the operator.
4.2 Install the foundation plate
• Assemble the foundation plate as shown in Fig. 5 ref. a
• Build a concrete pad as shown in Fig. 5 ref. b
• Set the foundation plate as shown in Fig. 5 ref. b providing for one or more conduits for the passage of the electrical cables.
For dimensional reasons, the cable conduits must be placed on one side of the space provided at the base of the barrier (see Fig. 5).
• Use a level to ensure that the plate is perfectly horizontal.
• Wait for the concrete to cure.
a a B680H Barrier Operator b Photocells c Key activation d Radio receiver e Magnetic Loops
Fig. 3
3. DIMENSIONS
For barrier dimensions, refer to Fig. 4. The cover size is the same for both models, while the beam dimensions differ as shown in detail at a (bar S) and b (bar L)
Fig. 4
18 1/2
11
3.5
25.5
18.5
11.5
= =
5.4
11
17.75
17
1/8 a
2.95 in b
Dimensions in inches
3.35 in
Fig. 4
4. INSTALLING THE OPERATOR
4.1 Preliminary checks
For the safety and correct operation, make sure that the following conditions are met:
• When in motion, the beam must not encounter obstacles or power cables.
• The characteristics of the ground must guarantee sufficient solidity of the concrete foundation.
• No pipes or electrical cables should be present in the foundation digging area.
7 b
Dimensions in inches
Fig. 5
4.3 Mechanical installation
• Fix the upright profile on the foundation plate using the four provided nuts (Fig. 6). Remember that the hydraulic unit must usually face the inside of the property, unless a breakway bracket is used. In that case install the barrier so that the breakaway follows the direction of traffic.
Fig. 6
a b c
View from inside of the propery Fig. 7
• Set the operator in manual mode, as shown in paragraph
5 - Manual Operation.
• Remove and set aside the vent screw, as shown in Fig.
8 ref. b .
Fig. 8 a b
• Set the rocker arm horizontally, then remove, as shown in
Fig. 9 ref. a , the upper bolt of the piston on the beam side and insert the spring guide and balance spring on it, as shown in Fig. 10 ref. b
, followed by the tension adjustment ring nut, paying attention to the direction it must be inserted in (see Fig. 10 ref. a ).
a
Fig. 10
• Identify, as described in Table 1 / Table 2 on the following page, the correct fastening hole for the piston, then reinsert the bolt and tighten the nut.
• Fasten the piston on the opposite side in the same manner
NOTE: With the barrier open, the spring must NOT be compressed.
a b c d e f
Fig. 9
8
Fig. 11
The following two tables indicate the fixing position of the pistons on the rocker arm in relation to the length of the beam and the presence of accessories secured to it, if any.
Table 1 refers to the balance spring for “S” beams ( Fig. 4 ref. a ) with lengths equal to or shorter than 17.4 ft (5.3m)
Table 2 refers to the balance spring for “L” beams ( Fig. 4 ref. b ) with lengths equal to or longer than 17.4 ft (5. m)
Figure 11 contains the key for identifying the fixing holes based on the number indicated in the tables.
Table 1 - S BEAMS
Beam length
Installed accessories
No accessories
Lights
Lights / Skirt
Lights / Foot / Skirt
Lights / Foot
Foot
Skirt
Skirt / Foot
7.5 ft
(2.3 m)
1
1
1
2
2
1
1
2
9.2 ft
(2.8m)
2
2
2
3
3
2
2
3
10.8 ft
(3.3 m)
3
3
4
4
3
3
3
4
12.5 ft
(3.8m)
4
4
5
6
5
5
4
5
14 ft
(4.3m)
4
4
6
6
6
6
6
6
14.8 ft
(4.5m)
6
6
6
6
6
6
6
6
17.4 ft
(5.3m)
6
6
Table 2 - L BEAMS
Beam length
Installed accessories
No accessories
Lights
Lights / Skirt
Lights / Foot / Skirt
Lights / Foot
Foot
Skirt
Skirt / Foot
19 ft
(5.8m)
4
3
3
3
3
3
3
3
17.4 ft
(5.3 m)
3
2
2
2
3
2
2
2
22.3 ft
(6.8m)
5
4
4
4
4
4
4
4
20.5 ft
(6.3m)
4
4
4
4
4
3
3
4
23.8 ft
(7.3m)
6
5
4
5
5
4
4
5
25.5 ft
(7.8m)
4
5
6
6
5
6
27 ft
(8.3m)
5
6
6
6
9
• Install the beam bracket and the beam as shown in the sequence in Fig. 12 from a to h using the supplied screws.
(the rubber profile of the beam must face down)
NOTE: Do not grease the bolt holding the beam.
b c c a d e
L g f
10 h
Fig. 12
• If the application requires a sectional beam, prepare the joint as shown in Fig. 13 and follow the steps shown in Fig
14 from a to d to add the additional section a b
Fig. 13 a b c
11 d
Fig. 14
• Manually release the unit and take the arm to the open and close positions
• Adjust the opening and closing mechanical stops as shown in Fig. 15, and tighten the lock nut.
Fig. 15
1
2
Fig. 17
4.4 Balancing the Beam
WARNING: This procedure is mandatory as the barrier is not balanced at the factory. The beam is balanced when, with the operator released, (ref. par. 5) the beam remains stationary in the 45° position.
5.1 RESTORING NORMAL OPERATION
To avoid an accidental opening the barrier during this operation turn the power off before using the locking system.
To balance the beam, proceed as follows:
• Install the beam and all related accessories on the barrier structure, as required by the final configuration of the system.
• Make sure that the operator is released.
• Manually move the beam to the 45° position and verify that it remains stationary. If the beam tends to open, turn the spring preload ring nut anti-clockwise (Fig. 16 ref. a ); if it tends to close, turn the ring nut clockwise (Fig. 16 ref. b ).
• Adjustements are easily made with the beam in the open position
To restore normal operation turn the key clockwise until it stops and then remove it
(Fig. 17 ref. a ) standart triangular key
(Fig. 17 ref. b ) optional metal key a b
6. POWER CONNECTION
AC POWER GUIDELINES:
The B680H uses a single phase AC power line to operate, charge the optional batteries, and power gate accessories. Use the following guidelines when installing the AC power:
1. Check the local wiring codes in all cases and follow all local building codes. Wiring and hookup should be performed by a qualified electrician/installer only.
2. AC power should be supplied from a circuit breaker panel and must have its own dedicated circuit breaker. This supply must include a green ground conductor.
3. Use copper conductor wires with liquid tight flexible conduit UL listed for electric cable protection
4. Properly ground the operator to minimize or prevent damage from power surges and/or lightning. Use a grounding rod if necessary. A surge suppressor is recommended for additional protection.
Fig. 16
5. MANUAL OPERATION
Should manual operation of the barrier be required due to power outage or malfunction, the manual release device can be operated with the supplied key. The key is either triangular (Fig. 17 ref. a ) or customised (Fig. 17 ref. b optional).
• Insert the key in the lock and turn it counter clockwise until it clicks into place, as shown in Fig. 17
• Open or close the beam manually.
With the beam released, the motor may start for approximately 3 seconds. This is normal and determined by the parameter Hold Close / Hold Open
AC POWER CONNECTION
To connect AC power to the controller:
1. Turn OFF the circuit breaker for the AC gate operator power before connecting the AC input wires.
2. Turn OFF the Power Switch in the B680H before connecting the AC input wires.
3. Connect the AC input wires to the power switch in the B680H
See the Fig. 18 for the connections.
4. Connect Ground to the dedicated terminal as shon in the Fig. 18
12
N L1
100-240 Vac 50/60Hz 280W
Use copper conductor wires
14 AWG, 600V, 80°C
Terminal Block max Torque 0.6 Nm
100-240 Vac 50/60Hz 280W
Utilisez des câbles conducteurs en cuivre
14 AWG, 600V, 80°C
Terminal Block Couple Max 0.6 Nm
7. FIELD INSTALLED LABELS
Apply the following supplied field install labels:
WARNING
HAZARDOUS VOLTAGE.
Disconnect power before servicing.
ATTENTION
VOLTAGE DANGEREUSE.
Débrancher l’alimentation avant l’entretien.
WARNING ATTENTION
Moving gate can cause
Serious Injury or Death
KEEP CLEAR! Gate may move at any time without prior warning.
or play in the gate area.
This entrance is for vehicles only.
Une barrière en mouvement peut causer des blessures graves ou de mortalité
RESTEZ À L’ ÈCARTE ! La barrière peut bouger á tout moment et sans avertissement. Ne laissez pas les enfants utiliser la barrière ou jouer dans la région de la barrière. L’entrée est pour véhicules seulement. Les piétons doivent utiliser un entrée séparée.
