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JA-80K OasisControl panel installation manual

This manual is valid for control panel JA-80K version KE60108 (printed on internal circuit board).The control panel can be configured by a PC running ComLink software - version 80 or higher.

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Installation manual: Oasis security system JA-80K - 2 - MKE51801

Contents:1. CONTROL PANEL ARCHITECTURE..................................................3

1.1. OPTIONAL SYSTEM CONFIGURATIONS ...............................................4

2. INSTALLATION ...................................................................................4

2.1. POWER INLET ................................................................................4

3. CONTROL PANEL MEMORY UNIT ....................................................4

4. CONTROL PANEL CONNECTORS AND TERMINALS ......................4

5. WIRED KEYPAD CONNECTION.........................................................5

6. BACK-UP BATTERY ...........................................................................5

7. POWERING-UP THE CONTROL PANEL FOR THE FIRST TIME.......6

7.1. WIRELESS KEYPAD ENROLLMENT .....................................................6

8. LANGUAGE SELECTION OF THE KEYPAD ......................................6

9. RESETTING THE CONTROL PANEL .................................................6

10. CLOSING THE CONTROL PANEL COVER ...................................6

11. ENROLLING WIRELESS DEVICES................................................6

11.1. INSTALLING WIRELESS DEVICES .......................................................611.2. ENROLLING WIRELESS DEVICES TO THE CONTROL PANEL ....................611.3. TESTING ENROLLED DEVICES...........................................................711.4. MEASURING SIGNAL STRENGTH .......................................................711.5. ERASING ENROLLED DEVICES ..........................................................711.6. ENROLLING THE CONTROL PANEL TO UCAND ACMODULES ...............7

12. CONTROL PANEL PROGRAMMING .............................................8

12.1. CONTROL PANEL PROGRAMMING SEQUENCES ...................................812.2. EXIT DELAY TIME ..........................................................................1012.3. ENTRANCE DELAY TIME .................................................................1012.4. ALARM DURATION TIME .................................................................1112.5. PGXAND PGYFUNCTIONS ...........................................................1112.6. CHANGING TELEPHONE NUMBERS IN MAINTENANCE MODE.................1112.7. RADIO INTERFERENCE INDICATION .................................................1112.8. RADIO COMMUNICATIONS SUPERVISION ..........................................1112.9. RESETENABLED ........................................................................1112.10. ENROLLMENT TO A SUB CONTROL PANEL FOR SETTING (ARMING)

CONTROL 1112.11. MASTER CODE RESET ..............................................................1212.12. CONTROL PANEL ENROLLMENT TO UCOR ACMODULES OR TO A SUB

CONTROL PANEL 1212.13. SETTING (ARMING) WITHOUT AN ACCESS CODE ...........................1212.14. TRIGGERED-DETECTOR INDICATION ...........................................1212.15. CONFIRMATION OF INTRUDER ALARMS .......................................12

12.16. EXIT DELAY BEEPS ...................................................................1212.17. EXIT DELAY BEEPS WHILE PARTIALLY SETTING (ARMING) ..............1312.18. ENTRANCE DELAY BEEPS..........................................................1312.19. SETTING (ARMING) CONFIRMATION BY WIRED -SIREN CHIRP...........1312.20. SIRENS ALWAYS SOUND DURING AUDIBLE ALARMS .......................1312.21. W IRELESS SIREN ALARM ENABLED (IWAND EW) ........................ 1312.22. AUTO-BYPASS USER APPROVAL VIA THE KEY ...........................1312.23. FINAL-DOOR DETECTORS..........................................................1312.24. PARTIAL SETTING (ARMING) OR SYSTEM SPLITTING ......................1412.25. AUTOMATIC SUMMER TIME (DAYLIGHT SAVING TIME) ....................1412.26. TAMPER ALARM IN RESPONSE TO AN INCREASE IN THE NUMBER OF

TRIGGERED TAMPER SENSORS .............................................................................1412.27. OPERATING THE PGOUTPUTS USING 8AND 9 .......................1412.28. PERMANENT ALARM STATUS DISPLAY FOR A SET SYSTEM .............1412.29. TAMPER ALARM IF UNSET..........................................................1512.30. ENGINEER RESET ....................................................................1512.31. RECORDING PGOUTPUT ACTIVATION TO MEMORY ......................1512.32. ANNUAL CHECK NOTIFICATION...................................................1512.33. ONLY SINGLE ALARM INDICATION ...............................................15

12.34. SETTING (ARMING) BY SERVICE CODE ........................................1512.35. AUDIBLE PANIC ALARM .............................................................1512.36. HIGHER CONTROL-PANEL RECEIVER-SENSITIVITY ........................1512.37. ACCESS BY CODE PLUS CARD ...................................................1612.38. AUDIBLE 24HOUR INTRUDER ALARM ..........................................1612.39. SERVICE MODE ONLY WITH SERVICE CODE AND MASTER CODE...... 1612.40. DEVICE REACTIONS AND SECTION ASSIGNMENT...........................1612.41. CODE/CARD REACTIONS AND SECTION ASSIGNMENT ....................1712.42. ENROLLMENT BY KEYING IN PRODUCTION CODES ........................1712.43. AUTOMATIC SETTING/UNSETTING SCHEDULE...............................1712.44. CHANGING THE SERVICE CODE.................................................. 1712.45. GO TO MAINTENANCE MODE......................................................1712.46. SETTING THE INTERNAL CLOCK..................................................1712.47. EDITING KEYPAD TEXT..............................................................18

13. OPERATING THE SYSTEM..........................................................18

13.1. THE SYSTEM KEYPAD....................................................................1813.1.1. Keypad indicators:............................................................18

13.1.2. LCD display......................................................................1813.1.3. Keypad display sleep-mode .............................................1813.1.4. Keys.................................................................................18 13.1.5. Functions beginning with the key ...............................19

13.2. PROGRAMMING ACCESS CODES AND CARDS ....................................1913.2.1. Programming access codes and cards.............................19

13.3. SETTING AND UNSETTING (ARMING/DISARMING) THE SYSTEM ............2013.4. MAINTENANCEMODE ...................................................................20

13.4.1. Displaying which user/card positions are occupied...........20 13.4.2. Bypassing devices............................................................2013.4.3. Protecting a car near the system...................................... 20

14. OPERATING AND PROGRAMMING THE SYSTEM BY PC ........21

15. BASIC GUIDANCE FOR INSTALLERS ........................................21

16. TROUBLE-SHOOTING..................................................................22

17. CONTROL PANEL TECHNICAL SPECIFICATIONS ....................22

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System installation shall only be undertaken by qualifiedtechnicians holding a training certificate issued by an authorizeddistributor. The manufacturer cannot be held responsible for anydamage or consequences related to the improper or incorrectuse of this product.

1. Control panel architecture

The control panel has 50 addresses (01 to 50), meaning thatup to 50 wireless devices can be enrolled i.e. detectors,keypads, keyfobs, sirens etc.

When triggered, a detector sends a so-called natural signalwhich dictates what the reaction of the control panel shouldbe. E.g. the natural signal of a door contact or PIR detectorcan be an instant or delayed alarm which is selectable by aDIP switch inside the detector. A keyfob, for instance, sendssignals for set (arm), unset (disarm) and panic.

oThe control panel is factory-set to perform natural reactionsaccording to the signals sent from wireless devices. Byprogramming the addresses of the devices in the controlpanel, it is possible to define how the control panel reacts toindividual wireless devices. E.g. a door detector assigned toaddress 15 could trigger a panic reaction, and a keyfobbutton using address 24 could cause a fire reaction etc.

Wireless devices can be assigned to 3 sections: A,B or C.

Assignments to sections either have an effect when partialsetting is used e.g. only A is set, AB is set, or ABC is set(which, for example, would be suitable for homes where Acould mean afternoon setting, AB night setting and ABC totalsetting), or if the system was split into two independentpartitions A and B, with a common section C. In the secondcase, each A or B section can be set individually, and C isautomatically set when both A and B have been set by users.This would be suitable for two independent families in a singlehouse, or two companies in one building.

There are two hard-wired inputs with programmable functionsassigned to addresses 01 and 02. If these two inputs are notused, the two addresses can be used to enroll wireless

devices. Hard-wired inputs are also provided by somewireless devices, such as keypads, door detectors, and PIRmovement detectors.

The control panel has two alarm outputs: IW = internal(indoor) warning and EW = external (outdoor) warning. Boththese signals are also available as wireless signals.

There are two programmable outputs in the control panel, PGX and PGY whose functions can be configured. The PGoutputs are not only available as physical control-panelterminals, but also as radio signals for the control of UC andAC receiver outputs.

The system can be operated by user codes or user cards. Thesystem can recognise up to 50 different users. The systemcan also be operated by wireless keyfobs, and if the controlpanel is equipped with a suitable communicator it can also beremotely controlled by mobile phone or the Internet.

It is possible to program different reactions to access codes oraccess cards and if the system is split, it is possible toprogram which part of the building is accessible by a particularcode or card. Each of the possible 50 users can have his own4-digit access code and/or access card. Setting (arming) andunsetting (disarming) is possible by card or code, and if ahigher security level is needed it is possible to make itcompulsory to confirm the validity of a card by code entry.

