Satel ACU-280 ABAX 2 Wireless System Controller Instruction Manual

Contents hide

1 Satel ACU-280 ABAX 2 Wireless System Controller

2 Specifications

3 Installation

4 Software Updates

5 Documents / Resources

5.1 References

Satel ACU-280 ABAX 2 Wireless System Controller

Specifications

Product Name: ABAX 2 wireless system controller
Model: ACU-280 EN

Firmware Version: 6.08
Frequency Band: 868 MHz

Manufacturer: SATEL sp. z o.o.

Installation

The device should be installed by qualified personnel. Before installation, carefully read the manual to avoid mistakes that may lead to malfunction or damage.

Disconnect power before making any electrical connections.
Install the device indoors as per the EU directives.

Do not dispose of the device with municipal waste; follow proper disposal guidelines.

Software Updates

To update the firmware:

Visit the manufacturer’s website for the latest firmware updates.
Follow the instructions provided on the website for updating the firmware to version 6.08 or newer.

dding and Removing Devices

To add new wireless devices
Refer to section 7.1.4.1 of the manual for detailed instructions on adding devices.

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IMPORTANT
The device should be installed by qualified personnel.
Prior to installation, please read carefully this manual in order to avoid mistakes that can lead to malfunction or even damage to the equipment.
Disconnect power before making any electrical connections.

Changes, modifications or repairs not authorized by the manufacturer shall void your rights under the warranty.
The rating plate of the device is located on the enclosure base. The device meets the requirements of the applicable EU directives. The device is designed for indoor installation. The device must not be disposed of with other municipal waste. It should be disposed of in accordance with the existing rules for environment protection (the device was placed on the market after 13 August 2005). The device meets the technical regulations of the Eurasian Customs Union.

SATEL aims to continually improve the quality of its products, which may result in changes in their technical specifications and software. Current information about the changes being introduced is available on our website. Please visit us at: https://support.satel.pl
Hereby, SATEL sp. z o.o. declares that the radio equipment type ACU-280 is in compliance with Directive 2014/53/EU. The full text of the EU declaration of conformity
is available at the following internet address: www.satel.pl/ce
In the EU, this radio equipment is only permitted to operate in the 868 MHz frequency band.
Signs in this manual Caution information on the safety of users, devices, etc. Note suggestion or additional information.

Changes made to the firmware version 6.08 2025-05-19

Wireless devices

· ASD-200, ASD-250 and ACMD-200 detectors added capability to remotely block the detection function.
· ASP-215 siren changed rules of communication between the controller and the siren.

ACU-280

The ACU-280 controller enables expansion of the alarm system by adding the ABAX 2 wireless devices. It can work as:
· expander of wireless devices for: INTEGRA series control panels (firmware version 1.21 or newer), PERFECTA 64 M control panel, VERSA series control panels (firmware version 1.09 or newer),
· module of wireless devices with Modbus RTU interface.
The controller does not support the ABAX wireless devices.

The ABAX 2 system offers two-way communication. All transmissions are acknowledged, which ensures that the information has been received and makes it possible to check the presence of devices in the system in real time. Configuration of settings, testing and updating of the firmware of wireless devices are carried out via radio and, consequently, do not require removal of their enclosure.

2 Features
· Support for up to 48 ABAX 2 wireless devices (the number of supported devices depends on the configuration).
· Support for ABAX 2 wireless keypads: up to 4 INT-KWRL2 keypads, up to 4 PRF-LCD-A2 keypads, up to 6 VERSA-KWRL2 keypads.

· Support for APT-200 / APT-210 keyfobs: expander of wireless devices for SATEL alarm control panels the number of supported keyfobs depends on the maximum number of control panel users, module of wireless devices with Modbus RTU interface up to 256 keyfobs.
· AES standard encrypted two-way radio communication in the 868 MHz / 915 MHz frequency band.
· Transmission channel diversity 4 channels for automatic selection of the one that will enable transmission without interference with other signals in the 868 MHz / 915 MHz frequency band.
· Communication bus for connecting the controller to a SATEL control panel.
· RS-485 communication bus for integrating the controller, e.g. with automation or data acquisition systems [module of wireless devices with Modbus RTU interface].
· Controller firmware update capability.
· Ability to remotely update the firmware of wireless devices (except for the ASD-250 wireless smoke detector).
· Tamper protection against enclosure opening.

6
3 Electronics board

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Fig. 1. Controller electronics board.

