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versa_p_en 03/09
GDAŃSK
Alarm Control Panels
PROGRAMMING
Program version 1.00
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The SATEL's goal is to continually upgrade the quality of its products, which may result in
alterations of their technical specifications and firmware. The current information on
the introduced modifications is available on our website.
Please visit us:
http://www.satel.pl
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CONTENTS
1. Control Panel Firmware Replacement ..........................................................................3
1.1 Firmware replacement using the service function.................................................................. 3
1.2 Firmware replacement without entering the service mode.....................................................3
2. Programming .................................................................................................................. 4
2.1 Keypad ................................................................................................................................... 4
2.1.1 Starting the service mode.................................................................................................................4
2.1.2 Starting the service mode "from pins" ..............................................................................................4
2.1.3 Access to functions by using arrow keys..........................................................................................5
2.1.4 Access to functions by using numerical shortcuts............................................................................5
2.1.5 "Step by step" programming method................................................................................................6
2.1.6 Service mode menu..........................................................................................................................6
2.1.7 Entering data by means of the VERSA-LCD-GR keypad ..............................................................11
Selection from the single-choice list ............................................................................................11
Selection from the multiple-choice list .........................................................................................11
Entering decimal values...............................................................................................................11
Entering hexadecimal values.......................................................................................................11
Programming telephone numbers................................................................................................11
Entering names............................................................................................................................12
2.1.8 Entering data by means of the VERSA-LED-GR keypad...............................................................13
Selection from the single-choice list ............................................................................................13
Selection from the multiple-choice list .........................................................................................13
Entering decimal values...............................................................................................................13
Entering hexadecimal values.......................................................................................................15
Programming telephone numbers................................................................................................15
2.1.9 Quitting the service mode...............................................................................................................16
2.2 DLOADX program.................................................................................................................. 16
2.2.1 Main menu of the DLOADX program ...............................................................................................16
2.2.2 Changing the program access code...............................................................................................18
2.2.3 Parameters related to programming by means of the DLOADX program .......................................18
2.2.4 Starting local programming without verification of identifiers .........................................................19
2.2.5 Starting local programming with verification of identifiers ..............................................................19
2.2.6 Starting local programming "from pins" ..........................................................................................19
2.2.7 Finishing local programming...........................................................................................................20
2.2.8 Starting remote programming via modem ......................................................................................20
Configuring settings of modem connected to computer ..............................................................20
Initiating connection from the DLOADX program...........................................................................20
Initiating connection from the DLOADX program, but with the control panel calling back and
establishing connection................................................................................................................21
Initiating connection by the control panel.....................................................................................21
3. Global Parameters........................................................................................................22
3.1 Global options ......................................................................................................................22
3.2 Global times .........................................................................................................................24
4. Partitions .......................................................................................................................24
4.1 Partition parameters.............................................................................................................25
5. Zones .............................................................................................................................27
5.1 Numeration of system zones................................................................................................28
5.1.1 Hardwired zones.............................................................................................................................28
5.1.2 Wireless zones ...............................................................................................................................28
5.2 End of line resistors.............................................................................................................. 28
5.3 Zone parameters..................................................................................................................28
5.4 Types of reaction.................................................................................................................. 31
5.5 Zone options.........................................................................................................................32
6. Outputs..........................................................................................................................34
6.1 Numeration of outputs in the system....................................................................................34
6.1.1 Hardwired outputs ..........................................................................................................................34
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2 Programming Manual SATEL
6.1.2 Wireless outputs ............................................................................................................................ 34
6.2 Output functions................................................................................................................... 34
6.3 Output parameters ...............................................................................................................35
6.4 Output options...................................................................................................................... 37
6.5 Quick control of outputs ....................................................................................................... 38
7. Programming Keypads and Expanders ......................................................................39
7.1 VERSA-LCD-GR / VERSA-LED-GR keypad ....................................................................... 40
7.2 ABAX wireless system controller ......................................................................................... 41
7.2.1 Parameters of ABAX system wireless devices.............................................................................. 43
7.2.2 Wireless detectors – general programming rules.......................................................................... 44
7.2.3 Wireless sirens – general rules of programming ........................................................................... 44
7.2.4 Wireless expanders of hardwired zones and outputs – general rules of programming ................ 45
7.2.5 230 V AC wireless controllers – general rules of programming .................................................... 46
7.2.6 Configuration of wireless devices by means of the DLOADX program........................................... 46
7.2.7 Configuration of wireless devices by means of the LCD keypad .................................................. 48
7.3 Proximity card reader...........................................................................................................50
8. Timers ............................................................................................................................51
9. Reporting.......................................................................................................................52
9.1 Reporting parameters and options....................................................................................... 53
9.2 Event codes ......................................................................................................................... 55
9.3 Starting the reporting ........................................................................................................... 55
10. Messaging .....................................................................................................................56
10.1 Messaging parameters and options..................................................................................... 57
10.2 Event assignment ................................................................................................................57
10.3 SMS/Pager messages ......................................................................................................... 57
10.4 Starting the messaging ........................................................................................................ 57
11. User Schedules .............................................................................................................58
11.1 Parameters of the user schedule ......................................................................................... 58
11.2 Functions assigned to key fob ............................................................................................. 60
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SATEL VERSA 3
1. Control Panel Firmware Replacement
This manual applies to the control panels with firmware version 1.00. If a newer version of
firmware is available on our www.satel.pl website, an update of the control panel firmware is
possible. For this purpose, the control panel RS-232 (TTL) port (RJ type socket) should be
connected to the computer COM port (DB9 type socket) with the SATEL made cable which is
included in the DB9FC/RJ-KPL set.
Notes:
• From the moment of establishing communication between the control panel and the
firmware updating program, the control panel will not execute its normal functions until the
firmware replacement procedure is completed.
• If, for whatever reason, the firmware replacement procedure is abruptly terminated (e.g.
because of power failure) and, as a result, the control panel firmware gets damaged, the
control panel will not start normally, but will be waiting for the firmware replacement to
begin.
1.1 Firmware replacement using the service function
1. Enter the service code on the keypad (by default: 12345) and press the key.
2. Press in turn the
3. Press in turn the
updating program on PC..." message will be displayed. The control panel will be waiting
until communication with the firmware updating program is established (press the
key to terminate operation of the STARTER function).
4. Start the control panel firmware update program in the computer.
5. Click on the button.
6. A window will open where you should indicate the computer COM port to which the
control panel is connected and press the "OK" button. The firmware updating program will
establish communication with the control panel.
7. Information will be displayed showing the version of firmware installed on the control
panel and available in a file (version, compilation date, language) and a window will
open, prompting whether you would like to continue. If the firmware is to be replaced,
press "Yes" to begin the control panel firmware replacement.
keys to start the service mode.
keys (the STARTER function will start). The "Run
1.2 Firmware replacement without entering the service mode
1. Start the control panel firmware update program on the computer.
2. Click on the button.
3. A window will open where you should indicate the computer COM port to which the
control panel is connected and select the RESTART field.
4. Power down the control panel (first switch off the 230 V AC circuit to which the control
panel transformer is connected, and then the battery).
5. Power up the control panel (first switch on the battery, and then the 230 V AC circuit to
which the control panel transformer is connected).
6. Information will be displayed showing the version of firmware installed on the control
panel and available in a file (version, compilation date, language) and a window will open
prompting whether you would like to continue. If the firmware is to be replaced, press
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4 Programming Manual SATEL
"Yes" (the control panel will only wait 10 seconds after power-up for the firmware
replacement to begin). Then the replacement of control panel firmware will start.
2. Programming
The alarm control panel may be configured for operation by using the keypad (locally) or
the computer with the DLOADX program installed (locally and remotely).
2.1 Keypad
Programming is only possible when the control panel is accessible to the service. By default,
the PERMANENT SERVICE ACCESS option is enabled ([code] X0. SERVICE
X5. PERM. SV. AC). After the installation is completed, the user having the
DOWNLOAD/SERVICE privilege can disable the PERMANENT SERVICE ACCESS option and
define each time the duration of service access to the control panel ([code]
X0. SERVICE X6. ACCESS TIME).
Programming the control panel from keypad is carried out by using the functions grouped in
the service mode menu. Access to the menu, submenus and particular functions is facilitated
by numerical shortcuts. In case of the LED keypad, programming is subject to some
limitations (e.g. entering names is impossible). SATEL recommends that the LCD keypad
be used for programming the control panel.
The service mode is indicated on the keypads by means of the blue LED. The LED is
lit on the keypad in which the service function menu is available, while it is blinking on all the
other keypads connected to the control panel. The service mode may also be signaled
acoustically, after the corresponding option is enabled. Additional information is provided by
the LED, which is:
– blinking during navigation throughout the menu and submenus;
– lit when any service function is running.
When in the service mode, the alarm system signals no alarms.
2.1.1 Starting the service mode
1. Enter the service code (by default: 12345) and press the key.
2. Press in turn the
keys to start the service mode.
2.1.2 Starting the service mode "from pins"
If entering the service mode in the normal way is impossible, you can use the emergency
hardware procedure, so-called starting "from pins".
1. Power down the control panel (first, switch off power in the 230 V AC circuit, to which the
control panel transformer is connected, and then disconnect the battery).
2. Place a jumper across the RESET pins on the control panel mainboard.
3. Power up the control panel (first, connect the battery, and then switch on power supply in
the 230 V AC circuit, to which the control panel transformer is connected).
4. Wait a few seconds and remove the jumper from the RESET pins.
5. On the keypad with the lowest address, the
blinking, indicating that the service menu is available on the keypad (in case of the LCD
keypad, the menu will be displayed). On the other keypads, the
blinking.
LED will light up and the LED will start
LEDs will start
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SATEL VERSA 5
If the SERVICE MODE FROM RESET PINS option is disabled in the control panel (see:
Section GLOBAL OPTIONS) then, depending on the type of keypad in which the
lowest address is set:
– LCD: the , and LEDs of the second partition will be lit, and the
message "Restore factory settings ? 1=Yes" will come up on the display;
– LED: the and LEDs of the second partition will be lit and the
LED
will be blinking rapidly.
Pressing the key with digit 1 will reset the control panel to its factory settings,
but will enable entering the service mode.
2.1.3 Access to functions by using arrow keys
This way of starting the function is only available in the VERSA-LCD-GR keypad.
1. Use the and keys to find the required submenu (the shape of submenu
cursor is: ).
2. Press the or key to enter the submenu (use the key to return to the
previous menu/submenus, and the
key to return to the main menu).
3. Repeat the steps described in 1 and 2 until you find the required function (the shape of
submenu indicating cursor is:
). Press the or key to start the function.
4. When entering new settings, accept them using the key and return to the submenu.
Press the key to cancel entering the new settings and return to the submenu.
2.1.4 Access to functions by using numerical shortcuts
This way of starting the function is available in both types of keypads supported by the
VERSA control panels (VERSA-LCD-GR and VERSA-LED-GR). All submenus and functions
are numbered. In order to enter a submenu, just press the key with number corresponding to
the submenu number. In order to start a function, press the key with number corresponding
to the function number, and then the key. You can quickly start the selected function by
entering at once a sequence of some digits (corresponding to the consecutive submenu
numbers and the function number) and confirming them by pressing the
key.
For example, to start the expander identification function, first enter the service mode and
then press in turn the
keys, where:
- enter submenu 2. HARDWARE;
- enter submenu 1. KPDS & EXPS.;
- start function 1. IDENTIFICAT.
In the VERSA-LCD-GR keypad, use the
menu or from a function to a submenu, and use the
key to return from a submenu to the main
key to return from a submenu to
the previous menu/submenu.
In the VERSA-LED-GR keypad, use the key to return to the main menu.
Notes:
• When using the numerical shortcuts, remember that the sequence of digits which starts
a function e.g. from the service mode main menu level will not start the same function
from the submenu level.
• In the LCD keypad, the shape of the submenu cursor is: , and that of the function
indicating cursor is :
.
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2.1.5 "Step by step" programming method
Some components of the system (e.g. zones, outputs, expanders, wireless devices, event
codes for monitoring, etc.) should be programmed using the "step by step" method. When the
function is called up and the component to be configured selected from the list, the first
parameter available for programming will be displayed. After it has been configured and
confirmed by pressing the key, you will automatically proceed to programming a next
parameter. The confirmed parameter is saved to the control panel memory. After all available
parameters are configured, return to the submenu follows in the VERSA-LCD-GR keypad,
and to the main menu in the VERSA-LED-GR keypad. The programming can be terminated
at any moment by using the key (you will return to the submenu). The and
LEDs of the first and second partitions show the programming step number in binary mode
(see: page 14 Table 4).
2.1.6 Service mode menu
Shown in square brackets are sequences which enable calling up a particular submenu or
starting a particular function from the main menu level.
0. SrvMod config
[00#] 0. Quit SrvMod
[01#] 1. VERSA id.
[02#] 2. DloadX id.
[04#] 4. DloadX tel.
[06#] 6. SrvMod opt.
[07#] 7. Restore all
[08#] 8. Default usr.
[09#] 9. STARTER
1. Partitions
[11#] 1. Part. 1 zones
[12#] 2. Part. 2 zones
[13] 3. Part. 1 times
[131#] 1. Exit delay
[132#] 2. Entry delay
[133#] 3. Warning
[134#] 4. Verification
[135#] 5. Autoarm delay
[136#] 6. A-arm defer
[14] 4. Part. 2 times
[141#] 1. Exit delay
[142#] 2. Entry delay
[143#] 3. Warning
[144#] 4. Verification
[145#] 5. Autoarm delay
[146#] 6. A-arm defer
[15#] 5. Part. 1 name
[16#] 6. Part. 2 name
[17#] 7. Part. options
2. Hardware
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SATEL VERSA 7
[21] 1. Kpds. & exps.
[211#] 1. Identificat.
[212#] 2. Settings
[213#] 3. ACU-100
[213#1#] 1. New device.
[213#2#] 2. Config. device
[213#3#] 3. Remove device
[213#4#] 4. ACU-100 zones
[213#5#] 5. Synchronize
[213#6#] 6. Test mode on
[213#7#] 7. Test mode off
[219#] 9. Remove k-fobs
[210#] 0. Keypads addr.
[22#] 2. Zones
[23#] 2. Outputs
[24] 4. Quick control
[241#] 1. Control 1#/1*
[242#] 2. Control 2#/2
[243#] 3. Control 3#/3
[244#] 4. Control 4#/4
[245#] 5. Control 5#/5
[246#] 6. Control 6#/6
[247#] 7. Control 7#/7
[248#] 8. Control 8#/8
[249#] 9. Control 9#/9
*
*
*
*
*
*
*
*
[240#] 0. Control 0#/0*
[25#] 5. EOL 1 resist.
[26#] 6. EOL 2 resist.
[27#] 7. VERSA zones
3. Global param.
[31#] 1. Options
[32#] 2. Kpds al. time
[33#] 3. Hide arm st.
[34#] 4. AC trbl. delay
[35#] 5. Tel. trbl. del.
[36#] 6. RTC adjustm.
[37#] 7. Daylight sav.
[38#] 8. Summer time
[39#] 9. Winter time
4. Timers
[41#] 1. Timer 1 name
[42#] 2. Timer 2 name
[43#] 3. Timer 3 name
[44#] 4. Timer 4 name
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5. Monitoring
[50#] 0. Stations
[51] 1. Station 1
[511#] 1. Tel. number
[512#] 2. Tel. format
[513#] 3. Options
[514#] 4. Attempts no.
