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LIGHT GRID SAFETY SYSTEM
ALARM KIT
WIRELESS RADIO CODE SWITCH
WIRELESS RADIO KEY SWITCH
RS1 CONTROL UNIT
ATX-1 KEYFOB
LUX-4 KEYFOB
PHOTOELECTRIC CELL SAFETY SYSTEM ns
RS-1
Roller Door
Remote Control Unit
Installation
& Operating
Instructions
V7 Safety Grid January 10
ANSA RS-1 Roller Door Remote Control System
Contents
5
6
3
4
7
8
1
2
General description
General Operation
2.2
Multi Channel Keyfobs
2.3
Receiver Unit Features
Fitting the RS-1 control unit
Electrical Connections
RS1 Control Board Overview & Wiring Schemes
Photoelectric cell safety system (optional)
LG-1 Light Grid Safety System (optional)
AL-12 Alarm System (optional)
13
14
15
16
17
9
10
11
12
Commissioning
Adding transmitters & wireless access controls
Deleting transmitters & wireless access controls
Multi- door control
Holiday Mode
Fault diagnostic system
Dip Switch options & Special settings
Problem solving guide
Technical specifications
Installation instructions
Please read these instructions carefully prior to commencing installation of the unit. Operate unit only when the door is in full view and free from any obstruction. No one should enter or leave the garage while the door is in motion.
This booklet covers RS-1 units manufactured from 01.01.2010 having the PCB identification
RS1G
3
(See figure 8)
NOTE TO INSTALLER - PLEASE ENSURE THIS MANUAL REMAINS WITH THE END USER AS IT CONTAINS IMPORTANT SAFETY INFORMATION.
PLEASE ALSO COMPLETE THE INSTALLATION DETAILS ON THE BACK PAGE
1 - General Description
The ANSA RS1 control unit is designed to operate roller garage doors fitted with single phase tubular motor drives. Equipped with “rolling code” high security remote controls, allowing easy memorisation of up to fifteen transmitters. The unit has all the features needed for efficient, safe and reliable operation of roller doors including built-on courtesy lamp, operating button and multi- function red indicator LED. This guide includes information on ANSA Photoelectric Safety Beams, ANSA Light Grid Safety System, ANSA Alarm System and popular ANSA access controls.
2 General Operation
Your Door Supplier will recommend the ideal combination of access control and safety options to suit each installation and program the system accordingly. As a guide, the general operation for a fully commissioned door is as follows:
2.1
Keyfob Transmitter Operation
·
To open the door, press the button on the keyfob transmitter for one second.
The door will fully open and stop automatically at the fully open position.
·
To close the door, press the button on the keyfob transmitter for one second.
The door will fully close and stop automatically at the fully closed position.
·
Pressing the button during a door opening or closing operation will instantly stop the door and pushing the button again for one second will reverse the original direction.
·
Please note that a delay of one second is built into the operation.
Allow for this delay after operating the keyfob Transmitter
2.2
Multi Channel Keyfobs
Multi Channel Keyfobs use one button per door, enabling control of up to 4 garage doors from one keyfob transmitter. These are available on request.
Additional Remote Control Receiver Modules are also available to control automatic gate systems, driveway lighting and other equipment from
ANSA Multi Channel Keyfobs.
Figure 1
Figure 2
Page 1
Courtesy Light
Figure 3
RS1
Control
Button
Red LED
Indicator
Aerial
DK-14 is a weatherproof High security code switch to operate your door from outside your garage.
Simply enter a secure 4 digit ‘PIN’ personal access code to operate your door.
The unit has blue illuminated keys for easy operation at night
WK-1 is a weatherproof
High security key switch to operate your door from outside the garage.
Simply use one of the
3 keys supplied to operate the door.
The unit has a convenient blue LED indicator.
WB-1 is a convenient radio control unit to operate your door from an alternative position within your garage.
One, two or three channel versions are available.
The unit has a convenient blue LED indicator.
4 Electrical Connections
Always switch off the mains power supply before making any connections!. Electrical connections should be carried out by a competent person. If in doubt consult a qualified electrician! Cables should enter the control unit through the cable glands fitted to the bottom of the RS1 unit.