DIP-switches.
LED indicating the status of communication with the control panel: ON no communication with the control panel, flashing communication with the control panel OK. tamper switch.
RS-232 port (TTL standard).

3.1 Terminals

+12V COM CKM DTM CKE DTE A RS485 B

– power input. – common ground. – keypad bus clock. – keypad bus data. – expander bus clock. – expander bus data. – RS-485 bus.

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3.2 DIP-switches

Using the DIP-switches, you can:
· define the controller operating mode,
· set the controller address (operating mode: expander of wireless devices for the INTEGRA series control panels),
· enable / disable the support of the ARF-200 radio signal level tester that has not been registered to the controller.

3.2.1 Selecting the controller operating mode

Fig. 2. Switches defining the controller operating mode.

Switches 9 and 10 (Fig. 2) define the controller operating mode see Table 1.

Controller operating mode

Expander of wireless devices for the INTEGRA series control panels
Expander of wireless devices for the PERFECTA 64 M control panel
Expander of wireless devices for the VERSA series control panels

Universal module of wireless devices

Table 1.

DIP-switch

OFF

OFF
ON ON

ON
OFF ON

3.2.2 Address setting [controller in the INTEGRA system]

Fig. 3. Switches for setting the address of the controller in the INTEGRA system.
Switches 1-5 (Fig. 3) are used to set the address when the controller is connected to the INTEGRA series control panel (in the other operating modes, the settings of switches 1-5 are irrelevant). Numerical value is assigned to each switch. In OFF position, the value is 0.

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Numerical values assigned to individual switches in ON position are presented in Table 2. The sum of numerical values assigned to switches 1-5 constitutes the address set in the device. The address must be different than that set in the other devices connected to the expander bus of the control panel.

DIP-switch Number

Table 2.

If the controller is to be connected to the control panel to which an ABAX 2 / ABAX controller is already connected, it is recommended that the address to be set in the new controller be higher than that in the controller already connected to the control panel.
3.2.3 Enabling / disabling the support of the unregistered ARF-200 tester

Fig. 4. Switch for enabling / disabling the support of the unregistered ARF-200 tester.
Switch 7 (Fig. 4) is used to enable / disable the support of the ARF-200 tester that has not been registered to the controller: OFF position support disabled (the controller will support the ARF-200 tester only if it is
registered to the system), ON position support enabled.
Remember to disable the support of the unregistered ARF-200 tester after the testing is finished.
3.3 RS-485 bus [module of wireless devices with Modbus RTU interface] The RS-485 bus can integrate the controller with other systems (e.g. automation or data acquisition systems) to inform the systems on the state of wireless devices and to receive from them control commands for the controller. The data is transmitted using the Modbus RTU communications protocol. The controller is a “Slave” type device and it supports two functions of the protocol: Read Holding Registers (kod: 0x03 [hex], 03 [dec]) reading values from one or more
registers. Write Multiple registers (kod: 0x10 [hex], 16 [dec]) changing values in one or more
registers.
3.3.1 Table of Modbus RTU protocol registers In table 3 you will find a list of 2-byte memory registers of the controller used for communication via the Modbus RTU protocol. You can read the value of all the registers listed in the table using the “Read Holding Registers” function (“R” symbol). Those registers, whose value can be changed using the “Write Multiple Registers” function, are marked with

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a “W” symbol. 48 registers in each group (e.g. 0x0000 0x002F) amount to the maximum number of devices that the controller can support. The first register in the group is assigned to the first device on the list of devices supported by the controller. The rest of the registers are assigned accordingly, each to a subsequent device on the list. The group containing 4 registers which convey information on the keyfobs supported by the controller is an exception. The “Value” column shows values assumed by the registers in each group. Inside the square brackets you will find names of columns in which those values are presented in the ABAX 2 Soft program (see “Devices status”).

Group of registers 0x0000 0x002F (0 47)
0x0100 0x012F (256 303) 0x0200 0x022F (512 559)
0x0300 0x032F (768 815)

Value

R/W

Device status information [State]

Registers can assume values 0x0000 (0) or 0x0001 (1). Depending on the type of device, registers assume value 0x0001 (1) in the following cases:

· detector: alarm, · siren: signaling triggered,

· expander of wired zones/outputs: zone activated,

· ASW-200 smart plug: button pressed / relay turned on (230 VAC power ON),
· ASW-210 controller: input activated / relay turned on (230 VAC power ON),

· radiator thermostat: radiator valve open (in position other than fully closed).