[515#] 5. Suspens. time
[516] 6. Identifiers
[5161#] 1. Id. 1
[5162#] 2. Id. 2
[5163#] 3. Id. 3
[5160#] 0. System Id.
[517#] 7. T-M/SIA pref.
[52] 2. Station 2
[521#] 1. Tel. number
[522#] 2. Tel. format
[523#] 3. Options
[524#] 4. Attempts no.
[525#] 5. Suspens. time
[526] 6. Identifiers
[5261#] 1. Id. 1
[5262#] 2. Id. 2
[5263#] 3. Id. 3
[5260#] 0. System Id.
[527#] 7. T-M/SIA pref.
[53#] 3. SIA options
[54] 4. Event codes
[541] 1. Partition 1
[5411#] 1. Arm by user
[5412#] 2. Arm other
[5413#] 3. Quick arm
[5414#] 4. Disarm by usr
[5415#] 5. Disarm other
[5416#] 6. Rest. by user
[5417#] 7. Restore other
[5418#] 8. Duress
[542] 2. Partition 2
[5421#] 1. Arm by user
[5422#] 2. Arm other
[5423#] 3. Quick arm
[5424#] 4. Disarm by usr
[5425#] 5. Disarm other
[5426#] 6. Rest. by user
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SATEL VERSA 9
[5427#] 7. Restore other
[5428#] 8. Duress
[543] 3. Zones
[5431#] 1. Alarm
[5432#] 2. Alarm restore
[5433#] 3. Tamper
[5434#] 4. Tmp restore
[5435#] 5. Trouble
[5436#] 6. Trouble rest.
[5437#] 7. Bypass
[5438#] 8. Unbypass
[544] 4. ABAX zones
[5441#] 1. Commun. loss
[5442#] 2. Commun. rst.
[5443#] 3. Battery low
[5444#] 4. Battery rst.
[545] 5. Exp. modules
[5451#] 1. Tamper
[5452#] 2. Tmp restore
[5453#] 3. Fire alarm
[5454#] 4. Medical alarm
[5455#] 5. Panic alarm
[5456#] 6. 3 wrong codes
[5457#] 7. 3 wrong cards
[546] 6. Exp. supply
[5461#] 1. AC trouble
[5462#] 2. AC restore
[5463#] 3. Batt. trouble
[5464#] 4. Batt. restore
[5465#] 5. Overload
[5466#] 6. Overload rst.
[547] 7. System
[5471#] 1. Troubles
[5472#] 2. Troubles rst.
[5473#] 3. Other
[5474#] 4. RTC setting
[540#] 0. TELIM codes
[55#] 5. Test at
[56#] 6. Test every
[57#] 7. Test (armed)
6. Messaging
[61#] 1. Zone alarms
[62#] 2. Output trig.
[63] 3. Arming
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[631#] 1. Part. 1 user
[632#] 2. Part. 1 other
[633#] 3. Part. 2 user
[634#] 4. Part. 2 other
[64] 4. Disarming
[641#] 1. Part. 1 user
[642#] 2. Part. 1 other
[643#] 3. Part. 2 user
[644#] 4. Part. 2 other
[65] 5. Other
[651#] 1. Tamper alarm
[652#] 2. Tamper rest.
[653#] 3. AC trouble
[654#] 4. AC restore
[655#] 5. Battery trbl.
[656#] 6. Battery rest.
[657#] 7. Tel. lin. rest.
[66] 6. Message type
[651#] 1. Tel1 msg. type
[652#] 2. Tel2 msg. type
[653#] 3. Tel3 msg. type
[654#] 4. Tel4 msg. type
[655#] 1. Tel5 msg. type
[656#] 2. Tel6 msg. type
[657#] 3. Tel7 msg. type
[658#] 4. Tel8 msg. type
[67] 7. PAGER param.
[671#] 1. PAGER1
[672#] 2. PAGER2
[68#] 8. Queues/tries
[69#] 9. Messages
[60#] 0. Tel. names
7. Answering
[71#] 1. Rings to ans.
8. Usr templates
[81#] 1. Settings
[82#] 2. Key fob func.
[83#] 3. Name
9. User menu
Function 9. USER MENU enables access to the user functions when the control panel remains
in the service mode (press the key to return to the main menu of the service mode).
The user menu and functions are described in the User Manual.
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SATEL VERSA 11
2.1.7 Entering data by means of the VERSA-LCD-GR keypad
The data being entered are presented on the display. The method of programming depends
on the type of data to be entered by service function. To save the data in the control panel,
press the
key. To exit the function without saving the changes, press the key.
Selection from the single-choice list
The upper line of display shows the function name, and the lower one – the currently
selected item. To scroll through the item list, use the keys (down) and the
keys (up). The and keys are not used.
Selection from the multiple-choice list
The upper line of display shows the function name, and the lower one – one of the items
to choose from. To scroll through the item list, use the keys (down) and the
keys (up). Shown in the upper right corner of the display is an additional symbol:
– displayed item is selected / option is enabled;
– displayed item is not selected / option is disabled.
Press any numerical key to change the currently shown symbol for another one.
Press the
programming. By means of the
status of all items accessible within this function (these can be e.g. zones, outputs,
options, etc.). The key moves the cursor to the right, and the key – to the
left. When you press the or key, the keypad returns to the text mode.
or key to switch over the keypad to the graphical mode
and symbols, the display presents the current
Entering decimal values
Digits are entered by pressing the suitable keys. The key moves the cursor to the
right, and the or key – to the left.
Entering hexadecimal values
Digits are entered by pressing the suitable keys. Characters from A to F available under
the
The
and
key moves the cursor to the right, and the or key – to the left.
keys. Keep pressing the keys until the required character appears.
Programming telephone numbers
Keep pressing particular keys until the required character appears. Characters available
in the keypad are presented in Table 1. Up to 16 characters can be programmed. Some
of the special characters (a, b, c, d, # and
two items, hence the maximum number of characters available for entering, if they are
used, will be lower.
Shown on the right side in the upper line of the display is information about the letter
case: [ABC] or [abc] (it will be displayed after pressing any key and will be visible for
a few seconds after the last keystroke).
) are coded so that the character takes up
The key moves the cursor to the right, and the or key – to the left.
The key deletes the character on the left side of the cursor.
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12 Programming Manual SATEL
Characters available after next keystroke
key mode [ABC]
1 #
2 B C
3 D E F
4
5
6
7
8
9
0
key mode [abc]
1 #
2 a b c
3 d
4
5
6
7
8
0
Table 1. Characters available in the keypad when entering telephone numbers (to change the
letter case, press ).
Special character Function description
B switch-over to pulse dialing
C switch-over to tone dialing (DTMF)
D waiting for additional signal
E 3 second pause
F 10 second pause
signal in DTMF mode
# signal # in DTMF mode
a
b
c
other signals generated in DTMF mode
d
Table 2. Special character functions.
Entering names
Keep pressing particular keys until the required character appears. Characters available
in the keypad are presented in Table 3. Hold down the key to display the digit assigned
to the key.
Shown on the right side in the upper line of the display is information about the letter
case: [ABC] or [abc] (it will be displayed after pressing any key and will be visible for a
few seconds after the last keystroke).
The
The key deletes the character on the left side of the cursor.
key moves the cursor to the right, and the or key – to the left.
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SATEL VERSA 13
Key Characters available after next keystroke
! ? ' ` " { } $ % & @ \ ^ |
a b c 2
d e f 3
g h i 4
j k l 5
m n o 6
p q r s 7
t u v
w x y z 9
. , : ; + -
/ = _ < > ( ) [ ] 0
8
# 1
Table 3. Characters available in the VERSA-LCD-GR keypad when entering names. The
lower case letters are available under the same keys (to change the letter case, press
).
2.1.8 Entering data by means of the VERSA-LED-GR keypad
The data being entered are presented by means of LEDs. The method of programming
depends on the type of data to be entered by service function. To save the data in the control
panel, press the key. To exit the function without saving the changes, press the
key.
Selection from the single-choice list
The lit LEDs show the available items on the list. Blinking LED indicates the current
position of the cursor and, consequently, the item which is currently selected. The
key moves the cursor to the right, and the key – to the left. As all the LEDs are
numbered, you can use the numerical keys to select the item at once and move the
cursor there. The
and keys are not used.
Selection from the multiple-choice list
The lit LEDs show which items have been selected. Blinking LED indicates the current
position of the cursor. The
key moves the cursor to the right, and the key –
to the left. Press any numerical key to toggle the status of the LED over which the
cursor is placed (depending on its current status, the LED comes on or goes out). The
and keys are not used.
Entering decimal values
After entering the selected parameter programming function, the currently programmed
value will be presented in binary mode on LEDs 1-12 (see: Fig. 1). LEDs 1-4 present
(see: page 14 Table 4) the first digit , LEDs 5-8 – the second one, LEDs 9-12 – the third
one. To enter the new numerical value, press the corresponding numerical keys. You
can enter:
– 1 digit – it will be shown on LEDs 1-4 (the other LEDs are off);
– 2 digits – they will be shown on LEDs 1-8 (the other LEDs are off);
– 3 digits – they will be shown on LEDs 1-12.
The arrow keys are not used.
Correction of the entered value is only possible after re-entering the selected parameter
programming function.
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14 Programming Manual SATEL
A
0 03
B
1 06
Fig. 1. Examples of presenting decimal values by means of LEDs in the VERSA-LED-GR
keypad. Value 30 (030) is programmed in Example A, and value 160 in Example B.
LED status Digits and characters
0 – LED OFF
1
2
3
4
5
6
7
8
9
A
B
C
D
E
F
– LED ON
Table 4. The binary mode of presenting digits and characters.
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SATEL VERSA 15
Entering hexadecimal values
After entering the selected parameter programming function, the currently programmed
value will be presented on the LEDs. Up to 6 characters can be presented (most
functions require a lesser number: 2 or 4 characters). LEDs 1-4 present in binary format
(see: page 14 Table 4) the first character, LEDs 5-8 – the second one, LEDs 9-12 – the
third one, LEDs 16-19 – the fourth one, 20-23 – the fifth one, and LEDs 24-27 – the
sixth one.
The digits are to be entered by pressing the corresponding keys. Characters from A to F
are available under the and keys. Keep pressing the keys until the required
character is displayed in binary mode on the LEDs (see: page 14 Table 4).
The arrow keys are not used.
Correction of the entered value is only possible after re-entering the selected parameter
programming function.
A
D 5
B
E 29
B
Fig. 2. Examples of presenting hexadecimal values by means of LEDs in the
VERSA-LED-GR keypad. Two-character value D5 is programmed in Example A, and four-
character value E92B in Example B.
Programming telephone numbers
The telephone numbers are entered in much the same way as in the VERSA-LCD-GR
keypad, however the LEDs can only present the first 6 characters (only digits and
characters B, C, D, E and F – see: page 14 Table 4).
The arrow keys are not used.
Correction of the entered value is only possible after re-entering the selected parameter
programming function.
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16 Programming Manual SATEL
2.1.9 Quitting the service mode
In order to quit the service mode, use the QUIT SERVICE MODE function:
To end the service mode, do the following:
– in the VERSA-LCD-GR keypad, keep pressing the key until the 0. SRVMOD
CONFIG
submenu will appear in the upper line of the display, and then press
successively the keys;
– in the VERSA-LED-GR keypad, press the key and then press successively the
keys.
2.2 DLOADX program
The DLOADX program enables data exchange between the computer and the control panel,
facilitates alarm system configuration, and ensures easy viewing of the status of zones,
partitions, outputs, troubles, and other components of the system. Access to the program is
protected by a code (password). To obtain access at the first run of the program, enter the
factory default code: 1234 (you need not enter the factory code, just click on the "OK"
button). It is recommended that the factory access code be changed.
Note: Entering an invalid code three times will terminate the program.
Communication between the program and the control panel is coded. The alarm control
panel may be programmed locally or remotely:
1. Local programming requires connection between the RS-232 (TTL) port on control
panel mainboard (RJ type socket) and the computer COM port. The connection should be
made by using the cable manufactured by SATEL and available in the DB9FC/RJ-KPL
set.
2. Remote programming is possible, owing to the built-in 300 bps modem. This
programming method requires connection of the control panel to the telephone line. An
analog modem must be connected on the computer side.
2.2.1 Main menu of the DLOADX program
Fig. 3. Main menu of DLOADX program.
Explanations for Fig. 3:
1 - type of alarm control panel.
2 - name of alarm system / data file.
3 - information on data writing/reading progress.
4 - icon indicating the status of communication with the module:
– green color – COM port ready for sending data;
– alternating green and yellow color – data transmission in progress;
– gray color – COM port disabled.
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SATEL VERSA 17
A click on the icon button:
– in case of communication via the RS-232 port – will enable/disable the COM port;
– in case of communication via the modem – will display the modem connection
window.
5 - information on the way of communication with the alarm control panel:
– COMn (n = number of COM port) – communication via the RS-232 port;
– Modem – communication via the modem.
Buttons:
System and hardware structure – button opens the "Versa – Structure" window.
Options and global times – button opens the "Global parameters" window.
Zones data – button opens the "Versa – Zones" window.
Outputs data – button opens the "Versa – Outputs" window.
Timers – button opens the "Versa – Timers" window.
Reporting – button opens the "Versa – Reporting" window.
Telephone messaging – button opens the "Versa – Tel. messaging" window.
Panel’s data reading – button enables data reading from the control panel.
Write to panel – button enables data writing to the control panel.
Event log – button opens the window containing event log.
Cancel – button makes it possible to cancel the data reading/writing.
Clock setting – button saves the time in the control panel, based on the computer
clock.
LCD keypad – button displays a virtual keypad.
System status – button opens the drop-down menu shown in Fig. 4.
Configuration – button opens the "Configuration" window.
Connection – button opens the drop-down menu, where you can select the method
of establishing communication between the program and the alarm control panel.
Fig. 4. Menu displayed after pressing the button.
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18 Programming Manual SATEL
2.2.2 Changing the program access code
1. Open the FILE menu, select ACCESS SETUP and then CHANGE ACCESS CODE (see: Fig. 5).
Fig. 5. Functions related to the access to DLOADX program.
2. Enter your present access code to the program and click on the "OK" button.
3. Enter the new access code to the program and click on the "OK" button.
4. Re-enter the new program access code and click on the "OK" button.
The program allows you to obtain access, based on additional access codes, which can be
defined and for which the authority level can be defined (FILE ÆACCESS SETUP ÆPROGRAM
USERS
– see: Fig. 5).
2.2.3 Parameters related to programming by means of the DLOADX program
In case of remote programming, it is necessary to configure some communication
parameters and options in the control panel. In case of local programming without verification
of identifiers, the parameters described below may be configured after communication with
the control panel is established.
VERSA communication identifier – identifier of the alarm control panel which makes it
possible to identify the control panel and match the data file to it, provided that the data file
has been saved on the computer. It consists of 8 hexadecimal characters (digits or letters
from A to F). The same identifier must not be programmed for different control panels
operated from the same computer (the DLOADX program will be incapable of distinguishing
between them).
DLOADX communication identifier – identifier of the computer with DLOADX program. If
communication is effected, including verification of identifiers, the control panel will only
establish connection with the program which uses the valid identifier. It consists of 8
hexadecimal characters (digits or letters from A to F).
Note: In case of establishing communication with the alarm system whose identifiers have
factory defaults (00000000), the DLOADX program will suggest random generated
identifiers.
VERSA panel telephone number – telephone number of the control panel. Available for
programming only in DLOADX program.
PC telephone number – telephone number of the computer from which the control panel is
to be programmed. It should be programmed if the telephone connection is to be made by
the control panel (the panel initiates the connection or calls back).