4.1
Power
The 240v A/C input should be connected from an adjacent 13 amp 3 pin switched socket. The plug must be fitted with a 5 amp fuse. Connect the power supply to terminals marked MAINS, N, L,
4.2
Motor
Connect the motor lead to the terminals marked MOTOR, E, L1, L2, N3. The blue motor neutral cable must be connected to the terminal marked N3. Connect the yellow/green earth cable to the terminal marked E. Connect the brown and black motor power cables to terminals L1 & L2. Ensure that motor direction matches the open and close LEDs and if necessary interchange the motor cables at terminals L1 & L2 (See figure 9).
4.3
Adding Lighting
Terminals marked LIGHT, E, L, N, provide a 240 volt ac lighting output which functions the same as the built on light. Lighting switches on for 3½ minutes whenever the door is operated and turns off automatically. Maximum load 400 watts.
4.4
Connecting a Photoelectric Cell System (optional)
Remove the factory fitted link connecting 0V and Sig.
·
·
·
Connect the blue wire to
Connect the black wire to
Connect the brown wire to
0V
Sig
24V (Connections are for the ANSA PEC-3 Photocell Unit)
4.5
Connecting The LG-1 Light Grid System (optional)
Remove the factory fitted link connecting 0V and Sig.
·
·
Connect both the blue wires to
Connect both the black wires to
0V
Sig
·
·
Connect both white wires to
Connect both brown wires to
Test
24V
4.6
Connecting a Push Button (Hard Wired)
A push to make (normally open) push button or key switch can be connected to terminals COM & IMP,.
This provides an OPEN - STOP - CLOSE - STOP sequential operation which works the same as the keyfob.
4.6
Connecting a Stop Push Button (Hard Wired)
A push to break (normally closed) push button or key switch can be connected to terminals marked COM & STP.
Activation will stop the door immediately regardless of it’s position. Remove the factory fitted link connecting COM & STP).
4.7
Fitting the Aerial. An external aerial is supplied which must be fitted as follows:
Pass the 135mm stainless steel wire aerial through the small hole in the base of the RS1 control unit alongside the right hand cable entry and connect to the terminal marked “EXT A”. It is also possible to fit a 'remote' aerial. Connect via coax cable with the inner wire core connected to terminal “EXT A”. Separate the screen from the wire core and connect to terminal “SC”, and strip off 135mm of the screen at the free end.
4.8
Fitting the optional ANSA Alarm System (Type AL12/HW)
Fix the alarm module alongside the left hand side of the RS1 Unit. Pass the connection lead through the right hand cable entry gland and connect the plug to the security alarm socket on the RS1 circuit board (see figures 8 and 16).
Connect the alarm trip switch cables to terminals AL1 and AL2. The trip switch is fitted to the bottom of the door guide and a magnet is fitted to the bottom door slat to trigger the system in the event of a break in attempt.
Note: The alarm unit has two volt-free normally closed terminals which can be optionally connected directly to the home alarm system.
Page 3
5 - RS1 Superhet Control Board Overview
Figure 8
Socket for
Security
Alarm
Open
Close
Status &
Radio
LEDs
Motor
Fuse
T6.3A
Product
Serial
Number
Label
Motor
Relays
Motor
Relays
Control Limit - Light Grid
Open
Close
ON
Set-up
4
5
6
1
2
3 warning retract security auto-rtn
C Lim-off de-code
RS1G
RS2G
Door Systems
Test Button
Motor
Run Timer
Option DIP
Switches
PCB
Identification
Radio Receiver
Control
Fuse
T250MA
Note:
Remove link 0v - Sig for ‘Hold-to-Run’ Mode
(doors not equipped with photoelectric cell or light grid system
Power Terminals
Light Mains Motor link
Safety
Control Terminals
link
Door Controls
Note:
Steel wire aerial supplied must be connected to terminal EXT A
LIGHT
E L N
240V AC Output for additional lighting.
Lights must not be connected to an other power supply or light switches.
400watt maximum load
Automatic function lights switch on for 3½ minutes whenever the door is operated.