WARNING
WARNING
Disconnect power before servicing.
ATTENTION
VOLTAGE DANGEREUSE. avant l’entretien.
Moving gate can cause
Serious Injury or Death
KEEP CLEAR! Gate may move at any time without prior warning.
Do not let children operate the gate or play in the gate area.
This entrance is for vehicles only.
Pedestrians must use separate entrance.
Une barrière en mouvement peut causer des blessures graves ou de mortalité
RESTEZ À L’ ÈCARTE ! La barrière peut bouger á tout moment et sans avertissement. Ne laissez pas les enfants utiliser la barrière ou jouer dans la région de la barrière. L’entrée est pour véhicules seulement. Les piétons doivent utiliser un entrée séparée.
LINE
NEUTRAL
GROUND
ATTENTION
Fig. 18
13
8. REVERSING THE OPENING DIRECTION
The opening direction of the barrier is determined by the location of the spring, the spring guide and the preload adjustment ring.
The spring must be compressed during the closing movement
(see Fig. 7). Should it be necessary to change the opening direction, proceed as follows:
• Release the operator, place the beam in vertical position, then lock the operator again.
• Remove the beam referencing Fig. 12
• Loosen the pre-load nut ring if there is any pressure on it, so there is no spring tension against the pre-load nut before you remove the piston.
• Remove the bolt securing the plunging piston to the rocker arm, as shown in Fig. 9.
• Remove the pre-load ring nut, then remove the balancing spring and spring guide, reversing the order described in
Fig. 10.
• Reattach the piston in the correct hole on the rocker arm
• Release the operator, turn the rocker arm 90°
• Remove the bolt holding the piston on the opposite side and re-insert, in order, the spring guide, the balancing spring and the the ring nut in the piston installed on the new closing side, according to the order described in Fig. 10. Once this is done, reattach the piston on the rocker arm.
• Reinstall the beam following the instructions in Fig. 12.
• Balance the system once again following the procedure described in par. 4.4.
• Relock the operator following the instructions in par. 5
• Reverse the motor cable connection as shown below
L1 L3
L2
L3
M
L2
L1
M
9. MAINTENANCE
When performing periodic maintenance, always check for correct balancing of the system and correct operation of the safety devices.
9.1 Topping up the oil
Check the amount of oil in the tank every 6 months. The level must be between the two notches on the inspection stick.
To top up, unscrew the filler cap (Fig. 8 ref. a ) and pour oil up to the indicated level. Use only FAAC HP OIL.
9.2 Air bleeding
FAAC products are delivered already bled of any air in the hydraulic circuit. Maintenance operations, replacing spare parts
(e.g. hydraulic hoses) or careless transport can cause entry of air in the hydraulic circuit, which in turn can cause irregular movement of the operator or reduced torque. Should the beam movement be irregular, release the air from the hydraulic system following the instructions below:
• Electrically operate the beam:
• When opening is completed, slightly loosen and tighten the bleeder screw of the piston with the balance spring (Fig. 1 ref. d ).
• When closing is completed, slightly loosen and tighten the bleeder screw of the piston without the balance spring (Fig.
1 ref. l ).
If necessary, repeat the operation until regular movement of the beam is obtained.
Care needs to be taken at this stage as the pistons contain oil under pressure which could leak out if the screws are loosened too much.
If the parameters
FO and
FC in Advanced Configuration have been changed and set to a value lower than default, we recommend setting them to an equal or greater value during bleeding, to facilitate the operation.
10. INSTALL THE BEAM LIGHTS
Installation of an LED bar light kit increases visibility of the bar.
Proceed to install following the instructions contained in Fig. 19 and securing the connection cable according to the path shown, using the holes to secure it with tie-wraps.
Connect the kit to J16 on the electronic board and configure it according to the available modes (refer to Par 4.12 in the control board section)
NOTE: Make sure the two connector make good contact with the conductors inside the cord. Should the bar lights still not turn on, reverse the connection polarity.
a b c
Fig. 19 d e
14
11. INSTALL THE COVER
To install the protective cover on the operator follow the steps shown in Fig. 20.
a c d e b
Fig. 20
15 f
12. SPARE PARTS
1
3
4
9
8
13
14
15
16
17
18
07
08
09
10
11
12
Part
01
02
03
04
05
06
8
2
6
3
1
5
16
19
17
5
15
7
18
9
19
11
20
13
20 20 13
12
12
Part Number
63000108
63000118
63000137
63000132
63000131
63000138
63000111
63000109
63000133
63000129
63000113
7110115
63000112
63000117
63000128
-
63000119
63000139
Description
Bearing
Splined Shaft Kit
Lever Bearing Spacer
Rocker Arm
Positive Stops
Encoder Magnetic Sensor
Encoder
Fork With Ball Joint Group
Cylinder
Hydraulic Unit
Female Connector Kit
Eye Bolt
Hydraulic Hoses
Manual Release Group
Electronic Control Board
Power Switch
B680 Power Supply Group
E680 Control Board Box Cover
10
14
21
OIL
16
1 2 3 4 6 7 8 3 9 10
6 5 6
11
Part
01
02
03
04
05
06
07
08
09
10
11
Part Number
63000162
7090010015
63000154
63000696
703101
63000123
63000122
63000159
63000124
7112065
63000158
Description
Distribution Flange Group
O-ring 4.48 X 1.78
Hydraulic Unit Gasket
1,5 L/Min Pump
Lock Washer
Motor/Pump Interface Flange
Brushless Motor Group
Hydraulic Tank
Tank Cover
Oil Level Plug With Level Indicator
Hydraulic Unit Tie Rod
17
Fig. 21
J11
DL1 DL2
J6
1 2
M2 M1A
M1
DL15
ENCODER
J7
J1
OPEN CLOSE
FSW STOP
J10
J14
+ -
J2
DISP1
E680 CONTROL BOARD
1. WARNINGS
Warning - Before carrying out any work on the control board
(connections, maintenance, etc.) always:
• cut off the electrical power;
• install a differential magnetothermic switch with a suitable activation threshold upstream from the system;
• always separate the power cables from the control and safety cables (button, receiver, photocells, etc.);
• avoid any electrical disturbance using separate sheaths or a shielded cable (with the shield connected to the earth).
SW4 SW5
F
SW1 SW2 SW3
J3
3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23
M
POWER
J13
BATTERY
J15
J5
MOTOR
J16
2 2
J4
J12
OUT5
OUT6 a
2. DESCRIPTION OF THE COMPONENTS
DL5
DL6
DL7
DL8
DL9
DL10
DL11
DL12
DL13
DL14
DISP1
DL1
DL2
DL3
DL4
J1
J2
J3
J4
J5
DL15
DL16
DL17
DL18
J6
J7
J10
J11
J12
J13
J14
J15
J16
SW1
SW2
SW3
SW4 /SW5
M1/M1A/M2
Signalling/Programming display
BUS Device status
BUS status (see paragraph 5.3)
LOOP 1 status
LOOP 2 status
Board failure signal
Not used
Encoder status
Not used
Board power supply present
OPEN input status LED
CLOSE input status LED
FSW input status LED
STOP input status LED
EMR input status LED
Released bar signal
Battery power signal
Radio channel 1 activity
Radio channel 2 activity
Input signal connector
Digital output connector
Signalling lamp connector
Detection loop connector
Motor connector
BUS 2Easy connector
Beam movement encoder connector
Connector for radio board
Released bar detection connector
Emergency battery connector
Continuous power voltage connector
USB connector for firmware upgrade
Integrated flashing traffic light connector
Beam Lights Connector
Programming key “F”
Programming key “+”
Programming key “-”
LOOP 1 / LOOP 2 calibration button
Optional module connector (Connectivity):
3. TECHNICAL SPECIFICATIONS
Mains power voltage
Continuous power voltage
Absorbed power
Accessories power supply
Max accessories current
Operating ambient temperature
Protection fuses
Pause time
100-240 V~ +6% -10% connected to switching power supply
36 V "
240W
24 V "
800 mA
-4 °F +131 °F (-20 °C +55 °C)
4 self-restoring
Programmable
(from 0 seconds to 4.1 minutes)
Work time
Motor power
Motor speed
Programmability
Rapid connector
Programmable outputs
Specifications
Programmable (from 0 to 4 minutes)
Programmable on 50 levels
Programmable on 10 levels
3 configuration levels for greater flexibility of use
1 5-pin connector for radio board
4 programmable outputs in 19 different functions
Deceleration management, encoder, multi-function display, BUS technology and built-in loop detectors
18
4. ELECTRICAL CONNECTIONS
Released beam
Integrated flashing traffic light
Fig. 22
GND
OUT5
OUT6
Encoder
OUT4
2Easy
1 2
FSW ST ALARM GND +24
Relais
NO COM
LAMP
LOOP
1 2
3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27
BUS
To connect the photocells and safety devices, refer to paragraph 4.1.1
LOOP 1 LOOP 2
4.1 Terminal board J1 (inputs)
OPEN - Open” command (N.O. - terminal 3): means any pulse generator (e.g. button) which, by closing a contact, commands opening and/or closing of the barrier.