Rings before answer – number of rings after which the control panel will go off hook.
In the DLOADX program, the identifiers and telephone numbers are programmed in the
window "Identifiers andtelephone numbers". The command to open this window is available
in the COMMUNICATION menu. It can also be opened by using the Ctrl+R key shortcut. In the
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SATEL VERSA 19
keypad, the identifiers and computer telephone number are programmed from the submenu
0. SRVMOD CONFIG.
The number of rings in the DLOADX program should be programmed in the "Global
parameters" window. The same parameter in the keypad is programmed from the submenu
7. ANSWERING.
Options related to remote programming via the modem (e.g. ANSWERING – MODEM and
DOUBLE CALL) are described in Section GLOBAL OPTIONS.
2.2.4 Starting local programming without verification of identifiers
With this method of establishing communication between computer and alarm control panel
you do not have to know any identifiers programmed in the control panel (the S
function will be activated automatically). After establishing communication with the control
panel, identifiers will be read by the D
LOADX program.
1. Connect the control panel RS-232 (TTL) port with the computer port.
TART DWNLRS
2. Enter the service code (by default: 12345) and press the
3. Press in turn the
keys to start the service mode.
key.
4. Start the DLOADX program on the computer. If the control panel RS-232 (TTL) port is
connected to the computer COM1 port, communication with the control panel will start
automatically. Otherwise, click on the
button and, in the window that will open,
indicate the computer port through which communication is to be effected.
5. The DLOADX program will signal establishing communication by displaying an appropriate
message.
2.2.5 Starting local programming with verification of identifiers
Communication between the computer and the alarm control panel in this mode will be
established, when the communication identifiers in control panel and program are identical or
the identifiers programmed in the control panel have the factory value.
1. Connect the control panel RS-232 (TTL) port with the computer port.
2. Enter the service code (by default: 12345) and press the key.
3. Press in turn the
4. Start the D
LOADX program on the computer. If the control panel RS-232 (TTL) port is
connected to the computer COM1 port, communication with the control panel will start
automatically. Otherwise, click on the
indicate the computer port through which communication is to be effected.
5. The DLOADX program will signal establishing communication by displaying an appropriate
message.
keys (the START DWNLRS function will start).
button and, in the window that will open,
2.2.6 Starting local programming "from pins"
If the local programming cannot be started in normal manner, you can use the emergency
hardware procedure, so-called starting "from pins".
1. Connect the control panel RS-232 (TTL) port with the computer port.
2. Start the service mode in the control panel "from pins" (see: Section STARTING THE
SERVICE MODE
3. Start the DLOADX program on the computer. If the control panel RS-232 (TTL) port is
connected to the computer COM1 port, communication with the control panel will start
automatically. Otherwise, click on the
indicate the computer port through which communication is to be effected.
"FROM PINS").
button and, in the window that will open,
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20 Programming Manual SATEL
4. The DLOADX program will signal establishing communication by displaying an appropriate
message.
2.2.7 Finishing local programming
The local programming function will stop automatically after 4 hours have elapsed since
operation of the DLOADX program was completed. The function may also be terminated by
using the FINISH DWNLRS command, available from the keypad.
1. Enter in the keypad the service code (by default 12345) and press the key.
2. Press in turn the
keys (to start the FINISH DWNLRS function).
2.2.8 Starting remote programming via modem
For remote programming to be possible, the modem and the control panel must be suitably
configured. Communication between the control panel and the modem can be established in
a few ways:
1. Connection is initiated from the DLOADX program.
2. Connection is initiated from the DLOADX program, but the control panel calls back and
establishes the connection.
3. Connection is initiated by the control panel.
Configuring settings of modem connected to computer
Configuration of the modem connected to computer is possible by using the DLOADX
program. For this purpose, click on the
button. The "Configuration" window will
open, in which you should click on the "Modem" tab. When you click on the
button, you will be able to edit parameters of the port used for communication with
the modem, as well as the initiation commands.
Initiating connection from the DLOADX program
This method makes it possible to establish connection with the control panel from any
location. Make sure that in the control panel:
• the computer telephone number has not been programmed!
• the ANSWERING – MODEM option is enabled (SERVICE MODE X3. GLOBAL PARAM.
X1. OPTIONS XMODEM ANSWERING);
• you have defined the number of rings after which the control panel will go off-hook
(SERVICE MODE X7. ANSWERING X1. RINGS TO ANS.);
• you have defined whether the control panel will go off-hook after the first, or after the
second call (S
ERVICE MODE X3. GLOBAL PARAM. X1. OPTIONS XDOUBLE CALL).
Telephone number of the control panel must be programmed in the DLOADX program.
1. Start the DLOADX program on computer.
2. Initialize the modem connected to the computer. For the modem to be initialized,
click on the button and, from the menu that will be displayed, select the 300 bps
modem. The window will then open where the modem initializing information will be
shown.
3. Click on the "Connect" button.
4. After the preprogrammed number of rings (after the second call, if the DOUBLE CALL
option is enabled), the control panel will answer the call and the connection will be
established. The DLOADX program will signal it by an appropriate message.
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SATEL VERSA 21
Initiating connection from the DLOADX program, but with the control panel
calling back and establishing connection
This method ensures better security of the system, because the control panel may
only be remotely programmed from a specified locality. Make sure that in the control
panel:
• you have programmed telephone number of the computer from which the control
panel is to be programmed (SERVICE MODE X0. SRVMOD CONFIG X4. DLOADX TEL.);
• the ANSWERING – MODEM option is enabled (SERVICE MODE X3. GLOBAL PARAM.
X1. OPTIONS XMODEM ANSWERING);
• you have defined the number of rings after which the control panel will go off-hook
(SERVICE MODE X7. ANSWERING X1. RINGS TO ANS.);
• you have defined whether the control panel will go off-hook after the first, or after the
second call (SERVICE MODE X3. GLOBAL PARAM. X1. OPTIONS XDOUBLE CALL).
Telephone number of the control panel must be programmed in the DLOADX program.
1. Start the DLOADX program on computer.
2. Initialize the modem connected to the computer. For the modem to be initialized,
click on the button and, from the menu that will be displayed, select the 300 bps
modem. The window will then open where the modem initializing information will be
shown.
3. Click on the "Connect" button.
4. After the preprogrammed number of rings (after the second call, if the DOUBLE CALL
option is enabled), the control panel will answer the call, acknowledge receiving the
connection, and then disconnect.
5. The control panel will call back the number programmed in the control panel and the
connection will be established, which will be indicated by the DLOADX program by an
appropriate message.
Initiating connection by the control panel
Like the previous method, also this one ensures enhanced security of the system,
because the control panel may only be remotely programmed from a specified locality. It
can be applied if the system user prefers that the remote programming cannot be
carried out without his knowledge. Telephone number of the computer from the control
panel is to be programmed must be programmed in the control panel (S
X0. S
1. Start the D
RVMOD CONFIG X4. DLOADX TEL.).
LOADX program on computer.
2. Initialize the modem connected to the computer. For the modem to be initialized,
click on the button and, from the menu that will be displayed, select the 300 bps
modem. The window will then open where the modem initializing information will be
shown.
3. Enter in the keypad the service code (by default 12345) or the code of user having
the DOWNLOAD/SERVICE privilege and press the key.
4. Press in turn the
keys (the START DWNLTEL con. function will
start).
5. The D
LOADX program will signal establishing communication by an appropriate
message.
ERVICE MODE
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22 Programming Manual SATEL
3. Global Parameters
3.1 Global options
Reporting – TELEPHONE – the control panel can send event codes to the monitoring
station by means of the telephone line.
Telephone messaging – the control panel can notify about the occurrence of specific events
by means of voice messages or SMS messages using the telephone links.
Answering – modem – an option of external initiation of the communication between
modem and control panel.
Double call – the control panel must be called twice for the modem communication to be
established. The first time you must wait for the preprogrammed number of rings and hang
up. Then you must call back within three minutes and the control panel will answer the call
immediately. This solution makes it possible to connect after the control panel some
additional devices which will be activated after a preset number of rings (e.g. answering
machine, fax, etc. ).
Tone dialing – the control panel will tone dial the telephone numbers (pulse dial, if this
option is disabled).
Pulse 1/1.5 (off 1/2) – this option applies to dialing the telephone numbers by using the pulse
mode. Before you enable it, make yourself familiar with the valid standard of pulse dialing.
No dial tone test – the control panel will not perform the test for dial tone before dialing the
number and will start dialing the number 5 seconds after going "off hook". This makes it
possible for the control panel to dial the number when some non-standard tones occur on
the telephone line after going off hook (e.g. interrupted tone). When this option is disabled,
the control panel will start dialing the number 3 seconds after going off hook, provided that
the dial tone is present.
No answer tone test – in case of notifying by means of voice messages, the control
panel will not perform the test for "off hook" condition. The voice message will be
played back 15 seconds after completion of the number dialing. In case of monitoring,
the control panel will ignore any signals (including the busy tone) received from the
telephone exchange after dialing the telephone number, and will wait for the
handshake from the monitoring station. Enable this option if, after dialing the number,
non-standard signals are received from the telephone exchange or in case of very
poor quality connections.
Store key fob events – using the key fob is written into the events log.
Trouble memory until review – the trouble memory is being signaled until it is cleared
(clearing the trouble memory is possible when you quit the TROUBLES user function).
Serial data on OUT 3/4 – OUT3 and OUT4 outputs send the system status data (zone
alarms, fire alarms, troubles, armed modes, etc.) and do not execute any other
programmed functions. The outputs may be used to control the NR2-DSC radio monitoring
transmitter (NEMROD system – PC-16 OUT format), made by NOKTON.
OUT 3/4 data extended mode – this option is active, if the SERIAL DATA ON OUT 3/4 option is
enabled. The OUT3 and OUT4 outputs will send the system status data in the form of
frames (PC-16 OUT UA format).
Arming/Disarming/Clearing signaling from zones only – outputs with the functions
1. EXTERNAL SIREN and 2. INTERNAL SIREN with enabled ARMING/DISARMING/CLEARING
SIGNALING
means of zones (the arming and disarming, as well as alarm clearing by means of keypad,
proximity card reader or timer will not be signaled).
option will signal arming and disarming, as well as alarm clearing executed by
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SATEL VERSA 23
Clear messaging on alarm clearing – clearing the alarm will automatically cancel
messaging about this alarm, if the user clearing the alarm has the TELEPHONE MESSAGING
CLEARING
right.
Service message after tamper alarm – this option is active, if the TROUBLE MEMORY UNTIL
REVIEW
option is enabled. Information on the tamper alarm can only be cleared from the
troubles memory by using the service code. In the LCD keypad, the " System tamper, call
service" message will be displayed after the tamper alarm (unless the alarm messages are
displayed). The message will no longer be displayed after the troubles memory is reset by
the service.
Warning alarm – the system includes an activated warning alarm feature, whose purpose is
to delay the loud signaling and reporting, if any mistakes are made when entering the
protected facility. The warning alarm is not monitored. It can be signaled on the keypad,
proximity card reader or outputs with the function 2. INTERNAL SIREN. The warning alarm is
triggered by zones with the following reaction types:
– 0. E
NTRY/EXIT or 1. ENTRY/EXIT FINAL – unless the system is disarmed before completion
of the E
NTRY DELAY countdown;
– 2. ENTRY/EXIT ROUTE – if it is violated during the ENTRY DELAY countdown, and the
system is not disarmed before completion of the DELAY TIME countdown;
– 3. INSTANT – if it is violated during the ENTRY DELAY countdown.
The warning alarm lasts 30 seconds. Unless the alarm system is disarmed during this
time, the alarm will be triggered by the zone.
Warning alarm on internal sirens – this option is active, if the WARNING ALARM option is
enabled. The warning alarm will be signaled on outputs with the 2. INTERNAL SIREN
function.
Tamper alarm always audible – the tamper alarm will be signaled always on outputs with
the functions 1. EXTERNAL SIREN and 2. INTERNAL SIREN (in armed mode only if the option
is disabled). Also, lack of the expander is always saved in the event log as a tamper
alarm. If the option is disabled, lack of the expander will be saved in the event log:
– as a trouble, if the partition to which the expander is assigned, is disarmed (but the
keypad will signal tamper alarm anyway);
– as a tamper alarm, if the partition is armed.
Tamper alarm on internal sirens – the tamper alarm will be signaled always on outputs with
the function 2. INTERNAL SIREN (in armed mode only if the option is disabled). Additionally,
the output will always signal lack of the expander (also when the event is logged as
a trouble – see: option T
AMPER ALARM ALWAYS AUDIBLE).
Block after 3 unknown codes/cards – after entering an invalid code / reading in an invalid
card three times, the keypad / reader will be blocked for 90 seconds. After this period of
time has expired, each subsequent entry of an invalid code / read-in of an invalid card will
block the keypad / reader at once. The counter of invalid codes / cards will be reset after a
correct code is used.
Service Mode from RESET pins – it is possible to start the service mode and local
programming "from pins" (on the keypad this option is available in the submenu
0. S
RVMOD CONFIG (XSERVICE MODE X0. SRVMOD CONFIG X6. SRVMOD OPT. XSRVMOD VIA
RESET)).
Limit storing "Test transmission" events – if the "Test transmission" events directly follow
one another, they are only written to the event log 3 times. Information on sending next
test transmissions is not recorded. Any other event occurring in the system will reset the
counter of "Test transmission" events, i.e. it will be possible to log next three consecutive
test transmissions.
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Note: Additionally, the list of global options in the keypad includes:
– TMP ALARM IN P.2 – alarm from the mainboard TMP zones is signaled in partition 2.
In the DLOADX program, the partition in which alarm from TMP zones will be
signaled is to be selected in the "Versa – Structure" window, "Hardware" tab, after
clicking on the system name on the left side;
– EVENTS LIMITAT., EXP. RESTART. REP., REST. AFT. BELL and REST. AFT. DISARM. –
options available in the DLOADX program, "Versa – Reporting" window, and
described in section REPORTING PARAMETERS AND OPTIONS.
3.2 Global times
Keypad’s alarm time – time period during which alarm is signaled in keypads and proximity
card readers. Up to 255 seconds can be programmed. Programming the value 0 means
that the KEYPAD’S ALARM TIME will be 3 seconds.
No armed indication after – time counted from the moment of partition arming, after expiry
of which the keypad LED indicating the partition armed status will go out. Up to 255
seconds can be programmed. Programming the value 0 means that the LED will be lit as
long as the partition is armed.
AC loss report delay – time during which the control panel must be without AC power
before the trouble is reported. A delay in reporting the trouble prevents sending information
about short-time voltage decays, having no effect on normal operation of the system. The
trouble reporting delay can be up to 255 minutes.
Telephone line loss report delay – time during which abnormal voltage must be on the
telephone line for the control panel to report the telephone line trouble. A delay in reporting
the trouble prevents sending information about short-time voltage dips (e.g. during a
phone call) or decays. The trouble reporting delay can be up to 255 minutes.
RTC clock correction – if the accuracy of control panel clock is inadequate, the clock
settings may be adjusted once per 24 hours (at midnight) by a defined time. The correction
time is programmed in seconds. The maximum correction can be ±19 seconds per 24
hours.
Summer/winter time – the control panel can automatically adjust the clock settings due to
a change from the summer time to the winter time and vice versa. The following correction
schemes are available:
– no correction;
– according to the European Union rules;
– according to the United States' rules;
– correction by 1 hour according to dates;
– correction by 2 hours according to dates.
