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JA-80Y
User Manual
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jablotron JA-80Y User Manual

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The JA-80Y GSM communicator - 1 - MFJ55304
The JA-80Y GSM communicator
The communicator is a component of the Jablotron Oasis 80 system. This manual is valid for software version XA61010 or higher. The communicator is designed to be installed within the control panel housing. When connected to a GSM network it allows the following:
event reporting by SMS (to up to 8 telephone numbers)
event reporting by phone call with an acoustic warning
event reporting to an ARC (Automatic Receiving Centre – also known
as a Central Monitoring Station) - up to 2 ARCs
remote control and programming by phone (remotely authorizing a phone keypad or by SMS instructions)
the remote control of appliances in the house by dialling in from an authorized number (free of charge with unanswered calls)
remote control and programming via the Internet (www.GSMlink.cz
)
connecting a phone set = simulated tel. line = GSM gateway function (incl. CLIP protocol = caller ID and SMS transfer)
listening-in and voice communication – via a connected SP-02 intercom
connecting a PC to the Internet (GPRS modem feature)
1. Installation in the control panel
If you purchased the communicator module separately, it should first be installed in the Oasis control panel as follows:
a) the control panel power must be switched off (both mains and
battery)
b) Fit the communicator inside the control panel housing using screws
and connect its cable to the main board
c) attach the adhesive GSM antenna to inside the control panel’s
plastic housing (on the lower internal wall) and connect the antenna to the communicator – never switch the control panel power on if the GSM antenna is not connected to the GSM module as this will cause serious damage.
d) connect the relevant cables to the communicator if you intend using
the simulated telephone line, the AUX output or a PC serial data cable for the GPRS modem function
S
Y
M
B
O
L
SPACE
CANCEL MENU NAMES CALLS WRITE READ
123 456 7
8
9
0
#
2
SMS CALL
MUTE
FLASH
REDIAL
SPEAKER
SMS phone connected to RJ socket or PHONE terminals
AUX relay terminals
Internet connection via COM port
GSM antenna
Fig. 1 Communicator wiring
2. Powering up the communicator for the first time
If the communicator is installed in the control panel and its GSM antenna is connected then:
a) have a suitable SIM card ready. It should be activated (see if it
works in a mobile phone first). If it requires a PIN code when turning the phone on, then disable the PIN code request (for example in Nokia via: Menu / Settings / Security settings / PIN code request / Off). The communicator can work with a prepaid card, but for more reliable functioning use a tariff card (see 5.16).
b) insert the SIM card into the communicator (to open the card holder
push its frame up a little)
c) switch on the control panel power (mains and battery). The
communicator’s red LED should go off within a minute = successful registration to the GSM network.
If the red LED starts flashing after awhile, switch off the control panel power, put the SIM card into a mobile phone and check that it registers to the network in place of the control panel and without any PIN code requests.
d) close the control panel cover, the alarm system should be in
Service mode - if it is not, enter 0 Service code (factory default:
8080) with the alarm system unset (disarmed). e) key in 98101 - to set texts of the communicator to English language. f) key in 922 to measure the GSM signal strength (should indicate in
the range 0/4 to 4/4). It should be at least 2/4 for reliable functioning. If the signal is weak, change the location of the control panel or try a SIM card from another GSM provider (it is not recommended to use either a high-gain or directional antenna– see 5.2).
g) if the GSM signal is sufficient, test the communicator functions
(for example calling the system’s SIM card number and authorizing the phone keypad you are using) – see 3.3.
If installed at a location near a national border where roaming to a foreign network is highly likely (e.g. when the signal strength is
fluctuating), we recommended blocking the roaming feature in the SIM card to avoid unnecessarily high communication fees. Contact your GSM provider for details.
3. User functions of the communicator
The following text describes all communicator features. The installer should show the end user how to operate the functions used in a particular installation.
3.1. Making a phone call from a connected phone
The communicator provides a simulated phone line (including CLIP protocol) to connect a phone set:
the phone (tone dialling only) should be connected to the telephone
socket on the communicator board (or to the PHONE terminals)
the phone can be used as if connected to a standard telephone line
(factory default settings of the communicator)
if the phone supporting SMS messages is used, then besides phone
calls it is also possible to send and receive SMS messages (see
5.11.1)
the communicator terminates current phone calls if it is due to
send event reports
some phone sets are sensitive to nearby GSM radio signals. If you
hear strong interference in the phone receiver caused by the
communicator’s GSM signal, change the location of the phone set.
3.2. Listening-in and voice communication
If listening-in and voice communication are needed, then an SP-02 intercom should be connected to the phone line simulated by the communicator. The intercom can be connected in parallel to any existing phone set. The SP-02 works as a speaker-phone which answers calls automatically when coming from telephone numbers authorized to access the listening-in feature. The SP-02 also provides a push-to-talk feature to call a number stored in its memory. See the SP-02 manual for details on how to authorize numbers to listen-in, and how to program the push-to-talk number.
3.3. Temporarily authorizing a phone keypad to be a system keypad
It is possible to operate the system remotely by temporarily authorizing a phone keypad as follows:
The JA-80Y GSM communicator - 2 - MFJ55304
a) dial the system’s SIM card number (if a phone is connected to the
communicator’s simulated line it will start ringing)
b) after 25 seconds of ringing (programmable) the system will answer with
a short beep
c) key in a valid access code on the telephone keypad (e.g. 8080 or 1234
if factory default settings are still valid)
d) the phone keypad will behave as a system keypad and an acoustic
signal in the receiver will indicate the control panel status: 1 beep = SET, 2 beeps = UNSET, 3 beeps = Service mode, 4 beeps = incorrect code entry, siren sound = alarm
e) now the system can be operated from the phone keypad the same way
as from the system keypad – including the commands starting with ∗ (for example 81 to turn the PGX output on)
f) to exit this mode simply end the phone call (if nothing is entered within
a minute, the phone call will end automatically anyway)
Notes:
do not enter sequences on the phone too fast, each key signal
needs a certain time to be sent (it depends on the particular phone and the quality of the GSM connection)
a fixed-line phone can also be used to operate the system remotely
the same way (the phone must use tone dialling)
the system can also be operated from the keypad of a phone
connected directly to the communicator’s simulated line. It is only
necessary to pick up its receiver and briefly press the # key. Then the phone is ready to work as a control panel keypad. To finish operating just hang up.
Phone keypads have to be re-authorized each time the system is
called by entering the codes specified earlier, as phone keypads are only authorized as system keypads for the duration of a call to the system.
