jablotron JA-80V User Manual

The JA-80V LAN / PSTN line communicator - 1 - MKA51202

The JA-80V LAN / PSTN line communicator

The communicator is a component of the Jablotron Oasis 80 system. It
is designed to be installed within the control panel housing. This
manual is valid for firmware version XA64005.
When connected to a PSTN telephone line and LAN (Ethernet) data
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 a house by dialling in from an
authorized number (free of charge with unanswered calls)

• remote control and programming via the Internet (

www.GSMlink.cz)

The communicator can also be connected only to a telephone line or
only to a LAN network. In these cases it will provide the following
functions:

 tel. line only: remote control by phone, event reporting by SMS

and by phone calls and event reporting to ARC2 (CID protocol)

 LAN only: remote access via the Internet, event reporting to

ARC1 (IP CID protocol)

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 digital bus RJ cable to the main board

c) Connect the PSTN telephone line cable – the telephone line

should support CLIP protocol (EN 300 089 V3.1.1) with Caller ID
recognition and SMS transfer in text format activated (contact your
phone line provider for more details).

J
A

­8
0

V

K
A
x
x

x
x
x
x

M
A
C
:

x
x

­x
x

­x
x

­x
x

­x
x

­x
x

Ethernet - LAN

cable

Phone
line

Label with

codes

Ethernet status LED

ARC data status

ARC communication fault

OASiS

control panel

bus

JA-80V

Fig. 1 Communicator wiring

2. Powering up the communicator for the
first time

If the communicator is installed in the control panel then:

a) Have the LAN (Ethernet) cable ready

b) Switch on the control panel power (mains and battery). The

communicator’s green LED should turn on = no events to send to
the ARC.

c) If your LAN network does not provide an automatic DHCP,

program the Ethernet network parameters manually (see 5.18).

d) connect the LAN cable (10/100 Mbit). If communication with the

network is correct the yellow LED will be constantly lit.

If it starts flashing, check the DHCP parameters, if it turns off (after
3 sec. of flashing) then the communicator is not connected to the
Ethernet at all.

e) If communication to an ARC is desired, then all ARC parameters

have to be programmed according to the ARC provider’s
specifications.

f) Key in 98101 - to set texts of the communicator to English

language.

g) Close the control panel cover

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. 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:

a) dial the system’s phone number
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

 a fixed-line phone can also be used to operate the system

remotely the same way (the phone must use tone dialling)

 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.

3.2. SMS instructions to control the system remotely

The telephone line connected to the communicator is used to receive
SMSes but has to support CLIP protocol for SMS transfer in text form
for this feature to work. The SMS transfer parameters should also be
programmed – see 5.11 and 5.12.

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 5.4)

Instruction Function Notes

SET

setting (arming)

setting or unsetting (the same way as
if the code used is entered on the
system keypad), If the system is
already in the desired mode, it will not
change

UNSET

unsetting

(disarming)

STATUS

status

interrogation

including 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

the PG output has to be programmed
for the function: on/off (by 237/247) or
2 second switching (by 238/248)

PGX OFF

turns off PGX

PGY ON

turns on PGY

PGY OFF

turns off PGY

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 JA-80V LAN / PSTN line communicator - 2 - MKA51202

 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)

 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%%

 no other device receiving SMSes can be connected to the same

telephone line as the communicator.

3.3. Toll-free remote control by unanswered calls from pre­authorized phones

If the telephone line provides CLIP protocol caller ID, then 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 toll-free 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

3.1) – 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 5.3).

 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 (if the telephone line supports CLIP protocol SMS
transfer) 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 5.3)

Factory-default reports assigned to the numbers M1 to M8

M Reports

1

Alarms and faults by SMS

2 3

Alarms and faults by SMS + phone call (if you answer the

call you hear a siren sound)

4

5

Alarms by SMS + a phone call, with Setting/Unsetting
and faults by SMS only

6

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:

 international phone numbers have to start the same way as if you call

them from the phone line which is connected to the communicator.