Summer time from / Winter time from – if the control panel clock is to be corrected by 1 or
2 hours according to dates, you should enter the dates (day, month) after the clock is
changed to the summer time (moved forward) or to the winter time (moved back).
4. Partitions
A system based on the VERSA control panels can be subdivided into 2 partitions. The
partition means a separated area in the building protected by the alarm system. Because the
partitions can be armed independently, subdividing the system into partitions will allow the
user to arm/disarm just a part of the building. Additionally, the subdivision into partitions
makes it possible to restrict access to a part of the building to selected users.
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SATEL VERSA 25
In the DLOADX program, the partition parameters are programmed in the "Versa – Structure"
window, "System" tab. The partitions and zones are presented in a tree-like form on the left
side of the window (see: Fig. 6). In the keypad, the partition parameters are configured by
using the functions available in the PARTITIONS submenu (SERVICE MODE X1. PARTITIONS).
Fig. 6. List of partitions and zones in a tree-like form in the "System" tab, "Versa – Structure"
window (an example of configuration).
4.1 Partition parameters
Fig. 7. Programming partition parameters in the "Versa – Structure" window, DLOADX
program (an example of configuration).
Name – individual name of the partition (up to 16 characters ).
Partition exit delay – the time counted from the moment of partition arming which
enables the protected area to be left without triggering an alarm. Violation of the zones
with the reaction type 0. ENTRY/EXIT, 1. ENTRY/EXIT FINAL, 2. ENTRY/EXIT ROUTE or
4. DOUBLE KNOCK during the exit delay time will trigger no alarm. Up to 255 seconds can
be programmed.
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26 Programming Manual SATEL
Notes:
• The exit delay countdown can be terminated by means of the zones type 1. ENTRY/EXIT
FINAL
or 16. EXIT DELAY TERMINATOR. All zones in the partition will be armed before expiry
of the programmed exit delay time.
• Using the keypad, you can arm the system without the exit delay, if the hold down the
key which ends the arming sequence ( , , or ) for approx. 3
seconds.
Infinite exit delay – the partition exit delay time can only be ended by means of the zones
with reaction type 1. ENTRY/EXIT FINAL, 16. EXIT DELAY TERMINATOR or 17. SHUNT LOCK. If
the exit delay countdown is not completed, the armed mode will not be activated (only the
zones with reaction type 3. INSTANT will be armed).
Entry delay – the time counted from the moment of entry into the protected area which
enables the partition to be disarmed before triggering an alarm. This parameter
applies to the zones type 0. ENTRY/EXIT and 1. ENTRY/EXIT FINAL. The delay
programmed for the partition is taken into account in case of the zones for which the
value 0 has been individually programmed. The delay is programmed in seconds. Up
to 255 seconds can be programmed. If the value 0 is programmed, the zone will act
as an instant one.
Warning time – the time of warning alarm signaling for the partial armed mode (see: zone
option WARNING IN PARTIAL ARMING). The time is programmed in seconds. Up to 255
seconds can be programmed. If the value 0 is programmed, the WARNING TIME will be 30
seconds. After expiry of the WARNING TIME, unless the partition is disarmed, the burglary
alarm will be triggered.
Note: The WARNING TIME parameter does not apply to the time of signaling the warning alarm
which is generated when mistakes are made when entering into the protected object
(see: WARNING ALARM global option).
Verification time – programming a value different from 0 means activating the alarm
verification feature in the partition. Subject to verification are alarms from zones with
reaction type from 0 to 5. The VERIFICATION TIME runs from the moment of alarm being
triggered by such a zone. If during the VERIFICATION TIME an alarm is triggered by another
zone in the partition, with the reaction type from 0 to 5, the control panel will report
a verified alarm. The time is programmed in minutes. Up to 255 minutes can be
programmed.
Timer priority – the timer will always arm / disarm the partition according to the preset times
(if this option is not enabled, the timer will only disarm the partition, if the arming was done
by the timer).
Auto-arming delay – the time counted from the moment when the timer is to arm the
partition, enabling the arming to be deferred. The delay time is programmed in seconds.
Up to 255 seconds can be programmed. Programming the value 0 means that the arming
deferment will be unavailable.
Deferment time – the time by which the user can defer arming by the timer. The time is
programmed in minutes. Up to 255 minutes can be programmed. Programming the value 0
means that the arming deferment will be unavailable.
Simple deferment – the user can defer arming by the timer by pressing the
key twice
during the auto-arm delay time countdown.
Single deferment – the user can only use the simple deferment once, so as to postpone the
arming by timer. Subsequent arming deferments are only possible by using the A
ARMING DEFERMENT user function ([CODE] X6. SETTINGS X1. A-ARM DEFER.).
UTO-
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SATEL VERSA 27
5. Zones
A zone can be assigned to one or two partitions. If the zone is assigned to two partitions, it
can be armed when both partitions are armed or one of them only.
The system supports the following zones:
• hardwired – on the control panel PCB and in expanders. The number of available
hardwired zones is determined by the control panel during the identification procedure.
• wireless – after connection of the ACU-100 controller. The number of available wireless
zones depends on the number of wireless devices registered in the system and is
determined during the procedure of adding the same.
• virtual – zones which do not physically exist, but are controlled by means of key fobs.
In the DLOADX program, parameters and options of the zones can be programmed in the
"Versa – Structure" window, "System" tab. Partition and zones are presented in the tree-like
form on the left-hand side of the window (see: Fig. 6). The zone parameters and options can
also be programmed in the "Versa – Zones" window (see: Fig. 8).
In the keypad, parameters and options of the zones are configured by means of the Zones
function (SERVICE MODE X2. HARDWARE X2. ZONES). The programming is performed using
the "step by step" method (the numbers are shown in binary form on the and LEDs of
the first and second partitions):
1. Zone selection.
2. EOL type.
3. Sensitivity [line type NO, NC, EOL and 2EOL].
4. Pulse validity [only for ROLLER type of line].
5. Pulses count [only for ROLLER type of line].
6. Sensitivity [only for Vibration type of line].
7. Pulses count [only for Vibration type of line].
8. Reaction type.
9. Alarm delay [A
13. A
RM/DISARM and 14. ARMING].
10. Max. violation time.
11. Max. no violation time.
12. Zone options.
13. Zone name [only in LCD keypad].
RM MODE should be programmed in this step for zones with reaction type
Fig. 8. "Versa – Zones" window in the DLOADX program.
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28 Programming Manual SATEL
5.1 Numeration of system zones
5.1.1 Hardwired zones
Numbers are assigned to the hardwired zones automatically:
• the zones on control panel PCB always have initial numbers (1-5 for the VERSA 5 control
panel; 1-10 for the VERSA 10 control panel; 1-15 for the VERSA 15 control panel);
• the zones in expanders are numbered depending on the address which is set in them:
– expander with address 12 (0Ch) – numbers from 7 to 14;
– expander with address 13 (0Dh) – numbers from 15 to 22;
– expander with address 14 (0Eh) – numbers from 23 to 30.
If the expander zones coincide with those on the control panel PCB, you may define which of
the zones will be supported by the mainboard, and which ones by the expander. In the
keypad, the VERSA ZONES service function (SERVICE MODE X2. HARDWARE X7. VERSA
ZONES
Structure" window, "System" tab, when programming the selected zone.
5.1.2 Wireless zones
The wireless zones may be assigned any numbers in the system. The numbers are assigned
during the procedure of adding wireless devices. When the wireless zone number coincides
with that of the hardwired zone, you may define which of the zones is to be supported. In the
keypad, the ACU-100 ZONES service function (SERVICE MODE X2. HARDWARE X1. KPDS &
EXPS
program, this can be done in the "Versa – Structure" window, "System" tab, when
programming the selected zone.
) is provided for this purpose. In the DLOADX program, this can be done in the "Versa –
. X3. ACU-100 X4. ACU-100 ZONES). is provided for this purpose. In the DLOADX
5.2 End of line resistors
For the zones on mainboard and in zone expanders identified by the control panel as
CA-64 Ei and CA-64 EPSi, the value of resistors used in the EOL and 2EOL configurations is
programmable within the range from 500 Ω to 15 kΩ.
In the D
window, "Hardware" tab, after indicating the mainboard or selected zone expander in the list.
In the keypad, the resistor value should be programmed as follows:
– for mainboard – by means of the EOL
– for zone expander – during configuration of the expander by using the SETTINGS
Notes:
• The sum of values programmed for the resistors R1 and R2 may not be lower than 500 Ω
• In case of the zone expander, it is possible to program the value 0 for the resistor R2. The
• In the EOL configuration, the resistance value is equal to the sum of values programmed
LOADX program, the resistor value should be entered in the "Versa – Structure"
1 RESISTOR and EOL 2 RESISTOR function
ERVICE MODE X2. HARDWARE X5. EOL 1 RESIST. / X6. EOL 2 RESIST.).
(S
function (S
ERVICE MODE X2. HARDWARE X1. KPDS & EXP. X2. SETTINGS ).
or higher than 15 kΩ.
2EOL configuration requires that two resistors be used, each having resistance equal to
half the value defined for the resistor R1.
for the resistors R1 and R2.
5.3 Zone parameters
Zone name – individual name of zone (up to 16 characters).
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SATEL VERSA 29
Partition 1 / Partition 2 – partition to which the zone is assigned. The zone must be
assigned at least one partition, for its status to be supervised.
Fig. 9. Programming the zone parameters in "Versa – Structure" window in the DLOADX
program (an example of configuration).
Entry delay – the time counted from the moment of violating a zone with the reaction type
0. ENTRY/EXIT or 1. ENTRY/EXIT FINAL, which makes disarming possible before triggering the
alarm. It is programmed in seconds and can be up to 255 seconds. If the value 0 is
programmed, the ENTRY DELAY programmed for the partition will be taken into account. If the
value 0 is programmed for both the zone and the partition, the zone will act as an instant
one.
Delay time – the time counted from the moment of violating a zone with the reaction type
NTRY/EXIT ROUTE, if it acts as a delayed one. The time is programmed in seconds and
2. E
can be up to 255 seconds. If the value 0 is programmed, the E
the partition will be treated as the D
ELAY TIME. If the value 0 is programmed for both the
NTRY DELAY programmed for
zone and the partition, the zone will act as an instant one.
Delay activation time – the time counted from the moment of violating a zone with the
reaction type 18. E
NTRY ROUTE ENABLING. During countdown of this time, the zones with the
reaction type 2. ENTRY/EXIT ROUTE WILL act as the delayed ones. The time is programmed
in seconds and can be up to 255 seconds. If the value 0 is programmed, the ENTRY DELAY
programmed for the partition will be treated as the DELAY ACTIVATION TIME. If the value 0 is
programmed for both the zone and the partition, violation of the zone will have no effect.
Waiting time – the time counted from the moment of violating a zone with the reaction type
4. DOUBLE KNOCK. If the zone is violated again during the waiting time, it will trigger alarm.
The time is programmed in seconds and can be up to 255 seconds. Programming the
value 0 means that the WAITING TIME will be 30 seconds.
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30 Programming Manual SATEL
Note: In the LCD keypad, the ENTRY DELAY, DELAY ACTIVATION TIME and WAITING TIME
parameters are programmed as the ALARM DELAY.
Arm mode – the armed mode activated after violating a zone with the reaction type
13. ARM/DISARM or 14. ARMING. You can select either fully arming, day arming or night
arming.
Detector – type of detector and the method of its connection (zone configuration):
no detector – no detector is connected to the zone;
NC – the zone supports a detector of NC (normally closed) type;
NO – the zone supports a detector of NO (normally open) type;
EOL – the zone supports a NO or NC detector in EOL configuration;
2EOL/NO – the zone supports a NO detector in 2EOL configuration;
2EOL/NC – the zone supports a NC detector in 2EOL configuration;
roller – the zone supports a roller shutter detector;
vibration – the zone supports a vibration detector.
Note: In case of the VIBRATION configuration, opening the circuit for 200 ms – irrespective of
the programmed number of pulses and sensitivity (see below) – will be interpreted as
violation. This solution enables a magnetic detector to be connected in series with the
vibration detector.
Sensitivity – depending on selected zone configuration:
– NO, NC, EOL and 2EOL – the time during which the zone must be violated, so that it
can be noted by the control panel. The sensitivity is programmed in milliseconds.
Values from the 20 ms to 5100 ms range can be entered.
– Vibration – the pulse whose duration is equal to or longer than the defined time will
cause violation of the zone. Values from the 3 ms to 96 ms range can be programmed
(every 3 ms).
Pulse validity – the time counted from the pulse occurrence during which subsequent pulses
must occur (their number being defined as the PULSE COUNT) so that the zone is violated.
The following values can be programmed: 30 ms, 120 ms, 240 ms and 0. If no further
pulses will occur within the defined time period, the pulse counter will be reset. The pulse
counter is reset automatically at arming/disarming. If the value 0 is programmed, the
counter will only be reset at arming/disarming. This parameter is programmed for the
ROLLER configuration.
Pulse count – the number of pulses after which the zone will be violated. This parameter is
programmed for the ROLLER and VIBRATION configuration. For the VIBRATION configuration,
it is possible to program values from 0 to 7 (for the value 0, the pulses will not be counted,
the SENSITIVITY parameter only being taken into account). For the ROLLER configuration,
you can program values from 1 to 8.
Note: In the DLOADX program, all the required parameters for zones in ROLLER and
VIBRATION configuration are programmed in the SENSITIVITY field.
Max. violation time – exceeding the maximum violation time is recognized by the control
panel as the detector trouble (e.g. damage or masking). The time is programmed in
seconds and can be up to 255 seconds. Programming the value 0 means that the control
panel will not check the zone for maximum violation time.
Max. no violation time – exceeding the maximum time of no violation is recognized by the
control panel as the detector trouble (e.g. damage or masking). The time is programmed in
hours and can be up to 255 hours. Programming the value 0 means that the control panel
will not check whether the zone is violated or not.
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SATEL VERSA 31
5.4 Types of reaction
0. ENTRY/EXIT – a delayed zone combining two functions:
entry line – violation of the zone triggers the entry delay countdown in the partition and
activates delay for the zones with reaction type 2. ENTRY/EXIT ROUTE. The entry delay may
be signaled on keypads or proximity card readers.
exit line – the zone status is monitored during the partition exit delay time. Violation of the
zone is treated as an exit from the partition.
1. ENTRY/EXIT FINAL – the same as the type 0. ENTRY/EXIT, but after arming and registering
the zone restore the control panel will end the exit delay countdown.
2. ENTRY/EXIT ROUTE – during the countdown of ENTRY DELAY or DELAY ACTIVATION TIME the
zone acts as a delayed one (alarm will be triggered after expiry of the DELAY TIME). In other
situations it acts as an instant zone.
3. INSTANT – instant zone. It enters the armed mode as it is activated, irrespective of the
value of E
4. D
OUBLE KNOCK – the zone triggers the burglary alarm only after the second violation. The first
violation of the zone only results in the "Zone violation" event being logged (the event to may
reported in format 4/2). The second violation must take place during the WAITING TIME
countdown.
5. 24H BURGLARY – dedicated zone for the detectors which should be armed at all times (e.g.
glass break detectors).
6. 24H TAMPER – dedicated, permanently armed zone for tamper circuits. Violation of the zone
is additionally signaled as a trouble.
7. 24H PANIC – permanently armed zone, intended for operating the panic buttons.
8. 24H PANIC SILENT – permanently armed zone, intended for operating the panic buttons.
Alarm from the zone is not signaled on keypads, readers and outputs, but the event code
is sent to the monitoring station.
9. 24H MEDICAL – permanently armed zone for calling medical assistance.