3.4. SMS instructions to control the system remotely
All incoming SMSes are checked by the communicator and if there are any instructions to the system, they will be performed. Each instruction message must have the following format:
code instruction
(valid code space instruction)
Valid code = any valid code in the system (e.g. 8080, 1234 etc.) The factory-default instruction texts (editable – see 5.5)
Instruction Function Note
SET setting (arming)
UNSET unsetting
(disarming)
setting or unsetting (the same way as if the used code is entered on the system keypad), If the system is already in the desired mode, it will not change
STATUS status
interrogation
including GSM signal strength, GPRS data, ARC communication (shown as MS1 and MS2)
MEMORY last event
interrogation
The last event recorded in the control panel memory
PGX ON turns on PGX
PGX OFF turns off PGX
PGY ON turns on PGY
PGY OFF turns off PGY
the PG output has to be programmed for the function: on/off (by 237/247) or 2 second switching (by 238/248)
AUX ON turns on AUX
AUX OFF turns off AUX
turns a pair of AUX terminals on the communicator module on/off
CREDIT
SIM card credit
interrogation
it has to be initialised by SMS before it can function – see 5.17
Example: by sending: “code SET” (valid code space SET) the system will set (if it is already set it will not change its status)
Notes:
performance of the instruction is confirmed by an SMS reply the instruction texts are not case-sensitive and only ASCII characters
are allowed
only one instruction can be in an instruction SMS a setting/unsetting instruction starting with the service code will only be
performed if setting/unsetting with the service code is enabled in the control panel (to protect against unauthorized setting/unsetting by installers)
an SMS instruction can also be sent to the alarm system from a phone
connected to the communicator (if supports SMS) – to phone number 001 (for free)
if there is any other text in the instruction not separated by “%”, the
instruction will not be performed
if you are sending an instruction and you are not sure whether any
other text will be automatically added to the SMS (for example, when
using an SMS internet gate) type the instruction as: %code
instruction%%
3.5. Toll-free remote control by unanswered calls from pre­authorized phones
A limited number of system functions can be activated remotely by calling the system from pre-authorized phones and terminating calls before the system answers. This way limited control of the system is free of call charges. It is possible to pre-authorize phone numbers stored in memories M1 to M8 (also used for event reporting – see 4).
To pre-authorize a telephone number store at the end of the number
and follow it by a single digit (1, 2, 3, 8 or 9) – see the notes in section 4.
If this number calls, the communicator generates “ digit“ after the first ring (as if it had been entered manually on the system keypad). This toll­free remote control by unanswered calls enables the following functions according to the digit stored at the end (after the *) of the tel. number in memory:
1 setting the complete system (= ABC keypad button) 2 setting section A (= A button)* 3 setting sections A & B or B (= B button)* 8 PGX turns on for 2 sec. (if PGX is programmed for the pulse
function)
9 PGY turns on for 2 sec. (if PGY is programmed for the pulse
function)
Notes:
if a phone sends no caller identification data it cannot be used for
this type of remote control by phone
if phone calls end before the control panel answers, remote control is
for free
a phone which is pre-authorized for toll-free remote control can also
temporarily authorize its keypad to fully operate the system (see
3.3) – just let it ring until the control panel answers the call
if it is desired that the phone which is authorized for toll-free remote
control should not receive event reports, then turn the reports off for that tel. number (see 5.4).
setting (arming) with ∗1,2 and 3 will work only if enabled in the
control panel
4. Reporting to phones
The communicator can report events occurring in the Oasis system by sending SMS reports and/or by calling phone numbers with an acoustic signal (mostly used as audible notification of an SMS to be read). Reporting can be programmed for up to 8 phone numbers.
The most frequently desired reports are already assigned to the telephone number memories by factory-default, so you only need to program tel. numbers to the particular memories which have the desired reports already assigned. If desired, other events can be reported to the number too, i.e. the list of event reports assigned to the number can be changed (see 5.4)
Factory-default reports assigned to the numbers M1 to M8
M Reports
1 2
Alarms and faults by SMS
3 4
Alarms and faults by SMS + phone call (if you answer the
call you hear a siren sound)
5 6
Alarms by SMS + a phone call, with Setting/Unsetting and faults by SMS only
7
Alarms by phone call (if you answer the call you hear a siren sound)
8 Technical fault by SMS (suitable for an installer)
To program phone numbers to the M memories, enter the following sequence while in Service mode:
81 M xxx...x 0
where:
M is memory 1 to 8 xxx...x is a phone number (max. 20 digits)
Example: entering 81 5 777 777 777
0 will store the number 777777777 in memory M5 (Alarms will be reported by SMSes + phone calls, Setting/Unsetting and faults only by SMS)
To erase a number from memory M enter: 81 M 0
Notes:
Entering 9 before the first digit will insert a “+” for the international
formatting of phone numbers
The JA-80Y GSM communicator - 3 - MFJ55304
if it is desired that the events be reported to the SMS phone connected
to the communicator then program tel. number 001 into the memory
SMS report text consists of: installation name, event name, number and
name of the event source (device or code), date and time. Example: “Report from your alarm: settin g 4 7 : d e v i ce Time 0 1 . 0 8 . 1 1 : 2 7 ”
if other events or texts should be reported to a particular number,
change the communicator settings (see 5.4 and 5.5)
when storing tel. numbers, if you key in 7 after the last digit of the
phone number (the symbol is also stored) and continue with one more digit (1, 2, 3, 8 or 9), then if this tel. number calls the system, the system will behave as if ” digit“ had been keyed in just after the first ring, i.e. as if it had been entered manually on the system keypad – see section 3.5. Example: entering 81 5 777 777 777
∗79 ∗
0 authorizes calls from tel. number 777777777 to trigger output PGY for 2 seconds (after the first ringing signal from this number the ∗9
command will be executed. The PGY output should be programmed for a 2 sec. pulse function. This setting is suitable for opening an electric door lock, automatic gate etc.
4.1. Programming
The most convenient programming is best done by a PC running Comlink software or via the Internet and website: www.GSMLink.cz
or by
programming SMS – PRG sequence Programming is also possible via the system keypad: The control panel must be in Service mode - if it is not, enter 0 Service
code (factory default: 8080) while the system is unset.
Enter the relevant programming sequences – see the following description To exit service mode press the # key
5. Programming sequences
Function Sequence Options Factory default
Language setting 981 xx
xx=01 to 17 where: 01=EN,02=CZ,03=SK,04=NL,05=DE,06=PL,07 =DA,08=IT,09=PT,10=FI,11=NO,12=SV, 13=FR, 14=HU, 15=RU, 16=TR, 17=SP
English
GSM signal strength measurement
922
On keypad or in ComLink software range 0/4 to 4/4 In reply to STATUS SMS: range 0/9 to 9/9
exit by pressing #
-
Tel. number programming for reporting to telephones
81 M xx..x 0
M = memory 1 to 8 xx..x = tel. number (max.20 digits)
keying in 9 = + and 7 = 81 M 0 erases the number in memory M
all M1 to M8 erased
Selection of events to report by SMS
82 M ec x
Selection of events to report by phone call
83 M ec x
M = tel. number memory from 1 to 8 ec = event code (see 5.4) x=1 report, x=0 no report
M1 & 2 alarms by SMS M3 & 4 alarms by SMS and call M5 & 6 alarms by SMS and call +
Set/Unset by SMS M7 alarms by call M8 technical faults by SMS (to installer)
SMS text editing*
Texts can be edited by Comlink software or by SMS instruction: code TXT n,text,n,text... or by www.GSMLink.cz
via Internet
see 5.5
Enable reporting to phones 80 x
x=0 disabled x=1 enabled (all programmed by 82.. & 83..) x=2 enabled without reporting setting/unsetting by users 41 to 50 (codes, cards & key-fobs) and master code setting/unsetting
enabled
Remote access 903 x
x=0 disabled x=1 enabled (by phone and Internet)
enabled
Forwarding of incoming SMSes 926 x
x=0 no, x=1 yes = if the incoming text is not an SMS instruction it will be forwarded to the first programmed number in memories M1 to M8
yes
SMS instruction confirmation 927 x x=0 no, x=1 yes (by SMS reply) yes
Reaction to incoming calls 904 x
x=0: no reaction x=1 to 8: answers after 1 to 8 rings x=9: answers after the 2
nd
call
answers after 5 rings (25s)
Simulated phone line function 951 x
x=0 tel. line (GSM gateway) x=1 alarm system keypad x=2 off x=3 automatically calls an emergency tel.