Programming the system is possibleby Oasis keypads suchas the wireless JA-80F or the hard-wired JA-80E, and also bycomputers running ComLink software. Further options offerprogramming by mobile phone or the Internet.

There is a power supply in the control paneland space for a12V, 1.3 to 2.6 Ah back-up battery.

To connect a hard-wired keypad or a computer, the controlpanel is equipped with a digital bus provided by terminals andRJ connectors.

The control panel can be equipped with an optionalcommunicator to provide external communications to thesystem. The JA-80Y GSM/GPRS communicator or JA80-V LAN and phone line communicator both allow data to be

Communicator

Main board

Transformer

Back-up battery

Mains terminal

Digital bus connector

GSM antenna

tamper switch

SIM card

LEDs

Antenna

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sent to alarm receiving centres (central monitoring stations).They can notify the user using SMS reports and allow remotecontrol and programming of the system by mobile phone andthe Internet. Another option is the JA-80X communicatorwhich reports alarms via a traditional phone line using voicemessages.

Note: The Oasis JA-80 system has three modes: operatingmode, maintenance mode and service mode. Operatingmode is for the day-to-day use of the system by all authorisedusers, e.g. setting/unsetting (arming/disarming). Maintenance

mode is for the holder of the master code (system administrator)to have limited programming of the system, e.g. changingcodes/cards, bypassing and is inaccessible to all other users.Service mode is only for installers and is used to program andcontrol all aspects of the system.

1.1. Optional system configurations

In the European Union region, follow the valid standards andrules, especially series EN-501-xx. The Oasis control panelcomplies with grade 2.

The control panel must have one of the following configurationsas a minimum:

At least two non-backup-battery sirens (JA-80L or SA-105) +communicator class ATS2 (JA-80Y, JA-80V or JA-80X)

At least one backup-battery siren (JA-80A or OS-360/365/300)+ communicator class ATS2 (JA-80Y, JA-80V or JA-80X)

No siren + communicator class ATS3 (JA-80Y or JA-80V)

Note: the above-recommended configurations are based on theEU standard EN-50131-1 valid at the time of issuing thismanual.

2. InstallationThe control panel can be attached to the wall using 3 screws.The drilling template is on the last page of this manual.

Because the control panel communicates via radio, itshould not be installed near any large metal objectscapable of shielding radio communication.

Route cables (power supplies, telephone leads etc.) insidethe control panel before tightly screwing in the screws.

2.1. Power inlet

The control-panel power cable should only be installed by aperson holding a sufficient electro-technical qualification.

Mains fuse

T 200 mA

The control panel power supply is double-insulated (safetyclass 2) and does not incorporate a protective earth wire.

A double-insulated power cable should be used with aminimum cross-sectional area of 0.75 to 1.5 mm

2. The

power cable should be connected to a switched mainssupply fused to 10 Amps.

In the control panel, connect the cable to the powerterminals equipped with a fuse of type T200mA/250V.

Fix the cable firmly to the cable holder in the controlpanel making sure that the wire ends are properly securedand connected in the terminals.

01

CO

M 02

NC

NO

EW

-C IW

PGX

PGY

GND A B

+U

AC20V

antenna connector

RESET

Communicatorconnector

Wiring plug

Digital bus

1A +Ufuse for

Terminals fortransformer output

Radio

module

memory socket

3. Control panel memory unit

The control panel memory unit plugs into its own socket. If, forexample, the control panel was damaged, the memory unit couldbe unplugged and then plugged into another control panel circuitboard of the same type to transfer and preserve the settingsincluding enrolled detectors, access codes and cards. The newcontrol panel thereby becomes an exact copy of the former one(a clone).

Notes: There are no communicator settings in this memory unit

Do not connect or disconnect the memory unit while the control panelis powered.

Although the memory unit is well-protected, in cases of severedamage to the control panel there is a risk that memory contentscould be corrupted. It is therefore highly recommended to back-up thesettings in a PC using Comlink software.

4. Control panel connectors and terminals

Antenna connector This is used to connect either to aninternal antenna or to external antennas such as the AN-80 orAN-81.

Reset link (normally open) Used to reset the control panel byshorting the link only while powering up the control panel. Thislink can also be used to enter control panel enrollment mode bybriefly shorting the link while the control panel is powered.

Digital bus connector for connecting a JA-80E keypad or aPC running Comlink software with a JA-80T interface cable. Thesame digital bus connector is present on the bottom right handcorner of the plastic housing. Additionally, the same connectionsare available on the GND, A, B, +U terminals.

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Communicator connector allows the connection of anoptional communicator to the main board.

Internal wiring connector connects the internal wiring in thecontrol panel housing.

Terminals:

AC 20V the transformer output is connected here.

01, GND, 02 are hard-wired inputs for the control panel.

The reactions to triggering these inputs are determined by thesettings of addresses 01 and 02. The factory-set natural

reaction for these hard-wired inputs is a delayed alarm insection C.

Terminals 01 and 02 use resistors in connected doublebalanced loops to sense loop stand-by, activation ortampering as follows:

o Connected to GND via a 1 kresistor = untriggeredinput

o Connected to GND via 2 to 6 k= triggered input,

oConnected to GND via less then 700or more then 6 k=tamper signal

o Stand-by (untriggered) input zone must have 1 ko Up to five normally-closed door/window contacts can be

connected in series to enable one hard-wired input to be

used for multiple contacts with each contact having a 1kresistor in parallel (see the diagram below).

oMultiple normally-closed tamper contacts should beconnected in series without any parallel resistors. Thenumber of tamper contacts is unlimited and can becombined with trigger contacts having parallel resistors (seethe diagram below).

oFor wiring examples, see the below diagram.

o If you enroll a wireless device to address 01 or 02, thecorresponding input terminal will be disabled.

o If you do not use an input terminal and you do not enroll awireless device to its address, then the terminal must be

connected to the GND terminal via a 1k

resistor.

NC normally closed contact for the external warning relay.

NO -normally open contact for the external warning relay.

EWC common contact for the external warning relay max.relay contact rating: 1A/60V. The control panel also transmitsthe external warning relay signal via radio for wireless sirens.

IW internal warning (siren) output. This output is groundedduring an internal alarm. A standard siren can be wired betweenterminals +U and IW (max. 0.5A). The IW output status is alsotransmitted by radio for the IW siren.

The main difference between internal and external warning is duringthe entrance delay period. If any instant detectors are triggered duringthe entrance delay period, e.g. a child running straight to the living

room, only an internal warning will be triggered and an externalwarning will only follow if the entrance delay has been exceeded.

PGX, PGY are a pair of terminals providing programmableoutputs. If an output is activated it switches to GND with amaximum load of 0.1A/12V. The factory-default setting of PGX isthe function ON/OFF which can be operated from the keypad by

the instruction 81 / 80 or using keys ). The factory-defaultfunction of PGY is that it will be activated if any section of thesystem is set. The status of PG outputs is also transmitted byradio for AC and UC output modules.

GND common ground connection

A,B digital bus data

+U back-up power supply (10 to 14V), 1A fuse. Max.continuous load 0.4 A (max. intermittent load 1 A, for 15minutes, once an hour). If the 1A fuse is blown, the control panelwill indicate power supply fault.

5. Wired keypad connection

GND A B U+

IN

+U

B

A

GND

GND

control and programmingkeypad JA-80E

modular connectioncable

The control panel can be operated and programmed by JA-80F wireless keypads and/or a JA-80E hard-wired keypad. A

hard-wired keypad can be connected to the control panel eitherby flat telephone cable (max. length 10 metres) using RJconnectors, or via twisted-pair cable (max. length 100 metres)connected to the digital bus terminals (GND, A, B, +U).

We recommend only having a single JA-80E hard-wiredkeypad in the system.

6. Back-up batteryIt is possible to use a Jablotron-brand 12V back-up battery in

the control panel with capacities of 1.3Ah or 2.6no Ah. Thecapacity to use depends on the total power consumption of thesystem and the desired back-up period.

Euro-standard EN 50131-1 specifies a 12 hour minimum back-up time for grade 2 systems. The standby consumption of all

system devices is shown in table 1.Table 1- standby consumption of system devices

With a 1.3Ah back-up battery 12 hours of back-up time can be realised ifcurrent consumption does not exceed 85mA. With 2.2Ah batteries150mA should not be exceeded to achieve the same. This only takes80% of the battery capacity into account as 20% has to be reserved for

battery aging effects.

The average back-up battery lifetime isup to 5 years after which it mustbe replaced. The back-up battery is automatically charged and itscondition is monitored by the system. If the system is being run on onlythe back-up battery a technical alarm occurs when the battery isnearly discharged. If the voltage gets too low the battery will be

Device mA Note

Control panel JA-80K 50 No communicator

Keypad JA-80E 30

Keypad JA-80H (N) 60 Including a WJ-80 interface

Communicator JA-80Y 35

Communicator JA-80V 30

Wireless devices are not powered from the control panel.

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disconnected. After the mains supply has been restored batterycharging starts again and the system will begin to function again.