Tamper information [TMP] / Information about anti-freeze

protection (ART-200 / ART-210 thermostat)

Registers can assume value:

0x0000 (0) no tamper / anti-freeze protection is not activated,

0x0001 (1) tamper / anti-freeze protection is activated.

Information about radio communication between device and R controller [Comm.] / Information about ART-200 / ART-210 thermostat error
Registers can assume value:
0x0000 (0) communication OK / ART-200 / ART-210 thermostat operation OK,
0x0001 (1) no communication for the time defined by the “Communication period” / “ECO” and “Filter” parameters / ART-200 / ART-210 thermostat error (e.g. problem with changing the valve position / wrong calibration / low battery).

Information about the device power state [Pow.]

Registers can assume value:

0x0000 (0) power OK,

0x0001 (1) power trouble (e.g. low battery).

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Group of registers 0x0400 0x042F (1024 1071)
0x0500 0x052F (1280 1327)
0x0600 0x062F (1536 1583)
0x0700 0x072F (1792 1839)
0x0800 0x082F (2048 2095)
0x0900 0x092F (2304 2351)
0x0A00 0x0A03 (2560 2563)

Value

R/W

Detector operating mode [Act.] / / ART-200 / ART-210

R/W

thermostat operating mode

Registers can assume value:

0x0000 (0) detector works in passive mode / thermostat works in “Economic temperature” mode,

0x0001 (1) detector works in active mode / thermostat works in “Comfortable temperature” mode.

Device control [State]

R/W

Registers can assume values 0x0000 (0) or 0x0001 (1). If register assumes value 0x0001 (1):

· siren: signaling is triggered,

· expander of wired zones/outputs: output is activated,
· ASW-200 smart plug: relay is turned on (connected device is on),

· ASW-210 controller: relay is turned on (power is on).

Temperature registered by the temperature sensor in the

device [Temperature]

Temperature is registered in the range of -10°C to +50°C with 0.5° accuracy. Registers can assume integer values preceded by a sign. For the purpose of conversion, registered temperatures
are multiplied by 10, e.g. for temperature +23.5°C the register assumes value +235.

Level of the radio signal received from the device by the

controller [RSSI ACU]

Level of signal is registered in %. Registers can assume values from 0 to 100.

Level of the radio signal received by the device from the

controller [RSSI dev.]

Level of signal is registered in %. Registers can assume values from 0 to 100.

Value of the supply voltage [Pow. volt.]

Value of voltage supplied to devices supported by the controller is registered in mV, e.g. for voltage of 3.06 V the register assumes value 3060.

Information about active keyfob

Read values from 4 registers:

0x0A00 keyfob number in the controller (1 256),

0x0A01 number of transmissions received from the keyfob by the controller,

0x0A02 number of pressed button (0 5),

0x0A03 battery status (0 battery OK; 1 low battery).

The above-mentioned registers assume values greater than 0 only when the controller receives a transmission from the keyfob.

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Group of registers

Value

R/W

0x0B00 0x0B2F ASW-200 smart plug supply voltage

(2816 2863)

Value of voltage supplied to ASW-200 plugs supported by the controller. Registered values of AC voltage are multiplied by 10,

e.g. for voltage of 229.5 VAC the register assumes value 2295.

0x0C00 0x0C2F Current consumption by device connected to ASW-200

(3072 3119)

smart plug

Value of current consumed by devices connected to ASW-200

plugs. Registered values are multiplied by 100, e.g. for current of

7.15 A the register assumes value 715.

0x0E00 0x0E2F (3584 3631)

Economy temperature (ART-200 / ART-210 thermostat)

R/W

Temperature is read / registered in the range of 5°C to +35°C with 0.5° accuracy. Registers can assume integer values preceded by a sign. For the purpose of conversion, registered
temperatures are multiplied by 10, e.g. for temperature +23.5°C the register assumes value +235.

0x0F00 0x0F2F (3840 3887)

Comfort temperature (ART-200 / ART-210 thermostat)

R/W

0x1000 0x102F ART-200 / ART-210 thermostat control using the Modbus

R/W

(4096 4143)

RTU protocol

Registers can assume values:

0x0000 (0) control using the Modbus RTU protocol disabled. The thermostat operates according to the selected
mode.

0x0001 (1) control using the Modbus RTU protocol enabled. The thermostat operating modes are not used.
The thermostat keys are disabled.