CLOSE - Close” command (N.O. - terminal 4): means any pulse generator (e.g. button) which, by closing a contact, commands closing of the barrier.
FSW - Safety contact when closing (N.C. - terminal 5): the purpose of the closing safeties is to protect the area affected by the movement of the barrier during the closing phase, reversing its motion. They never trip during the opening cycle .
The closing Safeties, if engaged when the automated system is open, prevent the closing movement.
If CLOSE safety devices are not connected, jumper terminals FSW and GND (Fig. 26) and leave the FAILSAFE function (parameter o1
in Advanced Configuration) set on the default value (disabled)
STP - STOP contact (N.C. - terminal 6): means any device (e.g. button) which, by opening a contact, can stop movement of the automated system.
4.1.1 Connecting the safety devices
The E680 control board features an input for closing safety devices , which trip during closing of the automated system, provided to protect the gate area from the risk of impact.
These devices must use a signal with “N.C.” contact, and must be connected in series to the relay photocells that may be installed on the system, as shown in Fig. 23 to Fig. 26.
Fig. 23: connection of one pair of closing photocells, with FAILSAFE safety enabled: in addition to making the connection as shown in the diagram, it is necessary to set in Advanced o1
=
00
Fig. 24: connection of one pair of closing photocells without
FAILSAFE safety
Relais
Fig.25: connection of two pairs of closing photocells without
FAILSAFE safety
Fig. 26: connection of no safety device
If STOP safety devices are not connected, jumper terminals STOP and GND (Fig. 26)
EMR - Emergency contact (N.C. - terminal 7): means any device
(e.g. switch) which, if activated in a situation of emergency, will open the barrier until the contact is restored. When activated, this input has priority over any other command.
If emergency safety devices are not connected, jumper terminals ALM and GND (Fig. 26)
GND (terminals 8-9) - Accessories power supply minus
+24 (terminals 10-11) - Accessories power supply plus
The maximum load of the accessories is 800mA. To calculate absorption, refer to the instructions included with the individual accessories.
GND
+24
J1
SAFE
3
4
1
2
RX CL
5
GND +24
3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
TX CL
1
2
J2
+24
Fig. 23
19
GND
+24
J1
GND +24
3 4 5 6 7 8 9 10 11
SAFE
3
4
1
2
RX CL
5
TX CL
1
2
GND
+24
GND +24
J1
3 4 5 6 7 8 9 10 11
SAFE
3
4
1
2
RX CL
5
TX CL
1
2
GND
+24
1
2
TX CL RX CL
1
2
3
4
5
GND
+24
Fig. 24
GND
+24
4.3 Terminal board J3 (external flashing lamp)
LAMP: to these terminals you can connect a 24VDC FAACLED external flashing lamp. The integrated flashing traffic light must be connected independently to connector J15.
The 24V FAACLIGHT with incandescent lamp cannot be connected to the J3 connector
4.4 Terminal board J4 (loop detector)
LOOP 1: magnetic loop LOOP 1
(OPEN, terminals 24-25): for OPENING.
LOOP 2: magnetic loop LOOP 2
(SAFETY/CLOSE, terminals 26-27): for SAFETY/CLOSING.
4.5 Connector J5 (Motor)
Rapid connector for connecting the motor.
4.6 Connector J7 (Encoder)
The B680H barrier is equipped with a device for detecting the opening angle/bar position to ensure greater anti-crushing safety thanks to the possibility of reversing the direction of movement the moment in which an obstacle is detected. This device interfaces with the board through connector J7.
4.7 Connector J10 (Radio)
Used for the rapid connection of the RP / RP2 Receivers. If a
2-channel receiver is used, like the RP2, it will be possible to directly command automated system OPEN and CLOSE from a 2-channel radio control. If a 1-channel receiver is used, like the RP, it will only be possible to command OPEN.
GND
+24
Fig. 25
GND +24
Boards should be inserted and removed ONLY after having cut off electrical power
J1
3 4 5 6 7 8 9 10 11
Fig. 26
4.8 Connector J11 (Beam break-out sensor)
Designed for connecting the break-out sensor for the pivoting beam
(if present). The sensor is optional. If it is not present, do not remove the installed jumper.
4.2 Terminal board J2 (outputs)
OUT 1 - Output 1 open-collector GND (terminal 13): The output can be set in one of the functions described in the Advanced
Configuration (par. 6). The default value is
04
PAUSE . Maximum load: 24 VDC with 100 mA.
- Beam OPEN or in
4.9 Connector J12 (Emergency battery)
This connector is for connecting a battery (optional) for ensuring automated system operation in case of temporary cut off of the main power supply.
OUT 2 - Output 2 open-collector GND (terminal 15): The output can be set in one of the functions described in the Advanced Configuration
(par. 6). The default value is
2 4 VDC with 100 mA.
03
- CLOSED BEAM. Maximum load:
4.10 Connector J13 (36VDC Power Supply)
This factory-wired connector powers the E680 board.
OUT 3 - Output 3 open-collector GND (terminal 17): The output can be set in one of the functions described in the Advanced Configuration
(par. 6). The default value is
24 VDC with 100 mA.
19
- WARNING LAMP. Maximum load:
The terminal shown in Fig. 1 ref. a must be connected to the system earth by the installer during the electrical connection operations.
OUT 4 - Relay output 4 (terminals 19, 20, 21): The output can be set in one of the functions described in Advanced Configuration (par.
6). The default value is
24 VDC with 800 mA.
01
- BEAM ILLUMINATION. Maximum load:
20
4.11 Connector J15 (flashing traffic light)
This connector is for connecting the flashing traffic light built into the barrier head. The flashing traffic light visually signals barrier movement and, if needed, can control access to the property using the different light colors.
4.12 Connector J16 (beam lights)
Connector which allows the rope light for the rod to be connected, providing visual warning of barrier movement. The connector has a common GND connection and two +36V (BLR / BRG) outputs. The default value is 02 - “BEAM LIGHTING TYPE 2” for OUT 5, 04 - “BEAM
OPEN OR PAUSED” for OUT 6.
5. PROGRAMMING
The E680 board features 3 programming levels that make it entirely configurable and allow it to adapt the logics to any use.
Each of the three levels can be accessed through a specific key combination.
Changes to the configuration parameters become effective immediately, while final storage occurs only upon exiting configuration and returning to the automated system status display. If the equipment is powered down before returning to the automated system status display, all changes made will be lost.
5.1 Basic configuration
To perform BASIC programming:
1. Press and hold button F ; the name of the first function is displayed.
2. Release the button; the function value is displayed and can be modified using the + and - buttons.
3. Press and hold F again; the name of the following function is displayed, and so on.
The last function made (
Y
St
lets you choose whether to save the configuration
) or exit without saving ( no
). Later, the display will resume showing the automated system status
You can go to
St press F and then -.
at any time. To exit programming,
BASIC CONFIGURATION
Display Function cF Barrier configuration
01
Minimum mass
06
Maximum mass
Before starting the operator, you must set the correct value, directly correlated to the length of the beam and the number and type of accessories installed. To determine the value, refer to Tables 3 and 4.
dF
Ct
WARNING: Setting a mass default lower than the one actually installed could cause irreversible damage to the bar and barrier structure.
Loading a different configuration will reset the parameters to the default values
Default
Y indicates that all values set correspond to the defaults no indicates that one or more set values
Y
to restore the default configuration.
Master / slave configuration
MA
Configures the board in master mode
SL
Configures the board in slave mode
For details on MASTER / SLAVE configuration, refer to section 9.
Default
06
Y
MA
Display Function bu BUS accessories menu
LO
For functions associated with this parameter see paragraph 5.3
Operating logics
PA
So
A
Automatic
A1
Automatic 1
E
P
Semi-automatic
Parking
PA
Parking automatic
Cn
Condo
CA
Condo automatic
C
Dead-man
CU
Custom
Pause time
Is effective only if an automatic logic is chosen; the value can be set from one second steps. Next, the display changes to minutes and tens of a second (separated by a decimal point) and time is adjusted in
10-second steps up to the maximum value of
4.1
minutes.
e.g. if the display shows
2.5
O
to
59 sec. in
, the pause time will be 2 minutes and 50 seconds.