Ensure that the battery is correctly connected (Polarity: RED =positive +, BLACK = negative -).

WARNING the battery is sold charged to maintain safety, avoid shortingout the terminals !!!

7. Powering-up the control panel for the firsttime

First check all the wiring, and if a GSM communicator is

installed, insert its SIM card (PIN code disabled). Carefully connect the back-up battery,

Carefully connect up the mains. A green LED will startflashing on the control panel board.

If a hard-wired keyboard is connected it will indicate Servicemode. If not, the control panel is not set to the factory defaultand should be reset (see section9.).

7.1. Wireless keypad enro llment

If no hard-wired keypad is connected to the control panel, andthe wireless keypad was not supplied as part of a JK kit, thewireless keypad must be enrolled to the control panel as follows:

1. Have an opened keypad and its battery ready.

2. Check that the green LED in the control panel is flashing.

3. Short the reset link in the control panel for 1 second (e.g.using a screwdriver). This will enter enrollment mode onthe control panel.

4. Install batteries into the keypad not far from the controlpanel.

5. The keypad generates a beep sound and enrolls toaddress. After that it indicates Enrollment 04: Device.

6. Press the # key to exit enrollment mode and Servicewill be indicated on the keypad.

Warning:

If the keypad does not enroll, then the control panel settings

are not the factory-defaults. In this case perform a reset andrepeat the enrollment procedure.

If you want to assign the keypad to another address, re-enter enrollment mode via the 1 key, then use the arrowkeys to select the desired address. Then disconnect thekeypad battery and reconnect it.

Recommendation : it is highly recommended to install thewireless keypad with a magnetic door sensor wired to its hard-wired input terminal. This way the keypad will wake up everytime after opening the door and it will produce entrance delaybeeps and will be ready to read access cards. It will also savemoney on a wireless door detector.

8. Language selection of the keypadIf the key is kept pressed during battery connection, the internalkeypad menu will be displayed allowing the selection of the desiredlanguage. Using the arrows, choose your language and confirm

selection by the key.

In this menu the door bell function can also be enabled ordisabled (if enabled the keypad makes a sound when its IN inputis triggered).

Notes:

for the JA-80E wired keypad the power can be connectedby connecting its cable or by turning on the control panelpower

if the wireless keypad has already had its batteryconnected, it is necessary to disconnect the battery for a

while before pressing and holding the key the language can be selected for each individual keypad in

the system (i.e. different keypads can display differentlanguages for example if foreigners are working in thecompany)

9. Resetting the control panelIf you need to return the control panel to the factory-default

settings perform the following:

1. Disconnect the back-up battery and the mains (forexample by removing the fuse from its terminals).

2. Connect the RESETlink and leave it connected.

3. Connect theback-up battery and themains

4. Wait till the green LED starts flashing and thendisconnect the RESETlink

Warning: After a RESET, all wireless devices are erased from the

control panel and all user codes and access cards areforgotten.

After a RESET, the Master code returns to 1234, and theservice code to 8080.

If resetting is disabled (see 12.9) it is impossible to reset thecontrol panel.

10. Closing the control panel coverAfter the keypad has started working it is possible to close the

control panel cover. Before this is done, check that the controlpanel has an antenna connected.

11. Enrolling wireless devices

The control panel has 50 addresses (01 to 50), allowing theenrollment of up to 50 wireless devices i.e. detectors, keypads,keyfobs, sirens, etc. A wireless device can be assigned to anaddress by enrollment or by entering its production code (see12.42).

11.1. Installing wireless devices

Wireless devices can either be installed at their desiredlocations first and then enrolled to the control panel or viceversa. If there any doubts as to the suitability of device locationsfor radio communication, temporarily attach the devices (e.g.

using adhesive tape) and test radio communication beforefinalizing installation. Follow the manuals of the particulardevices during their installation.

11.2. Enrolling wireless devices to the control panel

1. The control panel should be in Service mode. If it is not,

then enter 0 service code (factory default: 8080). Thecontrol panel must be unset (disarmed).

2. Press the 1 key, enrollment mode will be entered and thefirst vacant address will be offered. For a new control panelit will be 03.

3. Using the arrows keys and , you may select thedesired address. If the address is already occupied this is

indicated by the A indicator being lit.4. The device will enroll to the selected address just after its

battery (power) is connected .

5. Enrollment is confirmed by the A indicator and the nextvacant address is then offered.

6. By connecting batteries to all devices one after the otherthey will all be enrolled to the control panel. Press the # key to exit enrollment mode.

tek

Notes:

If a wireless device is enrolled to address 01 or 02 this willdisable the corresponding hard-wired input terminal (if awireless device is erased from address 01 or 02, the hard-wired terminal will be re-enabled).

Keyfobs type RC-8x can be enrolled by pressing and holdinga pair of buttons simultaneously, i.e.: + or + .

(enrollment by battery installation will enroll buttons + ).

This means that a 4-button keyfob can be enrolled to the

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control panel twice but to two different addresses with differentfeatures see 12.40.

Only a single device can be enrolled to each address.

When indicator A lights, it means the displayed address isoccupied and therefore no more devices can be enrolled tothis address.

If a device has already been enrolled to an address, and it isthen re-enrolled to another address, the devices addressassignment will change from the original address to the newone.

If a device cannot be enrolled to the control panel, either itdoes not have a good wireless connection to the control panelpossibly due to excessive distance or it could be too close tothe control panel (closer than 2 meters is not permitted),

To re-enroll a device, first disconnect its battery. Then waitabout 10 seconds or, to save time, press and release itstamper switch to quickly discharge any remaining energy.

A sub-control panel can be enrolled to a master controlpanel by keying in the sequence 299on the keypad of the subcontrol panel which must be in Service mode. (see 12.10),

If you intend to use final-door detectors in the system, theymust be enrolled to addresses 01 to 05 or 46 to 50 (see12.23).

11.3. Testing enrolled devices

1. The control panel must have its antenna connected and be

in Service mode. If not in Service mode, then key in 0service code (factory-default 8080). To enter Service modethe control panel must be initially unset (disarmed).

2. Trigger the device to be tested (if it is a detector close itscover first and then wait until it is ready for testing).

3. The keypad will beep and display a description of the signalreceived from the device under test (the keypad covershould be flipped open). We recommend technicians tocarry the wireless keypad around while testing to ease theprocess.

Notes:

Motion detectors JA-80P and JA-85P can be tested for amaximum of 15 minutes after closing their covers. After thisperiod the detector will ignore frequent movements (seedetector manuals for details).

Devices can also be tested in maintenance mode see 13.4.

11.4. Measuring signal strength

1. The control panel must have its antenna connected and be

in Service Mode. If it is not, then enter 0 service code(factory default: 8080). The control panel must be unset(disarmed) to enter Service Mode.

2. Key in 298, and the lowest enrolled address will be

displayed.

3. Trigger the device enrolled to the displayed address. Thekeypad display will show the received signal strength on ascale of 1/4 to 4/4. Keep the keypad cover flipped openwhile measuring signals.

4. Other addresses for devices can be selected using thearrow keys to measure their signals too.

5. Exit signal measuring by pressing the # key.

Notes:

Motion detectors JA-80P and JA-85P can be tested for amaximum of 15 minutes after closing their covers. After thisperiod the detector will ignore frequent movements (see

detector manuals for details). Measuring the signals from a JA-80L internal siren can be

activated by pressing its button. A JA-80A outdoor siren canbe activated for signal strength measurement by opening itscover thereby triggering its cover tamper switch.

Each installed device should have a minimum signal strengthof 2/4. If the signal is too weak, the device should be relocatedor a higher control panel sensitivity can be selected. (see12.36) Alternatively the control panel can be equipped with anexternal antenna (see 10).

This measurement shows the quality of the signal receivedfrom the device at the control panel.

The wireless keypad can be carried during installation ortesting by disabling its tamper contact via the jumper near thetamper contact do not forget to re-enable the tamper beforefinishing the installation Note: the keypad usually has aslightly shorter working range than the detectors. Therefore, ifcarried to more-distant detectors the triggering of thedetectors might not be shown.

The most convenient way of measurement is via a computerrunning ComLink SW.

11.5. Erasing enrolled devices

1. The control panel must be in Service Mode. If it is not, then

enter 0 service code (factory default: 8080). The controlpanel must be unset (disarmed) to enter Service Mode.

2. Key in 1 to enter enrollment mode and using the arrowkeys select the desired address of the device you wish toerase.

3. Press and hold the 2 key until a beep is heard and theAindicator turns off.

4. After all the desired devices have been erased, press #.

Notes:

To erase all wireless devices, press and hold the 4 key inenrollment mode.

If a wireless keypad is erased, it will stop communicating withthe control panel and must be re-enrolled before being usedagain. (see 7.1).

11.6. Enroll ing the cont rol panel to UC and ACmodules

If you wish to use UC and AC modules to output PGX and PGYsignals, you must enroll the control panel to these modules asfollows:

1. The control panel must be in Service Mode. If it is not, then

enter 0 service code (factory default: 8080).

2. On the UC or AC module, enter the desired enrollmentmode (see the manual of the particular module)

3. Key in 299 on the control panel keypad and check that allLEDs on the module flash a few times to confirm successfulenrollment.