Mains
Supply
240
Vac
Figure 9
0V
SAFETY
SIG TEST 24V
N
MAINS
L E
LEFT
HAND
MOTOR
WIRING
0V
SAFETY
SIG TEST 24V
E
MOTOR
L1 L2 N3
Check RS1 open
& close LEDs match door direction
E
MOTOR
L1 L2 N3
RIGHT
HAND
MOTOR
WIRING
DOOR CONTROLS
IMP COM STP AL1 AL2
CONNECTIONS
FOR A PUSH
BUTTON OR
KEY SWITCH
BLUE WIRES - 0V
BLACK WIRES - SIG
WHITE WIRES - TEST
BROWN WIRES - 24V
DOOR CONTROLS
IMP COM STP AL1 AL2
CONNECTIONS
FOR A STOP
PUSH BUTTON
PHOTO ELECTRIC CELL
ANSA PEC 3
Green LED indicates power
Yellow LED indicates correct alignment
Figure 10
Page 4
LG-01
LIGHT GRID
6 Photoelectric Cell Safety System (optional)
6.1
Function
The ANSA photoelectric cell (PEC) projects an invisible infra red beam across the door opening which is focused on a reflective lens target. Obstructions within the doorway blocking the safety beam are sensed and a safety signal is transmitted to the RS1 Control Unit.
·
The safety beam has no effect on an opening door.
·
Breaking the safety beam prevents closure of an open door and will also stop and re-open a closing door.
·
The option to fully or partially re-open the door is a DIP Switch Option (see 15.2, page 9).
The RS1 Control Unit continuously monitors the photoelectric sensor. If a fault or obstruction is detected the system prohibits closure of the door, this is indicated by the multi function red LED which will flash quickly. Closure of the door is then only possible in “hold to run” mode (See section 2.4).
6.2
Testing
With the photocell correctly adjusted and working the green and yellow LED's fitted to the sensor and the red indicator LED fitted to the RS1 control unit will be illuminated. Breaking the photo-beam will switch off the yellow LED fitted to the sensor and cause the red indicator LED to flash quickly , confirming correct operation. Once a month check the system for correct operation. using a keyfob, stand inside the garage and close the door and whilst it is moving - block the photobeam using a piece of cardboard or similar. The door should stop and then reverse to the fully open position.
6.3
Installation
(Refer to figure 11)
Fix the photo cell brackets to the door guides at a recommended height of 300mm using the self-drilling screws provided. Fit the photoelectric sensor to the pivot bracket using 2 noM4 x 35mm nuts and bolts provided ensuring that the flat and shake proof washers are correctly fitted. Attach the pivot bracket to the photocell bracket using 2 no M4 x 15mm nuts and bolts provided. Fit the photocell reflector to the opposite bracket using 2 noM4 x15mm nuts and bolts provided. The diagram shows a right hand installation. The photo sensor can be fitted left hand using a similar assembly.
6.4
How to align the photoelectric sensor
(ANSA Type PEC-3)
The green LED is illuminated when the photoelectric cell is switched on. For reliable operation it is important that the photo beam is “centred” on the reflector using the following set-up procedure. Adjust fixing screws A & B so that the photoelectric sensor and pivot bracket can be moved up and down and left to right. Move the sensor until the yellow LED flashes indicating that alignment is close. The yellow LED will illuminate steady when the sensor is correctly aligned. Tighten screws A & B in this position.
6.5
Maintenance
Periodically clean the PEC sensor lens and reflector with a damp cloth and wipe dry.
Please note: Before closing the door always check that the door opening is free from obstructions and do not leave objects in the path of the door.
The photoelectric cell sensor will not detect objects positioned below or above the infra red beam. No one should enter or leave the garage while the door is in motion.
M4 Nuts
(A)
M4 x 15 nuts & bolts
Pivot
Bracket
Photoelectric
Cell
Self drill & self tapping screws
(B)
M4 x 35 bolt & flat washer
Phototcell
Bracket
M4 x15 nuts and bolts
Reflector
Yello w LE
D
Green
LED
Green LED on
- Power on
Yellow LED on
- Correct Alignment
Yellow LED Flashing
- Beam alignment is poor
Yellow LED off
- Beam is obstructed
- Beam needs aligning to reflector
- Sensor or reflector is dirty
Figure 11
Page 5
7 LG-1 Light Grid Safety System (optional)
7.1
Function
The ANSA LG-01 Light Grid is an active safety system designed to monitor the closing operation of Roller Doors equipped with an ANSA RS-1 control unit. The equipment comprises an emitter (Tx) track and receiver (Rx) track which are mechanically fixed directly to the door guide tracks and electrically connected (low voltage) to the ANSA remote control unit. The emitter and receiver tracks contain multiple photoelectric sensors which build up a grid of 34 infra red beams covering door entrances up to 6 metre wide and 1.8 metres high. The safety grid detects obstructions in the path of a closing door preventing closure of the door or safety reversing the closing movement. The compact and robust design with a cross section of only 12mm x 16mm provides minimal intrusion into the garage space Status LED indicators are fitted to both the transmitter, receiver and ANSA remote control units for easy installation and set-up.