0x1100 0x112F Radiator valve position (ART-200 / ART-210 thermostat)

R/W

(4352 4399)

Radiator valve position is read / set in the range of 0% to 100%.

Table 3.

4 Installation of the controller

Disconnect power before making any electrical connections.
Be careful during installation to avoid damage to the components located on the controller electronics board.

4.1 Selecting a mounting location
The controller should be installed indoors, in spaces with normal air humidity. Prior to installation you should plan the arrangement of all ABAX 2 wireless devices which are to be operated by the controller. Select the installation place so that these devices are located

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within the controller operating range. Remember that thick walls, metal partitions, etc. will reduce the range of the radio signal. It is recommended that the controller be mounted high above the floor. This will allow you to get a better range of radio communication and avoid the risk of the controller being accidentally covered by people moving around the premises. Installing the device in close vicinity of electrical systems is not recommended, since it can adversely affect the range of radio signal.
Several ABAX 2 / ABAX wireless system controllers can work within each other’s range. The number of wireless devices working within each other’s operating range depends on the frequency of periodical communication. The higher the frequency of communication, the lesser number of devices can work within each other’s range.

4.2 Preparing the cabling
Run the cables to be used to connect the controller to the control panel or other devices to the controller’s installation location. For power cables, use flexible conductors with crosssectional area of 0.5-0.75 mm2. In order to connect the controller to the RS-485 communication bus, use the twisted-pair type of cable (e.g. UTP unshielded twisted pair). Do not lay the cables in immediate vicinity of the low-voltage electrical network wires, especially those used for powering the high-power equipment (such as electric motors).

4.3 Installation of enclosure

Fig. 5. Opening the enclosure.
The description below applies to the enclosure in which the ACU-280 controller is sold. 1. Open the controller enclosure (Fig. 5). The enclosure opening tool, shown in the
illustration, is included in the detector delivery set.

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2. Place the enclosure base against the wall and mark location of the mounting holes. Set the enclosure so that the cable entry opening is situated at the bottom of the enclosure or at the base.
3. Drill holes for wall plugs (anchors) in the wall.
4. Make the cable entry opening at the base. The opening diameter must be larger than 5 mm. The finished opening must not have sharp edges.
5. Run the cables through the prepared opening (power cables, cables connecting the controller with the control panel or other devices, etc.).
6. Using wall plugs and screws, secure the enclosure base to the wall. The wall plugs delivered with the device are intended for concrete, brick, etc. For other types of surface (drywall, styrofoam), use the appropriately selected wall plugs. When installed, the device must withstand a pull-off force of at least 50 N.

Fig. 6. Installation of enclosure base.
4.4 Setting DIP switches
Using the DIP switches (see “DIP-switches” p. 7): 1. Define the controller operating mode (switches 9 and 10). 2. Set the controller’s address if the controller is to be connected to the INTEGRA series
control panel (switches 1-5).
4.5 Connecting the wires
Protect the wiring against contact with sharp edges or else they can damage the insulation of cables.

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4.5.1 Expander of wireless devices for SATEL alarm control panels Depending on the alarm system in which the controller is to operate: INTEGRA: connect the CKM, DTM, CKE, DTE and COM terminals to the corresponding
terminals of the control panel communication buses (Fig. 7).

Fig. 7. Method of connecting the controller to the INTEGRA series control panel.
VERSA: connect the CKE, DTE and COM terminals to the corresponding terminals of the control panel communication bus (Fig. 8).

Fig. 8. Method of connecting the controller to the VERSA series control panels.
PERFECTA 64 M: connect the CKE, DTE and COM terminals to the corresponding terminals of the control panel communication bus (Fig. 9).
You can connect only one ABAX 2 controller to the PERFECTA 64 M control panel.
If the ACU-220 controller is connected to the PERFECTA 64 M control panel, do not connect the PERFECTA-RF module or the INT-RX-S expander to the control panel. The PERFECTA 64 M control panel can support only one of these devices. If you use the twisted-pair type of cable, remember that the DTM and CKM / CKE and DTE (clock and data) signals must not be sent through one pair of twisted conductors. The conductors must be run in one cable.