 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: setting 47: device Time 01.08. 11:27”

 if other events or texts should be reported to a particular number,

change the communicator settings (see 5.3 and 5.4)

 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 3.3. 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,0
7=DA,08=IT,09=PT,10=FI,11=NO,12=SV
13=FR, 14=HU, 15=RU, 16=TR, 17=SP

English

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 ∗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

M = tel. number memory from 1 to 8
ec = event code (see 5.3)

M1 & 2 alarms by SMS
M3 & 4 alarms by SMS and call
M5 & 6 alarms by SMS and call + Set/Unset

The JA-80V LAN / PSTN line communicator - 3 - MKA51202

Function

Sequence

Options

Factory default

Selection of events to report by
phone call

83 M ec x

x=1

report,

x=0

no report

by SMS
M7 alarms by call
M8 technical faults by SMS (to installer)

SMS/phone call communication
checking period

84 hhmm

hhmm = hours and minutes in range from
00:00 to 24:00
(The time to wait after the last SMS/phone call
report before performing an SMS/phone
communication check)

24:00

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 5.4

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
x=3 only if ARC1 is not responding
x=4 only if ARC1 is not responding

x=1

enabled

Phone number for instant remote
access

902 xx..x ∗∗∗∗0

xx..x = tel. number (max.20 digits) erased

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

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)

Initialisation of GSMLink
communication

913

initialises communication to GSMLink

Tel. number to initialise GSMLink
communication

914 xx..x ∗∗∗∗0

xx..x = tel. number (max.20 digits) erased

Tx SMS center tel. number

942 xx..x

∗∗∗∗

0

xx..x = tel. number (max.20 digits)

erased

Rx SMS center tel. number

943 xx..x

∗∗∗∗

0

xx..x = tel. number (max.20 digits)

erased

Testing reporting to an ARC

961 a

a=1=ARC1, a=2=ARC2

Test calls to a phone number 962 M M = tel. number memory from 1 to 8

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 LAN re-log-in 935

The communicator will log out of the LAN network and then re-log-in (DHCP update)

Communicator reset 98080

Resets to the factory default settings and erases all phone numbers

Automatic DHCP 930 x

x=0 disabled

x=1 enabled

enabled

Communicator IP address 931 xx..x

xx..x = IP address 12 digits (if automatic
DHCP disabled)

192.168.001.211

Network mask 932 xx..x

xx..x = network mask 12 digits (if automatic
DHCP disabled)

255.255.255.0

Network gateway address 933 xx..x

xx..x = IP address 12 digits (if automatic
DHCP disabled)

192.168.001.001

DNS IP address 934 xx..x

xx..x = IP address 12 digits (if automatic
DHCP disabled)

192.168.001.001

ARC main tel. number/IP address

01 a xx..x ∗∗∗∗0

a=1=ARC1, a=2=ARC2, xx..x = IP address &
port for ARC1 – e.g. 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).
Tel. number for ARC2 (max.20 digits)
Entering 01p∗0 or 02p∗0 will erase the
number/address

erased

ARC backup tel. number/IP
address

02 a xx..x ∗∗∗∗0

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 IP CID

CID

Selection of events to report to
ARCs

05 a ec x

a=1 ARC1, a=2 ARC2

ec event code (see 5.26)
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

The JA-80V LAN / PSTN line communicator - 4 - MKA51202

Function

Sequence

Options

Factory default

ARC communication checking
period

07 a hhmm

a=1 ARC1, a=2 ARC2
hhmm = hours and minutes after last report
(The time to wait after the last report before
performing an ARC communication check)

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

∗8 077 104 220 129 07070 ∗0
∗8 mark IP address which must contain 12 digits

followed by 5 digits for the port.
Entering 013∗0 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

901∗∗∗∗0 will erase the code (= permanently
unlocked)

unlocked

Unlocking the ARC settings

900 xx..x ∗∗∗∗0

xx..x = a 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.