Notes:

Because the UC and AC modules have rather short

enrollment-period timeouts, we recommend locating themodule close to the control panel during enrollment.Alternatively you could carry the wireless keypad close to themodule to perform enrollment.

The control panel can be enrolled to the desired number ofUC/AC modules to control multiple PG outputs in aninstallation.

Each UC and AC module has 2 relays, X and Y which have togo through enrollment separately. The X relay reacts to PGXsignals from an enrolled control panel and the Y relay reactsto PGY signals from an enrolled control panel. The controlpanels PGX signal can be enrolled to the X relay and thecontrol panels PGY signal can be enrolled to the Y relay.Therefore, the enrollment procedure has to be done twice ifboth relays are to be controlled by the control panels PGsignals.

Only one control panel can be enrolled to a UC or AC receiverbecause a control panel repeats its PG signals every 9

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minutes so it is impossible to combine multiple control panelsin one UC or AC receiver.

12. Control panel programming

The most convenient way to program the system is to use aPC running Comlink software. The system can however also beprogrammed by keying in the sequences in section 12.1.

The system should be in Service mode (if not, enter the

following with the system unset: 0 Service code thefactory default is 8080)

Enter the appropriate programming sequences see thefollowing description (an unfinished sequence can be escapedfrom by pressing the # key),

To exit Service Modepress the # key.

12.1. Contro l panel programming sequences

Function Sequence Options Factorydefault

Notes

Entering enrollment modeOne wireless device (detector, keypad, key fob, siren or sub

control panel) can be enrolled to each address from 01 to 50.The system offers vacant addresses one by one, if all

addresses are occupied no devices can be enrolled.A device enrolled to address 01 or 02 disables the

corresponding hard-wired input 01 or 02.In addition to enrollment mode, devices can also be enrolled

by keying in their production codes (see 12.42).

1Keys:up/down arrows = address

scrolling holding 2= erases the displayed

addressholding 4 = erases all addresses# = exiting enrollment mode

nothing devices enroll byconnecting theirpower (battery),keyfobs also bypressing & holding apair of their buttons

an occupied addressis indicated by the Aindicator being lit

enrolling a device toa new address willmove it there

Exit delay time 20x x = 1 to 9 (x10 s =10 to 90 s) 30s

Entrance delay time 21x x = 1 to 9 (x 5 s = 5 to 45 s) 20s

if a final door detectoris used, then x is

multiplied by 30sinstead (i.e. from 30to 270s)

Alarm durat ion t ime 22x x = 1 to 8 (min.), 9=15min 4 min. 0=10s (for testing)

PGX function 23x 7

on/off

(80/81)

PGY function 24x

x in an unsplit system:0 - whole system set (ABC) =

PG on1 - any system part set = PG on2 - AB set (not C) = PG on3 - Fire alarm = PG on4 - Panic alarm = PG on5 - Any alarm = PG on6 - AC dropout = PG on

7 - PG on/off (by 80 /81 for

PGX and 90/91 for PGY)

8 Single 2 s pulse (keys 8=X,9=Y)

1

anysystempart set

x in a split sys tem0 - alarm A = PG on1 - alarm B = PG on2 - entrance delay A == PG on3 - entrance delay B =PG on4 - A set = X on, B set= Y on5 - A panic = X on, Bpanic = Y on

6 - Fire = X on, ACdropout = Y on.

7 - PG on/off (by 80

/81for PGX and

90/91 for PGY)8 Single 2 s pulse

(keys 8=X, 9=Y)

Enablement of telephone number changes inmaintenance mode

25x 251 = YES 250 = NO NO see communicator

Radio interference ind ication 26x 261 = YES 260 = NO NO 30s or longer

Radio communication supervision 27x 271 = YES 270 = NO NO

RESET enabled 28x 281 = YES 280 = NO YES

Master control panel enrollment to a sub control

panel for setting (arming) control

290 The sequence triggers

enrollment.

(Un)setting the master controlpanel will (un)set the sub control p.The sub c. panel must be inenrollment mode.

Master code reset 291 Returns master code to 1234It has no effect on other codes andit is recorded in the control panelmemory

Measuring signal strength 298 Acti vates measuremen t arrow keys scroll addresses,

# halts measurement.

Enrolling the control panel to UC, AC or a subcontrol panel

299 The sequence triggersenrollment.

see 12.10

Setting (arming) without an access code 30x 301 = YES 300 = NO YES by keying: A, B, ABC,1, 2, 3,4

Triggered detector ind icationby text on the keypad display

31x 311 = YES 310 = NO YESallows the display ofopen windows &

doors,to view details press ?

Confirmation of int ruder alarmsIn this mode, the triggering of an intruder detector in a set(armed) section will only be recorded to the memory as anunconfirmed alarm and if then followed by the activation of any

32x321 = YES 320 = NO

NOAn alarm can beconfirmed by anyother intruder detectorin any section which

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other intruder detector within 40 minutes, an alarm will betriggered. If the first triggered detector has a DEL reaction andit is not confirmed by any other detector, it will not trigger analarm after the entrance delay has expired.

is set (armed).

Exit delay beeps 33x 331 = YES 330 = NO YES The last 5 s faster

Exit delay beeps whi le partiall y arming 34x 341 = YES 340 = NO NO The last 5 s faster

Entrance delay beeps 35x 351 = YES 350 = NO YES

Setting (arming) confirmation by wired-siren chirp 36x 361 = YES 360 = NO NOIW terminal only

Siren always sounds during audible alarms 37x 371 = YES 370 = NO YESNO = siren onlysounds if the system

is completely set(armed)

Wireless-siren alarms enabled (IW & EW) 38x 381 = YES 380 = NO YES

Auto-bypass user approval via the

keyIf a detector is active during setting (arming), the system willautomatically bypass it (them), immediately (390), or after

keying in (391)

39x 391 = YES 390 = NO NO to confirm auto-bypass while exitingService mode press #twice

Final-door detectorsIf this function is used, then Exit & Entrance delay settings aremultiplied by 30s. A triggered final-door detector extends theexit delay, de-triggering of the last final-door detector ends theexit delay.

65x 0=none, 1=detectors 01 to 05,2=detectors 46 to 50

x = 0 If multiple F. doordetectors are used,then triggeredstate=any of them,non triggered state=allof them

Partial setting (arming) or system splitting 66x0 = unsplit system

1 = partial setting (A, AB, ABC)2 = split system A, B & commonsection C (set if A & B are set)

unsplit

Automatic Summer Time (Daylight Saving Time) 680x 6801 = YES 6800 = NO NOChanges internalclock + 1h on Apr.1 &-1h on Nov.1

Tamper-signal differential indication -Tamper alarm in response to an increase in thenumber of triggered tamper sensors

681x 6811 = ignore permanentlytriggered tamper sensors, i.e.only react to an increase in

the number of triggeredtamper sensors

6810 = react with a tamperalarm to all triggered tamper

sensors

X = 0Suppresses theindication ofpermanently triggeredtamper sensors

Operating the PG outputs using 8 and 9 682x 6821 = YES 6820 = NO YES if yes then arrow keyscan also operate PGX

Permanent alarm status display for a set system 683x 6831 = YES 6830 = NO NOsuppresses the 3min.display timeout

Tamper alarm if unset (disarmed) 684x 6841 = YES 6840 = NO NO

Recording PG output activation to memory 685x 6851 = YES 6850 = NO YES

Engineer reset 668x 6851 = YES 6850 = N0 NO

Annual check requirement d isplayIf enabled then 12 months after exiting Service Mode anannual technical check request is displayed on the keypad unit(mobile phone & ARC notification optional)

690x 6901 = YES 6900 = NO NO

Only single alarm indicationIf enabled then another intruder alarm can not be triggeredduring an intruder alarm currently in progress.

691x 6911 = YES 6910 = NO NO

Setting (arming) by service code 692x 6921 = YES 6920 = NO NO only with the mastercode holdersapproval

Audible panic alarm 693x 6931 = YES 6930 = NO NO

Higher con trol-panel receiver-sensitivityExtends the communication range if there is no RFinterference

694x 6940 = normal 6941 = highernormal

Access by Code plus Card If enabled and there is a code and card assigned to the sameuser, then both of them must be presented for setting (arming)control (in any order).

695x6951 = Code+Card

6950 = Code or Cardcode or

card

Audible 24h intruder alarm 696x 6961 = YES 6960 = NOYES

Service mode only with Service + Master code 697x 6971 = YES 6970 = NONO

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Device reactions and section assignment (detectors,key fobs, control panel and keypad inputs)

A detector s natural reaction can be INS, DEL or Fire(selectable in the detector)

The natural reaction of Control panel & Keypad wiredinputs is DEL

Keyfob natural reactions: (or )= SET (arm) ,

(or )= UNSET (disarm) and both simultaneously = Panic. If a

reaction from 2 to 8 is selected (see opposite), only the key

(or ) and double buttons + ( + ) will have it.