number when the tel. receiver is picked up
tel. line
Emergency tel. number
952 xx..x 0
xx..x = tel. number (max.20 digits) erased
GSM signal dropout indication 921 x x=0 no, x=1 yes (15min. dropout =Fault) no Phone microphone sensitivity 953 x Phone speaker loudness 954 x
x=1 to 9 (9 = maximum) 5
Number to be periodically called to maintain SIM card validity
924 xx..x 0 xx..x = tel. number (max.20 digits), 9240=erase
erased
Using an SMS instruction to configure automatic SIM card credit interrogation *
Via an SMS instruction to the alarm system: code CREDIT uu..u xx yyy zz where code = master or service code, uu..u = GSM network command string to ascertain the credit (e.g. ∗104#) , xx=auto-interrogation frequency in days, yyy=minimum acceptable balance, zz= the textual position at which the number showing the balance starts in the reply message from the GSM provider. If the credit is lower than the minimum, the provider’s SMS will be auto-forwarded to numbers M1 and M8 for someone to top up the pre-paid SIM card.
Getting your www.GSMLink.cz registration code sent to your mobile phone
910 xx...x 0
xx..x = your mobile phone number -
The JA-80Y GSM communicator - 4 - MFJ55304
Automatic SIM card credit interrogation
Credit balance checking is set by SMS instruction code_CREDIT_uu..u_xx_yyy_zz where uu..u =
instruction for the GSM network (e.g. ∗101# etc.), xx= period in days, yyy=minimum balance, zz=
the position in which the number showing the balance starts, If the reported credit balance is lower
than the set limit (yyy), the credit balance message from the provider will be forwarded to phone
numbers M1 and M8
Programming by SMS
System can be programmed remotely via SMS instruction code PRG seq, seq,... where seq is programming sequence set also from the keypad (e.g. 8080 PRG 08080,201,# set the 10s exit
delay)
Triggering re-registration to the GSM network
923
The communicator will unregister from the GSM network and then re-register. Also possible via the SMS instruction: code GSM. Code = master, user or service code
Communicator reset 98080 Resets to the factory default settings and erases all phone numbers, text will not be changed Memorizing the SIM card’s PIN
code in the communicator
920 xx..x 0
xx..x = new PIN, sequence 9200 erases the PIN (to use a SIM card with a disabled PIN)
erased
Configuring the GPRS log-in parameters*
by SMS instruction to the alarm system: code GPRS x..x,y..y,z..z where code = master or service code, x..x = the APN, y..y = name, z..z = password (only enter the APN if the name and password are not required by the GSM provider)
ARC main tel. number/IP address
01 a xx..x 0
ARC backup tel. number/IP address
02 a xx..x 0
a=1=ARC1, a=2=ARC2, xx..x = tel. number (max.20 digits) or IP address & port – for example: 01 2 8 192 168 001 123 08080 0 (8= signifies an IP address, it must have 12 digits followed by a 5 digit port number). Entering 01p0 or 02p0 will erase the number/address
erased
Installation (alarm system) ID for ARC use
03 a zz..z 0
a=1=ARC1, a=2=ARC2, zz..z = ID number max. 8 digits 0 to 9 and 1=A to ∗6=F (hexadecimal number)
0000
Selecting the ARC protocol 04 a x
a=1 ARC1, a=2 ARC2 x=0 CID, x=1 SMS CID, x=2 IP CID
CID
Selection of events to report to ARCs
05 a ec x
a=1 ARC1, a=2 ARC2
ec event code (see 5.27) x=1 report, x=0 no report
all events are reported
Defining the delay before data is resent to an ARC
06 a x
a=1 ARC1, a=2 ARC2 x=0 to 9 min. (0=immediately, without delay)
1 minute
ARC communication checking period
(The time to wait after the last report before performing an ARC communication check)
07 a hhmm
a=1 ARC1, a=2 ARC2 hhmm = hours and minutes after last report
2400 (24 hours after last report)
Enable ARC reporting (ARC2 backs up ARC1)
00 a x
a=1 ARC1, a=2 ARC2 x=0 reports disabled, x=1 reports enabled, x=2
(only for ARC2) = ARC2 backs up ARC1
ARC reporting disabled
Recording reports sent to ARCs in the control panel memory
08 x
x=0 no (only records ARC communication faults, if communication checks are enabled)
x=1 yes (all reports except communication checks)
yes
Indicate an ARC communication fault if a report is not successfully received by an ARC within 110 sec of transmission.
09 x
x=0 no x=1 yes
no
IP address for data transmission
013 xx..x 0
IP address and port in format – e.g..: 013
8 192 168 021 123 08080 0 (8 mark IP address which must contain 12 digits, followed by 5 digits for the port.. Entering 0130 IP erase the setting
77.104.220.129 7070 (img.jablotron.com)
Locking the ARC settings
901 xx..x 0
xx..x = an installer-defined locking code (4 to 8 digits). Entering this code and then exiting service mode will lock the ARC settings
9010 will erase the code (= permanently unlocked)
Unlocked
Unlocking the ARC settings
900 xx..x 0
xx..x = the locking code used by sequence 901
ARC programming can be temporarily enabled in service mode by entering this sequence. It will then relock on exiting service mode.
These parameters effect reporting to the ARC and it is impossible to change them if the ARC settings are locked. * These parameters cannot be programmed from the system keypad, but they can be programmed by sending SMS instructions or by Comlink software.
The JA-80Y GSM communicator - 5 - MFJ55304
5.1. Language setting
Language of the text used by the communicator can be set by instruction:
981 xx
Where:
01 EN English 10 FI Finnish 02 CZ Czech 11 NO Norwegian 03 SK Slovak 12 SV Swedish 04 NL Dutch 13 FR French 05 DE German 14 HU Hungarian 06 PL Polish 15 RU Russian 07 DA Danish 16 TR Turkish 08 IT Italian 17 SP Spanish 09 PT Portuguese
Note:
Set the language before editing the text in the system (change of
the language will change the text to the factory default)
Change of the language in the communicator will automatically
result in changing the language in the connected keypad (also the wireless keypad if connected)
Set language will not be change when reset is performed
Example: by setting 98102 the Czech language will be set.