10. 24H FIRE – dedicated, permanently armed zone for operating fire detectors.
ETECTOR MASK – permanently armed zone for antimasking control. Violation of the zone
11. D
is interpreted by the control panel as a detector trouble.
12. NO ALARM ACTION – the zone may be used to control the output with function 13. ZONE
VIOLATION
to be used for supervision of the key box (K
13. ARM/DISARM – the zone controls the arming status of the partition it belongs to. Violation of
the zone arms or disarms the partition (depending on the current status of the partition).
14. A
RMING – violation of the zone arms the partition to which the zone belongs.
15. DISARMING – violation of the zone disarms the partition to which the zone belongs.
16. EXIT DELAY TERMINATOR – violation of the zone ends the partition exit delay countdown.
17. SHUNT LOCK – the zone ends the partition exit delay countdown and – depending on the
BLOCKS VERIFICATION option – will disable verification or disarm the partition to which it
belongs. The way of controlling (the zone violation / zone restore) is determined by the
option RESTORE DISABLES VERIFICATION or RESTORE DISARMS.
NTRY ROUTE ENABLING – violation of the zone activates delay for the zones with
18. E
2. E
NTRY/EXIT ROUTE reaction type in the partition to which the zone belongs. The zones will
act as delayed ones for the DELAY ACTIVATION TIME. After expiry of the time, unless the
system is disarmed, the zones will again act as the instant ones. If the DELAY ACTIVATION
for a zone will be programmed as equal to 0, and at the same time the ENTRY DELAY
TIME
programmed for the partition is equal to 0, violation of the zone will have no effect.
XIT DELAY time programmed for the partition.
, 15. CONTROLLED or 16. READY STATUS. An additional option enables the zone
EYBOX CONTROL option).
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32 Programming Manual SATEL
5.5 Zone options
Alarm on exit delay end – if the zone is violated at the moment of ending the exit
delay countdown, it will trigger an alarm (if this option is disabled, the zone will
only trigger the alarm when the status changes from normal to violation during the
armed mode).
Priority – arming is impossible when the zone is violated.
Bypass disabled – user cannot bypass the zone using the BYPASSES function (this restriction
does not apply to the service).
Active in night arm – the zone is armed when the night armed mode is activated.
Active in day arm – the zone is armed when the day armed mode is activated.
Power-up delay – the zone is bypassed for 120 seconds after power supply is turned on
(this will prevent triggering false alarms e.g. during start-up of the control panel).
Warning in partial arming – option for the zones which are armed when the day or
night armed mode is activated in the partition. Violation of the zone will not
immediately trigger the burglary alarm but the warning alarm which is not monitored.
It may be signaled on the keypad, proximity card reader or on the output with
2. INTERNAL SIREN function. The warning alarm at partial armed mode is signaled
during the WARNING TIME (see: Section PARTITION PARAMETERS). If the partition is not
disarmed before expiry of the warning time, the zone will trigger the burglary alarm.
Note: Warning alarm in the partial armed mode will work irrespective of the WARNING ALARM
global option, which refers to the delay of loud signaling and monitoring if any mistakes
are made when entering into the protected facility.
Warning on internal sirens – warning alarm in the partial armed mode, is signaled on the
output with the 2. INTERNAL SIREN function.
Auto-reset 3 – the zone can trigger up to 3 alarms. As long as the alarm is not cleared
or the partition is not armed/disarmed, violations of the zone will not trigger any alarm.
Auto-reset 1 – the zone can trigger only 1 alarm. As long as the alarm is not cleared
or the partition is not armed/disarmed, violations of the zone will not trigger any alarm.
Note: If the A
A
UTO-RESET 3 option will have priority.
Clearing Autoreset – the alarm counters for zones for which the A
RESET 1 option is enabled will be automatically reset at midnight (violations of these zones
UTO-RESET 3 and AUTO-RESET 1 options are enabled at the same time, the
UTO-RESET 3 or AUTO-
will be able to trigger alarms again).
Armed if one partition armed – the option refers to the zones which are assigned to both
partitions. The zone is armed when one of the partitions is armed. Unless this option is
disabled, the zone is armed when both partitions are armed.
Blocks verification – an option for the reaction types 0. ENTRY/EXIT, 1. ENTRY/EXIT FINAL and
17. SHUNT LOCK. The zone will block alarm verification in the partition:
– after the zone violation – the reaction types 0. ENTRY/EXIT and 1. ENTRY/EXIT FINAL, and
also the reaction type 17. SHUNT LOCK, when the RESTORE DISABLES VERIFICATION option
is not enabled;
– after the zone restore – the reaction type 17. SHUNT LOCK, when the RESTORE DISABLES
VERIFICATION
In case of the reaction type 17. S
option is enabled.
HUNT LOCK, the zone will disarm the system when the
BLOCKS VERIFICATION option is not enabled.
Restore disarms – an option for the reaction type 17. SHUNT LOCK. It is active, if the
BLOCKS VERIFICATION option is not enabled. The zone restore will disarm the partition
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SATEL VERSA 33
to which the zone belongs, and the zone violation will shorten the exit delay time. If
the RESTORE DISARMS option is not enabled, the zone violation will disarm the
partition, and zone restore will shorten the exit delay time.
Restore disables verification – an option for the 17. SHUNT LOCK reaction type. It is active, if
the BLOCKS VERIFICATION option is enabled. The zone restore will blocks verification in the
partition to which the zone belongs, and the zone violation will shorten the exit delay time.
If the option RESTORE DISABLES VERIFICATION is not enabled, the zone violation will blocks
verification, and the zone restore will shorten the exit delay time.
Alarm clearing – an option for the 13. ARM/DISARM and 15. DISARMING reaction types.
Together with disarming, the alarm is cleared (except for the tamper alarms). Violation of
the zone with 15. DISARMING type of reaction will also clear the alarm, when the system is
not armed.
Write violations to event log – an option for the 12: NO ALARM ACTION reaction type.
Violation of the zone is saved into the event log (the way of saving the event depends on
EYBOX CONTROL option).
the K
Store event only if armed – an option for the reaction type 12: N
O ALARM ACTION. It is active
when the WRITE VIOLATIONS TO EVENT LOG option is enabled. Zone violations are saved in
the event log when the partition to which the zone belongs is armed.
Keybox control – an option for the reaction type 12: NO ALARM ACTION. It is active when the
WRITE VIOLATIONS TO EVENT LOG option is enabled. Violation of the zone will result in logging
an event which informs that the keybox is open. The event code is sent to the monitoring
station. If this option is disabled, an event will be logged informing about zone violation,
which will not be reported.
LED
1
2
3
4
5
6
7
8
9
10
11
12
13
Name displayed on
LCD keypad
Options
Al. on exit end Alarm on exit delay end 0-11
Priority Priority all
Bypass disabled Bypass disabled all
Active night arm Active in night arm 0-4
Active day arm Active in day arm 0-4
Power up delay Power-up delay all
Warn. in part. arm Warning in partial arming 0-4
Warn. on int. sir. Warning on internal sirens 0-4
Auto-bypass 3 Auto-reset 3 0-10
Auto-bypass 1 Auto-reset 1 0-10
Autobypass reset Clearing Autoreset 0-10
Arm.with one p.
Disable verific.
Armed if one partition armed 0-4
Keybox control
Blocks verification 0, 1, 17
Write violations to event log
Reaction
type
12
12
Restore disarms 17
14
Finish exit time
Restore disables verification 17
Store event only if armed 12
Alarm clearing 13, 15
Table 5. The method of presenting zone options on keypads. In graphic mode, the options in
the LCD keypad are numbered in the same way as in the LED keypad.
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34 Programming Manual SATEL
6. Outputs
There can be up to 12 outputs in the system:
• hardwired – on the control panel PCB and in the expander. The number of available
hardwired zones is determined by the control panel during the identification procedure.
• wireless – after connection of the ACU-100 controller. The number of available wireless
zones depends on the number of wireless devices registered in the system and is
determined during the procedure of adding the same.
In the DLOADX program, the parameters and options of outputs are programmed in the
"Versa – Outputs" window (see: Fig. 10).
In the keypad, the parameters and options of outputs are configured by means of the
OUTPUTS function (SERVICE MODE X2. HARDWARE X3. OUTPUTS). Programming is performed
by means of the "step by step" method (the numbers are displayed in binary mode on the
and LEDs of the first and second partition):
1. Select output.
2. Output function.
3. Cut-off time.
4. Triggering zones [actually, the partition armed mode is selected for the output with
function 18. ARMED STATUS, and the troubles for the output with function 19. TROUBLE
STATUS
5. Output options.
6. Output name [only in LCD keypad].
(see: Section OUTPUT PARAMETERS)].
6.1 Numeration of outputs in the system
The control panel supports outputs having numbers from 1 to 12. The numbers of hardwired
and wireless outputs may coincide. The control panel will support them simultaneously.
6.1.1 Hardwired outputs
The hardwired outputs are assigned numbers automatically:
• the outputs on control panel main board have numbers from 1 to 4;
• the outputs in expander have numbers from 5 to 12.
6.1.2 Wireless outputs
The wireless outputs can be assigned numbers from 1 to 30. The numbers are assigned
during the procedure of adding wireless devices (the output number is the same as the
number of selected zone). You should bear in mind that the control panel does not support
the outputs with numbers from 13 to 30.
6.2 Output functions
0. NOT USED
XTERNAL SIREN – signals the burglary, panic and tamper alarms.
1. E
2. I
NTERNAL SIREN – signals the burglary, panic and tamper alarms, as well as the warning
alarms.
Note: The way of signaling the tamper alarms by the outputs with functions 1. EXTERNAL
and 2. INTERNAL SIREN depends on the global options TAMPER ALARM ALWAYS
SIREN
AUDIBLE
and TAMPER ALARM ON INTERNAL SIRENS.
3. BURGLARY – signals the alarms from zones with reaction types from 0 to 7.
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SATEL VERSA 35
4. FIRE ALARM – signals the fire alarms from keypad and from zones with reaction type
10. 24H FIRE.
5. “DURESS” ALARM – signals that code with DURESS right was used for arming/disarming or
alarm clearing.
6. PANIC ALARM – signals the panic alarms from keypad and from zones with reaction type
7. 24H PANIC.
7. AUX. ALARM – signals the medical assistance call alarms triggered from keypad and from
zones with reaction type 9. 24H MEDICAL.
8. ALARM – NOT VERIFIED – signals the unverified alarms.
9. ALARM - VERIFIED – signals the verified alarms.
10. TAMPER ALARM – signals the tamper alarms.
11. FIRE DETECTORS POWER SUPPLY – the dedicated output for power supply of the fire
detectors with automatic verification alarm. After violation of the fire zone the output will be
disabled for 16 seconds. If, after the power is turned on again, another violation from the
fire zone occurs, the fire alarm will be triggered.
12. POWER SUPPLY ON ARMED – the dedicated output for power supply of the detectors which
should not be active when the system is disarmed. It gets activated at moment of arming,
without taking into account the EXIT DELAY.
13. ZONE VIOLATION – signals violation of the zones.
14. CHIME – signals violation of the zones when they are disarmed.
15. CONTROLLED – controlled by means of zones, timers, keypad or from key fob.
16. READY STATUS – indicates whether the system is ready for arming, i.e. whether there are
no violated zones (active when there is no violation).
17. EXIT DELAY STATUS – indicates that the EXIT DELAY countdown is running.
18. ARMED STATUS – indicates the armed mode (after completion of the exit delay countdown).
19. TROUBLE STATUS – indicates troubles.
6.3 Output parameters
Fig. 10. "Versa – Outputs" window in the DLOADX program.
Output name – individual name of the output (up to 16 characters).
Cut-off time – time during which the alarm outputs and the outputs with functions 13. ZONE
VIOLATION
way of functioning of some outputs:
– alarm outputs remain active until the alarm is cleared,
, 14. CHIME and 15. CONTROLLED are active. Entering the value 0 modifies the
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36 Programming Manual SATEL
– output 13. ZONE VIOLATION remains active throughout the time of zone violation,
– output 15. CONTROLLED remains active until another violation of the controlling zone,
disabling of timer or disabling of the output by means of keypad (bistable mode).
Activation: zones – the zones whose status has effect on the output status.
Activation: partition armed mode – the armed modes whose activation in the partition will
activate the output with function 18. ARMED STATUS (the number corresponds to the LED
number in the LED keypad and to the item number in graphic mode in the LCD keypad):
1. Partition 1 – full armed mode
2. Partition 1 – night armed mode
3. Partition 1 – day armed mode
4. Partition 2 – full armed mode
5. Partition 2 – night armed mode
6. Partition 2 – day armed mode
If no armed mode is selected, the output will activate any armed mode is activated.
Activation: troubles – the troubles the occurrence of which will activate the output with
function 19. TROUBLE STATUS (the number corresponds to the LED number in the LED
keypad and to the item number in graphic mode in the LCD keypad):
1. AC loss – control panel mainboard
2. Battery trouble – control panel mainboard
3. Telephone line – no voltage
4. Telephone line – no dial tone
5. OUT1 output trouble
6. OUT2 output trouble
7. KPD output trouble
8. AUX output trouble
9. Reporting trouble – monitoring station 1
10. Reporting trouble – monitoring station 2
11. Wireless system jamming
12. Communication bus short circuit
13. Clock loss
14. RAM memory error
15. Mainboard TMP open
16. Zones – tamper
17. Zones – long violation
18. Zones – no violation
19. Zones – masking
20. Wireless device battery low
21. Wireless device communication loss
22. Module tamper
23. No presence (module)
24. AC loss (module)
25. Battery trouble (module)
26. Power output overload (module)
27. Low battery (key fobs)
28. Module restart
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SATEL VERSA 37
29. Control panel restart
6.4 Output options
Clearing from partition 1 / Clearing from partition 2 – depending on the output function:
– alarm outputs – the alarm can be cleared by users having access to the selected
partition,
– outputs 1. EXTERNAL SIREN and 2. INTERNAL SIREN with enabled
ARMING/DISARMING/CLEARING SIGNALING option – the output will be activated when the
selected partition is armed/disarmed, or when alarm is cleared in it.
Partition 1 / Partition 2 – depending on the output function:
– 12. POWER SUPPLY ON ARMED – the output is active when the selected partition is armed
(it activates on arming, without taking the exit delay into account),
– 15. CONTROLLED – the output can be controlled by the users having access to the
selected partition by means of the user function 8. CONTROL (if no partition is selected,
the function 8. CONTROL will not be available in the keypad),
– 17. EXIT DELAY STATUS – the output is active when the exit delay countdown is running in
the selected partition,
– 18. ARMED STATUS – the output is active when partition/partitions is/are armed (see:
parameter ACTIVATION: PARTITION ARMED MODE and option ONE PARTITION ARMED
SIGNALING
Reset in partition 1 / Reset in partition 2 – the output with function 13. ZONE VIOLATION, in
which the CUT-OFF TIME equal to 0 is programmed, can be reset with the OUTPUTS RESET
user function by the users having access to the selected partition.
Pulse – output with pulsating mode of operation (0.5/0.5 sec.). This option refers to the
outputs for which the cut-off time is to be programmed (except for the OUTPUTS
1. EXTERNAL SIREN and 2. INTERNAL SIREN).
Polarity +12V – activation results in switching on the device connected to the output. If the
option is disabled (reverse polarity), will result in switching off the device connected to the
output (the device will be switched on, when the output is inactive).
option enabled
active state
inactive state
option enabled
active state
inactive state
Table 6. Mode of output operation depending on the POLARITY +12V option.