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Fig. 9. Method of connecting the controller to the PERFECTA 64 M control panel.
4.5.2 Module of wireless devices with Modbus RTU interface For connecting the RS-485 bus, connect the A and B terminals with the corresponding lines of the bus, as shown in figure 10. 100 (± 10%) resistors should be installed at the beginning and at the end of the bus. Connect the COM terminals of all devices connected to the bus with an additional wire. The maximum number of “Slave” type devices (e.g. ACU-280) that can be connected to the bus is n = 247.

Fig. 10. Method of connecting the controller to the RS-485 bus (RT = 100 (± 10%); n = 247).
4.6 Powering on and starting the controller
1. Connect the power cables to the +12V and COM terminals. The controller may be powered directly from the control panel or from a power supply with current limitation up to 3 A.
2. Replace the cover.

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3. Turn the power on. The LED indicator should come on.

If the controller works as expander of wireless devices for SATEL alarm control panels, run the identification function in the control panel (see the control panel installer manual). The controller will be identified as ACU-100.

5 ABAX 2 Soft program
The ABAX 2 Soft program enables configuration and diagnostics of the wireless system when the controller works as module of wireless devices with Modbus RTU interface. The program can also be used for diagnostics of the system, when the controller works as expander for a SATEL control panel. You can download the ABAX 2 Soft program from www.satel.pl website. Required program version: 1.04.002 (or newer).
5.1 Description of the program
5.1.1 Menu bar in the program The menu bar is displayed in the top part of the program window.

Fig. 11. ABAX 2 Soft program: menu bar.
type of controller and firmware version. number of the computer port used for communication with the RS-232 (TTL) port of the controller. When the ABAX 2 system is running in the test mode, the “TEST MODE” information is displayed on the menu bar (after the firmware version).
Buttons click to establish connection to the controller. The button is displayed when the program is not connected to the controller. click to finish connection to the controller. The button is displayed when the program is connected to the controller. click to read data from the controller.
click to write data to the controller. click to display additional menu.
5.1.2 Additional menu The additional menu is displayed after you click . Open click to open the controller data file. Save click to write the controller data to file. Configuration click to open the “Connection” window.

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Language click to open the “Software language” window. About click to display information about the program.

“Connection” window

Fig. 12. ABAX 2 Soft program: “Connection” window.
Port RS-232 computer COM port to be used for communication with the RS-232 (TTL) port of the controller.
OK click to confirm the changes. Cancel click to close window without saving changes.
“Software language” window

Fig. 13. ABAX 2 Soft program: “Software language” window.

Software language you can select the language of the program. Save click to confirm the changes. Cancel click to close window without saving changes.

5.2 Establishing connection between the program and the controller

1. Connect the controller RS-232 (TTL) port with the computer port using the USB-RS converter offered by SATEL.

2. Select the computer COM port to be used for communication with the controller (see “”Connection” window” p. 17).

3. Click

on the menu bar.

4. After connection is established, information about the controller type and firmware version

as well as the button will be displayed on the program menu bar.

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5.3 Configuration

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Controller info Module type controller type. Version firmware version of the controller. Serial number serial number of the controller.

Communication period define the time intervals at which wireless devices are to communicate with the controller. Periodical communication can take place every 12, 24 or 36 seconds. During periodical communication, the devices inform the controller about their status, and the controller sends commands to the devices (switches the detectors into active/passive mode, starts/ends test mode, changes configuration of the devices, etc.). The communication period has effect on the level of energy consumption by wireless devices: the less frequent is the communication, the lower is the energy consumption. For the battery-operated devices it means longer battery life. Moreover, when the communication takes place less frequently, more wireless devices can work within each other’s operating range.
If you enable the “ECO” option for a wireless device, periodical communication between that device and the controller will take place every 3 minutes (the “Communication period” parameter will have no effect on the device operation).
Some information and commands need to be sent immediately. Therefore, additional communication takes place when the device reports tamper, when the detector reports alarm, etc.

Fig. 14. ABAX 2 Soft program: “Configuration” tab.
No automatic update of wireless devices firmware if this option is enabled, firmware of the wireless devices registered to the controller is not updated automatically (see “Updating the firmware of ABAX 2 wireless devices” p. 75).
No jamming detection if this option is enabled, the controller will not detect radio communication jamming.

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MODBUS if this option is enabled, the controller can communicate with other systems using the Modbus RTU protocol (the RS-485 port is enabled).
RS-485 operation parameters of the RS-485 port. If you select OFF (default value), the port will be disabled. If you select any of the data transfer rates, the port will be enabled.