Figure 12
blue plug yellow
LED indicator receiver
(rx) track leave 10mm clearance under the grid track to the floor connection lead
7.2
Installation
The transmitter (Tx) with white cable connector and the receiver
(Rx) with the blue connector can be fitted to either door guide channel with the connection leads at the top. The 'black eyes' in the tracks are the optical elements which must face each other. Fix the tracks to the rear of the door guides leaving a 10mm clearance to the floor. Ensure that no sunlight shines directly into the optic lenses.
white plug green LED indicator transmitter
(tx) track
If necessary make allowance for uneven floors which could block the bottom infrared beam and raise the transmitter and receiver tracks slightly to allow for any 'high spots'.
The transmitter and receiver are fixed to the door guide each using the 3.5mm diameter self drilling fixings provide. Secure the tracks securely ensuring they are plumb. Use only the fixing holes provided in the grid tracks.
Do not drill additional holes in the profiles or bend or twist the grid tracks.
leave 10mm clearance under the grid track to the floor
Ensure that the connection leads are well fastened and routed using the cable fittings supplied or alternatively use plastic cable ducting (not supplied). Do not bend the cables or expose them to tension.
Fig. 13
Standard fixing arrangement for doors internally face fixed or reveal fixed. Suitable for doors that are not subject to high wind loading .
Fig. 14
opening structure door guides spacers to prevent curtain activating light grid
Note; For double width doors or doors subject to high wind loading, use plastic cable ducting or similar (not supplied) to space the grid tracks away from the door guides to prevent any curtain deflection from operating the light grid system
Fig. 15
25mm
Alternative
Position
25mm
For externally fitted doors a 25mm guide overhang is recommended to protect the emitter and receiver tracks. The tracks can be fixed to the opening structure using the wall plugs and fixings supplied – but avoid bending or drilling the track when installing.
Alternative Position
The emitter and receiver tracks may be installed inside the building using the wall plugs and fixings supplied – but avoid bending or drilling the track when installing.
7.3
How to Align the Safety Grid System
The Safety Grid System is virtually self aligning. Correct alignment is indicated when the green LED fitted to the transmitter track and the yellow LED fitted to the receiver track are illuminated.
7.4
Testing
Obstructing the Light Grid should cause the receiver track yellow LED to switch off and at the same time the red LED should flash quickly confirming satisfactory operation. The option to fully or partially re-open the door is a DIP Switch Option (see 15.2, page 9).
Page 6
8 Alarm System - Type AL-12 H/W (optional)
9.1
Function
The AL-12 H/W System is an intruder alarm designed to protect an attempted break in through the garage door. The system automatically arms when the door is closed and is automatically disarmed whenever the door is opened using the keyfob transmitters or other access controls. The alarm module is fitted with a 90db siren and alarm status indicator. The alarm module is also equipped with volt free terminals which provide the option to connect the system direct to the main house alarm. The system uses a sealed magnetic switch and magnet to trigger the alarm if an attempt is made to force the door open.
Figure 16
Alarm system general layout diagram
Alarm Module
RS1 Unit
Optional wiring connection to house alarm system
Door guide
Alarm Status LED
Alarm cable plug and PCB socket
Radio receiver tile
Alarm trip switch
Magnet Bottom rail
Leave a 10mm gap from the magnet to the door guide
8.2
Installation
·
Fitting the alarm module
Fix the Alarm Module to th left of the RS-1 Control Unit using the plugs and screws provided. Pass the connection lead and plug through the right hand cable gland entry and route the cable as shown away from the radio receiver tile and connect the plug to the alarm socket on the RS1 circuit board. NOTE - Do not fit the Alarm module next to the Radio receiver tile.
·
Fit the Alarm Magnet
Operate the motor override and position the door at shoulder height. Fit the alarm magnet to the bottom rail using the self drill/self tapping screws provided and leave a 10mm gap to the door guide (as shown in figure 16).