5.1. Language setting

Language of the text used by the communicator can be set by
instruction:

981 xx

Where:

xx is number of the language – see the following list:

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. Programming tel. numbers for reporting to phones

See part 4.

5.3. 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 5.4). 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

ec Event

Phone number memory M

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

The JA-80V LAN / PSTN line communicator - 5 - MKA51202

ec Event

Phone number memory M

1 2 3 4 5 6 7 8

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

• 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.

5.3.1. 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

5.3.2. 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 )

5.3.3. SMS/phone call communication checking period

A regularly sent communication checking SMS report and/or phone call
to a telephone can be enabled as event code ec=31 (see table in 5.3).
This sequence programs how often the checking report should be
performed:

84 hhmm

where

hh hours (00 to 24) to wait after the last SMS/phone call
report
mm minutes (00 to 59) to wait after the last SMS/phone call
report

Notes:

 The communication checking report is not sent if the system is in

service mode

Factory default setting: 24 hours from the last report

5.4. SMS text editing

The communicator contains various text strings which are used to create
SMS reports and also SMS instruction text. 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 non­English 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)

5.5. 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.

803

all SMS and call reports enabled if ARC1 is not responding

804

all SMS and call reports enabled if ARC2 is not responding

Factory default setting: 801 all reports enabled

The JA-80V LAN/PSTN line communicator - 6 - MKA51202

Factory-default SMS report and instruction texts

n Factory text

n

Factory text

n

Factor

y text n Factory text

0

Report from your
alarm:

44

Device

332

Code

503

Fire

1

Device

45

Device

333

Code

504

Panic alarm

2

Device

46

Device

334

Code

505

Invalid code-entries exceeded

3

Device

47

Device

335

Code

506

Alarm when power turned on

4

Device

48

Device

336

Code

507

Tamper alarm

5

Device

49

Device

337

Code

508

End of tamper alarm

6

Device

50

Device

338

Code

509

End of alarm indication

7

Device

201

Control panel

339

Code

510

Alarm cancelled by user

8

Device

202

Service code

340

Code

511

Setting

9

Device

203

Annual inspection request

341

Code

512

Unsetting

10

Device

204

Communicator

342

Code

513

Partial setting

11

Device

205

Keypad

343

Code

514

Codeless setting

206

ARC code

12

Device

300

Master code

344

Code

515

External communication fault

13

Device

301

Code

345

Code

516

External comm. restored

14

Device

302

Code

346

Code

517

Fault

15

Device

303

Code

347

Code

518

Fault no longer present

16

Device

304

Code

348

Code

519

Mains dropout over 30 minutes

17

Device

305

Code

349

Code

520

Mains dropout

18

Device

306

Code

350

Code

521

Mains recovery

19

Device

307

Code

400

System status

522

Discharged battery

20

Device

308

Code

401

Set

523

Battery OK

21

Device

309

Code

402

Unset

524

Switching to Service Mode

22

Device

310

Code

403

Exit delay

525

Leaving Service Mode

23

Device

311

Code

404

Entrance delay

526

PGX

24

Device

312

Code

405

Alarm

527

PGY

25

Device

313

Code

406

Service mode

528

Radio jamming present

26

Device

314

Code

407

Maintenance mode

529

Internal communication fault

27

Device

315

Code

408

Partial setting

530

Internal comm. restored

28

Device

316

Code

409

Discharged battery

531

Communication test

29

Device

317

Code

410

Tamper alarm

532

Unconfirmed alarm

30

Device

318

Code

411

Alarm memory

601

SET

31

Device

319

Code

412

Fault

602

UNSET

32

Device

320

Code

413

Power fault

603

STATUS

33

Device

321

Code

414

Unknown status

604

MEMORY

34

Device

322

Code

415

Time:

605

PGX ON

35

Device

323

Code

416

Last event:

606

PGX OFF

36

Device

324

Code

417

Credit unknown

607

PGY ON

37

Device

325

Code

418

Credit:

608

PGY OFF

38

Device

326

Code

419

not used

609

AUX ON

39

Device

327

Code

420

Error while processing
command

610

AUX OFF

40

Device

328

Code

421

Output turned on

611

CREDIT

41

Device

329

Code

422

Output turned off Numbers 01 to 50 for devices and codes are

automatically generated by the communicator
so it is unnecessary to enter them in the text

42

Device

330

Code

501

Instant alarm

43

Device

331

Code

502

Delayed alarm

• 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)

5.6. Phone number for instant remote access

A telephone number programmed with this sequence allows instant
remote access no matter what reaction to incoming calls is
programmed. If this number calls, the control panel will answer the call
after the first ring (the telephone line must provide CLIP protocol caller
ID for this feature).

902 xx...x ∗∗∗∗0 where

xx...x = phone number

Note:

• if remote access is disabled (see 5.7), then using this phone number

for remote access is also disabled.

Factory default setting: erased

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 (will not be used)

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. Reaction to incoming calls

The communicator’s reaction to incoming phone calls can be set by:

904 x

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 25 sec. (about 5 rings)

The JA-80V LAN/PSTN line communicator - 7 - MKA51202

5.10. Initialization of GSMLink communication

After successfully connecting the communicator to the LAN network

913

should be entered to initialise communication to the

www.GSMLink.cz server (the server will register the IP address of the

communicator).

To access the system remotely via the Internet it is necessary to

register it on

www.GSMLink.cz (after communication has been

initialised). To register the system (see 7.5) you will need the
communicator registration code, which is printed on the label which
you will find on the communicator board.

Note:

• the communicator reports regularly to the GSMLink server to update

the communicator’s IP address in the server database (the period of
the regular reports is more frequent the more frequently GSMLink
access is used). If you try to access the alarm system via GSMLink
after the communicator’s dynamic IP address has changed, you can
be notified by GSMLink that it is necessary to wait for the next
regular communication from the system. To shorten this waiting time
you can enter the above sequence (913) on the system keypad
while in service mode or you can do it remotely by calling the
communicator from a phone, whose number was programmed for
this purpose (see the following text).

5.10.1. Tel. number to initialise GSMLink communication

GSMLink communication can be initialised remotely by calling (ringing)
from a phone number which can be programmed by:

914 xx...x ∗∗∗∗0 where

xx...x = phone number (max. 20 digits)

Notes:

• After the first ring from the above programmed number the

communicator will report to GSMLink to update its IP address,

• this remote way of initialisation is only possible if the phone line

used by the communicator supports CLIP caller ID recognition).

Factory default setting: erased

5.11. Tx SMS center telephone number

To send SMS by CLIP protocol via the telephone line it is necessary to
program the Tx SMS center telephone number by:

942 xx...x ∗∗∗∗0 where

xx...x = Tx SMS center tel. number

Note:

• Contact your telephone line provider to learn the Tx SMS center tel.

number.

Factory default setting: erased

5.12. Rx SMS center telephone number

To receive SMS by CLIP protocol via the telephone line it is necessary
to program the Rx SMS center telephone number by:

942 xx...x ∗∗∗∗0

where xx...x = Rx SMS center tel. number

Note:

• Contact your telephone line provider to learn the Rx SMS center tel.

number,

• check also how to activate delivery of the SMSes in text form (some

providers convert SMS text into voice messages).

Factory default setting: erased

5.13. Testing reporting to an ARC

To test reporting to an ARC enter:

961a

where a = ARC number (1 or 2)

Note:

The event code “Communication test” (ec=31) will be sent to the ARC.
The green LED flashes while the report is being sent, if the red LED
goes off it indicates that the report to the ARC was unsuccessful.

5.14. Testing calls to a phone number

To test that the communicator is capable of calling the phone numbers
programmed into its memories enter:

962M

where M is the phone number memory 1 to 8

If memory M contains a phone number, this number will be called and
if the phone call is answered, there will be an acoustic signal.