Opening speed
Adjusts the barrier opening speed.
Default no
E
20
10
00
Minimum speed
10
Maximum speed
Sc
NOTE: The actual maximum speed is dependent on the “mass” value programmed in
Barrier Configuration
Closing speed
Adjusts the barrier closing speed.
02
00
Minimum speed
10
Maximum speed
L1
NOTE: The actual maximum speed is dependent on the “mass” value programmed in
Barrier Configuration
Loop 1
Activating this parameter, any loop that is connected to the Loop 1 input will serve as an OPEN function.
Y
Loop 1 enabled no
Loop 1 disabled no
NOTE: Should this function be disabled, the detection status of the loop will in any case remain available on one of the two outputs, if configured (see parameters
Advanced Configuration) o1
... o4 in
21
Display Function
L2 Loop 2
Activating this parameter, any loop that is connected to the Loop 2 input will serve as a
SAFETY/CLOSE function.
Default no
Y
Loop 2 enabled no
Loop 2 disabled
S1
(see note regarding Loop 1)
Loop 1 sensitivity
Adjusts the sensitivity of the vehicle detection loop
05
S2
Mt
00
Minimum sensitivity
10
Maximum sensitivity
Loop 2 sensitivity
Adjusts the sensitivity of the vehicle detection loop
00
Minimum sensitivity
10
Maximum sensitivity
Motor movement
Using the function provided by this parameter makes it possible to manually move the barrier bar, operating as dead-man .
Pressing + will open the automated system, pressing - causes the automated system to close.
05
-tL
St
Displaying of the automated system status
St is extremely important for the installing/maintenance technician in order to distinguish the logical processes that the board carries out during movement.
If, for example, the automated system status is CLOSED, the display MUST read enabled, or directly to then display
01
05
. When the OPEN command is received, the display will change to
09
, if pre-flashing is
(the OPENING movement) to
once the position of gate OPEN is reached).
Example of a status sequence displayed starting from a closed barrier
The sequence does not include statuses
09
and
10
which correspond to pre-flashing when opening and closing, respectively.
00
Beam closed
05
Opening oP pressing + , open cL pressing , close
Learning
Working time and limit switch learning (see section 7.2)
--
SYSTEM STATUS:
This allows you to choose whether to save the programmed data upon quitting.
Y
= quit and save the data
= quit without saving the data
After quitting the program, press the F key to display the status of the automated system
00
Beam closed
01
Beam open
02
Stationary ready to open
03
Stationary ready to close
04
Automated system paused
05
Opening
06
Closing
07
Failsafe in progress
08
2-EASY device verification in progress
09
Pre-flashing then OPENS
10
Pre-flashing then CLOSES
11
EMERGENCY Open
You can go to then -.
St
at any time by pressing F and
01
Beam open /
Pause
06
Closing
5.2 Changing the predefined parameters set
The E680 board features six sets of pre-defined configurations that allow rapid adapting to the size of the beam installed. To select one of the available configurations change the parameter value of
06 cF
from the default
to that corresponding to the barrier configuration (beam length, type and quantity of accessories installed) given in Table 3 or
Table 4 on the next page (for example, choose the default beam type “L” of 17.4 ft (5.3 m) with lights).
04
for a
To complete the configuration, it is necessary to exit the Basic
Configuration menu by pressing “F” until parameter or by pressing “F” and “-”
St is reached
So and
SC in Basic configuration and
FO
,
FC
, oc in Advanced configuration, setting them on the default values as shown in the tables in paragraph 6.3.
Setting a set of pre-defined parameters that does not correspond to the actual configuration of the barrier could cause irreversible damage to the automated system, in particular if the default corresponds to a beam length shorter than the actual one.
22
5.3. DEFAULT SELECTION TABLES (
cF
parameter)
The purpose of the two following tables is to determine, depending on the length of the bar and the number and type of accessories installed, the correct default value to set in the first Basic programming function.
Table 3 refers to the balance spring for “S” beams ( Fig. 4 ref. a ) with lengths equal to or shorter than 17.4 ft (5.3m)
Table 4 refers to the balance spring for “L” beams ( Fig. 4 ref. b ) with lengths equal to or longer than 17.4 ft (5. m)
Table 3 - S BEAMS
Beam length
Installed accessories
No accessories
Lights
Lights / Skirt
Lights / Foot / Skirt
Lights / Foot
Foot
Skirt
Skirt/Foot
Table 4 - L BEAMS
Beam length
Installed accessories
No accessories
Lights
Lights / Skirt
Lights / Foot / Skirt
Lights / Foot
Foot
Skirt
Skirt/Foot
7.5 ft
(2.3 m)
1
1
1
1
1
1
1
1
19 ft
(5.8m)
5
5
5
5
5
5
5
5
17.4 ft
(5.3 m)
4
5
4
4
4
5
4
4
10.8 ft
(3.3 m)
2
2
2
2
2
2
2
2
9.2 ft
(2.8m)
1
2
2
1
1
2
1
1
22.3 ft
(6.8m)
5
5
5
5
6
6
5
5
20.5 ft
(6.3m)
5
5
5
5
6
5
5
5
12.5 ft
(3.8m)
2
3
3
3
3
3
2
2
14 ft
(4.3m)
3
3
3
3
3
3
2
2
23.8 ft
(7.3m)
6
6
6
5
6
6
5
5
25.5 ft
(7.8m)
5
6
6
14.8 ft
(4.5m)
3
3
3
3
3
3
3
3
6
6
6
27 ft
(8.3m)
6
6
17.4 ft
(5.3m)
3
3
6
6
23
6. Advanced Configuration
To access Advanced Configuration, press F and, while holding it, also press
• when will appear
• when
+
F
:
is released, the number of the first available function changed using
+
is also released, the value is displayed, and can be
and
-
+
and
-
• pressing F again, and holding it, the name of the next parameter will be displayed; when released, the value can be changed using
• once the last function has been reached, pressing F makes it possible to either save the previously changed parameters or exit without saving the changes; the display will go back to showing the status of the inputs.
ADVANCED CONFIGURATION
Display Function
FO
FC
PF tP
Opening motor force
Adjusts the thrust of the motor during the opening phase.
00
Minimum power
50
Maximum power
Closing motor force
Adjusts the thrust of the motor during the closing phase.
00
Minimum power
50
Maximum power
Pre-flashing
This parameter is used to activate the flashing lamp for 5 seconds before the selected movement.
no disabled before each movement
CL before each closing movement
OP before each opening movement
PA only at the end of the pause
Pre-flashing time
Pre-flashing time expressed in seconds.
00
10 minimum pre-flashing maximum pre-flashing
Default
40
40 no
00
Display oc o1
P1 o2
Function
Sensitivity of obstacle during closing
This determines the sensitivity to an obstacle before reversing takes place.
Default
30
01
Minimum sensitivity
50
Maximum sensitivity
Output 1
Setting this function makes it possible to modify the signal type of output 1, allowing high connection flexibility with external devices.
NOTE: if the output setting is keep the value set to no
00
(Failsafe),
Output 2
Output 2 signal type, see “ Output 1 ”
04
00
Failsafe
0 1
TYPE 1 BEAM ILLUMINATION
(output active when beam closed, disabled with bar open or paused, intermittent when moving). Use only with output 4!
02
BAR LIGHTING TYPE 2 ( flashing output during opening, closing and with rod closed or stopped. inactive with rod open or paused).
03
Beam CLOSED
04
Beam OPEN or in PAUSE, it goes off during closing pre-flashing.
05
Beam in OPENING MOVEMENT, including pre-flashing.
06
Beam in CLOSING MOVEMENT, including pre-flashing.
07
Beam STATIONARY
08
Beam in EMERGENCY mode
09
LOOP1 engaged
10
LOOP2 engaged
11
OPEN for E680 slave
12
CLOSE for E680 slave
13
Beam RELEASED
14
Not used
15
Not used
16
FCA engaged
17
FCC engaged
18
Interlock
19
WARNING LAMP (on during opening and pause, flashing when closing, off when the automated system is closed)
20
Battery operation
Output 1 Polarity
Allows setting of the output polarity: no
Y output NC output NO
03
24
o5
P5
Display
P2 o3
P3 o4
P4 o6
P6 o7
AS
Function
Output 2 Polarity
Output 2 polarity, see parameter regarding
“ Output 1 Polarity ”
Output 3
Output 3 signal type, see “ Output 1 ”
Default no
19
Output 3 Polarity
Output 3 polarity, see parameter regarding
“ Output 1 Polarity ”
Output 4
Output 4 signal type, see “ Output 1 ” no
01
Output 4 Polarity
Output 4 polarity, see parameter regarding
“ Output 1 Polarity ”
Output 5
Output 5 signal type, see “ Output 1”
Output 5 polarity
Output 5 polarity, see parameter for “Output
1 polarity”
Output 6
Output 6 signal type, see “ Output 1” no
02 no
04
Output 6 polarity
Output 6 polarity, see parameter for “Output
1 polarity”
Integrated flashing lamp operating mode
Lets you choose between two operating modes for the integrated flashing lamp (if present) connected to output J15.
no
01
01
“Traffic light” mode (steady green
02 when paused/open, flashing red when moving, steady red when closed)
”Flashing lamp” mode (flashing red when bar is moving, off in all other cases)
Service request (linked to the following two functions):
If activated, at the end of the countdown
(which can be set with the two following “Cycle
Programming” functions) it activates the LAMP output for 4 sec every 30 sec (service request).