Factory default : 98101 = English
5.2. GSM signal strength measurement
Good quality GSM signals are necessary for the reliable functioning of the communicator. Entering 922 starts GSM signal measurement. The keypad then displays the signal strength in the range 1/4 to 4/4 and measurement is repeated every second (indicated by beeps). This mode allows a suitable location to be found for the control panel (or the GSM antenna). Press the # key to exit GSM signal measurement. The SMS reply to a STATUS interrogation now displays GSM signal strength in the range 0/9 to 9/9. The signal should read at least 2/4. In places with a weak signal we recommended trying another GSM provider’s SIM card.
Warning: it is not recommended to use a high-gain or directional GSM antenna to get a better signal, as this way the communicator would only communicate with a single cellular base station and communication would not be stable. Also be aware that the GSM system cannot work properly if the distance from the cellular base station is longer than 30km (even if the signal is strong enough) as the time delays in the data exchange would be longer than acceptable to the GSM standard.
5.3. Programming tel. numbers for reporting to phones
See part 4.
5.4. Selection of the events reported to phones
The factory-default list of reported events and their assignment to telephone numbers M1 to M8 can be altered by this sequence.
The complete list of reportable events is shown in the following table. It is possible to select whether the event should be reported by an
SMS or by a phone call, or by both an SMS followed by a phone call
Each event has pre-programmed factory-default SMS text. These
texts can be edited (see 5.5). The acoustic signals for phone call reporting are fixed and cannot be changed (e.g. an alarm is indicated by a siren sound if a reporting call is answered)
List of events which can be reported to phones and their factory-default assignment to particular phone numbers
Phone number memory M
ec Event
1 2 3 4 5 6 7 8
01 Intruder alarm - instant S S SC SC SC SC C 02 Intruder alarm - delayed S S SC SC SC SC C 03 Fire alarm S S SC SC SC SC C 04 Panic alarm S S SC SC SC SC C 05 Number of permitted incorrect code-entries
exceeded
S S SC SC SC SC C
06 Alarm triggered during control panel
power-up
S S SC SC SC SC C 07 Tamper alarm S S S S S S 08 End of tamper alarm 09 End of alarm indication 10 Alarm cancelled by user S S S S S S 11 Setting S S 12 Unsetting S S 13 Partial setting S S 14 Codeless setting S S 15 External communication fault S S S S S S S 16 External communication restored 17 Fault S S S S S S S 18 Fault no longer present 19 Mains dropout longer than 30 minutes S S S S S S S 20 Mains dropout 21 Mains restored 22 Discharged battery S S S S S S S 23 Battery OK 24 Switching to Service Mode 25 Leaving Service Mode 26 PGX ON/OFF 27 PGY ON/OFF 28 Radio communication jamming present S S S S S S S 29 Internal communication fault S S S S S S S 30 Internal communication restored 31 Communication test 32 Unconfirmed alarm
Factory-default report assignment: S = SMS, C = call, SC = SMS followed by a call
External communication fault means a GSM network dropout longer than 15 minutes (if GSM network dr opout indication is enabled)
The SMS information about a new picture on the server is sent to all phone numbers which are set to get reported event number 01 “Intruder
alarm - instant”. This information contains a link to the new picture on the server.
The JA-80Y GSM communicator - 6 - MFJ55304
5.4.1. Assigning events to be reported by SMS to a particular mobile phone number
To link events to being reported by SMS, enter:
82 M ec x
where
M phone number memory 1 to 8 ec event code 01 to 32 (see the above table) x 0 = no SMS report, 1 = SMS report
Example: if 82 8 03 1 is programmed and a fire alarm is triggered
(event 03 in the table), it will be reported by SMS to the phone number stored in memory M8
5.4.2. Assigning events to be reported by phone call to a particular phone number
To link events to being reported by phone call, enter:
83 M ec x
where
M phone number memory 1 to 8 ec event code 01 to 32 (see the above table) x 0 = no phone call, 1 = call
Example: if 82 1 03 1 is programmed and a fire alarm is triggered
(event 03 in the table), the phone number stored in memory M1 will be called and if the call is answered, a siren sound will be heard.
Notes:
Phone call reports are mostly used as an audible notification to
alert the user of a detailed report sent by SMS
If both SMS + call reports are enabled for events, the SMS is sent
first and then the number is called afterwards. But total priority is given to ARC reports if enabled (see 7.1 )
5.5. SMS text editing
The communicator contains various text strings which are used to create SMS reports and also SMS instruction text. Language of the text can be set – see 5.1. These text strings cannot be changed from the system keypad, but they can be edited by Comlink software, via the Internet (www.GSMLink.cz
) or by sending the following SMS
instruction:
code_TXT_n,text,n,text,......n,text
where
code is a valid access code (e.g. factory defaults: 8080, 1234) _ is a space TXT instruction to edit texts n text number (0 to 611 see the following table) , comma (or full stop) text the new text (max. 30 characters) which will replace the
former text. It is invalid to enter a comma or a full stop inside the text string, but a space is valid within the text string
Notes:
A single TXT instruction can change multiple texts (limited only by the maximum length of a single SMS)
the communicator is not case-sensitive and it is recommended to use only English ASCII characters (some networks do not support non-English national characters)
the communicator creates SMS reports with 5 parts: installation name, event description, source (code or device) number (01 to 50), source name, time and date
the maximum possible length of an ASCII SMS is 160 characters (only 70 characters for national characters). If this length is exceeded, the report is sent as multiple SMSes
Examples: if the service code is 8080 then the SMS instruction: 8080 TXT 20,key fob Bob,21,Key fob Jane
changes the description (name) of the key fobs enrolled to addresses 20 and 21
8080 TXT 605,heating on,606,heating off
edits the text of the two instructions used to command the heating to be switched on and off by the PGX output (the PGX output must be programmed to have an ON/OFF function)
The JA-80Y GSM communicator - 7 - MFJ55304
Factory-default SMS report and instruction texts
n Factory text n Factory text n Factory text n Factory text
44 Device 332 Code 504 Panic alarm 0 Report from your
alarm:
45 Device 333 Code 505 Invalid code-entries exceeded 1 Device 46 Device 334 Code 506 Alarm when power turned on 2 Device 47 Device 335 Code 507 Tamper alarm 3 Device 48 Device 336 Code 508 End of tamper alarm 4 Device 49 Device 337 Code 509 End of alarm indication 5 Device 50 Device 338 Code 510 Alarm cancelled by user 6 Device 201 Control panel 339 Code 511 Setting 7 Device 202 Service code 340 Code 512 Unsetting 8 Device 203 Annual inspection request 341 Code 513 Partial setting 9 Device 204 Communicator 342 Code 514 Codeless setting
10 Device 205 Keypad 343 Code 515 External communication fault 11 Device 206 ARC code 344 Code 516 External comm. restored 12 Device 300 Master code 345 Code 517 Fault 13 Device 301 Code 346 Code 518 Fault no longer present 14 Device 302 Code 347 Code 519 Mains dropout over 30 minutes 15 Device 303 Code 348 Code 520 Mains dropout 16 Device 304 Code 349 Code 521 Mains recovery 17 Device 305 Code 350 Code 522 Discharged battery 18 Device 306 Code 400 System status 523 Battery OK 19 Device 307 Code 401 Set 524 Switching to Service Mode 20 Device 308 Code 402 Unset 525 Leaving Service Mode 21 Device 309 Code 403 Exit delay 526 PGX 22 Device 310 Code 404 Entrance delay 527 PGY 23 Device 311 Code 405 Alarm 528 Radio jamming present 24 Device 312 Code 406 Service mode 529 Internal communication fault 25 Device 313 Code 407 Maintenance mode 530 Internal comm. restored 26 Device 314 Code 408 Partial setting 531 Communication test 27 Device 315 Code 409 Discharged battery 532 Unconfirmed alarm 28 Device 316 Code 410 Tamper alarm 601 SET 29 Device 317 Code 411 Alarm memory 602 UNSET 30 Device 318 Code 412 Fault 603 STATUS 31 Device 319 Code 413 Power fault 604 MEMORY 32 Device 320 Code 414 Unknown status 605 PGX ON 33 Device 321 Code 415 Time: 606 PGX OFF 34 Device 322 Code 416 Last event: 607 PGY ON 35 Device 323 Code 417 Credit unknown 608 PGY OFF 36 Device 324 Code 418 Credit: 609 AUX ON 37 Device 325 Code 419 (internal use only) 610 AUX OFF 38 Device 326 Code 420 Error while processing command 611 CREDIT 39 Device 327 Code 421 Output turned on 40 Device 328 Code 422 Output turned off 41 Device 329 Code 501 Instant alarm 42 Device 330 Code 502 Delayed alarm 43 Device 331 Code 503 Fire
Numbers 01 to 50 for devices and codes are automatically generated by the communicator so it is unnecessary to enter them in the text
The communicator always automatically puts numbers from 01: to 50: in front of Device or Code names.