The ( ) button has no effect (can still be used for

controlling UC/AC receivers). Assignment to sections will only have an effect on partial

arming or if the system is split (except PG output control)

For partial arming, a pair of keyfob buttons assigned tosection:

A has the eff ect : (or )=SET A, (or )=SET AB

B has the effect: (or )=SET A, (or )=SET AB

C has the effect: (or )=SET ABC, (or )=UNSET

ABC

In a split sys tem, a keyfob button pair assigned to section:A=SET/UNSET A, B =SET/UNSET B, C =SET/UNSET ABC

61 nn r s

Code (card) reactions and section assignment A code (card) may have the same kind of reaction as

devices

62 nn r s

nn = address 01 to 50r = reaction 0 disabled (incl. tamper sensor)1 Natural this means:

for detectors=selected byDIP switch in the detector,for wired inputs=DELay,for Codes(cards)=SET/UNSET

2 Panic3 Fire4 24 hours5 Next DELay6 INStant7 SET (arm)8 PG control (s: 1=PGX,

2=PGY,3=PGX+PGY)9 SET/UNSET (toggle)

s = section 1=A, 2=B, 3=C - hasto be entered even if the systemis not split and setting(arming)has no meaning.In a split system, a code (card)assigned to C will SET/UNSETall ABC sections

all Naturalin C

Enrollment by keying in production codes 60 nn xxxxxxxxnn = address 01 to 50, xxxxxxxx = last 8 digits of theproduction code (below the bar code on the device)

Automatic Daily Setting/Unsetting schedule(arming/disarming)

64nahhmmn action sequence index (0 to9)a action:0=no action1=SET ABC2=UNSET ABC3=SET A4=SET B (if unsplit then AB)5=UNSET A (if unsplit then ABC)6=UNSET B (if unsplit then ABC)hh - hours, mm - minutes

No action The scheduledactions will happenevery day

Changing the service code 5 NC NC NC = new code (4 digits) 8080 enter NC twice

Go to maintenance mode 292 switches to maintenancemode

-

Setting the internal clock 4 hh mm DD MM YY00:00 1.1.00

Editing keypad textText for device names, code names and PG output names arestored in each individual keypad.

Press and hold the ? key to enter text editing(the first character of the first address namewill start flashing). Then use keys:

and to select some text (or an address)

1& 7 character selection (A,B,C,D...8,9,0)

4& 5 cursor (to the left & right)

2to erase a character

= exit editing and save changes

DeviceOnly capital letterscan be entered thisway. If there aremultiple keypads,each must be editedindividually this wayor all of them can beeasily programmedvia Comlink software

12.2. Exit delay time

An exit delay time occurs while setting (arming) the system.During this time period delayed or next-delayed detectors can betriggered without an alarm occurring. To program the delay time,enter:

20xwhere x is a number from 1 to 9 determining the

duration in steps of tens of seconds (1=10 s,2=20 s,....)

If there is a final-door detector in the system then theexit delay is multiplied by 30 s instead(1=30 s,2=60 s,...)

Example: To program a 20 seconds exit delay, use thesequence 202 (if there is a final door detector, a 60 seconds

delay will result) .

Factory default setting: x = 3

12.3. Entrance delay time

The entrance delay time is provided to unset (disarm) the

system after a first delayed detector has been triggered. Toprogram this time, enter:

21xwhere x is an number from 1 to 9 determining the

delay in multiples of 5 seconds ( 1=5 s,2=10 s,....)If the entrance delay is triggered by a final-door detector, then parameter x is multipliedby 30 s instead. (1=30 s, 2=60 s,...) in thiscase it means that the entrance delay wouldbe six times longer than if it had beentriggered by an ordinary detector.

Example: To program a 20 seconds entrance delay, enter the

sequence 214 ( if the delay has been activated by a final-doordetector, a 120 seconds delay will result instead).

Factory default setting: x = 4

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12.4. Alarm duration time

This parameter limits the duration of a triggered alarm. After thealarm state expires, the control panel will return to its previousstate, i.e. as before the alarm occurred. The alarm state can alsobe terminated by an authorised user. To program the alarmduration enter:

22xwhere x isa number from 0 to 9 determining

the alarm duration: 0 = 10 s, 1 = 1 min., 2 = 2min. up to 8 = 8 min., 9 = 15 min.

Note: There can be up to 5 different alarms in the system: intruder,tamper, fire, panic, and technical alarm .

Example: Alarm duration of 5 min. = sequence 225

Factory default setting: 4 minutes

12.5. PGX and PGY functions

The functions of PGX and PGY can be programmed by enteringsequences:

2 3 x for PGX

2 4 x for PGYwhere x determines the PG function or the event which triggersa change of PG state:

x Unsplit system Split system

0 Completely (ABC) set= PG on

Alarm A = PG on

1 Anything set = PG on Alarm B = PG on

2 AB set (not ABC) = PGon

Entrance delay A = PG on

3 Fire alarm = PG on Entrance delay B = PG on

4 Panic = PG on A set = PGX on, B set = PGY on

5 Any alarm = PG on Panic A = PGX onPanic B = PGY on

6 AC dropout = PG on Fire = PGX on, dropout =PGY on

7* ON/OFF8* 2 seconds pulse

* The ON/OFF and 2 second pulse functions can be controlled from

the keypad by keying in * 8, *9 or using the arrow keys (see12.27) or they can be operated by a code or card. These PG outputfunctions can also controlled by signals from keyfobs or detectors (see12.41).

Notes:

The PGX and PGY outputs are not only provided as control panelterminals, but the signals are also wirelessly transmitted for UC andAC modules.

The status of PGX and PGY outputs can be displayed by pressingthe ? key. The names of the outputs can be edited see 12.47.

Example (for unsplit systems): Assigning an ON/OFF functionto the PGX output = sequence 237. Assigning a panic function tothe PGY output = sequence 244.

Factory default setting: PgX= ON/OFF, PgY= anything set

12.6. Changing telephone numbers in maintenancemode

If the control panel is equipped with a JA-80Y, JA-80V or JA-80Xcommunicator, then this sequence enables the holder of themaster code (system administrator) to program telephonenumbers for alarm reporting in maintenance mode.Programming telephone numbers is the same as in Service

mode (see communicator manual):2 5 1 programming enabled

2 5 0 programming disabled

Factory default setting: programming disabled.

12.7. Radio interference indication

The control panel is capable of detecting and indicating radiocommunication jamming. If this function is enabled, any radiojamming longer than 30 s will trigger fault indication.

2 6 1 enabled

2 6 0 disabled

Factory default setting: disabled.

Note: In some places the system can be permanently or occasionallyaffected by radio interference, e.g. by nearby radar stations, TVtransmitters etc. In most cases the system can tolerate such effects, butwith this anti-jamming function disabled.

12.8. Radio communications supervision

If enabled, the control panel can routinely check wirelessconnections to its devices. If communication with a particulardevice is lost, the control panel can communicate a fault indicationto the user:

2 7 1 indication enabled

2 7 0 indication disabled

Notes:

In the Oasis system, communication is checked every 9 mins.

In detectors used for car protection, (JA-85P, JA-85B) it is possible todisable radio communication supervision. It allows car detectors to beexcluded from supervision to avoid alarm triggering when driving thecar away from the system.

Random dropouts in communication can occur in some installationsnear e.g. airports or TV towers. The system is still reliable in suchsituations as high-priority transmissions are repeated often. Werecommend disabling communications supervision in cases like this.

Factory default setting: supervision disabled.

12.9. RESET enabled

If resetting is enabled, it is possible to return the control panel toits original factory-default settings via the reset link on the mainboard. (see section9.).

2 8 1 RESET enabled

2 8 0 RESET disabled

Warning: If resetting is disabled and the service code has beenforgotten, it would no longer be possible to enter Service mode. If thishappens, send the control panel back to the manufacturer.

Factory default setting: RESET enabled.

12.10. Enrollment to a sub control panel for setting(arming) control

If the control panel has another Oasis control panel enrolledas a sub-system, then the sub-system reports all alarms,tampering and faults to the master control panel. The master

control panel reacts to particular signals accordingly, anddisplays the sub control panels address as the source.After sub control panel enrollment to the master control

panel, these two panels are independent concerning settingcontrol. Each panel can be operated by its own keypads orkeyfobs. If there is an alarm or fault in the sub control panel, it isalso indicated on the master control panel. In this configuration itis impossible to control the sub control panel from the mastercontrol panel..

If it is desired to control a sub control panel from a mastercontrol panel (i.e. setting/unsetting), it is possible to enroll a JA-80 Oasis master control panel to a sub control panel as aremote control as follows:

1. First enroll the sub control panel to the desired address in the

master control panel by entering 299 on the sub controlpanels keypad in Service Mode - see 11.2.7 for full details.

2. Switch the master control panel to Service Mode.

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3. In the sub control panel, enter enrollment mode by keying in1 in Service Mode and select the desired address.

4. In the master control panel enter 290. This way the controlpanel will enroll to the sub control panel to the desiredaddress as a remote control.

5. Switch both control panels to maintenance mode and checkthat all-section setting of the master control panel also setsthe sub control panel and unsetting the master control panelunsets the sub control panel too. Expect approximately 2seconds of delay between control panels.