5.15. 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

5.16. Triggering LAN re-login

After entering

935

the communicator will log out of the LAN network and

then re-log in (DHCP updates).

5.17. Communicator reset

Entering 98080 returns the communicator to its factory default settings and
texts, erases all telephone numbers and disables reporting.

5.18. Automatic DHCP

The factory default settings in the communicator expect automatic
DHCP in the LAN network. If you need to enter the network
parameters manually, the automatic DHCP should be disabled with
this sequence and network parameters should be entered manually by
the following sequences before the communicator is connected to the
LAN network.

9300

DHCP disabled

9301

DHCP enabled

Factory default setting: enabled

5.19. Communicator IP address

If DHCP is disabled (see 5.18) program the communicator IP address
by:

931 xxx xxx xxx xxx

where:

xxx…x is IP address

Example: if the IP address is 192.168.1.23 enter:

931 192 168 001 023

Factory default setting: 192.168.001.211

5.20. Network mask

If DHCP is disabled (see 5.18) program the network mask by:

932 xxx xxx xxx xxx

where:

xxx…x is the network mask

Example: if the network mask is 255.255.255.0 enter:

932 255 255 255 000

Factory default setting: 255.255.255.000

5.21. Network gateway address

If DHCP is disabled (see 5.18) program the network gateway by:

933 xxx xxx xxx xxx

where:

xxx…x is the gateway address

The JA-80V LAN/PSTN line communicator - 8 - MKA51202

Example: if gateway address is 192.168.33.1 enter:
933 192 168 033 001

Factory default setting: 192.168.001.001

5.22. DNS IP address

If DHCP is disabled (see 5.18) program the network DNS IP address
by:

934 xxx xxx xxx xxx

where:

xxx…x is the DNS address

Example: if the DNS address is 192.168.33.1 enter:

933 192 168 033 001

Factory default setting: 192.168.001.001

5.23. 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). The communicator reports to
ARC1 via a LAN network using IP CID protocol and to ARC2 via the
phone line using CID protocol. This sequence serves to enter an
ARC’s main and backup IP addresses / phone numbers:

Main:

01 a xx....x

∗∗∗∗

0

Backup:

02 a xx....x

∗∗∗∗

0

where:

a 1=ARC1, 2=ARC2
xxx...x IP address and port for a=1 – 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)

tel. number (max. 20 digits) for a=2

To erase a tel. number / IP address enter: 01a∗∗∗∗0 or 02a∗∗∗∗0

If numbers / IP addresses are erased there will be no reporting to that
particular ARC

Notes:

• the communicator first tries to send data to the main number /

address, if it is not successful it tries the backup

• IP CID is a fast protocol 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 IP CID protocols, please contact a

Jablotron distributor for details on how to update your ARC.

• Another way of backing up communication to an ARC is a calling

report to a particular number (see 5.3). This way up to 8 groups of
events can be reported to an ARC. For this the ARC needs 8 phone
lines which can recognize caller ID. By calling a particular ARC tel.
number the communicator is communicating what happened (the
kind of event). The ARC can recognize what happened by knowing
which telephone line is being rung.. By caller ID recognition it also
knows what installation is reporting. The ARC does not answer the
incoming calls on these telephone lines, so this simple kind of
communication is free of charge. By using this method the ARC does
not send any confirmation back to the communicator that the report
was successfully received.

Factory default setting: all tel. numbers / IP addresses erased

5.24. Installation (alarm system) ID for ARC use

The installation’s ID number which is sent to an ARC with every report
can be programmed by:

03 a zz..z

∗∗∗∗

0

where:

a 1=ARC1, 2=ARC2
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

5.25. 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= 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 IP CID protocol, please contact a
Jablotron distributor for details on how to update your ARC.