Fire alarms signaling – option for the OUTPUTS 1. EXTERNAL SIREN and 2. INTERNAL SIREN.
The output signals in pulsating mode the fire alarms from selected zones (see: ACTIVATION:
ZONES
SIGNALING
) and partitions (see: output options ALARM SIGNALING – PARTITION 1 and ALARM
One partition armed signaling – option for the output 18. ARMED STATUS, active when the
PARTITION 1 and PARTITION 2 options are enabled. The output indicates armed mode when
).
high-current output
(normal polarity)
+12V voltage supplied +12V voltage cut off
+12V voltage cut off +12V voltage supplied
low-current output
(normal polarity)
shorted to ground disconnected from ground
disconnected from ground shorted to ground
– PARTITION 2).
option disabled
(reverse polarity)
option disabled
(reverse polarity)
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38 Programming Manual SATEL
any of the two partitions is armed (if the option is disabled, only when both partitions are
armed).
Arming/Disarming/Clearing signaling – option for the outputs 1. EXTERNAL SIREN and
2. INTERNAL SIREN (see also: output options CLEARING FROM PARTITION 1 and CLEARING FROM
PARTITION
2 and global option ARMING/DISARMING/CLEARING SIGNALING FROM ZONES ONLY).
The output signals arming and disarming as well as alarm clearing. Arming is signaled by
one pulse, disarming – by two pulses, and alarm clearing – by four pulses. Pulse duration
is approx. 0.3 second.
Alarm signaling – partition 1 / Alarm signaling – partition 2 – an option for the alarm
outputs. The output signals the selected partition alarms which were not triggered by
zones.
Timer 1 / Timer 2 / Timer 3 / Timer 4 – options for the 15. CONTROLLED outputs. The output
is controlled by selected timer (switch on the timer to activate the output for the CUT-OFF
).
TIME
LED
Name displayed on
LCD keypad
Options
Output
function
Clearing from partition 1 1-10
1
2
Part.1 clears
Part.2 clears
Partition 1 12, 15, 17, 18
Reset in partition 1
Clearing from partition 2
13
1-10
Partition 2 12, 15, 17, 18
Reset in partition 2 13
3
4
Pulsation Pulse 3-10, 13-15
Polarization + Polarity +12V all
Fire alarms signaling 1, 2
5
6
7
8
Fire alarm
Arm/dArm/Cl.chrp
Part.1 alarms
Part.2 alarms
Timer 1 15
One partition armed signaling
18
Arming/Disarming/Clearing signaling 1, 2
Timer 2
Alarm signaling – partition 1
15
1-10
Timer 3 15
Alarm signaling – partition 2 1-10
Timer 4
15
Table 7. The way of presenting output options in keypads. The options in the graphic mode in
the LCD keypad are numbered in the same way as in the LED keypad.
6.5 Quick control of outputs
If the quick control of the outputs 15. CONTROLLED is to be available in keypads, the outputs
of this type must be assigned to the corresponding keypad keys. One output can be assigned
to each of the keys designated with numerals. To activate that output, press the key with
respective numeral and confirm using the key, and to deactivate the output, press the
same key and confirm using the key.
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SATEL VERSA 39
Fig. 11. Assigning the outputs to corresponding keypad keys in the DLOADX program (an
example of configuration).
7. Programming Keypads and Expanders
In the DLOADX program, the working parameters of keypads and expanders should be
programmed in the "Versa – Structure" window, "Hardware" tab, after the required device is
selected in the list (see. Fig. 12). In the keypad, their working parameters should be
configured by means of the SETTINGS function (SERVICE MODE X2. HARDWARE X1. KPDS &
. X2. SETTINGS). Having selected the device from the displayed list, the programming is
EXPS
performed using the "step by step" method.
Fig. 12. List of devices connected to the control panel, displayed in the "Hardware" tab,
“Versa – Structure" window (an example of configuration).
The following can be programmed for all devices connected to the communication bus:
Name – individual name of the device (up to 16 characters).
Tamper signaled in partition – the partition in which tamper alarm will be triggered in the
event of tamper or disconnection of the device from the system.
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40 Programming Manual SATEL
7.1 VERSA-LCD-GR / VERSA-LED-GR keypad
Signaling CHIME from zones – a list of zones which, when violated, will generate chime
signal in the keypad.
Date/Time format – display mode for time and date.
LCD backlight – display backlight mode in the VERSA-LCD-GR keypad.
Keys backlight – backlight mode for the keys.
Auto-backlight – automatic illumination switch-on mode for the keys (in VERSA-LCD-GR
keypad, also for the display).
Sounder volume – control of the loudness level of sounds generated in the keypad.
Keypad options
– Signal entry delay – the keypad will acoustically signal the entry delay
countdown.
– Signal exit delay – the keypad will acoustically signal the exit delay
countdown.
– Signal alarms – the keypad will acoustically signal alarms. Duration of signaling is
determined by the KEYPAD’S ALARM TIME (see: GLOBAL TIMES).
– Quick arming – Partition 1 – quick arming is possible in partition 1 (see: USER
MANUAL).
– Quick arming – Partition 2 – quick arming is possible in partition 2 (see: USER
MANUAL).
– Key sound – keystrokes on keypad are acoustically signaled.
– Signal trouble in partially armed – the LED will be signaling trouble until both
partitions are fully armed (if this option is disabled, activation of any armed mode in any
partition will disable trouble signaling in the keypad).
– Show code entering – the keypad will inform about a code being entered:
VERSA-LCD-GR – entering the code is shown by means of asterisks in the lower line of
the LCD display;
VERSA-LED-GR – entering the code is shown by means of LEDs in the lower line of
LEDs.
– Chime ON/OFF – the chime signal can be enabled/disabled by means of the
key
(the key is to be pressed for about 3 seconds).
– Quick control – the outputs can be quickly controlled by means of numerical keys. If
any 15. C
OUTPUTS
ONTROLLED output is assigned to the key (see: Section QUICK CONTROL OF
), press that key and confirm using to activate the output, and press the
same key and confirm using – to deactivate it.
– Signal new trouble – the keypad will acoustically signal occurrence of a new trouble, if
the TROUBLE MEMORY UNTIL REVIEW option is enabled (see: Section GLOBAL OPTIONS).
– Auto-arm delay countdown – the keypad will acoustically signal the auto-arm delay
countdown.
– Arm mode review – press and hold down the key for about 3 seconds to display
information on the partition status (whether or not they are armed and what is their
armed mode – see: USER MANUAL).
Alarms – options regarding the alarms triggered from keypad (the list of options in keypad
includes also those for displaying alarm messages on the VERSA-LCD-GR keypad, as
described below):
– Fire alarm – press the key for approx. 3 seconds to trigger the fire alarm.
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SATEL VERSA 41
– AUX. alarm – press the key for approx. 3 seconds to trigger the medical
assistance call alarm.
– Panic alarm – press the key for approx. 3 seconds to trigger the panic alarm.
– Panic alarm silent – if the PANIC ALARM option is enabled, press the key for about
3 seconds to trigger the silent panic alarm. The silent panic alarm is not signaled, but
the event code is reported to the monitoring station.
– Alarm: 3 incorrect codes – if an invalid code is entered three times, alarm will be
triggered.
Alarm messages – these options apply to the VERSA-LCD-GR keypad:
– Partitions – an alarm in the partition will result in the alarm message being displayed.
The message includes name of the partition in which the alarm was triggered.
– Zones – an alarm from zone will result in the alarm message being displayed. The
message includes name of the zone which triggered the alarm. The zone alarm
message has priority.
Fig. 13. Programming keypad settings in the DLOADX program (an example of configuration).
7.2 ABAX wireless system controller
Response period – communication with the wireless devices takes place in preset time
intervals. During that time the controller collects information on the status of devices and, if
necessary, sends commands to the devices, e.g. switches the detectors to active/passive
mode, enables/disables the test mode and modifies configuration of the devices. The
response period can be 12, 24 or 36 seconds. The less frequently communication between
controller and wireless devices takes place, the more wireless devices can work within
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42 Programming Manual SATEL
their mutual operating range. For 12 s, the maximum number of devices is 150, for 24 s –
300, and for 36 s – 450. Outside the response period, information on device tampers and
on violations of active mode detectors is sent to the controller. Additionally, the RESPONSE
PERIOD
has an effect on the level of energy consumption by the wireless devices. The less
frequently communication between controller and wireless devices takes place, the lower
energy consumption and the longer battery life is.
Synchronize – the function starts the procedure of synchronization, i.e. checking whether
other ABAX wireless system controllers operate within the controller range. The
controller will adjust the response period so that radio transmissions from several
controllers should not be jammed by each other. Synchronization takes place
automatically on starting the controller and after each operation of adding/removing
devices supported by the controller.
Test mode – in the test mode, all wireless devices will signal communication with the
controller by blinking LED, and the detectors will signal violations and tampers on their
LED indicators. During normal operation of the wireless devices, the LED signaling is
switched off for energy-saving considerations. Siren signaling is disabled in the test mode.
The test mode is enabled/disabled during the response time, thus causing a delay, the
duration of which depends on the defined response period. The test mode will be
automatically exited after 30 minutes of:
– starting the test mode by using the DLOADX program (the 30 minutes' time runs from the
moment of exiting the controller settings),
– terminating the service mode in control panel.
Note: According to requirements of the EN50131 standard, the level of radio signals sent by
wireless devices is reduced during the test mode operation.
Fig. 14. Programming the settings of wireless system controller and wireless devices in the
DLOADX program (an example of configuration).
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SATEL VERSA 43
7.2.1 Parameters of ABAX system wireless devices
Filter – the number of consecutive response periods, during which establishing
communication with the device was unsuccessful, for the loss of communication with the
device to be reported. You can enter values from 0 to 50. Entering the digit 0 will disable
the check for device availability in the system.
Always active – option available in most wireless detectors. It enables the detector to be
permanently switched over to the active mode (see: Section WIRELESS DETECTORS –
GENERAL PROGRAMMING RULES
Note: The ALWAYS ACTIVE option does not have to be enabled for the wireless detectors
assigned to 24-hr zones, because those zones are active at all times.
Configuration – some of the wireless devices provide additional parameters and options,
which can be configured by radio:
– APD-100 – wireless passive infrared detector. Sensitivity is to be programmed. In case
of detectors with firmware version 2.01, determine additionally whether the option of
immunity to pets up to 15 kg in weight should be enabled.
– APMD-150 – wireless dual motion detector. The following is to be programmed:
• sensitivity of infrared path;
).
• sensitivity of microwave path;
• test mode operation.
– AMD-100 and AMD-101 – wireless magnetic detectors with an additional input. The
AMD-101 detector takes up 2 zones in the system (the first zone – magnetic detector,
the other zone – additional input of the detector). For detectors with electronics version
3.5 D or later, it should be determined which of the two reed switches on the electronics
board is to be active.
– AGD-100 – wireless glass break detector. Sensitivity of the high-frequency channel is to
be programmed.
– AVD-100 – wireless vibration detector and magnetic contact. The detector occupies 2
zones in the system (the first zone – magnetic contact, the other zone – vibration
detector). Determine for the magnetic contact which of the two reed switches on the
electronics board is to be active. Program the following for the vibration detector:
• sensitivity. Sensing a single vibration meeting the sensitivity criterion will cause
violation of the detector.
• number of pulses. Registering the predefined number of vibrations within 30 seconds
will cause violation of the detector. All vibrations count (they do not have to meet the
sensitivity criterion). For the value 0, the pulses are not counted.
Note: Parameters are being independently analyzed. As a result, the detector can
signal violation after registering a strong single vibration, caused by a powerful
impact, as well as after a few slight vibrations, caused by a series of weak
strikes.
– ASD-100 – wireless smoke and heat detector. The following is to be programmed:
• operating mode of the heat detector (you can disable the detector or select the
detection class in accordance with Standard EN 54-5);
• operating mode of the buzzer;
• duration of alarm signaling by buzzer/LED.
– ASP-105 – wireless triggered outdoor siren. The following is to be programmed:
• type of acoustic signaling;
• duration of acoustic signaling.
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44 Programming Manual SATEL
– ASP-205 – wireless indoor siren. You can program two types of signaling, defining for
each of them:
• signaling duration;
• type of acoustic signaling;
• whether optical signaling is to be enabled.
– ASW-100 E and ASW-100 F – 230 V AC wireless controller. Operating mode should be
selected.
7.2.2 Wireless detectors – general programming rules
The wireless detectors send information on violations, tampers and low battery. Information
on violations and tampers is transmitted to the zones to which the detectors are assigned.
The system zones to which the wireless detectors are assigned may be programmed as:
• NC, NO or EOL – the zone will only inform about detector violation;
• 2EOL/NC or 2EOL/NO – the zone will inform about detector violation and tamper.
The manner of operation of wireless detectors depends on the status of partition to which the
zone with wireless detector belongs:
– partition is disarmed – the detector works in passive mode. It is a battery saving
mode, in which communication with the controller takes place mainly during time
intervals determined by the RESPONSE PERIOD option, when information on violations
and battery state is sent. Only detector tampers are sent immediately.
– partition is armed – the detector works in active mode. The detector sends all
information to the controller right away.
Changing the detector operating mode from passive to active and conversely takes place
during the response time, hence it is carried out with a time delay as against the
arming/disarming. Such a delay – depending on the selected frequency of polling – can be up
to 12, 24 or 36 seconds.
The wireless detectors assigned to the 24-hr zones, which are always armed, are always in
the active mode. Also other wireless detectors may always work in the active mode, if the
ALWAYS ACTIVE option is enabled for them (see: Section PARAMETERS OF ABAX SYSTEM
WIRELESS DEVICES
).
Batteries ensure approx. 3 years' operation of the detectors, assuming that the
detectors are in passive state for part of that period and that the RESPONSE
PERIOD is 12 seconds. The battery life in detectors which have been permanently
switched to active state will be reduced. On the other hand, reducing the
frequency of polling will extend the battery life. For example, the life of battery in
magnetic detector protecting a window will be longer than indicated in the
manual, even if switched permanently to the active state, when the response
period is set at 36 seconds. The number of possible violations of the detector
will be lower than the number of additional transmissions at the 12 seconds'
response time.
7.2.3 Wireless sirens – general rules of programming
The wireless sirens take up 2 outputs and 2 zones in the system. How the signaling is
controlled depends on the siren:
• ASP-105 – the first of outputs to which the siren is assigned controls the acoustic
signaling. Parameters of the acoustic signaling are programmed for the siren (type and
duration of acoustic signaling). The other output controls the optical signaling. The optical
signaling is enabled when the output is active. The command to start signaling (and in
case of optical signaling, also to stop it) is sent to the siren immediately.
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SATEL VERSA 45
• ASP-205 – both outputs to which the siren is assigned control both acoustic and optical
signaling. Parameters of the signaling triggered by each of the outputs are programmed
separately for the siren. It makes it possible to configure two different, independently
triggered ways of signaling. The outputs can thus separately control optical and acoustic
signaling or signal different types of alarm (e.g. burglary and fire). The command to trigger
signaling is sent to siren only during the response time. Hence the cut-off time for the
control panel outputs which control the siren must be longer than the response time. It is
recommended that that time correspond to the time programmed in the siren for signaling
triggered by the output.
The system zones to which the wireless sirens are assigned may be programmed as:
• NC, NO or EOL – the zone will only inform about troubles related to power supply;
• 2EOL/NC or 2EOL/NO – the zone will inform about troubles related to power supply and
tamper.