Notes for operating the sub control panel: The sub control panel can still be operated independently via its

keyfob or keypad e.g. it can be set while the master control panel isunset. If the master control panel changes its status later on, it willthen control the sub control panel to achieve synchronisation.

To disable the master control panels ability to control the sub controlpanel, enter the sub control panels enrollment mode, select theaddress where the master control panel is enrolled and erase themaster control panel from this address by pressing and holding key 2.

12.11. Master code reset

If the master code has been forgotten or a card lost, it ispossible to use the following sequence to reset the master codeto the factory-default 1234:

291Note: Resetting the master code has no effect on other codes andcards. Resets are recorded in the control panel memory and sent to theARC if used (Alarm Receiving Centre, previously called a centralmonitoring station).

12.12. Control panel enrol lment to UC or AC modulesor to a sub con trol panel

Keying in 299 sends an enrollment signal to enroll the controlpanel to UC-82 or AC-82 receiving modules (see 11.6). Thissequence can also be used to enroll a sub control panel to amaster control panel (see 12.10).

12.13. Setting (Arming) without an access code

Hot setting keys (short-cut keys for setting) A, B, ABC orentering number can be enabled for use without a valid access

code or card. If disabled, then hot key use or entering numberhas to be followed by a valid access code or card to have anyeffect:

Function/sequence 301 300All-section setting ABC key Code/card

Setting of A A key A key, code/card

Setting of AB (or B) B key B key, code/card

Event memory recall4 4 code/card

If you remotely operate the system by mobile phone, you can

press 1 for the ABC key, 2 for key A, and 3 for key B.

Controlling the PG outputs by keying in 8 or 9 or pressing

and is unaffected by these settings. These keys canhowever be disabled by a special sequence (see 12.27).

Factory default setting: Setting (arming) without an accesscode enabled.

12.14. Triggered-detector indication

Pressing the ? key checks if any detectors are permanentlytriggered, e.g. if any doors or windows are open. The followingsequence enables the display of text concerning activedetectors.

3 1 1 indication enabled

3 1 0 indication disabled

Factory default setting: indication enabled

12.15. Confirmation of intruder alarms

To reduce the risk of false alarms and to comply with Britishstandard BSI DD243, the control panel allows alarmconfirmation logic to be enabled as follows:

3 2 1 confirmation logic enabled

3 2 0 confirmation logic disabled

Confirmation logic:

If the system is set (armed) and any intruder detector getstriggered, i.e. a detector with an instant, delayed, or next-

delayed reaction, an alarm will not be caused but the controlpanel will record a so-called unconfirmed alarm.

If any other intruder detector is triggered in a set section within40 minutes of the above event, an intruder alarm will betriggered. If no other detector is triggered during this period,the control panel will stop waiting for confirmation.

The alarm must be confirmed by another detector than thefirst one, and if the second one is a motion detector itsdetection area must not cover the same area as the firstdetector to be triggered. This must be ensured by the properlocation of detectors.

An unconfirmed alarm is recorded in control panel memory butcan also be sent to the ARC, or to the user by SMS report.

If the first triggered detector has a delayed reaction, it will starta so-called unconfirmed entrance delay. This delay isindicated the same way as an ordinary entrance delay, but ifno other delayed detector is triggered during this delay, therewill be no alarm if the unconfirmed entrance delay isexceeded, with another unconfirmed alarm being recorded inthe control panel memory. If there is any other delayed ornext-delayed detector triggered during the entrance delayperiod, it will confirm the entrance delay, and if this delay isexceeded (due to no unsetting being done) it will trigger anintruder alarm at the end of the delay.

If the unconfirmed entrance delay is confirmed by an instantdetector it will trigger an internal warning alarm immediately(e.g. an internal siren) and if the entrance delay times out thenan external alarm will be triggered.

An unconfirmed alarm can be confirmed by any other intruderdetectors in the system as long as the detectors are assignedto a set (armed) section.

The confirmation of intruder alarms has no effect on fire,panic, 24-hour, tamper, or technical alarms. These alarms aretriggered immediately without confirmation.

Note: When the first detector is triggered it begins a processwhich waits 40 minutes for any possible confirmation of thealarm (unconfirmed alarm status) during which the system worksexactly the same way as if the confirmation function had notbeen enabled.

Warning: If intruder alarm confirmation is enabled, it isnecessary to install enough detectors in the building to detect anintruder even if he/she is only moving in one particular place.

Factory default setting: confirmation disabled

12.16. Exit delay beeps

The exit delay can be indicated by beeps from the keypad andinternal siren. The beeps get faster in the last 5 seconds.

3 3 1 Beeps enabled

3 3 0 Beeps disabled

Factory default setting: Beeps enabled.

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12.17. Exit delay beeps whi le partially setting(arming)

The exit delay caused by partial setting, e.g. using the A or Bkey, can also be indicated by keypad beeps and internal-sirenbeeps. The beeps get faster in the last 5 seconds.

3 4 1 Beeps enabled


Factory default setting: Beeps disabled.

12.18. Entrance delay beeps

The entrance delay can be indicated by keypad beeps andinternal-siren beeps:

3 5 1 Beeps enabled


Factory default setting: Beeps enabled

12.19. Setting (arming) conf irmation by wired-sirenchirp

A hard-wired siren connected to the IW terminal of the controlpanel can audibly indicate setting by one beep, unsetting by twobeeps and unsetting after an alarm by three beeps. Four beepsmean an invalid attempt at setting the system has occurred.

3 6 1 Chirps enabled

3 6 0 Chirps disabled

Note: In JA-80L wireless sirens, this function can be individually enabledfor each siren. (see the siren manual).

Factory default setting: Hard-wired siren chirpsdisabled

12.20. Sirens always sound during audible alarms

Using this sequence it is possible to disable internal and externalsirens (IW and EW) if any part of the system is unset (partialsetting), i.e. when someone is home.

3 7 1 Sirens always sound during audible alarms3 7 0 Sirens only sound during audible alarms when all

sections are set, i.e. no one is home

Factory default setting: Sirens always sound during audiblealarms.

12.21. Wireless s iren alarm enabled (IW and EW)

This setting is for enabling and disabling wireless sirens in thesystem:

3 8 1 wireless sirens enabled

3 8 0 wireless sirens disabled

Note: This setting has no effect on wired output terminals.

Factory default setting: wireless sirens enabled

12.22. Auto-bypass user approval via the key

The system has a built-in auto-bypass function so that if anynumber of detectors are being triggered during setting (arming)then they will be bypassed and ignored automatically.If auto-bypass approval by the user is disabled, then duringsetting (arming) the system notes which detectors are currentlytriggered and automatically bypasses them without consultingthe user.If however, auto-bypass user approval is enabled, then duringsetting (arming), the system notes which detectors are currentlytriggered and displays informative text on the keypad and onlybypasses them if the user approves the bypassing by keying in a

within 6 seconds of being notified.

3 9 1 Approval is requested from the user

3 9 0 Bypassing occurs automatically without user approval

Notes regarding setting the system with (a) triggered detector(s):

Details on currently triggered detectors can be viewed by pressing the? key (e.g. open doors or windows).

If a wireless keyfob is used to set the system and auto-bypass userapproval is enabled, the system will set without bypass approval, i.e.setting by keyfob does not trigger an approval request.

The automatic bypass of a detector will end after the detector hasbeen de-triggered (for example if a door is closed)

If auto-bypass user approval is enabled and Service mode is beingexited while a detector is being triggered, the installer will be notifiedabout the bypass. The installer can then approve the bypass bypressing # twice.

To comply with the EN-50131-1standard 391 should be set.

Factory default setting: Bypassing occurs automaticallywithout user approval

12.23. Final-door detectors

In this mode, up to 5 detectors can be defined as final-doordetectors and assigned to addresses 01 to 05 or 46 to 50 inorder to make leaving a building much easier, especially via agarage:

65xwhere x: 0 = none,

1 = detectors on addresses 01 to 05,2 = detectors on addresses 46 to 50

Description of final-door detector mode:

If a final-door detector is used in the system then the value ofx for exit delay programming is multiplied by 30 s (see 12.1)thereby extending the delay, and if an entrance delay istriggered by a final-door detector then the value of x for theentrance delay is also multiplied by a larger value of 30 s.

A final-door detector should be programmed to have a naturalreaction.

Door/window detectors, hard-wired control panel inputs orhard-wired inputs in the wireless keypad unit can be used asfinal-door detectors.

If a final-door detector is used for a garage door, no instantdetectors should be inside the garage. Next-delay detectorswould however be acceptable.

Setting (arming) the system with a final-door detector

After entering a request to set the system, an exit delay ofbetween 30 to 270 seconds will begin and be indicated.

If a final-door detector is triggered during the exit delay, theexit delay will be extended by the time in which the detector isstill triggered. So, if for example, the door is left continuouslyopen, the exit delay will never end.

If a final-door detector is de-triggered, the system will wait fivemore seconds during which beeping gets faster, and if the

door is not opened again during this short period, the exitdelay will terminate and the system will be set immediately.

The duration of the exit delay therefore depends on the timethe final door stays open. For instance, in winter if thedriveway in front of a garage needs to be cleared of snowthere will be plenty of time to do it, and in summer whengarages can be exited easily and therefore quickly, the exitdelay can be rather shorter. The exit delay only depends onthe length of time the garage door is left open.