Factory default setting: Contact ID for both ARCs

5.26. 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)

5.27. 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. 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 t

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

The JA-80V LAN/PSTN line communicator - 9 - MKA51202

5.28. 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 5.26). 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

5.29. 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

5.30. 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 5.31). 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

5.31. 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

5.32. IP address for data transmission

The communicator supports transmission of the special data (e.g.
visual information for the img.jablotron.com ) from the system to set IP
address, which can be set by following sequence:

013 xx..x ∗0

where:

xxx...x is IP address and port – set in format as shown in the

example:

01 3 ∗∗∗∗8 192 168 021 123 08080 ∗∗∗∗0

∗∗∗∗8 insert # character, to identify the IP address which must

consist of 12 digits followed by 5 digits of the port

To erase the IP set 013∗∗∗∗0.

Factory default : IP address is set to 77.104.220.129 7070
(img.jablotron.com)

5.33. 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 temporarily enabled
in service mode by entering 900 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 901∗0
while ARC programming is temporally enabled – see above. This
will erase the locking code.

Factory default setting: ARC settings unlocked

5.34. Engineer reset

The Engineer reset 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:

GSMlink in the field used for remote code entry
SMS instruction

*

ARC-code_instruction

(e.g.

*

12345678 STATUS)

6. LAN network configuration

Each device in an Ethernet network (LAN, internet) has its own IP address
(e.g. 192.168.250.20). This address can either be a public or private one.
Before connecting the LAN network cable, setting up the LAN network
should be done – either by automatic DHCP or manually (see 5.18).



If automatic DHCP is used, contact your network supervisor and ask
him to make the network ready for the communicator. If he needs the
communicator MAC address you will find it on the label attached to the
communicator board.



Manual programming of the network parameters should be done by a
network supervisor who knows how to program these parameters.

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 communicator tries the main IP
address, if unsuccessful then it tries the backup 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

5.27).

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.

The JA-80V LAN/PSTN line communicator - 10 - MKA51202

7.2. The communicator’s LEDs

Green LED:



regular flashing – communication in progress (ARC, SMS or
remote access)



off – data is waiting to be sent to an ARC



lit permanently – no waiting data to be sent to an ARC

Red LED:



off – communication to the ARC is OK



lit permanently – impossible to send data to any ARC

Yellow LED:



regular flashing – Ethernet connected, DHCP is not working



off – Ethernet is not connected



lit permanently – Ethernet connected and communication with
the network is OK

7.3. After entering service mode the communicator:

• finishes reporting to ARCs (if any is needed)

• 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

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:

• Have the communicator connected to an Ethernet network which
allows access to

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 the

communicator label)

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.

If your communicator is using a dynamic IP address when
communicating with the GSMLink server, then it could be that you
will have to wait for a connection (if your IP address has been
changed). GSMLink will indicate how long it will take to get
connection with the system. To shorten the waiting time it is
possible to initialise the communication remotely by dialling from a
telephone which has been programmed for this function (see

5.10.1).

• 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)

• 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
Max. consumption (during communication) 1 A

Complies with EN 50131-1/2006, EN 50136-1-1, 2-1 as:

ATS 4 if the ARC comm. repeating period is zero (sequence 06a0)
ATS 5 if ID CID protocol is used and the repeating period is set to zero

(sequence 06a0)
Operating environment ( –10 to 40°C) class II
Safety EN 60950
EMC EN 55022, EN 5030-4
Radio transmissions ETSI EN 301419-1 and EN 301511
CLIP protocol (caller ID + SMS) ETSI EN 300 089 V3.1.1(2000-12)

Jablotron Ltd. hereby declares that the JA-80V is in compliance with
the essential requirements and other relevant provisions of Directive
1999/5/EC.
Jablotron Ltd. hereby declares that the product complies with part 15
of the FCC rules. Operation is subject to the following two
conditions: 1. This device may not cause harmful interference, and 2.
This device must accept any interference received, including

interference that may cause undesired operation.
CAUTION: Changes or modifications no expressly approved by Jablotron could
void the user’s authority to operate the equipment.

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.