Texts 0 to 532 are used to create SMS event reports
Texts 601 and 611 are SMS instructions (to control the system remotely by SMS)
Text 419 is for the internal use of the communicator, never edit it !
5.6. Enabling reporting to phones
Event reports can be enabled as follows:
800 all SMS and call reports disabled 801 all SMS and call reports enabled 802 all reports enabled except reports of setting and
unsetting by users 41 to 50 (i.e. their codes, cards and
key fobs). This allows setting and unsetting done by report recipients (owners, bosses, etc.) not to be reported.
Factory default setting: 801 all reports enabled
5.7. Remote access
Remote access (by phone or Internet) can be enabled or disabled:
9030 disabled 9031 enabled
Factory default setting: enabled
5.8. Forwarding of incoming SMS messages
This feature enables the automatic forwarding of incoming SMS messages which contain no valid instructions to the system:
9260 messages are not forwarded, but the communicator sends
them by CLIP protocol to the simulated phone line
9261 messages are forwarded to the first programmed tel.
number in memories M1 to M8 (e.g. if numbers are only programmed in M5 and M6, then messages will be forwarded to M5). The tel. number from which the SMS was received will be shown at the beginning of the forwarded text.
Factory default setting: messages are forwarded
5.9. SMS instruction confirmation
If the communicator receives a valid SMS instruction, the instruction sender will be made aware of its successful execution by the reception of a conformation SMS sent by the communicator. This confirmation can be disabled as follows:
9270 disabled 9271 enabled
Factory default setting: enabled
5.10. Reaction to incoming calls
The communicator’s reaction to incoming phone calls can be set by:
904 x
The JA-80Y GSM communicator - 8 - MFJ55304
where
x = 0 incoming calls are ignored x = 1 to 8 the communicator will answer after x multiplied
by 5 seconds of ringing (e.g. x=4=20sec.)
x = 9 answers after a second call - first there must be
at least one ring, then a pause (10 to 45sec.) and then just after the first ring of the second call, the call will be answered
Factory default setting: 9045 – answers after 25sec. (about 5 rings)
5.11. The simulated phone line function
This sequence defines the function of the phone connected to the simulated telephone line (if used).
98 y
where Function y = 0 phone line –for making phone calls. If the # key is
pressed when the receiver is picked up, the phone will work as an alarm system keypad
y = 1 the phone works as a system keypad, it is
impossible to make phone calls
y = 2 the telephone line is disabled y = 3 emergency call –automatically calls a pre-
programmed number (see 5.12), just after the receiver is picked up. Pressing the key within 2 sec. after having picked up the receiver will switch to a dial tone and will allow the user to make phone calls
Note: while the communicator is occupied with reporting events, or it is not registered to the GSM network, a busy signal is heard on the connected phone.
Factory default setting: y = 0 = phone line
5.11.1. Using an SMS phone connected to the simulated line
A phone capable of sending and receiving SMS messages by CLIP protocol can be connected to the simulated phone line. In the phone, both the TX and RX numbers should be programmed to 1111.
If an SMS message is sent from this phone to the phone number “001” it will go directly to the communicator (free of charge). This can be used to send instructions to the system (e.g. text programming etc.).
If the communicator is programmed to report to phone number 001 the reports will be sent to the attached phone via the simulated line (free of charge).
If the attached phone provides caller identification (CLIP), then the caller’s phone number will be shown on the display.
5.12. Emergency telephone number
If the simulated phone line is set to emergency call mode (see 5.11), then after picking up the receiver the phone will automatically call a number programmed by:
952 xx...x 0
where:
xxx…x is a phone number (max. 20 digits), keying in
9 will enter “+” for international calls
To erase the number enter 9520 Factory default setting: the emergency number is erased
5.13. GSM signal dropout indication
This selectable feature monitors connectivity with the GSM network. If enabled, it indicates problems and generates an external communication fault report if there is a GSM signal dropout longer than 15 minutes.
9210 disabled
9211 enabled
Factory default setting: disabled
5.14. The microphone sensitivity of the phone
The sensitivity of the attached phone (or intercom) can be adjusted by:
953x where x can be from 1 to 9 (max.) – factory default = 5
5.15. The speaker loudness of the phone
The loudness of the attached phone (intercom) can be adjusted by:
954x where x can be from 1 to 9 (max.) – factory default = 5
5.16. Number to be called to maintain SIM card validity
If a prepaid SIM card is used and a lack of outgoing phone calls for a certain period cancels the validity of the SIM card, then this function offers the following: if there have been no outgoing phone calls within the last 90 days, then the communicator automatically calls the number programmed by this sequence, waits until the call is answered and then after 10 sec. automatically hangs up.
924 xx...x 0 where xx...x = phone number
Notes:
To erase this number enter 924
0
It is recommended to call cheap public services (e.g. weather forecasts etc.) but not toll-free numbers.