If no final-door detectors are triggered during the exit delay,the system will provide an exit delay and then set.

If the final door detector stays continuously triggered, anendless exit delay will result with the system never being set.This means all delayed and next-delayed detectors will not be

set (armed).

If there are multiple final-door detectors in the system, the exitdelay is extended if any of them is triggered and ends after allfinal-door detectors have been de-triggered.

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Unsetting (disarming) the system with a final door detector

If a final-door detector gets triggered in a set (armed) system,an entrance delay will begin with a duration of between 30 and270 seconds.

If a normal delayed detector gets triggered while the userenters a building, the system starts an ordinary entrance delayof between 5 and 45 seconds.

If a final-door detector is triggered first, a longer entrancedelay will begin. If during this delay an ordinary delayeddetector is then triggered, the remaining entrance delay will

then be shortened to the delay associated with detectors ofthis kind.

Note: Only use status-reporting detectors such as the JA-80M or JA-82M, or the hard-wired inputs of wireless keypads, or the hard-wiredinputs of a control panel as final-door detectors. This mode is unsuitablefor pulse detectors such as JA-80P motion detectors, or the hard-wiredinputs of JA-80E hard-wired keypads which also have a pulse reaction.

Factory default setting: No final-door detectors in the system.

12.24. Partial setting (arming) or system spli tting

The control panel can be configured in three ways as follows:

the entire system sets and unsets together or,

the system partially sets and unsets to protect onlycertain parts of a house during the day, while peopleare still present in the unset parts or,

the system can be split into two independentlyset/unset sections for two separate users and also witha common section if desired.

Program as follows to configure the system as desired:

66xwhere x =0 = unsplit system (setting/unsetting as an

entire system)x=1 = partial setting (for setting sections A, AB,

or ABC)x=2 = split system (sections A and B can be

set/unset independently by separate users,with section C only being automatically setwhen both A and B are manually set)

Notes:

For an unsplit system, all intruder detectors are set/unsetimmediately after the user sets/unsets the system. Assigning wirelessdevices, access codes and keyfobs to various sections of the systemhas no effect in this mode.

Partial setting is especially suitablefor homes and apartments wherethe user wishes to protect different parts of the premises during theday. Detectors can be assigned to three sections, A, B and C. Usingsetting (arming) key A on the system keypad, you can set section A,e.g. setting the garage area in the afternoon. Using setting key B youcan set sections A and B simultaneously e.g. in the evening before

going to sleep to protect the garage (section A) and the ground floorof the house (section B). The ABC total-setting button is used whenleaving the home to set all sections, A,B and C. If you then use a validaccess code or card for unsetting (disarming), all sections will beunset. The assignment of codes or cards to sections has no effect inthis mode.

A keyfob can also be used for partial setting control. Buttons and

can be programmed to set and unset the entire system, and

buttons + can be programmed for setting (arming) sections A

and AB respectively to partially set the system. (see 12.40 for detailson partial setting by keyfob).

Split system mode is especially suitable where two families (A andB) live in a single house or two companies (A and B) share onebuilding. The system behaves as two independent systems, one beingsection A and the other, section B. There is also a common section Cwhich is only set if section A and section B are set at the same time.and is commonly used for shared entrances, doors etc. Detectors canbe assigned to sections A, B or C. Access codes and cards can beassigned to operate either section A or B (not both), or alternatively tosection C to access the entire building. The same is true for keyfobaccess.

Partial setting only has an effect on intruder detectors, i.e. detectorswith instant, delayed or next-delayed reactions. Detectors with fire,tamper, panic and 24-hour reactions are always able to trigger theirkind of alarm immediately, whether their section is set (armed) or not.

Factory default setting: Unsplit system.

12.25. Automatic summer time (daylight saving time)

If enabled, this feature automatically offsets the system time tothat of summer time, or daylight saving time as it is also known,:

6801 automatic summer time enabled

6800 automatic summer time disabled

Note: If automatic summer time is enabled, the control panels internalclock is automatically offset by +1 hour on March 31

st at midnight. The

offset is then removed on October 31st at midnight to return to winter

time.

Factory default setting: automatic summer time disabled

12.26. Tamper alarm in response to an increase inthe number of triggered tamper sensors

This feature allows permanently triggered tamper sensors to beignored:

6811 ignore permanently triggered tamper sensors, i.e.

only react to an increase in the number of triggeredtamper sensors.

6810 react with a tamper alarm to all triggered tampersensors

Note: Ignoring permanently triggered tamper sensors is useful forexample when carrying a detached wireless keypad around with youduring installation as this avoids unnecessary tamper indication.

Factory default setting: react with a tamper alarm to alltriggered tamper sensors

12.27. Operating the PG outputs using 8 and 9

Using this feature the PGX and PGY outputs can be controlled

from the keypad by pressing the 8 and 9 keys (or keys and

).

6821 control enabled

6820 control disabled

Notes:

The PG outputs can only be operated from the keypad if they havetheir ON/OFF or pulse functions enabled.

In addition to controlling the PG outputs using keys 8 and 9, PGoutputs can also be controlled by access codes, access cards,keyfobs and detector signals (see 12.40 and 12.41 for details).

If a PG output should only be operated by a valid access code or

card, then control by 8 and 9 should be disabled and the codes andcards should be programmed to control the PG outputs instead (see12.41).

Factory default setting: control enabled

12.28. Permanent alarm status display for a setsystem

The below sequence enables the permanent display of alarmstatus on the keypad unit, even if the system is set.

6831 permanent status display enabled

6830 display time a maximum of 3 minutes if any section isset (armed)

Notes:

European legislation requires status displaying to be suppressedwithin three minutes of setting (arming) the system, no matter howmuch or little of the system is set. This feature can be used to ignorethis requirement if appropriate.

The wireless keypad can continuously display the status if poweredby an external power supply. If powered by internal batteries thekeypad will turn off its display after 20 seconds of not being used ( inService Mode the display turns off after 15 minutes of no use by theinstaller).

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Factory default setting: only 3 minutes of display time

12.29. Tamper alarm if unset

According to EU legislation an unset (disarmed) system shouldnot audibly sound a tamper alarm if tampering occurs. If theaudible indication of tamper alarms is required while the systemis unset (disarmed) then this can be enabled by the followingsequence:

6841 audible tamper alarm even for an unset system

6840 silent tamper alarm for an unset system

Notes:

Even if tamper alarms are silent, they are still recorded in the controlpanel memory and reported to the end user by SMS, and also to theARC if used.

If the sequence 370 has been programmed, then tamper alarms willbe silent if the system is unset or partially set.

Factory default setting: silent tamper alarms for an unsetsystem

12.30. Engineer reset

This is a special function requested by the DD243 standard. It canonly be used when the alarm system is connected to an alarm-receiving center. When a confirmed alarm is activated the control

panel is completely blocked it cannot be operated by any user,master or service code until an engineering reset is performed byan ARC code.

6861 Engineer reset enabled

6860 Engineer reset disabled

Factory default setting: Engineer reset disabled

Notes:

To enable the confirmation of intruder alarms (requires two detectors to betriggered in different zones within a definite period) use sequence 3 2 1

Reporting to ARCs must be locked by a digital code.

The keypad shows the text Eng. reset reqd and the system stays

blocked until the ARC code is used via the communicator (see manual). The feature is supported when a JA-80Y version XA61008 or higher, or a

JA-80V version XA64005 or higher is installed.

12.31. Recording PG output activation to memory

The activation of PGX and PGY outputs can be recorded in thecontrol panels memory (for example if the outputs are used foraccess control). This can be enabled by the following sequence:

6851 enabled

6850 disabled

Factory default setting: recording enabled

12.32. Annual check noti ficationThis sequence enables the user and installer to be notified of thenecessary time for an annual technical check:

6900 notification disabled

6901 notification enabled

Notes:

An annual technical inspection notification is displayed as text on thekeypad display and can also be sent as an SMS to the end userand/or installer and/or as a report code to an ARC, if used.

Annual technical inspection notification text disappears on enteringService Mode

When this notification is enabled, exiting Service Mode will cause anotification to occur in the next year on the first day of the month in which it

was set. (e.g. if you set the annual check notification on the 15th October2007, the notification is displayed on the 1st October 2008.)

When this notification is enabled, exiting Service Mode will cause anotification to occur every twelve months later (the same day andmonth).

If you wish to receive a notification earlier than a year later, changethe internal clock settings to the day and month you prefer beforeexiting Service Mode by entering 4hhmmDDMMYY, and then re-adjust the clock to the correct time in maintenance mode. By trickingthe system this way, you can be notified on the desired date. (see12.45, entering and exiting maintenance mode does not change thenotification date).

Example: If the date is 10 January 2007 and you wish to receive anotification 6 months later on 10 July 2007, while still in Service Modechange the system clock to 10 July 2007, i.e. the day and month of thedesired notification date. Then exit Service Mode and re-adjust the clockto the correct time in maintenance mode.

Factory default setting: Annual inspection notification disabled.