It can be useful for setting programmed maintenance work.
no nc
Y
Active
Disabled
Cycle programming in thousands:
Is used to set a countdown of the system operation cycles; the value can be set from
0 to 99 (thousands of cycles). The value displayed is updated with the succession of the cycles, interacting with the value of decrements of of ).
n c n C
(99 correspond to 1 decrement
The function can be used, together with
“Service Request”.
n C
, to verify the use of the system and for use of
00
Display nC
St
Function
Cycle programming in hundreds of thousands:
Is used to set a countdown of the system operation cycles; the value can be set from 0 to 99 (hundreds of thousands of cycles). The value displayed is updated with the succession of the cycles, interacting with the value of n c
. (1 decrement of
).
n C corresponds to 99 decrements of
The function can be used, together with n c
, to verify the use of the system and for use of
“Service Request”.
Default
01
SYSTEM STATUS:
This allows you to choose whether to quit the program
Y
= quit and save the data
= quit without saving the data
On quitting the program, press the F key to display again the status of the automated system.
You can go to then-
St
at any time by pressing F and
6.1 Configuring the loop detector
The E680 board features an integrated metal mass detector for the induction detection of vehicles.
6.1.1 Specifications:
• Galvanic separation between the detector electronics and the loop electronics
• Automatic alignment of the system immediately following activation
• Continuous resetting of the frequency drifts
• Sensitivity independent of loop inductivity
• Adjustment of the loop work frequency with automatic selection
• Occupied loop message with LED display
• Loop status addressable on outputs
6.1.2 Connection:
Connect the loops according to the layout on page 7, Fig. 2
- Terminals 24 - 25 for LOOP 1 = loop with gate opening function;
- Terminals 26 - 27 for LOOP 2 = loop with closing and/or safety when closing function.
For more information on the effect of the loop signals on the automated system, refer to the logics tables in paragraph 10 “OPERATING
LOGICS TABLE”.
To enable the functionality of the connected loops, enter Basic configuration mode and set parameters
L1
and
L2
on
Y
consistent with the number and type of connected loops. If only one loop is installed, enable only the corresponding programming step.
The loop detector operating status is indicated by the DL3 and DL4 status LEDs.
25
6.1.3 Calibration
Each time the E680 board is powered, the integrated loop detector performs a calibration of the connected loops. Therefore, you can perform calibration by cutting off power to the board for at least 10 seconds and then reconnecting it.
From the barrier status display, you can press, at any time, SW4/CAL1 to calibrate the loop connected to the LOOP 1 input or SW5/CAL2 to calibrate the loop connected to the LOOP2 input.
Calibration is highlighted by the board diagnostics by flashing LEDs
DL3 and DL4, and when calibration is completed, they will indicate the loop detection status, if connected.
The other signals provided by the board diagnostics are described in the following table:
6.1.4 Adjusting sensitivity
By adjusting the sensitivity of the loop detector, you determine the variation of inductivity, for each channel, that a vehicle must cause in order to activate the corresponding detector output.
Sensitivity is adjusted separately for each channel using the two parameters
S1
and
S2
in Basic configuration
6.1.5 Making the loops
The loop must be laid at least 6” (15cm) from fixed metal objects, at least 20” (50cm) from moving metal objects and no more than 2”
(5cm) from the surface of the final paving.
Use a standard AWG 16 unipolar cable (direct buried cable must have double insulation). Make a preferably square or rectangular loop by preparing a PVC cable duct or by tracing the paving, as shown in figure 16 (the corners must be cut at a 45° angle to avoid cable breaks). Lay the cable using the number of windings shown in the table. The two ends of the cable must be twisted together (at least 6 times per foot) from the loop to the E680 board. Avoid splicing a cable
(if necessary, solder the conductors and seal the splice using a heatshrinking sheath) and keep it separate from the mains power lines.
2 2
LED Status
Off
On
LOOP Status
Loop clear
Loop engaged
Flashing (0.5 s)
Rapid flashing
Slow flashing
(5 s)
Loop calibration in progress
Loop short circuit
No loop or loop interrupted
Two flashes (every 5 s) Non-conforming loop
(resistance or inductance values out of range)
3/8”
~ 3 ft
If one or both magnetic loops are not installed, the loop detector, following a first attempt to calibrate, will keep the status LEDs flashing every 5 seconds (as shown in the above table)
Loop
Perimeter less than 10 ft from 10 to 13 ft from 13 to 20 ft from 20 to 40 ft more than 40 ft
Nr. of Windings
6
5
4
3
2
6.2 Expert Configuration
Wit the EXPERT configuration the operating logics previously programmed with Basic and Advanced configuration can be further customized.
Before making changes at this level, be certain that the steps you wish to change and their effect on the automated system are fully understood.
After changing any of the third-level parameters the
LO parameter of the first-level programming will show the value
CU
To access EXPERT configuration, press F and, holding it, press + for approximately 10 seconds .
The use of F , + and in this menu is the same as in the other two programming levels
“EXPERT” CONFIGURATION 10 sec
Display .
Function
01 If this function is activated, automatic closing occurs after the pause time.
02
03
04
If this function is activated, two distinct input operation mode is obtained: OPEN for opening and CLOSED for closing.
Activation of recognition of the OPEN and CLOSE input levels (maintained command) .
That is to say, the board recognises the level (if, for example, with OPEN held, you press
STOP, when the latter is released, the automated system will continue to open). If
03
is disabled the board commands a manoeuvre only if there is an input variation.
Activation of DEAD-MAN opening (command always pressed). Releasing the OPEN command will stop operation
Setting
Y
= automatic closing
= disabled
Y
= 2-input operation
= disabled
Y
= level recognition
= status variation
recognition
Y
= active
= disabled
26
05
06
07
08
09
10
11
12
13
When this function is activated, the OPEN command during opening will stop movement.
If parameter
06
is no
the system is ready for opening.
If parameter
06
is
Y
the system is ready for closing.
When this function is activated, the
If parameters
05
and
06
are no
OPEN command during opening reverses movement.
OPEN will have no effect during opening.
When this function is activated, the
If parameters
07
and
08
are no
OPEN command during pause stops operation.
OPEN resets the pause time
When this function is activated, the
If parameters
07
and
08
are no
OPEN command during pause causes closing.
OPEN resets the pause time.
When this function is activated, the OPEN command during closing stops operation, otherwise it reverses movement.
Activation of DEAD-MAN closing (command always pressed). Releasing the CLOSE command will stop operation
When this function is activated, the CLOSE command has priority over OPEN, otherwise
OPEN has priority over CLOSE.
When this function is activated, the CLOSE command commands closing when released.
As long as CLOSE is activated, the unit stays in closing pre-flashing.
When this function is activated, the CLOSE command during opening stops operation, otherwise the CLOSE command commands reverse immediately or when opening is completed (see also parameter
14
)
When this function is activated, and if parameter immediate closing at the end of the opening cycle (stores CLOSE). If parameters are no
CLOSE commands immediate closing.
13
is no
, the CLOSE command commands
and
14
When this function is activated, with the system blocked by a STOP, a moves in the opposite direction. If parameter
15
is no
it always closes.
next OPEN
Y
= when opening it stops
= disabled
Y
= when opening it reverses
= disabled
Y
= when in pause it stops
= disabled
Y
= when in pause it closes
= disabled
Y
= stops
= reverses
Y
= active
= disabled
Y
= active
= disabled
Y
= closes when released
= closes immediately
Y
= CLOSE stops
= CLOSE reverses
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
When this function is activated, during closing, the CLOSING SAFETIES stop and allow motion to resume when they are disengaged, otherwise they immediately reverse opening.
When this function is activated, the disengaged (see also parameter
DO NOT CHANGE
DO NOT CHANGE
CLOSING SAFETIES
).
command closing when they are
When this function is activated, and if parameter
CLOSING SAFETIES .