·
Fit the Alarm Trip Switch
Fit the alarm trip switch 'horizontally' as shown to the door guide channel (can be fitted to either guide channel) using the self adhesive pad supplied. Route the 2 core connection lead neatly and connect to the RS1 control unit as shown in figure 9a. and neatly connect the wires to the RS1 terminals AL1 and AL2.
Self adhesive fittings & nail clips are provided to secure the alarm module & trip switch cables to the door guide and opening structure.
8.3
Operation
The unit automatically arms on closure. A ‘break in’ alarm signal is transmitted if the bottom rail is forced open due to interruption of the magnet and transmitter. Note the alarm automatically resets 15 minutes after it is activated.
8.4
Testing
Wait at least 1 minute after the door closes for the system to arm. Use the manual override to raise the door slightly. The alarm should activate (90 DB sounder). Operate the keyfob to switch off the alarm.
8.5
Alarm LED Status Indication
Green ON
Red ON
- Door is closed and Alarm system is SET
- Door is open and Alarm system is OFF
Red / Green Flashing - Door is opening or closing or is part open
8.6
Optional connection to main house alarm system
The ANSA AL-12 Module is equipped with volt free normally closed terminals for optional direct connection to the main house alarm system. A break in attempt will cause the ANSA alarm and house alarm to activate simultaneously.
Page 7
9 Commissioning
The tubular geared motor supplied with your door has integral electro-mechanical limit switches that cut off the power to the door motor when the door is at the fully open or fully closed position. For reliable & safe operation of the door,
the motor limit switches must be accurately set in accordance with information supplied by the door manufacturer.
The following general guidelines may be helpful.
Before you operate the door electrically you may want to operate the door slowly using the manual override provided to ensure that the door will not catch on any protrusions as it travels up and down.
Somfy Motor Drives have the advantage of commissioning using the manual override to set the motor limits and to make final adjustments which provides far greater control of the door as it travels up and down.
9.1
Doors Equipped with Somfy Motor drives
Left hand motor installation
White limit button
Close / Down
Yellow limit button
Open / Up
Figure 17
Right hand motor installation
Yellow limit button
Close / Down
White limit button
Open / Up
·
·
·
To set the motor limits, remove the cap covering the white & yellow limit switch buttons and fully press in both switches (they will lock in the depressed position).
Wind the door down using the override handle so that the door locking system is set in accordance with the door manufacturers instructions. Press and release the door close / down limit button so that it 'pops out' to memorise this door close position.
Wind the door open using the override handle so that the door fully open position is set in accordance with the door manufacturers instructions. Press and release the door open / up limit button so that it 'pops out' to memorise this door open position.
Note - Always replace the limit switch cover cap once the limits are set.
9.2
Doors equipped with Tubular Motor Drives with Screw Limit Switch Adjusters
Left hand motor installation
close close
Right hand motor installation
Figure 18
open open door open & door close screw limit adjusters door open & door close screw limit adjusters
·
·
·
·
·
·
Adjustment of screw type limits is carried out with the power supply switched on.. Use extreme caution to avoid personal injury or damage to the door and
always follow the door manufacturers specific instructions.
Adjustment is carried out by rotating two screw adjusters fitted to the motor. Carefully study the door manufacturer's instructions so that the correct open and close adjuster is identified and the correct rotation of each adjuster to increase or decrease door travel is known.
Use the override handle to position the door half open. The RS-1 Control button is used to control
Figure 19
Switch On to set limits the door (refer to Section 2.3) and Option Dip switch No. 3 on the RS-1 PCB will need to be switched on when carrying out limit switch adjustments.
Open and close the door ensuring that at no time does the door curtain raise out of the door guides or over-travel when closing which could cause personal injury or damage to the door.
Carry out fine adjustment of the limit switches in accordance with the door manufacturers instructions, noting that the door could move slightly when the adjusters are being rotated.
When the limit switches are correctly set turn off Dip switch 3 for normal operation. See fig 19
1 2 3 4 5 6
Switch Off when limits are set
NOTE
- Ensure that the motor direction matches the open and close RS-1circuit board LED's, if necessary switch off the mains power supply and interchange the motor cables at L1 and L2.
Note:
the motor unit has an inbuilt thermal trip which activates if the motor gets too hot after repetitive use, causing the motor to cut out. If the thermal trip operates wait approximately 20 minutes for the motor to return to normal operating temperature.