Factory default setting: erased
5.17. Automatic SIM card credit interrogation
The communicator is capable of checking the credit balance of its SIM card by interrogating the GSM network with an SMS containing a recognized instruction string (if the network supports this feature). There are two options: The credit balance can be checked when the user requests it by sending an SMS instruction to the communicator, or the communicator can be set to check it regularly itself. To configure credit balance checking send an SMS in the format:
code_CREDIT_uu..u_xx_yyy_zz
where:
code valid master or service code (e.g. 8080 or 1234) _ space uu..u instruction recognized by the GSM network to check the
balance (e.g. ∗101# etc.)
xx automatic checking period in days yyy minimum acceptable credit balance zz the textual position in which the number showing the
balance starts in the reply message from the GSM provider
In addition, a new way of SIM card balance checking is now available for networks which do not support standard balance checking but provide SMS reporting after each charged transaction. In this case you can configure credit interrogation by sending the following SMS:
code_CREDIT_S_xx
where:
code is a valid master or service code (e.g. 8080 or 1234) _ is a space S is literally S or s (a distinguishing mark) xx automatic checking period in days (optional)
Simultaneously, it is necessary to disable SMS forwarding and to configure the number used to maintain SIM card validity (the SIM validity-maintenance call number).
After performing the configuration you can check the balance anytime by sending the CREDIT instruction. By specifying the xx part you also request the checking to be performed automatically. On each check, the communicator performs a charged call (to the SIM validity- maintenance call number), and enables the forwarding of a single SMS from the network operator to the first pre-programmed number.
Notes:
If the reported credit balance is lower than the set limit (yyy), the
credit balance message from the provider will be forwarded to phone numbers M1 and M8 to remind someone to top up the SIM card.
If event 22 is programmed to be reported to any tel. numbers (M1 to
M8) then the message “Discharged battery of the communicator” will
be sent to these numbers if the credit balance is under the yyy limit.
The JA-80Y GSM communicator - 9 - MFJ55304
The telephone numbers M1 and M8 will also receive the GSM provider’s replay.
If only uu..u follows the CREDIT instruction (no xx yyy zz) then periodic balance checking will not be performed, but the balance will be checked immediately and the uu..u checking instruction will be memorized, so that in future it will be possible to check the balance just by sending the instruction code CREDIT.
Example: sending the SMS instruction “code credit
101# 7 50 1
causes the credit balance to be checked every 7
th
day (after the SMS has been sent) and if the balance (starting with the first character in the message from the GSM provider) is lower than 50 currency units it will be reported.
Warning:
the use of prepaid cards in the communicator is risky. Some GSM providers block cards with enough credit but which are not topped up frequently enough. We strongly
advise the use of tariffed
SIM cards !!!
5.18. Remote programming by the SMS instruction
Instruction PRG can be used to send programming and operating sequences to the alarm system:
code_PRG_seq,seq,seq...
where:
code is valid access or service code (e.g. 8080 or 1234) _ space seq programming sequence usually set via the keypad
Note:
In the sequence can be used characters 0 to 9, and #)
When the valid instruction is received, communicator simulates
entering the keys on the keypad, comma in the SMS is taken as a pause in the sequence entering
System must be unset and switched to the service mode
The number of sequences in one SMS is limited by the maximum size of
the SMS in the GSM network.
Example: by sending SMS 8080 PRG
08080,201,# the exit delay will
be set to 10s
5.19. Registration code for www.GSMLink.cz
If remote access via the Internet is desired, then the system has to be registered on the web page: www.GSMLink.cz Each communicator has its own unique registration code, which is printed on the label attached to the communicator module. This code can also be sent by SMS to your mobile phone by the keypad entry:
910 xx...x 0 where xx...x is the tel. number to send the code to
Notes:
It takes a certain time to receive the registration code (depends on the current traffic in the network)
The registration code has the format: xxxxx-xxxxx-xxxx
5.20. Triggering re-registration to the GSM network
After 923 has been entered, the communicator quits the GSM network and then re-registers itself. This re-registration does not change any settings in the communicator. It should be used after GSM network faults or data collisions and in some networks it also has to be used after a blocked SIM card has been unblocked by the GSM provider. It is also possible (if the SIM card can still receive) to trigger GSM network re-registration by sending the SMS instruction: code GSM (code = master, user or service code).
5.21. Communicator reset
Entering 98080 returns the communicator to its factory default settings and texts, erases all telephone numbers and disables reporting. The text will not be changed.
5.22. Memorizing the SIM card’s PIN code in the communicator
It is recommended to use a SIM card with disabled PIN protection. If it is impossible to disable the PIN, then it can still be used by entering the following sequence (it must be entered after the control panel has been powered up).
920 PIN 0
Example: if the SIM card PIN is 1234 enter 92012340
Notes:
If the communicator does not register to the GSM network within
1 minute of the PIN being entered (this problem is shown by red
LED flashes), then you either entered a wrong PIN or the GSM signal is too weak. In such a case:
o enter 9200 while in service mode (erases the entered PIN) o disconnect the control panel power (mains and battery ) o take out the SIM card and try it in a mobile phone (it should
register to a GSM network when located at the control panel)
o if you know the right PIN code and there is a GSM signal
strong enough, put the SIM card back into the communicator, turn on the control panel power and then enter the PIN code (920 PIN 0) – the communicator should then register to the GSM network (its red LED should turn off within a minute)
The communicator memorizes the PIN and it will use it
automatically whenever it registers to the GSM network.
If you are replacing the SIM card in the communicator with
another one and the former one used a PIN code, first switch the control panel to service mode and enter 9200 to erase the former PIN code. The SIM card can then be changed.
Note: The PIN code cannot be changed if the ARC settings are locked Factory default setting: The PIN code is erased
5.23. GPRS log-in parameters
GPRS data communication (wireless Internet via a GSM network) is used for remote access via the Internet and also for IP reporting to the ARC. To use GPRS data it must first be enabled (activated) in the SIM card (contact your GSM provider for details). Then the GSM network’s GPRS parameters must be programmed by sending the following SMS instruction to the communicator.
code_GPRS_ x..x,y..y,z..z
where:
code is a valid (master, user or service) access code (e.g.
8080 or 1234)
_ space x..x APN (Access Point Name) , comma y..y username (do not enter if not required) z..z password (do not enter if not required)
Notes:
Most public GSM networks only request an APN (do not enter y..y
and z..z parameters in this case)
The GPRS parameters can only be programmed if the system is in
service mode and the ARC settings are not locked
Factory default setting: APN = Internet
5.24. ARC phone numbers / IP addresses
Events can be reported to up to 2 ARCs (which can be independent or ARC2 can work as ARC1’s backup). Each ARC can have its main and backup phone numbers (or IP addresses) programmed with:
Main: 01 a xx....x 0
Backup: 02 a xx....x 0
where:
a 1=ARC1, 2=ARC2 xxx...x tel. number (max. 20 digits) or IP address and port – entry format example: 01 2 ∗8 192 168 001 123 08080 ∗0
where ∗8 (auto-converts to #) signifies an IP address
which must have 12 digits and must be followed by the 5 digits of the port number (no separators)
To erase a tel. number / IP address enter: 01p0 or 02p0 If numbers / IP addresses are erased there will be no reporting to that particular ARC
Note: the communicator first tries to send data to the main number / address, if it is not successful it tries the backup.