17
is
Y
, the unit will wait for the opening cycle to end before executing the closing command provided by the
When this function is activated, during closing, LOOP2 stops and allows motion to resume when it is disengaged, otherwise it immediately reverses opening.
When this function is activated, parameter
21
).
LOOP2 commands closing when it is disengaged (see also
When this function is activated, and if parameter
20 is
Y
, the unit will wait for the opening cycle to end before executing the closing command provided by LOOP2.
When this function is activated: in case of a blackout, once electrical power has been restored, if an OPEN command is not active the automated system recloses immediately.
LOOP 1 commands opening and, once completed, it closes if disengaged (useful in case of vehicle backing-up with consecutive loops). If disabled, when LOOP 1 is disengaged, it does not close.
When this function is activated, an open or close command is only carried out after the safeties have been disengaged.
A.D.M.A.P. function
When this function is activated, the result is operation of safeties compliant with French regulations.
When this function is activated, the CLOSING SAFETIES during closing stop and reverse movement when they are disengaged, otherwise they reverse immediately.
Y
= closes at the end of
opening no
= immediate closing
Y
= moves in the opposite no
= always closes
Y
= closes when disengaged
= immediate reverse
Y
= closing when FSW is disengaged no
= disabled
Y
= closes at the end of no
= disabled
Y
= closes when disengaged
= immediate reverse
Y
= closes if LOOP2 is clear
= disabled
Y
= closes at the end of
opening no
= disabled
Y
= active no
= disabled
Y
= closes if LOOP1 clear no
= disabled
Y
= active no
= disabled
Y
= active no
= disabled
Y
= stops and reverses when disengaged.
no
= reverses immediately.
no no
29 DO NOT CHANGE
30 When this function is activated, the LOOP1 commands are prioritised rather than the
LOOP2 commands.
Y
= active no
= disabled no
27
A1 r1
A0 r2
F1
HOLD CLOSE / HOLD OPEN function
When this function is activated, the automated system will monitor the position of the beam at set intervals (see parameter
A1
). If the beam is not completely closed or completely open
(depending on the logical condition of the board), the automated system will command a
CLOSE or OPEN movement to bring the beam back to the correct position, for a maximum of 3 seconds. If, when the 3 seconds have elapsed, the bar does not go back to completely closed/open position (e.g. because the bar is blocked), the function will be disabled until the next OPEN command is received.
HOLD CLOSE / HOLD OPEN function activation time
This parameter indicates the time interval between two activations of the HOLD OPEN /
HOLD CLOSE function, expressed in minutes. (from
00
to
99
)
Loop 1 frequency reading
This menu item lets you verify the reading of the current oscillation frequency of the loop connected to the Loop 1 input. The indication should be read as follows:
First digit: tens (kHz)
Second digit: units (kHz)
Decimal point: hundreds (kHz)
For example, the reading
05.
refers to a reading of 105 kHz
Read-only parameter
Loop 2 frequency reading
This menu item lets you verify the reading of the current oscillation frequency of the loop connected to the Loop 2 input. (see parameter indicated value)
r1
for explanations on how to read the
Read-only parameter
Loop 1 frequency selection
This parameter lets you set an oscillation frequency specific to the loop connected to the
Loop 1 input, or lets the system choose the most adequate setting among the 4 available.
A
Automatic selection
Frequency 1-2-3-4
Note: When you exit the Advanced configuration menu after having changed the loop operation frequency setting, the system will be recalibrated. This will provide an updated r2 r1 or
F2 Loop 2 frequency selection
This parameter lets you set an oscillation frequency specific to the loop connected to the
Loop 2 input, or lets the system choose the most adequate setting among the 4 available.
A
Automatic selection
Frequency 1-2-3-4
Note: When you exit the Advanced configuration menu after having changed the loop operation frequency setting, the system will be recalibrated. This will provide an updated r2 r1 or h1 h2
LOOP 1 holding time
Is used to set presence time on loop 1. When this time has elapsed, the board will selfcalibrate and signal “loop clear” (LED DL3 off). When the board is turned on, an automatic reset is carried out.
Y
5 minutes no infinite
LOOP 2 holding time
Is used to set presence time on loop 2. When this time has elapsed, the board will selfcalibrate and signal “loop clear” (LED DL4 off). When the board is turned on, an automatic reset is carried out.
Y
5 minutes no infinite
28
Y
60
A
A no no
t
H1
H2
Loop 1 articulated lorry function
This function lets you increase the level of sensitivity at the time of detection, to allow correct detection even in case of very tall vehicles or during the transit of a tractor and trailer.
Y enabled no disabled
Loop 2 articulated lorry function
This function lets you increase the level of sensitivity at the time of detection, to allow correct detection even in case of very tall vehicles or during the transit of a tractor and trailer.
Y enabled no disabled
Work time (time-out)
Maximum work time of the automated system before the motor stops, if the open or close position is not reached. The value can be set from
O
to
59
sec. in one second steps. Next, the display changes to minutes and tenths of a second (separated by a decimal point) and time is adjusted in 10-second steps up to the maximum value of
4.1
minutes.
dr Red light brightness (OUT 5)
Changing this value increases or decreases the output voltage for OUT 5, changing the brightness of the rope light.
dG Green light brightness (OUT 6)
Changing this value increases or decreases the output voltage for OUT 5, changing the brightness of the rope light.
St STATUS OF THE AUTOMATED SYSTEM:
Y
Y
30
04
04
6.3 Pre-Defined Parameter Sets
The table below shows, for each set of pre-defined parameters, the values that they will load in the board memory.
Basic Configuration cF dF
Ct bu
LO
PA
So
Sc
L1
L2
S1
S2
01 02 03 04 05 06
Y
E
Y Y Y Y Y
MA MA MA MA MA MA no no no no no no
E E E E E
20 20 20 20 20 20
10 10 10 10 10 10
10 05 05 04 02 02 no no no no no no no no no no no no
05 05 05 05 05 05
05 05 05 05 05 05
Advanced Configuration
The following table shows, for each set of pre-defined parameters, the values that they will load in the board memory, in advanced configuration.
P3 o4
P4 o5
P1 o2
P2 o3 tP oc
FS o1 cF
FO
FC
PF
AS nc nC
P5 o6
P6 o7
29
01 02 03 04 05 06
25 25 30 28 30 40
25 25 30 28 30 40 no no no no no no
00 00 00 00 00 00
30 30 30 30 30 30 no no no no no no
04 04 04 04 04 04 no no no no no no
03 03 03 03 03 03 no no no no no no
19 19 19 19 19 19 no no no no no no
01 01 01 01 01 01 no no no no no no
02 02 02 02 02 02 no no no no no no
04 04 04 04 04 04 no no no no no no
01 01 01 01 01 01 no no no no no no
00 00 00 00 00 00
00 00 00 00 00 00
J13
6.4 “Expert” default parameters
The following table contains the pre-defined settings that characterize the various operation logics.
Step A A1 E P PA Cn Ca C
01 Y Y N N Y N Y N
02 N N N Y Y Y Y Y
03 N N N N N N N N
04 N N N N N N N Y
05 N N Y N N N N N
06 N N Y N N N N N
07 N N N N N N N N
08 N N N N N N N N
09 N N N N N N N N
10 N N N N N N N Y
17
18
15
16
13
14
11
12
N
N
N
N
N
N
N
N
N
N
N
N
N
N
Y
Y
N
N
N
N
N
N
N
N
N
Y
N
Y
N
Y
N
N
N
Y
N
Y
N
Y
N
N
N
N
N
Y
N
N
N
N
N
N
N
Y
N
N
N
N
N
N
N
N
N
N
N
N
19 N N N Y Y N N N
20 N Y N Y Y Y Y N
21 N Y N Y Y Y Y N
22 N N N N N N N N
23 N N N Y Y N N N
24 N N N N N N N N
25 N N N N N N N N
26 N N N N N N N N
27 N N N N N N N N
28 N N N N N N N N
29 N N N N N N N N
30 N N N N N Y Y N
7. START-UP
7.1 Verifying the diagnostic LEDs
Before starting the operator verify that the status of the diagnostic
LEDs corresponds to the logic. Said status must coincide with the indications in Fig. 27, which reflects that of an operator in CLOSED position and ready to open.
Fig. 27
J11
DL1 DL2
J6
1 2
M2 M1A
M1
DL15
ENCODER
J7
J1
J10
J14
+ -
SW4 SW5
SW1 SW2 SW3
J2
DISP1
F
BATTERY
J3
J15
3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23
OPEN CLOSE
FSW STOP
J16
2 2
J12
OUT5
OUT6
J4
7.2 Setup
Before being put into operation, the E680 board requires a setup procedure during which the automated system determines the rotation angle of the beam and consequently its travel. These measurements allow correct management of motor decelerations and acceleration ramps.