Page 8
10 Adding Transmitters & Wireless Access Controls
Keyfobs supplied are normally preprogrammed . Extra keyfobs or other wireless access control devices are added as follows. Press the RS-1 control button for 5 seconds and release when the red LED indicator goes out. The LED will flash once to confirm Add Mode.
Take the new transmitter to be added and press the button once. The RS-1 red LED indicator should flash once. Repeat this for every new transmitter to be added to the system. After the last transmitter has been added either wait 30 seconds or press the operating push button once to reset to normal operation. The remote control system uses the latest “rolling code” technology. The receiver can memorise the codes of 15 transmitters. Upgrade memory chips are available for 31 or 62 transmitters by special order.
11 Deleting Transmitters & Wireless Access Controls
It is not possible to selectively delete transmitters and selecting delete mode will erase all transmitters from the system. Switch off the power supply to the unit and remove the front cover. Turn on Dip switch 6 and re-power the unit. The circuit board mounted yellow
“set radio” LED will illuminate for 5 seconds, all transmitters are now deleted. Switch off the power supply , turn off Dip switch 6 and re-fit the front cover. Transmitters (and other wireless access controls) can now be reloaded using the “Add Transmitters“ procedure.
12 Multi-Door Control
Four types of Transmitters are available, 1, 2, 3 or 4 buttons, therefore up to four doors each fitted with a standard RS 1 control unit can be controlled independently using a single transmitter. Simply select the transmitter button you wish to use with a particular door and programmes the transmitter as per section 10 “Adding Transmitters”.
13 Holiday Mode
In some instances it may be helpful to switch off the controls operating the door temporarily without turning off the mains power supply or erasing transmitter security codes.[For example during holiday periods] To activate this feature simply press and hold the operating button for approximately 12 seconds and wait until the red indicator LED flashes slowly. To return to normal operation switch off the power supply to the control unit for five seconds and then switch back on.
14 Fault Diagnostic System
The microprocessor monitors the circuit board , low voltage control wiring, control devices connected to the system and safety systems and detects possible faults. If a fault is detected the door cannot be operated and the red LED will flash slowly. The power supply should be switched off until the fault is found and corrected
15 Dip switch options & Special settings
The RS-1 control unit has six onboard Dip switches which control the following features.
15.1
Dip switch1 Warning.
When switched on, the courtesy light will flash three times before the door moves.
15.2
Dip switch2 Retract.
When switched on, selects partial retract. If the photocell or Light grid system is activated, the door retracts
200mm instead of returning to the fully open position.
15.3
Dip switch 3 Security.
When switched on, extends the motor supply feed for the duration of the motor run timer which assists adjustment of screw type motor limit switches Dip switch 3 is normally turned off. Additionally for doors having an externally fitted manual override system, switching on Dip switch 3 selects a security system. If the manual override system is used to force open the door, the system will power down the door to the closed position.
Note - When using the security system it is important to accurately set the motor run timer. operate the door from the fully closed to the fully open position and adjust the run timer so that the circuit board “open” LED goes out five seconds after the door arrives at the fully open position. See Figures 21 and 22.
15.4
Dip switch 4 Auto- Close.
This option is normally turned off. Turning on Dip switch 4 selects an automatic time delay self closing function. The time delay begins when the door is fully open and is reset if the photoelectric safety beam or light grid is activated. The auto-close delay is dependant upon door size and operating speed. Set the motor run timer as described in “security”, the corresponding auto close delay is shown in Fig 10.
Note; Selecting Auto-close increases the level of automation and to comply with relevant safety standards we recommend autoclose is only used with doors having the Light Grid System .
15.6
Dip switch 5 Generator Mode / Motor Current Sensing System Off.
When switched on the control may be able to operate using a portable power supply generator and for small doors Dip switch 5 will also switch off the Motor current sensing (anti-entrapment) system.
15.6
Dip switch 6 Decode.
Used when removing lost or stolen keyfobs from receiver memory (See section 11 - deleting transmitters).
2
1
0
3
Figure 21
4
6
5
NOTE:
Position 5 is the standard factory setting
Timer
Setting
3
4
5
6
0
1
2
Motor Run
Time (seconds)
2
8
16
26
35
44
52
Auto close
Delay (seconds)
10
18
34
46
60
70
90
Figure 22
Run Timer Settings
Page 9
16 Problem Solving Guide
Note - Always switch off the power supply before attempting to repair the door or control system!