If the port is enabled: · it is possible to integrate the controller with other systems (see ,,RS-485 bus” p. 8).
The Modbus RTU protocol is used for communication.
· control inputs are not supported.
Parity type of data transmission check. Default: ,,None”. Stop bits stop bit length: 1, 1,5 or 2. Default: 1. MODBUS address individual address of the controller on the RS-485 bus. You can enter
values from 1 to 247.

5.4 Devices

Fig. 15. ABAX 2 Soft program: “Devices” tab.
Name individual device name (up to 16 characters). You can enter a name that will make it easier to figure out the location or intended purpose of the device.
S/N serial number of the device. Type type of the wireless device. If the device takes up more than 1 position on the list,
the “^” character is displayed in consecutive positions. Output no configuration possible (the controller does not have outputs indicating the status
of wireless devices).
Input no configuration possible (the controller does not have control inputs for wireless devices).
ARU parameter available for the wireless device, if the ARU-200 radio signal repeater is registered to the controller. It defines whether the device is to communicate with the controller directly or via the selected ARU-200 radio signal repeater (a few ARU-200 radio signal repeaters can be registered to the controller). Leave this field blank if the device is to communicate directly with the controller. If the device is to communicate with the controller via the radio signal repeater, enter the number of position occupied by the radio signal repeater on the list of wireless devices (the radio signal repeater takes up two positions on the device list enter the number of the first of them).
Filter the number of consecutive communication periods without connection between the device and the controller after which loss of communication with the device will be reported. You can enter values from 0 to 255. Entering 0 disables the check for device presence in the system.

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If the system is to meet the EN 50131 requirements for Grade 2, loss of communication with the device must be reported within 20 minutes at the latest. Therefore, when entering the number take into account the frequency of periodical communication (“Communication period” parameter or “ECO” option).
Configuration for some devices, you can configure additional settings (see “Programming devices using the ABAX 2 Soft program” p. 62).
Temp.corr. you can correct the temperature information sent by the device by up to ±3.5°C.
ECO if this option is enabled, periodical communication with the device takes place every 3 minutes. Thus the battery life can be extended up to four times.

If you enable the ECO option for a detector, the delay between receiving the Modbus RTU command and switching the detector operating mode (active / passive) can be up to three minutes.

Buttons click to add new device (see “Adding new wireless devices” p. 38).

click to remove selected device (see “Removing wireless devices” p. 38).

5.5 Status

Fig. 16. ABAX 2 Soft program: “Status” tab.
Controller status
Jamming Information about radio communication jamming:
[yellow] communication is jammed, [gray] communication was jammed. Level level of radio communication jamming signal. Count number of radio communication jamming cases. Power supply Information about current supply voltage of the controller.

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DIP-switches Graphic information about setting of DIP-switches.

Devices status Name blank field. Type device type. If the device takes up more than 1 position on the list, the “^” character is
displayed in successive positions. S/N serial number of the device.
Act. [green] icon indicates that: detector: working in active mode, another device: running (does not apply to the ART-200 / ART-210 thermostat).
State [red] icon indicates that: detector: alarm, panic / control button: alarm, siren: signaling triggered, expander of wired zones/outputs: input activated, ASW-200 smart plug: button pressed / relay turned on (230 VAC power ON), ASW-210 controller: input activated / relay turned on (230 VAC power ON), ART-200 / ART-210 radiator thermostat: radiator valve open (in position other than fully closed).
TMP tamper information / information about anti-freeze protection (ART-200 / ART-210 thermostat):
[red] tamper / anti-freeze protection is activated,
[gray] tamper memory / memory of anti-freeze protection being activated. Comm. information about radio communication between the device and the controller:
[green] communication OK,
[yellow] no communication for the time defined by the “Communication period” / “ECO” and “Filter” parameters / F1…F8 error of the radiator thermostat (ART-200 / ART-210),
[gray] trouble memory. Pow. information about the device power state:
[green] power OK,
[yellow] power trouble (e.g. low battery),
[gray] power trouble memory. RSSI ACU level of the radio signal received from the device by the controller. Presented as
percentage or in power units (dBm). Click twice the column to change the way of presentation. RSSI dev. level of the radio signal received by the device from the controller. Presented as percentage or in power units (dBm). Click twice the column to change the way of presentation. Pow.volt. value of the supply voltage. Temp./Power temperature registered by the temperature sensor in the device / power consumed by the device connected to the ASW-200 smart plug. Work time work time of the device. The time is counted from the moment of the device being registered to the controller, or restart of the device.