12.33. Only single alarm indication

If this function is enabled, then only one intruder alarm may beindicated at a time. Once an intruder alarm has been triggeredand has still not ended, then no more alarms can be indicatedno matter how many more times triggering occurs. After thealarm has ended, the system is then ready to indicate the nextsingle intruder alarm.

This is to limit the number of SMS reports sent if hard-wiredPIR detectors capable of being frequently triggered are installedin the system and the system is not unset (disarmed) properlywhen someone enters the building.

6 9 1 0multiple simultaneous intruder alarms allowed

6 9 1 1 single intruder alarm allowed only

Note: Apart from this limitation in the number of simultaneousintruder alarms, the system also checks to see if any detector istriggering multiple alarms during the period in which the alarm isset. Any such undesirable detector is then automaticallybypassed every time the system is set, if it has caused at leastfour alarms in a row.

Factory default setting: multiple simultaneous intruder alarmsallowed

Note: A panic alarm can always be triggered with no limits(except when in service and maintenance modes).

12.34. Setting (arming) by service code

Using this sequence, the installer can be authorized to set andunset the system by means of a valid service code. This featureshould only be enabled with the explicit approval of the mastercode holder (system administrator):

6 9 2 0 disabled

6 9 2 1 enabled

Factory default setting: disabled

12.35. Audible panic alarm

If enabled, panic alarms can be indicated by internal and

external warning devices (sirens on IW and EW):6 9 3 0 silent panic alarm

6 9 3 1 audible panic alarm

Note: If the sequence 370 is used, panic alarms are silent if any sectionof the system is unset.

Factory default setting: silentpanic alarm

12.36. Higher cont rol-panel receiver-sensitivity

If enabled, this feature can extend the communication rangebetween the control panel and its wireless devices if there is noradio frequency interference in the premises.

6 9 4 0 standard control panel sensitivity

6 9 4 1 higher control panel sensitivity

Note: The sensitivity of the control panel receiver should only beincreased if there is no RF interference as the radio range would only bereduced if interference was present.

Factory default setting: standard control panel sensitivity

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12.37. Access by code plus card

This feature increases security against unauthorisedsetting/unsetting (arming/disarming):

6950 system access by code or card

6951 system only accessed by code and card if both areassigned to the same user position

Notes:

The system has up to 50 user positions (01 to 50) each capable ofhaving an access code and an access card assigned to it. If both acode and a card are assigned to a user then the above sequences(6950 and 6951) determine whether the user can use a code or a cardor whether he must present both a card and a code to gain controlover the system. If both a card and a code have to be presented, theorder in which they are done is unimportant.

If only a card or only a code is assigned to a user, then the abovesettings have no effect on users like this.

Factory default setting: system operated by code or card

12.38. Audible 24 hour intruder alarm

The 24-hour intruder alarm which can be triggered whether thesystem is set or not, and can also be silent or audible (IW andEW) according to the following sequences:

6 9 6 0 silent 24-hour intruder alarm

6 9 6 1 audible24-hour intruder alarm

Note: If sequence 370 is programmed, the intruder alarm will be silent ifany section in the system is unset.

Factory default setting: audible 24 hour intruder alarm

12.39. Service mode only wi th service code andmaster code

To prevent the installer from accessing Service Mode without ausers permission, this feature (if enabled) makes it compulsoryfor the master code (or any valid user code) to be entereddirectly after entering the service code to access Service mode.

Service Mode can then be entered by keying in 0 service-codemaster-code(or user-code).

6 9 7 0 Only service code needed.

6 9 7 1 Service code and master code (or user code)needed.

Factory default setting: Only service code needed .

12.40. Device reactions and section assignment

The following sequence programs the characteristics of systemdevices :

61 nn r swhere: nn is the device address from 01 to 50 (01 and

02 can either be the hard-wired input terminalsin the control panel or enrolled wireless devices)

r is the reaction index from 0 to 9 see Table 2s is the section 1 = A, 2 = B, 3 = C (only has an

effect if partial setting or system splitting is used except for PG output control)

Guidance on assignment to sections:

Assign ing keyfobs w ith natur al react ions to sections

s buttonUnsplitsystem

Partialsetting

Splitsystem

(or ) set set A set A1

(or ) unset set AB unset A

(or )

set set A set B

2(or ) unset set AB unset B

(or ) set set ABC set ABC3

(or ) unset unset ABC unset ABC

If partial setting is programmed then detectors can be assigned tosections: A (s=1), B (s=2) a C (s=3). The three possible setting(arming) options are as follows:

A (using the A key on the keypad, e.g. setting (arming) the garagein the afternoon),

AB (using the B key on the keypad, e.g. setting (arming) the garageand the ground floor during the night)

ABC (using the ABC key on the keypad, e.g. to set the entiresystem when leaving the house).

In a split system, detectors can be assigned to sections: A (s=1), B(s=2) a C (s=3). Sections A and B can be set independently and

section C is a common section which only sets when A and B are set.

Partially setting and splitting a system only have an effect on intruderdetectors with instant, delayed or next-delayed reactions. Detectorswith fire, tamper, panic, and 24-hour reactions are continuously readyto trigger an alarm no matter which section they are assigned to orwhether their section is set or not.

If the selected reaction is PG output control then the s parameterdefines which PG output is controlled: s=1 PGX, s=2 PGY, s=3 PGXand PGY.

Guidance on programming reactions:

The reaction selected in a detector by its internal DIP switches is onlyobeyed by the control panel if the reaction programmed in thedetectors address is a natural one (r=1).

Keyfobs always enroll a pair of buttons ( + ) or ( + ). The

natural reaction of such a pair of buttons is shown in the above table.If any other reaction is selected for a keyfob, this reaction will only

apply to the first button of the pair, i.e. or (except for controlling

the PG outputs).

Factory default setting: All addresses from 01 to 50 have anatural reaction (r=1) and are assigned to section C (s=3).

Table 2 Control panel reactions

r Reaction Notes

0 Disabled For temporarily disabling codes or devicesincluding tamper sensors

1 Natural For detectors = instant, delayed or fire

(selectable in detectors by DIP switch)For hard-wired inputs of the control panel orkeypad= delayed

Keyfobs (or ) =set, (or ) =unset,

both buttons = panicCode = set/unset (see reaction r=9)

2 Panic Triggers a panic alarm (audible or silent, see12.35)

3 Fire Triggers a fire alarm

4 24 hours Triggers an intruder alarm even if the system isunset (audible or silent see 12.38)

5 Next delay Always provides an exit delay. An entrancedelay is only provided if it is triggered shortlyafter a delayed detector.

6 Instant If activated in a set (armed) section, it triggersan intruder alarm instantly

7 Set Sets its own section of the system

8 PGoutputcontrol

The value of the s parameter determines whichPG output is controlled: s= 1= PGX, s=2=PGYor s=3=PGX & PGY. To use this function thePG output involved has to be programmed tothe ON/OFF or pulse functions.If the reaction is triggered by:a code (card) the PG output changes itsstate (ON,OFF,ON,OFF) or a pulsedswitching event is generated after a valid codeor card is used. If a code or card isprogrammed this way, it cannot be used forsetting (arming) control. Many different codescan be programmed to operate PG outputs, ifdesired.a keyfob one button in a pair is used toswitch a PG output ON, the second one toswitch it off or each of them generates a pulsedswitching event. If a keyfob is programmed thisway, it cannot be used for setting (arming)control. Each PG output can have as manyassociated keyfobs as desired. If both buttons

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of the remote control are pressedsimultaneously, they will trigger a panic alarma detector the PG output copies the status ofthe detector or it generates a pulsed switchingevent when the detector is triggered. Thedetector also effects the control panel whichresponds with a natural reaction. Only onedetector should be programmed to a PG outputON/OFF reaction and should not be combinedwith keyfob or keypad control as the detectorrepeats its status every 9 minutes and it wouldoverride the signal from the keypad or keyfob.

9 Set/unset Toggles the system statusSET,UNSET,SET,UNSET etc

12.41. Code/card reactions and section assignment

The following sequence programs the features of access codesor cards:

62 nn r swhere: nn is the user position from 01 to 50

r is the reaction index from 0 to 9 see Table 2s is the section 1 = A, 2 = B, 3 = C (only has an

effect in a split system except for the PGoutput control reaction)

Guidance on assigning codes or cards to sections:

In partial setting (arming) mode assigning codes or cards to sectionshas no effect (except for the PG output control reaction). If anything in thesystem is set and a card/code is used, the system will then be unset, and

if all sections are unset then the whole system will be set by a card/code.Partial setting keys A and B on the keypad can be programmed to befollowed by a valid access code if required (see 12.13).

For a split s ystem, a code assigned to s ection:

A controls section A

B controls section B

C controls section A, B and C.

If the system is not split then the assignment of codes/cards tosections has no effect, but the s parameter must be entered in theprogramming section. Enter s=3 if splitting is not desired.

Guidance on code/card reactions:

If a code/card has a natural reaction, i.e. r=1, then its reaction is

set,unset,set etc. (the same as reaction r=9 in table 2).

A code/card can also have an alarm reaction designated to it, similarto detectors.

Factory default setting: all codes/card

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