Factory default setting: all tel. numbers / IP addresses erased
5.25. Installation (alarm system) ID for ARC use
The installation’s ID number which is sent to an ARC with every report can be programmed with:
03 a zz..z 0
where:
a 1=ARC1, 2=ARC2
The JA-80Y GSM communicator - 10 - MFJ55304
zz..z installation ID number, max. 8 characters (0 to 9 and
1=A to 6=F - hexadecimal number)
Factory default setting: 0000 for both ARCs
5.26. Selecting the ARC communication protocol
To select the required communication protocol enter:
04 a x
where:
a 1=ARC1, 2=ARC2 x 0=Contact ID, 1=SMS CID, 2=IP CID
Notes:
IP CID is the fastest of the above protocols and it also allows very frequent checking of communication reliability with the ARC (e.g.
every 5 minutes)
Contact ID protocol can be used with ARCs linked by standard telephone lines (if they support Contact ID)
If your ARC does not allow SMS CID or IP CID protocols, please contact a Jablotron distributor for details on how to update your ARC.
Factory default setting: Contact ID for both ARCs
5.27. Selection of events to report to ARCs
The system recognizes 32 different types of events - see the following table. This sequence allows you to select which events are reported to which ARC.
05 a ec x
where a 1 = ARC1, 2 = ARC2
ec event code 01 to 32
x 0 = no report, 1 = report
Factory default setting: all events are reported
ec Event
01 Intruder alarm - instant 02 Intruder alarm - delayed 03 Fire alarm 04 Panic alarm 05 Number of permitted incorrect code-entries
exceeded 06 Alarm triggered during control panel power-up 07 Tamper alarm 08 End of tamper alarm 09 End of alarm indication 10 Alarm cancelled by user 11 Setting 12 Unsetting 13 Partial setting 14 Codeless setting 15 External communication fault 16 External communication restored 17 Fault 18 Fault no longer present 19 Mains dropout longer than 30 minutes 20 Mains dropout 21 Mains restored 22 Discharged battery 23 Battery OK 24 Switching to Service Mode 25 Leaving Service Mode 26 PGX ON/OFF 27 PGY ON/OFF 28 Radio communication jamming present 29 Internal communication fault 30 Internal communication restored 31 Communication test 32 Unconfirmed alarm
Besides the events listed above, the communicator also reports some events which are not selectable here (e.g. the annual inspection request if enabled in the control panel = CID 1393)
5.28. Defining the delay before data is resent to an ARC
The communicator tries to send reports to the main number / IP address, and if unsuccessful it then tries the backup number / IP
address. If still unsuccessful, it then tries to re-send the data to both the ARCs again as before, but after a period defined by:
06 a x
where
a 1 = ARC1, 2 = ARC2 t is the period: 0=immediately, 1 to 9 = 1 to 9 minutes
Factory default setting: 1 min. for both ARCs
5.29. ARC communication checking period
The time to wait after the last report sent to an ARC before performing an ARC communication check is set by this sequence. The communication-checking event code is 31 (see 5.27). This sequence programs how often the communication check is performed:
07 a hhmm
where
a 1 = ARC1, 2 = ARC2 hh hours mm minutes
Notes:
Checking reports are not sent in service mode
IP CID protocol allows very frequent checking of ARC
communication (e.g. every 5 minutes).
Factory default setting:24 hours after the last report – for both ARCs
5.30. Enable ARC reporting (ARC2 backs up ARC1)
This sequence allows reporting to ARCs to be switched on/off and also enables ARC2 to backup ARC1:
00 a x
where
a 1=ARC1, 2=ARC2 x 0=off, 1=on, 2= ARC2 backs up ARC1 (2 can only be
entered for ARC2) Note: if ARC2 backs up ARC1 then it will only receive data if it is not possible to deliver it to ARC1. A report containing “Communication fault to ARC1” is then sent to ARC2 together with the first report to ARC2.
Factory default setting: both ARCs = off
5.31. Recording reports sent to ARCs in the control panel memory
This sequence enables the recording of every report successfully communicated to ARCs in the control panel’s internal memory.
080 enabled 081 disabled
Note: it is recommended not to record reports sent to ARCs but to
enable the indication of ARC communication faults (see 5.32). This saves a significant amount of control panel memory. The system initially assumes that every report is successfully delivered to ARCs, but if a report is not successfully delivered within 110 seconds of transmission, then a communication fault will be indicated and recorded.
Factory default setting: enabled
5.32. Indicate an ARC communication fault if a report is not successfully received within 110 sec of transmission
Enables the indication and recording of a communication fault if a report is not successfully delivered to an ARC within 110 seconds of its transmission.
090 communication faults not indicated 091 communication faults indicated
Notes:
The communicator continues trying to send information to an ARC even after a communication fault has been indicated (after the data has been delivered, communication fault indication stops).
For communication-checking reports the delivery time limit (confirmation from the ARC) is 300 minutes. But if any other report is sent to the ARC it must be confirmed within 110 seconds (otherwise a communication fault will be indicated)
Factory default setting: communication faults not indicated
The JA-80Y GSM communicator - 11 - MFJ55304
5.33. IP address for data transmission
The communicator supports transmission of special data (e.g. visual information) from the system to the set IP address, which can be set by the following sequence:
013 *8 xxx xxx xxx xxx yyyyy *0
where: concerning 8, insert these characters, to identify the
following IP address which must consist of 12 digits followed
by 5 digits for the port (see below) xx..x is the12 digit IP address y..y is 5 digits for the port (see manual of the communicator).
Example: 013
8 195 039 077 154 07070
0
To erase the IP set 0130. Note: if no devices supporting this feature are in the system, do not set
the IP address. Factory default : 77.104.220.129 7070 (img.jablotron.com)
5.34. Locking the ARC settings
All settings which effect reporting to ARCs can be locked by a digital code:
901 xx..x 0 where xx..x is an installer-defined locking code (4 to
8 digits)
Notes:
Exiting service mode after the locking code has been entered will lock all the settings effecting ARC communication (see the sequence list in section 5).
If ARC programming is locked, then it can be temporally enabled in service mode by entering 901 xx..x 0 where xx..x is the locking code. It will then relock on exiting service mode.
The ARC settings can be permanently unlocked by entering 9010 while ARC programming is temporally enabled – see above. This will erase the locking code.
Factory default setting: ARC settings unlocked
5.35. Engineer reset supported
Starting from this version the communicator firmware supports the Engineer reset feature (also requires the control panel firmware to be of version KE60108 or higher). This feature is designed for ARC (Alarm Receiving Centre) connection to satisfy the following requirements of the DD243 standard: After a confirmed alarm has been triggered, the control panel must switch to a disabled state. Switching to normal operation is then only possible using a valid ARC access code. Until then, the system remains completely disabled –
no operation or programming is possible even when in Maintenance or Service mode.
An ARC access code can be entered in the following ways:
GSMlink in the field used for remote code entry SMS instruction
*
ARC-code_instruction
(e.g. *12345678 STATUS)
6. GPRS modem feature
The communicator can be used as a GPRS modem to connect a PC to the Internet. A suitable cable is provided with the communicator. The cable should connect a PC’s serial COM port to thae data connector on the communicator board (the cable length must not be extended). It is also necessary to install the driver in the PC, which is found on the CD ROM provided with the communicator. The SIM card used in the communicator must be GPRS-enabled and the GPRS parameters must be programmed in the communicator too (see 5.23). When the communicator’s GPRS modem function is used:
It is possible to make phone calls, but the internet data transfer rate will drop to zero during phone calls
Incoming SMS messages are stored and are processed after GPRS data transfer has been terminated.