At first start-up the board will signal the need for a setup cycle, by displaying a flashing
S0
.
For setup, proceed as follows:
1. Using the parameter “Mt” in Basic configuration mode, check that the opening / closing movement corresponds to the pressed key
(+ opens | - closes); if not, go to the motor wiring and reverse the two conductors L1 and L3, as shown below.
2. Bring the arm to the fully closed position with the “Mt” parameter of the Base configuration level or by operating the manual release device as indicated in Par. 5.
3. Access Base programming and repeatedly press the until you reach the parameter tL
, then press the + and -
F button
buttons at the same time until the operator’s arm begins opening slowly, then release the buttons.
During setup, a flashing -- indication will appear on the display.
4. Upon reaching the fully open position, the operator will stop automatically.
5. The operator will then begin the beam closing movement.
6. Upon reaching the closed position, the operator will stop automatically.
7. Press the F button to exit the procedure, and confirm you wish to save the data with the parameter
St of the operator shown on the display is
. Check that the status
(closed) and that the arm is in the closed position. If the arm is open and the display is showing
00
, check / adjust the correct direction of movement of the motor again as in step 1 of the procedure.
The FSW, STOP and EMR LEDs are safety inputs with
NC contacts, therefore the related LEDs must be ON when the automated system is at rest, and go off when the device connected is engaged.
The OPEN and CLOSE inputs are NO contact inputs, therefore the related LEDs must be OFF when the automated system is at rest, and go on when the device connected is active.
The BUS status must correspond to DL2 (green) on steady and DL1 (red) off. The BUS menu of the Basic configuration must display the indication shown to the side confirming the fact that there are no engaged photocells or active pulse generators.
L1
L2
L3
M
L3
L2
L1
M
8. TESTING THE AUTOMATED SYSTEM
Once programming is completed, verify that the system is operating correctly and that the safety devices work properly, conforming to the current safety standards.
30
9. MASTER/SLAVE CONFIGURATION
If the installation requires the gate area being covered by two opposing barriers, a Master / Slave configuration may be used for the boards which will activate the two barriers. This configuration permits connection of the command and safety signals to be simplified (they are all connected to just one board), also ensuring perfect synchronisation of the two automated systems.
“MASTER device” means the board to which all the pulse generators and safety devices are connected.
“SLAVE device” means the one controlled by the MASTER via the 2Easy BUS.
Setting the two boards as master and slave must first of all be performed in base level programming by setting the value master board and
Ct
=
SL
on the slave board.
Ct
=
MA
on the
The master and slave operators communicate via the 2Easy BUS. Connect them as shown below:
Ct
=
MA Ct
=
SL
2Easy
1 2
FSW ST ALARM GND +24
3 4 5 6 7 8 9 10 11
BUS
2Easy
1 2
FSW ST ALARM GND +24
3 4 5 6 7 8 9 10 11
Any input signal present on terminal J1 of the SLAVE board will be ignored; connect all control and safety signals to the
MASTER board
When the BUS connection is made, the SLAVE automation system will synchronise with the MASTER. Ensure there are no people or other obstacles in the range of action of the beam.
To set up the operators, proceed as follows:
1. Check that the open/close movement is consistent with the button pressed (+ / -) on both barriers via the “Mt” parameter of the base configuration level; if not, the motor wiring must be adjusted by inverting the two conductors L1 and L3
2. Bring the arm to the fully closed position with the “Mt” parameter of the Base configuration level or by operating the manual release device.
3. Access Base programming on the MASTER device and repeatedly press the F button until you reach the parameter the + and buttons at the same time until both operator arms begin opening slowly.
4. Upon reaching the fully open position, both operators will stop automatically.
5. The operators will then begin the beam closing movement.
6. Upon reaching the closed position, the movement will stop automatically.
7. Press the F button to exit the procedure, and confirm you wish to save the data. Check that the current status of the operators shown on both displays is
00 adjust the correct direction of movement of the motor again as in step 1 of the procedure.
tL
(closed) and that the arm is in the closed position. If the arm is open and the display is showing
, then press
00
, check /
During setup, a flashing
--
indication will appear on the display
In MASTER / SLAVE operation mode the two devices will remain independent in terms of their configuration, the forces and speed of movement, the loop detectors and configurable outputs.
The MASTER will, however, overwrite the operational logic on the SLAVE and reading of the SLAVE inputs will be prevented.
When a device is configured as SLAVE, the unused parameters will be hidden in the configuration menus. The following table indicates the structure of the menus of a board configured as a SLAVE device.
31
Base Configuration cF
Sc
S1
S2 dF
Ct bu
So
01 02 03 04 05 06
Y
MA no
10
10
05
05
Y
MA no
10
05
05
05
Y
MA no
10
05
05
05
Y
MA no
10
04
05
05
Y
MA no
10
02
05
05
Y
MA no
10
02
05
05
P5 o6
P6 o7 nc nC
P3 o4
P4 o5
P1 o2
P2 o3
Advanced Configuration cF
FO
FC oc o1
01 02 03 04 05 06
25 25 30 28 30 40
25 25 30 28 30 40
30 30 30 30 30 30
04 04 04 04 04 04 no no no no no no
03 03 03 03 03 03 no no no no no no
19 19 19 19 19 19 no no no no no no
01 01 01 01 01 01 no no no no no no
02 02 02 02 02 02 no no no no no no
04 04 04 04 04 04 no no no no no no
01 01 01 01 01 01
00 00 00 00 00 00
00 00 00 00 00 00
H1
H2 t dr dG
F1
F2 h1 h2
Expert Configuration
cF
A0
A1 r1 r2
01 02 03 04 05 06
Y Y Y Y Y Y
01 01 01 01 01 01
-------
-------
A
A
A
A
A
A
A
A
A
A no no no no no no no no no no no no
A
A
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
30 30 30 30 30 30
04 04 04 04 04 04
Y
Y
04 04 04 04 04 04
10. INTERLOCK
The interlock function enables two in-line barriers to be managed so that opening of one is subordinated to closing of the other. Operation can be one-way or two-way.
For in-line barriers, set OUT1 INTERLOCK to parameter 18 (see 2 nd LEVEL PROG.) on both boards and connect them as in figure.