Reaction type of the zones to which the wireless siren is assigned should be suitable for the
information to be sent:
• ASP-105
– first zone: low battery and tamper;
– second zone: 12 V DC external power loss and tamper.
• ASP-205
– both zones: low battery and tamper.
Information on tamper is sent immediately, and that on troubles – during the response time.
Notes:
• After starting the S
ERVICE MODE or TEST MODE and for 40 seconds after power-up,
signaling in the siren is blocked to enable installation work to be carried out. Opening the
tamper contact will not trigger any loud signaling, but information on tamper will be sent
(when in service mode, the control panel is signaling no tamper alarms). The command to
block/unblock signaling in connection with entering/exiting the test mode or service mode
is sent during the response time.
• Violation of the ASP-205 siren tamper will generate a tamper alarm which will last 3
minutes (sound type 1 and optical signaling).
7.2.4 Wireless expanders of hardwired zones and outputs – general rules of
programming
The wireless expander for hardwired zones and outputs (ACX-200 or ACX-201) takes up 4
zones and 4 outputs in the system. Parameters of the expander zones and outputs are
programmed in the same way as for the other hardwired zones and outputs of control panel.
You should however remember that the sensitivity of expander zones may be different from
that programmed in the control panel:
– from 20 ms to 140 ms – it corresponds to sensitivity programmed in the control panel;
– over 140 ms – only some values are available: 300 ms, 500 ms, 700 ms, etc.
every 200 ms (the programmed value is rounded off to that supported by the
expander).
The expander provides on-line information about the zone status. The expander outputs are
also controlled in the on-line mode. Only the programming of zones takes place during the
response time (during one period, configuration data regarding one zone are sent to the
expander, i.e. 4 response periods are required to send information on settings of 4 zones).
Note: If communication with the controller is lost, all previously activated outputs will be
deactivated after 20 response periods.
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46 Programming Manual SATEL
Additionally, the ACX-201 expander will send information on:
• status of AUX1 and AUX2 power supply outputs – information on overload is sent when
the load current of AUX1 or AUX2 output exceeds 0.5 A.
• battery status – information on low battery will be sent when the battery voltage drops
below 11 V for more than 12 minutes (3 battery tests). The information will be sent to the
controller when the battery voltage rises above 11 V more than 12 minutes (3 battery
tests).
• AC supply status – information on the loss of power supply will be sent when the AC
power loss lasts for more than 30 seconds. The AC supply restore is reported with the
same delay.
7.2.5 230 V AC wireless controllers – general rules of programming
Activation of the output to which the controller is assigned will result in energizing the 230 V
electrical circuit (if reverse polarity of the output has been programmed, the circuit will be
deenergized).
Depending on the operating mode, information on the button status (mode 0) or on the
electrical circuit status (mode 1 and mode 2) will be sent to the control panel zone to
which the controller is assigned. Information on the button status is being sent in on-line
mode. Information on the electrical circuit status is sent during the response time.
Pressing the button/closing the electrical circuit means violation of the zone to which the
controller is assigned.
Be careful when selecting the F
number of unanswered response periods after which the loss of communication with the
controller will be reported. As the 230 V sockets are installed at low height, the controllers
mounted in them are subject to the risk of being covered by people moving around the
facility.
ILTER value for ASW-100 E or ASW-100 F controller, i.e. the
7.2.6 Configuration of wireless devices by means of the DLOADX program
In the DLOADX program, parameters of the wireless devices are configured in the "Versa –
Structure" window, "Hardware" tab, after selecting the ACU-100 controller in the list of
devices. Click on the "Read" button in the table to display the list of wireless devices
available in the system. In order to save the new setting of wireless devices, click on the
"Write" button situated below the table (the
D
LOADX program are not provided for reading/writing the settings of wireless devices
supported by the controller). Described below is the procedure of programming additional
parameters and options for wireless devices, available in the "Configuration" column.
APD-100 detector
For detectors with firmware version 2.01, enter a 2-digit sequence. The first digit relates to
sensitivity (see: Table 8), and the second one – to the pet immunity option (0 – option
disabled, 1 – option enabled). For detectors with older firmware, enter a digit from 1 to 3,
which corresponds to the selected sensitivity (see: Table 8).
Digit Detector sensitivity
1 low
2 medium
3 high
Table 8.
and buttons in the main menu of the
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SATEL VERSA 47
APMD-150 detector
Enter a 3-digit sequence:
1st digit – sensitivity of infrared path: from 1 to 4,
2nd digit – sensitivity of microwave path: from 1 to 8,
3rd digit – type of operation in the test mode: 0 (signaling violation after motion is sensed by
both detectors), 1 (signaling violation after motion is sensed by infrared detector) or 2
(signaling violation after motion is sensed by microwave detector).
For example, entering the values 4-4-0 means that the infrared sensitivity path has been set
to 4, the microwave sensitivity path also to 4, and in the test mode the detector will signal
violation (the LED will light up) after motion is sensed by both detectors.
AMD-100 and AMD-101 detectors
For detectors with electronics version 3.5 D or newer, enter the digit 0 (the lower reed switch)
or 1 (the side reed switch) to select which of the two reed switches is to be active. For
detectors with an older electronics version, no additional parameters can be programmed
(the active reed switch is selected by means of jumpers).
AGD-100 detector
Enter a digit from 1 to 3 which corresponds to the selected sensitivity for the high-frequency
channel (see: Table 8).
AVD-100 detector
For the magnetic contact (the first zone occupied by the AVD-100 detector), enter the digit 0
(the lower reed switch) or 1 (the side reed switch) to select which of the two reed switches is
to be active.
For the vibration detector (the second zone occupied by the AVD-100 detector), enter a 2digit sequence:
1st digit – sensitivity: from 1 to 8,
2nd digit – number of pulses: from 0 to 7.
For ex ample, entering the values 4-6 means that sensitivity has been set to 4, and the
number of pulses to 6.
ASD-100 detector
Enter a 3-digit sequence corresponding to the selected parameters, as shown in Table 9.
1st digit 2nd digit 3rd digit
digit heat detector digit acoustic signaling digit signaling time
0 disabled 0 none 1 1 minute
1 A1 1 sound type 1 2 3 minutes
2 A2 2 sound type 2 3 6 minutes
3 B 3 sound type 3 4 9 minutes
Table 9.
For example, entering the 0-2-4 means that the heat detector has been disabled, acoustic
signaling type 2 has been selected, and the signaling by means of buzzer/LEDs will last 9
minutes.
ASP-105 siren
Program the acoustic signaling parameters (the first zone to which the siren is assigned), i.e.
enter the two-digit sequence, according Table 10.
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48 Programming Manual SATEL
1st digit 2nd digit
digit acoustic signaling digit signaling time
1 sound type 1 1 1 minute
2 sound type 2 2 3 minutes
3 sound type 3 3 6 minutes
4 sound type 4 4 9 minutes
Table 10.
For example, entering the values 2-3 means that acoustic signaling type 2 has been selected
and that its duration will be 6 minutes.
ASP-205 siren
Configure the parameters of signaling triggered by the outputs to which the siren is assigned.
Each output can trigger an individual type of signaling, thus you should program parameters
for two signaling types, entering in each case a 3-digit sequence according to Table 11.
1st digit 2nd digit 3rd digit
digit signaling time digit acoustic signaling digit optical signaling
1 1 minute 0 none 0 disabled
2 3 minutes 1 sound type 1 1 enabled
3 6 minutes 2 sound type 2 - 4 9 minutes 3 sound type 3 - -
Table 11.
For example, entering the values 2-0-1 means that the signaling will last 3 minutes, the
acoustic signaling has been disabled, and the optical signaling enabled.
ASW-100 E and ASW-100 F controllers
Enter a digit from the 0 to 2 range, which corresponds to the selected mode of operation:
0 – electric circuit is only remotely controlled;
1 – electric circuit may be controlled remotely or manually;
2 – electric circuit may be controlled remotely or manually, but remote control can be
manually disabled.
7.2.7 Configuration of wireless devices by means of the LCD keypad
The working parameters for each wireless device are configured by the "step by step"
method as the device is added to the system. In the first step, the FILTER parameter should
be always programmed, which is applicable to nearly all wireless devices (except for the
ARF-100 tester). The next steps depend on the type of device (e.g. for most detectors, it is
defined in the next step whether the detector is to be always active).
The parameters of each wireless device can be modified at any moment by means of the
CONFIGURE DEVICE function (SERVICE MODE X2. HARDWARE X1. KPDS & EXPS. X3. ACU-100
X2. C
which the wireless devices are assigned. Even if the device occupies a few zones, only the
first of them can be displayed. The number of displayed zones depends on the type of
device. Using the and keys, select from the list the zone to which the device to
be configured is assigned, and confirm your selection using the
ONFIG. DEVICE). After the function is started, the keypad will display a list of zones to
key. Described below
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SATEL VERSA 49
is "step by step" programming the settings of the wireless devices for which additional
configuration options and parameters are available.
APD-100 detector
1. Enter an appropriate value for the FILTER and press .
2. Determine whether the detector is to be always active ( – option disabled, – option
enabled). Press .
3. Enter a digit from the 1 to 3 range, corresponding to the selected sensitivity level (see:
page 46 Table 8). Press .
4. Determine whether the pet immunity option is to be enabled ( – option disabled, –
option enabled. Press .
Note: The last (fourth) step of programming is available for detectors with firmware version
2.01 or newer. In the detectors with older firmware, the programming ends after the
third step.
APMD-150 detector
1. Enter an appropriate value for the FILTER and press .
2. Determine whether the detector is to be always active ( – option disabled, – option
enabled). Press .
3. Enter a digit from the 1 to 4 range, corresponding to the selected sensitivity of infrared
path. Press .
4. Enter a digit from the 1 to 8 range, corresponding to the selected sensitivity of microwave
path. Press .
5. Using the and keys, select the way of operation in the test mode (PIR+MW,
PIR or MW). Press .
AMD-100 and AMD-101 detector
1. Enter an appropriate value for the FILTER and press .
2. Determine whether the detector is to be always active ( – option disabled, – option
enabled). Press
.
3. Using the and keys, select which of the two reed switches (lower or side) is
to be active. Press key
.
Note: The last (third) step of programming is available for detectors with electronics version
3.5 D or newer. In the detectors with older electronics, the programming ends after the
second step.
AGD-100 detector
1. Enter an appropriate value for the FILTER and press .
2. Determine whether the detector is to be always active ( – option disabled, – option
enabled). Press .
3. Enter a digit from the 1 to 3 range, corresponding to the selected sensitivity of high-
frequency channel (see: page 46 Table 8). Press .
AVD-100 detector
The AVD-100 detector occupies 2 zones. Select the first one of the two zones to which the
detector is assigned and:
1. Enter an appropriate value for the FILTER and press .
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50 Programming Manual SATEL
2. Determine whether the detector is to be always active ( – option disabled, – option
enabled). Press
.
3. Using the
and keys, select which of the two reed switches of the magnetic
contact (lower or side) is to be active. Press key .
Then select the second zone to which the detector is assigned and:
1. Enter a digit from the 1 to 8 range, corresponding to the selected sensitivity of vibration
detector. Press .
2. Enter a digit from the 1 to 7 range, corresponding to the number of pulses, the recording
of which will result in violation of the vibration detector. Press .
ASD-100 detector
1. Enter an appropriate value for the FILTER and press .
2. Using the and keys, define operating mode of the heat detectors. Press
.
3. Using the
and keys, define operating mode of the buzzer ( – acoustic
signaling disabled; 1, 2 or 3 – type of acoustic signaling). Press .
4. Using the and keys, determine the time of alarm signaling by the detector
(buzzer or LED). Press .
ASP-105 siren
1. Enter an appropriate value for the FILTER and press .
2. Using the and keys, select the type of acoustic signaling. Press .
3. Using the and keys, determine the time of alarm signaling. Press .
ASP-205 siren
In the event of the ASP-205 siren, two types of signaling are to be programmed. Select the
first zone to which the siren is assigned to program the signaling triggered by the first siren
control output. Select the second zones to program the signaling triggered by the second
siren control output. In both cases, the process of configuration is almost identical (except
that the F
1. Enter an appropriate value for the F
ILTER parameter is not programmed for the second zone).
ILTER and press .
2. Using the and keys, select the operating mode of acoustic signaling ( –
acoustic signaling disabled; 1, 2 or 3 – type of acoustic signaling). Press
.
3. Using the and keys, determine the duration of acoustic signaling. Press
.
4. Define whether the optical signaling is to be enabled ( – signaling disabled, –
signaling enabled). Press .
ASW-100 E and ASW-100 F controllers
1. Enter an appropriate value for the FILTER and press .
2. Using the and keys, select operation mode for the button ("inactive " – the
electric circuit is only remotely controlled; "interim control" – the electric circuit may be
controlled remotely or manually; "combined control" – the electric circuit may be controlled
remotely or manually, but the remote control can be blocked manually). Press .
7.3 Proximity card reader
LED R – reaction of the partition after removal of the card from the reader, when the red LED
is lit. The partition can be fully armed or its status may remain unchanged.
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LED G / LED Y – reaction of the partition after removal of the card from the reader, when the
green / yellow LED is lit. One of the three armed modes can be enabled in the partition,
the partition can be disarmed or its status may remain unchanged.
Note: In the DLOADX program, the type of partition reaction after removal of the card from the
reader face is to be programmed by clicking in table on the field corresponding to the
selected partition. A double click on the field will change the icon displayed in it. In the
LCD keypad, the type of partition reaction should be selected from the list.
Fig. 15. Programming the proximity card reader settings in the DLOADX program (an example
of configuration).
Reader options
– Alarm signaling – the reader will be audibly signaling alarms during the KEYPAD’S
ALARM TIME
.
– Alarm signaling until canceled – the reader will be audibly signaling alarms until they
are cleared.
– 3 wrong cards alarm – reading the unknown card code three times by the reader will
trigger alarm.
– Signaling entry delay – the reader will be audibly signaling the entry delay countdown.
– Signaling exit delay – the reader will be audibly signaling the exit delay and auto-arm
delay countdown.
– Signaling card (hardware) – the reader will signal readout of the card code with
a single beep (the code will be sent to the control panel after the card is removed and
only then the reader will audibly signal its reaction to the read code).
8. Timers
4 timers can be programmed in the VERSA control panels. Using the timers, it is possible to
control the armed mode of partitions and the outputs 15. CONTROLLED. The timer compares
time with the control panel clock and executes the selected function at a set time. In the LCD
keypad, only the timer names can be programmed in the service mode. The other
parameters are programmed by means of functions available in the user menu ([CODE]
X6. SETTINGS X3. TIMERS). In the DLOADX program, all parameters can be
programmed in the "Versa – Timers" window.
The following can be programmed for each timer:
– individual name (up to 16 characters);
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– activation/deactivation time individually for each day of the week and globally for all
days of the week (consequently, the timer can be activated/deactivated twice a day:
according to the settings defined for that day and according to the settings defined for
the whole week);
– 4 exceptions, i.e. the time periods when the timer will be activated/deactivated at
a different time than that programmed individually for each day of the week or globally
for all days of the week.
Fig. 16. "Versa – Timers" window in the DLOADX program.
9. Reporting
The control panel telephone dialer enables sending event codes to two monitoring stations.
The following events can be reported:
– alarms,
– tampers,
– zone bypasses,
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SATEL VERSA 53
– troubles,
– arming/disarming,
– some other system related events (e.g. start and end of service mode, clock
programming, end of remote programming, etc.).
Fig. 17. Programming the monitoring parameters and options in the DLOADX program (an
example of configuration).