LED Signal Door Status Cause Solution
LED On Operational No fault Door in stand-by mode
LED Off Door is not operational Power supply fault
Fuse in plug has blown
PCB fuses have blown
Other fault
Test mains power supply and switch on. Reset circuit breaker
Replace 5amp fuse in 3 pin plug (or spur unit)
Replace PCB main fuse (coloured white) 6.3amp 5mmx20mm
Replace PCB control fuse (clear) 500ma 5mmx20mm
(note: spare fuses are fitted to RS1 cover - See figure 7, page 2)
Possible PCB failure - Contact your Installer
LED On
LED flashing rapidly
LED flashing rapidly
Door is not operational
Door opens but will not close
(doors with photocell safety system)
Door opens but will not close
(doors with Light Grid
Safety System)
Possible Motor Fault
Motor thermal trip has activated
Motor limit switches need to be set
Possible motor fault has developed
Allow door motor to cool for approximately 20 minutes before attempting to operate the door
Adjust or set motor limit switches in accordance with door manufacturers instructions
Close door with manual override. Switch on dip switch number3.
Try to operate door using RS1 control button. A possible motor fault is indicated if the door fails to operate but the door open and door close LEDs illuminate. If so - Contact your Installer
Possible Safety System
Fault
Photoelectric cell (PEC) beam is obstructed
Green PEC LED is ON
& yellow PEC LED is off or flashing
Remove any obstacles in the doorway
Ensure the Photoelectric cell and Reflector are clean
Check alignment of the Photoelectric cell
* If no fault is found - Contact your Installer - Door can be closed using ‘hold-to-run’ mode (see Figure 2.4, page 2)
Light grid beam(s) obstruction
Green grid transmitter track LED is ON
Yellow grid receiver track LED is OFF
Remove any obstacles in the doorway
Carefully clean all optical ayes on both the transmitter and receiver safety grid tracks
Check alignment of safety grid tracks alignment
* If no fault is found - Contact your Installer - Door can be closed using ‘hold-to-run’ mode (see Figure 2.4, page 2)
LED On Door is operational but sometimes re-opens when closing
Photoelectric cell or
Safety grid problem
Check that Photoelectric cell brackets are secure
Check that the Safety grid tracks are secure
Ensure the Roller Door Curtain is not deflecting due to the effects of wind loading and space the safety grid tracks or photocell sensor further away from the door guides if necessary
LED flashing slowly every
2 seconds
LED On
Door is not operational
Door is operational but has reduced range from keyfob transmitter
Stop circuit is activated
Additional push button control is of the wrong type or has a wiring fault
RS1 control button is faulty
RS1 (status) LED should be in green. If it is red - check that the
PCB link (or Stop push button) connected to terminals COM and STP is correctly installed
Do not connect push buttons having neon illumination
Push buttons should be ‘push to make’ type
Check for short circuit in push button or wiring
Check RS1 control button operation.
Button should click when pressed.
If no fault is found - Contact your installer
Battery in transmitter is weak - keyfob LED is dim
Aerial has not been fitted to RS1 control unit
Renew keyfob transmitter battery
Install steel wire aerial (see 4.7, page 4 and Figure 3, page 5)
Page 10
17 - Technical Specifications
Supply Voltage
Transformer Power
Power Relays
Operating Temperature
Enclosure Rating
Courtesy light
220-240 VAC
3 VA
12 A - @ 230 VAC
-15 to +55 deg.C
IP 44
40 watts maximum.
Door Manufacturer
Accessory Power Supply
Control Logic
Safety Input
Frequency
Security-Rolling Code
Dimensions
24VDC --150 Ma
Eeprom microprocessor.
NPN
433.92 MHZ Super Hetradyne
Keeloq
300mm H x 130mm W x 74mm D
Installation
Door / Contract Number:
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Installer:
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Telephone Number:
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Company:
.......................................................................................................
Installation Date:
...........................................................................................
ns
ANSA Door Systems Ltd
ANSA House, 17 Lawnswood Road, Wordsley, West Midlands DY8 5PE. Tel: 01384 293100 Fax: 01384 293200 e-mail: [email protected] Web Site: www.ansadoorsystems.co.uk
Technical Support Helpline: 0750 800 80 95
ANSA Door Systems Ltd. maintains a policy of continuous development and reserves the right to change the contents of this instruction guide without prior notice.
The contents are intended for guidance only.
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