GPRS data transfer is terminated if the communicator is due to report alarms or setting/unsetting (by SMS or by phone call).
7. Further guidance on the communicator
7.1. How the communicator sends reports
If there is a need to report an event (e.g. an alarm) then the communicator:
sends data to ARC1, if used (the commu nica tor tries the main phone number / IP address, if unsuccessful then it tries the backup number / IP address).
Then it sends data to ARC2 in the same way if programmed as an independent ARC. If ARC2 is programmed as the backup to ARC1 then the data will only be sent to it if transfer to ARC1 has been unsuccessful.
Then the unit sends SMS reports (1
st
tel. number, 2nd tel. number ….8th
tel. number)
Then the unit performs reporting by phone call (1
st
tel. number, 2nd tel.
number ….8
th
tel. number) – each programmed number is called once
whether the call has been answered or not
If all previous attempts to send data to ARCs have been unsuccessful, the next attempts occur after the programmed repeat period (see
5.28).
If an alarm is cancelled by a user while it is being reported, any unsent SMSes and unperformed call reports are cancelled, but the ARC still gets a complete set of reports about events in the system.
7.2. The communicator’s LED
The red LED on the communicator board indicates as follows:
regular flashing – not registered to a GSM network
lit permanently – communication in progress (registration to a GSM
network, an SMS transfer or a phone call)
3 flashes – pause – 3 flashes… - GPRS modem mode
7.3. After entering service mode the communicator:
finishes reporting to ARCs (if any is needed) and confirms successful data transmission by a short ring from the phone connected to the simulated tel. line
unfinished SMS and call reports are cancelled
unsent ARC reports are only erased if ARC tel. numbers / IP
addresses or the ARC communication format or the installation ID are changed
alarm restoration reports or fault restoration reports are sent to the ARC even in service mode
changes to communicator settings do not take effect until service mode has been exited
7.4. Configuring the communicator in maintenance mode
If configuring the communicator in maintenance mode is enabled (via control panel programming), then the above described programming sequences can be used to set:
tel. numbers M1 to M7
the events reported by SMS and phone calls
GSM signal strength measurement
simulated phone line functionality
the digits of the emergency tel. number
7.5. Remote access by Internet
The system can be accessed remotely via www.GSMLink.cz
which allows complete programming by installers and also operating the system by end users. To access the system remotely it is necessary to:
Use a SIM card enabled for GPRS data transfer
Program the communicator GPRS parameters (APN) – also
possible via www.GSMLink.cz
Register the communicator via the GSMLink web page by: o displaying www.GSMLink.cz
and selecting New registration
o setting your login details (name and password) o entering the communicator registration code (see 5.19) o entering the communicator SIM card tel. number o entering your system access code (user or service – this gives
you access to the user menu or the installer menu accordingly)
o after entering the above parameters it should be possible to
establish a connection with the system (connecting takes time depending on network traffic, typically within 2 minutes).
for further access sessions you only need to enter your login details (these can be memorized by your web browser)
several people can register for internet access to the system (both installers and users)
The JA-80Y GSM communicator - 12 - MFJ55304
A service technician needs only one set of login details to access various installations. After the first system has been registered, the installer can add (or remove) other installations to(or from) his/her GSMLink account.
there is a demo version of remote access on www.GSMLink.cz
using www.GSMLink.cz
is free of charge
7.6. A complete list of CID reports to ARCs
A report to an ARC consists of: installation ID, event code, subsystem number and the number of the source (device or code). In IP CID and SMS CID, in addition to this, a time stamp is also sent as follows.
List of the CID reports
CID code Event ec
1130 / 3130 Intruder alarm – instant / restored 1 / 9 1134 / 3134 Intruder alarm – delayed / restored 2 / 9 1110 / 3110 Fire alarm / restored 3 / 9 1120 / 3120 Panic alarm / restored 4 / 9 1461 / 3461 Number of incorrect code-entries exceeded
alarm / restored
5 / 9
1140 / 3140 Alarm triggered during control panel power-up /
restored
6 / 9
1137 / 3137 Tamper alarm / no tampering 7 / 8 1144 / 3144 Device tamper alarm / no tampering 7 / 8 1406 Alarm cancelled by user 10 1401 / 3401 Unsetting / setting 12 / 11 3402 Partial setting 13 3408 Codeless complete setting 14 1354 / 3354 External communication fault / restored 15 / 16 1300 / 3300 Fault (except device) / all faults restored 17 / 18 1330 / 3330 Device fault / all faults restored 17 / 18 1301 / 3301 Mains dropout longer than 30 minutes /
restored
19, 20 / 21
1302 / 3302 Battery fault (except devices) / all battery faults
restored
22 / 23
1384 / 3384 Device battery fault / all battery faults restored 22 / 23 1306 / 3306 Switching to Service Mode / Leaving Service
mode
24 / 25
1661 / 3661 PGX ON/OFF 26 1662 / 3662 PGY ON/OFF 27 1355 Radio communication jamming present 28 1350 / 3350 Internal communication fault / restored 29 / 30 1602 Communication test 31 1138 Unconfirmed alarm 32 1351 Communication fault to ARC1 to ARC2 if
backups 1393 Annual check request 17 1551 / 3551 Communicator blocked / restored 31 only in
IP CID
List of source numbers
Source number
Source
701 Control panel 731 Communicator 741 Wired keypad 001 - 050 Devices 01 - 50 500 Master code 599 Service code 501 - 550 Codes 01 - 50
Subsystem: 01 in all reports In a split system, for setting and unsetting: 02 = A, 03 = B For partial setting: 02 = A, 03 = AB
8. Technical specifications
Power 12V DC (from the control panel) Stand-by consumption about 35 mA (depends on the GSM signal) Max. consumption (during communication) 1 A GSM band E-GSM / GPRS 900/1800MHz RF output power 2 W for GSM900, 1 W for GSM1800 AUX output dry NC contact, max. 60 VDC / 100 mA
Complies with EN 50131-1, EN 50136-2-1, as:
ATS4, ATS 5 if CID protocol is used and the repeating period is set to zero (sequence 06a0)
Security grade 2
Operating environment ( –10 to 40°C) class II Safety EN 60950-1 EMC ETSI EN 301489-1, ETSI EN 301489-7 EN 55022, EN 50130-4 Radio transmissions ETSI EN 301419-1 and EN 301511 CLIP protocol (caller ID + SMS) ETSI EN 300 089 V3.1.1(2000-12) Can be operated according to: ERC/DEC 98(20,21)
Jablotron Ltd. hereby declares that the JA-80Y is in compliance with the essential requirements and other relevant provisions of Directive 1999/5/EC. The original of the conformity assessment can be found at www.jablotron.com
, - Technical Support section
Note: Although this product does not contain any harmful materials we suggest you return the product to the dealer or directly to the producer after use.
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