9.1 Reporting parameters and options
Reporting options
– Station 1 or 2 – event code will be sent to the station to which the control panel will be
able to connect.
– Station 1 – all event codes will be sent to Station 1.
– Station 2 – all event codes will be sent to Station 2.
– Station 1 and 2 – all event codes will be sent to both monitoring stations.
– Events amount limiting – events from the same source are saved into the event log
and reported to the monitoring station 3 times only. This option does not apply to the
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alarms from zones. For each zone, the number of alarms can be individually limited by
means of the AUTO-RESET 3 or AUTO-RESET 1 option.
– Report module restarts – in case of sending event codes in Contact ID or SIA format,
the monitoring station is informed about module restarts.
– Restore after bell – the zone restore code will only be sent to the monitoring station
after the alarm signaling ends. If a few outputs are signaling alarm, the zone restore
code will be sent when one of them stops signaling the alarm.
– Restore after disarm – the zone restore code will only be sent to the monitoring station
after disarming the partition to which the zone belongs.
Station 1 / Station 2
Reporting format – format in which event codes are sent to the monitoring station. The
VERSA series control panels allow to chose from several formats, including Contact
ID and SIA.
Telephone number – telephone number of the monitoring station.
Repetitions – the number of attempts to establish connection with the monitoring
station after which, if there is no connection (busy number, no answer from the
station, etc.), the control panel will suspend reporting. Up to 31 retries can be
programmed. Programming the value 0 means that monitoring will be suspended
after 8 attempts.
Suspend time – the time for which reporting is suspended, after making the
programmed number of attempts to establish connection with the monitoring station.
The control panel will resume the attempt of establishing telephone connection with
the monitoring station after this time expires or a next, new event occurs. Up to 30
minutes can be programmed. Programming the value 0 means that an attempt to
establish telephone connection with the monitoring station will only be taken after
occurrence of a new event in the system.
Identifiers – event codes are sent to the monitoring station in one of the four identifiers:
• identifier 1 – events from zones (alarms, tampers, troubles);
• identifier 2 – alarms triggered from keypad, arming/disarming by means of zones,
quick arming, loss of communication with wireless devices, as well as expander
troubles and tampers;
• identifier 3 – arming/disarming and alarm clearing by means of code or proximity
card;
• system identifier – power supply troubles, zone bypasses, troubles of control panel
high-current outputs, communication bus trouble, programming related events, etc.
4 hexadecimal characters (digits or letters from A to F) should be programmed for
each identifier. Entering the value 0000 means that events assigned to that identifier
will not be reported. Using the digit 0 in the identifiers is not recommended.
SIA / TELIM prefix – 2 characters which will precede each of the identifiers in case of
the SIA and TELIM formats. Thus an identifier consisting of 6 characters can be
obtained. 2 hexadecimal characters (digits or letters from A to F) can be
programmed. Entering 00 means that the prefix will not be added. Using the digit 0 in
the prefix is not recommended.
Station 1 options / Station 2 options
– Longer waiting for initial handshake – the control panel will wait longer for
handshake from the monitoring station in case of sending events in the Ademco
Express, Contact ID or SIA format. Enable this option if the monitoring station sends
a non-standard initial handshake.
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SATEL VERSA 55
– Long kiss-off signal – the control panel will accept a long acknowledgement signal
for receiving events in case of Ademco Express and Contact ID formats. Enable this
option if the monitoring station acknowledges receiving events in a non-standard
way (the kiss-off signal is longer than 800 ms).
– SIA – send partition name – in the SIA format, the name of partition where the
event took place will also be sent, in addition to the event code.
– SIA – send event source name – in the SIA format, the name of event source
(zone, user, etc.) will also be sent, in addition to the event code.
– SIA – confirm each block – the control panel will wait for acknowledgement by the
monitoring station of receiving every data block sent in the SIA format.
– SIA – identifier confirmation required – the control panel will wait for
acknowledgement by the monitoring station of receiving the identifier with which the
data were sent.
Test transmissions – the test transmission may be sent:
– at a specified time. The test transmission code is sent regularly at a defined time. The
number of days between transmissions and the time of sending transmission are
programmed. Programming the value 0 for days means that the transmission will be
sent everyday (in the same way, as in case programming the value 1).
– in specified time intervals. The test transmission code is sent after expiry of a defined
time after the last transmission (irrespective of whether it was a test transmission or a
code of another event was sent). The test transmission of this type may be sent in other
time intervals, when the control panel is armed (which requires programming some
additional parameters). The number of days, hours and minutes between transmissions
are to be programmed.
All types of test transmission may be programmed simultaneously.
9.2 Event codes
For the pulse and Ademco Express formats, it is necessary to program codes which will be
sent to the monitoring station if the defined events occur. The reported events are those for
which a code different from "00" has been programmed. 2 hexadecimal characters (digits or
letters from A to F) are to be programmed.
For the Contact ID and SIA formats, event codes consistent with format specification are
sent. In case of the CONTACT ID (SELECTED) and SIA (SELECTED), the codes must be
programmed at the events which are to be reported (not the programmed code, but a code
consistent with the format specification will be sent).
9.3 Starting the reporting
Before you proceed to the programming, obtain from the monitoring station operator all data
necessary to correctly start the reporting function:
• telephone number of the monitoring station,
• transmission format required by the monitoring station,
• identifiers assigned to the alarm system,
• list of event codes (not applicable to Contact ID and SIA formats).
1. Enable the REPORTING – TELEPHONE option (see: GLOBAL OPTIONS).
2. Determine how the telephone numbers should be dialed (global option TONE DIALING; in
case of the pulse dialing option – PULSE 1/1,5 (OFF 1/2)).
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3. Determine whether the control panel, prior to dialing the number, should check the
telephone line for dialing signal (global option NO DIAL TONE TEST).
4. Determine the reaction to signals received after dialing the number (global option NO
ANSWER TONE TEST
).
5. Determine whether the event codes will be sent to both monitoring stations or to one of
them only (enable one of the options: STATION 1 OR 2, STATION 1, STATION 2 or STATION 1
2).
AND
6. Determine whether the number of events from the same source is to be limited (option
EVENTS AMOUNT LIMITING).
7. Determine when the restore code is to be sent (options RESTORE AFTER BELL, RESTORE
AFTER DISARM
).
8. Program the following for the monitoring station to which event codes are to be sent:
– format in which the codes will be sent,
– telephone number,
– the number of attempts to connect to the station after which, if there is no connection,
the control panel will suspend reporting,
– time for which reporting will be suspended after the programmed number of attempts to
establish connection with the station has been made,
– identifiers with which the events will be sent,
– additional options (if Ademco Express, Contact ID, SIA or TELIM format is selected).
9. Define the parameters of test transmissions.
10. If a transmission format other than CONTACT ID (FULL) or SIA (FULL) is selected, program
the codes for events which are to be reported.
10. Messaging
Fig. 18. Programming the messaging parameters in the DLOADX program (an example of
configuration).
The VERSA series control panels can notify about occurrence of specified events by means
of 64 text messages (the SMS messages are sent by means of SATEL's GSM modules) and
16 voice messages (connection of voice synthesizer is required).
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SATEL VERSA 57
The messaging is effected independently of the reporting, however the reporting has priority.
If, during the messaging, any events occur which must be reported by the control panel to the
monitoring station, the messaging will be interrupted. The control panel will resume the
messaging function after the event codes are sent to the monitoring station.
10.1 Messaging parameters and options
Round count – the number of event notification rounds to be completed by the control panel.
Values from 1 to 7 can be programmed.
Retries number for one round – the number of unsuccessful attempts to notify a single
telephone number about the event, after which the control panel gives up messaging to
that number for the current round. Values from 1 to 7 can be programmed.
Description – individual name of the telephone number (up to 16 characters).
Telephone number – the telephone number to which messaging is effected.
Note: The users having the P
notified by means of the T
ROGRAMMING right may edit the telephone numbers to be
ELEPHONE NUMBERS user function ([code] X6. SETTINGS
X4. TEL. NUMBERS).
Mode – selection of the form in which the indicated telephone number is to be notified (0 – no
messaging, 1 – PAGER1, 2 – PAGER2, 3 – voice message).
10.2 Event assignment
Enter the following information for the events of which the control panel is to notify:
• number of the text message by means of which messaging will be effected. If the
messaging is to be effected in the form of text messages, the voice message assigned to
the given text message will be used.
• telephone numbers to which the messaging will be effected if an event occurs.
10.3 SMS/Pager messages
The control panel makes it possible to program 64 different text messages to be used for
messaging notification. The text messages are numbered from 1 to 64. After the CA-64 SM
synthesizer is connected, one voice message of 16 available, can be assigned to each text
message. The voice messages are numbered from 0 to 15. The same voice message can be
assigned to several text messages.
10.4 Starting the messaging
1. Enable the TELEPHONE MESSAGING option (see: GLOBAL OPTIONS).
2. Define the mode of dialing the telephone numbers (global option TONE DIALING; in case of
the pulse dialing option – PULSE 1/1.5 (OFF 1/2)).
3. Determine whether the control panel, prior to dialing the number, should check the
telephone line for dialing signal (global option NO DIAL TONE TEST).
4. Determine whether the control panel is to play back the voice message after going off-
hook, or 15 seconds after the dialing is completed (global option N
5. Determine whether alarm clearing should cancel the messaging (global option C
MESSAGING ON ALARM CLEARING
).
6. Define the number of attempts made by the control panel to notify about the event
(parameters ROUND COUNT and RETRIES NUMBER FOR ONE ROUND).
O ANSWER TONE TEST).
LEAR
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7. Program the following data for at least one telephone to which notification messages will
be sent:
– description,
– telephone number,
– messaging type.
8. Record on voice synthesizer the voice messages which are to be used for messaging
(see: CA-64 SM synthesizer manual).
9. Define the content of text messages which are to be used for messaging.
10. Assign the voice messages to the text messages.
11. Determine of which events to which telephone numbers and by means of which
messages the control panel is to notify.
12. Program additional parameters for messaging by means of text messages.
11. User Schedules
The VERSA control panels enable 5 user schedules to be defined. These schedules are
used when adding or editing users and specify their authority level. Additionally, they make it
possible to define which functions will be assigned by default to the key fob buttons, if key fob
is assigned to a user created with the use of the given schedule.
Note: Changing the rights in user schedule will change the rights of all users created with the
use of that schedule, but changing the functions assigned to key fob buttons will only
have effect on the users to whom the key fobs are yet to be added.
In the DLOADX program, the user schedules are programmed in the "Versa – Users" window,
"User Schedules" tab (see: Fig. 19). In the keypad, the user schedules are configured by
means of the function available in the USER TEMPLATES submenu (SERVICE MODE X8. USR
TEMPLATES
).
11.1 Parameters of the user schedule
Schedule name – individual name of the user schedule (up to 16 characters).
Right – defines which functions are available to the user. The following rights can be
assigned to the user schedule (all or selected ones):
– Arming – the user can arm the system.
– Disarming – the user can disarm the system.
– Alarm clearing – the user can clear alarms.
– Telephone messaging clearing – the user can cancel messaging by means of the
user function 3. ABORT MESSAGING (if he has at same time the ALARM CLEARING right and
the global option CLEAR MESSAGING ON ALARM CLEARING is enabled, the messaging will
be automatically canceled when the alarm is cleared).
– Auto-arming defer – using the AUTO-ARMING DEFERMENT function ([CODE]
X6. SETTINGS X1. A-ARM DEFER.), the user can defer arming by the timer.
– Zones bypassing– the user can bypass zones in the system (user function
YPASSES).
4. B
– Change access code – the user can change own access code (user function
1. C
HANGE CODE).
– Users editing – the user can add, edit and delete users (user function 2. USERS).
– Control – the user can control the status of outputs by means of the user function
8. CONTROL.
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SATEL VERSA 59
– Programming – the user has access to the user function 6. SETTINGS, which allows him
to program the control panel clock, timers and telephone numbers for messaging.
– DOWNLOAD/SERVICE – the user has access to the user function 0. SERVICE, which
allows him to determine the service access time and start the remote programming of
the control panel (see: Section STARTING REMOTE PROGRAMMING VIA MODEM).
– Inspection – the user has access to the user functions 5. EVENT LOG and 7. TROUBLES.
– Tests – the user has access to the user function 9. TESTS.
– DURESS – a special privilege which allows the user to define a system code, which
when used for arming/disarming or clearing alarm will trigger a silent alarm (which is in
no way signaled, but the alarm code is sent to the monitoring station).
Fig. 19. Programming user schedules in the "Versa – Users" window, DLOADX program
(example of settings).
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11.2 Functions assigned to key fob
Functions that can be assigned to the key fob buttons are numbered, which makes easier
their programming in the keypad (the keypad list can also be scrolled through by means of
the and
In the LED keypad, the function number is presented in binary form on the LEDs 1-12, in the
same way as the decimal values (see: page 14 Table 4). Only values corresponding to the
function numbers can be entered.
0. Not used
1. Zone 1 violation
2. Zone 2 violation
3. Zone 3 violation
4. Zone 4 violation
5. Zone 5 violation
6. Zone 6 violation
7. Zone 7 violation
8. Zone 8 violation
9. Zone 9 violation
10. Zone 10 violation
11. Zone 11 violation
12. Zone 12 violation
13. Zone 13 violation
14. Zone 14 violation
15. Zone 15 violation
16. Zone 16 violation
17. Zone 17 violation
18. Zone 18 violation
19. Zone 19 violation
20. Zone 20 violation
21. Zone 21 violation
22. Zone 22 violation
23. Zone 23 violation
24. Zone 24 violation
25. Zone 25 violation
26. Zone 26 violation
27. Zone 27 violation
28. Zone 28 violation
29. Zone 29 violation
30. Zone 30 violation
31. Arming partition 1 – full armed mode
32. Arming partition 1 – night armed mode
33. Arming partition 1 – day armed mode
34. Disarming / clearing alarm in partition 1
35. Arming partition 2 – full armed mode
36. Arming partition 2 – night armed mode
37. Arming partition 2 – day armed mode
38. Disarming / clearing alarm in partition 2
keys).
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SATEL VERSA 61
39. Arming partitions 1 and 2 – full armed mode
40. Arming partitions 1 and 2 – night armed mode
41. Arming partitions 1 and 2 – day armed mode
42. Disarming / clearing alarm in partitions 1 and 2
43. Loud panic alarm
44. Silent panic alarm
45. Fire alarm
46. Medical alarm
51. Output 1 activation
52. Output 2 activation
53. Output 3 activation
54. Output 4 activation
55. Output 5 activation
56. Output 6 activation
57. Output 7 activation
58. Output 8 activation
59. Output 9 activation
60. Output 10 activation
61. Output 11 activation
62. Output 12 activation
71. Output 1 deactivation
72. Output 2 deactivation
73. Output 3 deactivation
74. Output 4 deactivation
75. Output 5 deactivation
76. Output 6 deactivation
77. Output 7 deactivation
78. Output 8 deactivation
79. Output 9 deactivation
80. Output 10 deactivation
81. Output 11 deactivation
82. Output 12 deactivation
91. Output 1 switchover
92. Output 2 switchover
93. Output 3 switchover
94. Output 4 switchover
95. Output 5 switchover
96. Output 6 switchover
97. Output 7 switchover
98. Output 8 switchover
99. Output 9 switchover
100. Output 10 switchover
101. Output 11 switchover
102. Output 12 switchover
Page 64
SATEL sp. z o.o.
ul. Schuberta 79
80-172 Gdańsk
POLAND
tel. + 48 58 320 94 00
info@satel.pl
www.satel.pl
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