o1 = 18
P1 = no o1 = 18
P1 = no
Relais
FSW ST ALARM GND +24
3 4 5 6 7 8 9 10 11
NO COM
12 13 14 15 16 17 18 19 20 21
Relais
FSW ST ALARM GND +24
3 4 5 6 7 8 9 10 11
NO COM
12 13 14 15 16 17 18 19 20 21
32
11. OPERATING LOGICS TABLE
Tab. 1/a
LOGIC “A”
AUTOMATED
SYSTEM STATUS
CLOSED
WHEN OPENING
OPEN IN PAUSE
WHEN CLOSING
BLOCKED
OPEN A opens and closes after the pause time no effect resets pause time immediately reverses to opening closes
CLOSE no effect immediately reverses to closing closes no effect closes
PULSES
STOP no effect
(opening inhibited)
FSW no effect
LOOP 1 opens and closes after the pause time
LOOP 2 no effect blocks operation no effect no effect no effect blocks operation blocks operation no effect
(opening and closing inhibited) resets pause time
(closing inhibited) immediately reverses to opening no effect
(closing inhibited) resets pause time immediately reverses to opening opens and closes after the pause time resets pause time
(closing inhibited) immediately reverses to opening no effect
(closing inhibited)
Tab. 1/b
LOGIC “A1”
AUTOMATED
SYSTEM STATUS
CLOSED
WHEN OPENING
OPEN IN PAUSE
WHEN CLOSING
BLOCKED
OPEN A opens and closes after the pause time no effect resets pause time immediately reverses to opening closes
CLOSE no effect immediately reverses to closing closes no effect closes
STOP no effect blocks operation blocks operation blocks operation no effect
PULSES
(opening and closing inhibited)
FSW no effect closes immediately after opening is completed closes immediately reverses to opening inhibits closing
LOOP 1 opens and closes after the pause time
LOOP 2 no effect no effect resets pause time closes immediately after opening is completed closes when disengaged immediately reverses to opening, closes at the end of pause opens and closes after the pause time immediately reverses to opening, closes again once opening is completed no effect
(closing inhibited)
Tab. 1/c
LOGIC “E”
AUTOMATED
SYSTEM STATUS
CLOSED
OPEN A opens
CLOSE no effect
STOP
PULSES
FSW no effect
(opening inhibited) no effect
WHEN OPENING blocks operation immediately reverses to closing blocks operation no effect
OPEN closes closes no effect
(closing inhibited) no effect
(closing inhibited)
WHEN CLOSING immediately reverses to opening no effect blocks operation immediately reverses to opening
BLOCKED closes closes no effect
(opening and closing inhibited)
In brackets, the effects on the other inputs when the pulse is active no effect
(closing inhibited)
LOOP 1 opens no effect no effect immediately reverses to opening opens
LOOP 2 no effect no effect no effect
(closing inhibited) immediately reverses to opening no effect
(closing inhibited)
33
Tab. 1/d
LOGIC “P”
AUTOMATED
SYSTEM STATUS
CLOSED
OPEN A opens
CLOSE no effect
STOP
PULSES no effect
(opening inhibited)
FSW no effect
LOOP 1 opens and once opening is completed closes if disengaged
LOOP 2 no effect
WHEN OPENING no effect closes immediately after opening is completed blocks operation no effect no effect closes immediately after opening is completed
OPEN
WHEN CLOSING
BLOCKED no effect
(closing inhibited) immediately reverses to opening opens closes no effect closes no effect
(closing inhibited) no effect
(closing inhibited) prevents closing closes when disengaged blocks operation no effect
(opening and closing inhibited) blocks and when disengaged continues to close no effect
(closing inhibited) immediately reverses to opening, and once opening is completed closes if disengaged opens and once opening is completed closes if disengaged blocks and when disengaged continues to close no effect
(closing inhibited)
Tab. 1/e
LOGIC “PA”
AUTOMATED
SYSTEM STATUS
CLOSED
WHEN OPENING
OPEN IN PAUSE
WHEN CLOSING
BLOCKED
OPEN A opens and closes after the pause time no effect resets pause time immediately reverses to opening opens and closes after the pause time
CLOSE no effect closes immediately after opening is completed closes no effect closes
STOP no effect
(opening inhibited) blocks operation blocks operation blocks operation no effect
PULSES
(opening and closing inhibited)
FSW LOOP 1 LOOP 2 no effect opens and once opening is completed closes if disengaged no effect no effect no effect closes immediately after opening is completed resets pause time
(closing inhibited) resets pause time closes when disengaged blocks and when disengaged continues to close no effect
(closing inhibited) immediately reverses to opening, and once opening is completed closes if if disengaged opens and once opening is completed closes if disengaged blocks and when disengaged continues to close no effect
(closing inhibited)
Tab. 1/f
LOGIC “Cn”
AUTOMATED
SYSTEM STATUS
OPEN A CLOSE STOP
PULSES
FSW LOOP 1 LOOP 2
CLOSED opens no effect no effect
(opening inhibited) no effect opens no effect
WHEN OPENING no effect closes immediately after opening is completed blocks operation no effect
OPEN
WHEN CLOSING no effect
(closing inhibited) immediately reverses to opening closes no effect no effect
(closing inhibited) blocks operation no effect
(closing inhibited) reverses to opening and closes after pause time
BLOCKED opens closes no effect
(opening and closing inhibited)
In brackets, the effects on the other inputs when the pulse is active no effect
(closing inhibited) no effect no effect immediately reverses to opening opens closes immediately after opening is completed closes when disengaged immediately reverses to opening no effect
(closing inhibited)
34
Tab. 1/g
LOGIC “CA”
AUTOMATED
SYSTEM STATUS
CLOSED
WHEN OPENING
OPEN IN PAUSE
WHEN CLOSING
BLOCKED
OPEN A opens and closes after the pause time no effect resets pause time immediately reverses to opening opens and closes after the pause time
CLOSE no effect closes immediately after opening is completed closes no effect closes
PULSES
STOP no effect
(opening inhibited)
FSW no effect
LOOP 1 opens and closes after the pause time
LOOP 2 no effect blocks operation no effect blocks operation blocks operation resets pause time
(closing inhibited) reverses to opening and closes after pause time no effect
(opening and closing inhibited) no effect
(closing inhibited) no effect resets pause time immediately reverses to opening opens and closes after the pause time closes immediately after opening is completed closes when disengaged immediately reverses to opening no effect
(closing inhibited)
Tab. 1/h
LOGIC “C”
AUTOMATED
SYSTEM STATUS
CLOSED
MAINTAINED COMMANDS
OPEN A opens
CLOSE no effect
STOP no effect
(opening inhibited)
FSW
PULSES
LOOP 1 no effect no effect
LOOP 2 no effect
WHEN OPENING / no effect blocks operation no effect no effect no effect
OPEN no effect
(closing inhibited) closes blocks operation no effect no effect
(closing inhibited) no effect
(closing inhibited)
WHEN CLOSING immediately reverses to opening
/ blocks operation blocks operation blocks operation blocks operation
BLOCKED opens closes no effect
(opening and closing inhibited) no effect
(closing inhibited)
In brackets, the effects on the other inputs when the pulse is active no effect
(closing inhibited) no effect
(closing inhibited)
35
NOTES:
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36
NOTES:
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37
NOTES:
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38
LIMITED WARRANTY
To the original purchaser only:
FAAC International, Inc., warrants, for twenty-four
(24) months from the date of invoice, the gate operator systems and other related systems and equipment manufactured by FAAC S.p.A. and distributed by FAAC International, Inc., to be free from defects in material and workmanship under normal use and service for which it was intended provided it has been properly installed and operated.
FAAC International, Inc.’s obligations under this warranty shall be limited to the repair or exchange of any part of parts manufactured by FAAC S.p.A. and distributed by FAAC
International, Inc. Defective products must be returned to FAAC International, Inc., freight prepaid by purchaser, within the warranty period. Items returned will be repaired or replaced, at FAAC International, Inc.’s option, upon an examination of the product by FAAC
International, Inc., which discloses, to the satisfaction of FAAC International, Inc., that the item is defective. FAAC International, Inc. will return the warranted item freight prepaid. The products manufactured by FAAC S.p.A. and distributed by FAAC International, Inc., are not warranted to meet the specific requirements, if any, of safety codes of any particular state, municipality, or other jurisdiction, and neither
FAAC S.p.A. or FAAC International, Inc., assume any risk or liability whatsoever resulting from the use thereof, whether used singly or in combination with other machines or apparatus.
Any products and parts not manufactured by FAAC S.p.A. and distributed by FAAC
International, Inc., will carry only the warranty, if any, of the manufacturer. This warranty shall not apply to any products or parts thereof which have been repaired or altered, without FAAC
International, Inc.’s written consent, outside of
FAAC International, Inc.’s workshop, or altered in any way so as, in the judgment of FAAC
International, Inc., to affect adversely the stability or reliability of the product(s) or has been subject to misuse, negligence, or accident, or has not been operated in accordance with FAAC
International, Inc.’s or FAAC S.p.A.’s instructions or has been operated under conditions more severe than, or otherwise exceeding, those set forth in the specifications for such product(s).
Neither FAAC S.p.A. nor FAAC International,
Inc., shall be liable for any loss or damage whatsoever resulting, directly or indirectly, from the use or loss of use of the product(s). Without limiting the foregoing, this exclusion from liability embraces a purchaser’s expenses for downtime or for making up downtime, damages for which the purchaser may be liable to other persons, damages to property, and injury to or death of any persons.
FAAC S.p.A. or FAAC International, Inc., neither assumes nor authorizes any person to assume for them any other liability in connection with the sale or use of the products of FAAC S.p.A. or FAAC International, Inc. The warranty herein above set forth shall not be deemed to cover maintenance parts, including, but not limited to, hydraulic oil, filters, or the like. No agreement to replace or repair shall constitute an admission by FAAC S.p.A. or FAAC International, Inc., of any legal responsibility to effect such replacement, to make such repair, or otherwise. This limited warranty extends only to wholesale customers who buy directly through FAAC International,
Inc.’s normal distribution channels. FAAC
International, Inc., does not warrant its products to end consumers.
Consumers must inquire from their selling dealer as to the nature and extent of that dealer’s warranty, if any. This warranty is expressly in lieu of all other warranties expressed or implied including the warranties of merchantability and fitness for use. This warranty shall not apply to products or any part thereof which have been subject to accident, negligence, alteration, abuse, or misuse or if damage was due to improper installation or use of improper power source, or if damage was caused by fire, flood, lightning, electrical power surge, explosion, wind storm, hail, aircraft or vehicles, vandalism, riot or civil commotion, or acts of God.
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© 2016, FAAC International, Inc. - All Rights Reserved
Published in Oct. 2016
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Key features
- Secure access control for commercial and residential properties
- Easy to install and operate
- Reversing mechanism for added safety
- Compatible with a variety of gate and barrier types
- Durable construction for long-lasting performance