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Version firmware version of the device and build date. The orange font indicates that a new firmware version is available (see “Updating the firmware of ABAX 2 wireless
devices” p. 75). The [yellow] icon displayed in the field means that the firmware update attempts have failed.
Progr. percentage value indicating progress of the device firmware update.
Receiv. the [black] icon indicates that the controller has just received a transmission from the device.

Buttons click to clear trouble memory / restart the process of device firmware update.

click to start the test mode in the ABAX 2 system.

click to end the test mode in the ABAX 2 system.

click to refresh information about the supported devices.

click to display the graphs window (see “Graphs”).

5.5.1 Graphs

Fig. 17. ABAX 2 Soft program: “Graphs” window.
Presented in the form of graphs are radio signal levels on four channels used by the ABAX 2 system. They allow you to check whether other radio devices that may interfere with communication are working on this channel and what is the radio noise level. If there are any undesired radio signals which are comparable to or stronger than the signals from the ABAX 2 system, they will interfere with the system operation. This may result in a periodic loss of communication as well as quicker draining of the battery in wireless devices.
5.5.2 Comm. history Wireless device select a device from the list to display the graph showing the history of
communication of that device with the controller.

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The program collects data on communication history only when it is running.

Fig. 18. ABAX 2 Soft program: “Comm. history” tab.

Fig. 19. A segment of graph showing communication history.
Legend to Fig. 19: dark-green level of the radio signal received by the device from the controller. light-green level of the radio signal received from the device by the controller. blue level of the interfering signal.
Buttons click to clear the history of communication of the selected device with the controller. This will display a window where you can define the period the data from which are to be cleared.

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5.6 Keyfobs

No. number of the keyfob on the list. Name individual keyfob name (up to 16 characters). You can enter a name that identifies
the keyfob user.
S/N serial number of the keyfob. Keyfob buttons do not configure. The columns are labeled with the symbols
corresponding to the APT-200 / APT-210 keyfob buttons.
LED do not configure. Template option disabled.

Buttons click to add new keyfob (see “Adding a keyfob” p. 74).

click to remove selected keyfob (see “Removing a keyfob” p. 74).

Fig. 20. ABAX 2 Soft program: “Keyfobs” tab.
5.6.1 Keyfob state Name individual keyfob name. S/N serial number of the keyfob. Batt. information about battery status:
[green] battery OK,
[yellow] low battery,
[gray] low battery memory. RSSI level of the radio signal received from the keyfob by the controller. Batt.volt. value of the battery voltage. Version keyfob firmware version and build date. The orange font indicates that a new
firmware version is available (see “Updating the firmware of ABAX 2 wireless devices” p. 75). The [yellow] icon displayed in the field means that the firmware update attempts have failed. Progr. percentage value indicating progress of the keyfob firmware update. Receiv. the [black] icon indicates that the controller has just received a transmission from the device.

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Fig. 21. ABAX 2 Soft Program: “Keyfob state” tab.
Buttons click to clear trouble memory / restart the process of keyfob firmware update. click to refresh information about the supported keyfobs.

6 Wireless devices supported by the controller

The ABAX 2 wireless devices are divided into 3 categories: · devices, · keypads, · keyfobs. For each of these categories a separate pool of positions is provided in the controller.

6.1 Devices

Detectors ACD-220 ACMD-200 ADD-200 AFD-200 AGD-200 AOCD-260 AOD-210 APD-200 APD-200 Pet APMD-250 ASD-200 ASD-250 AXD-200

– wireless curtain detector. – wireless carbon monoxide detector. – wireless outdoor dusk and temperature detector. – wireless water flood detector. – wireless glass-break detector. – wireless outdoor dual technology curtain detector. – wireless outdoor dual technology motion detector. – wireless passive infrared detector. – wireless passive infrared detector with pet immunity up to 20 kg. – wireless dual technology motion detector. – wireless smoke and heat detector. – wireless smoke detector. – wireless multipurpose detector, which can work as:
AFD-200 – water flood detector, AMD-200 – magnetic contact, AMD-201 – dual channel magnetic contact,

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AMD-202 – magnetic contact with input for roller shutter detector, ARD-200 – reorientation detector, ATD-200 – temperature detector, AVD-200 – shock detector and magnetic contact, ATX-220 – hardwired zone expander: 2 x NC, ATX-230 – hardwired zone expander: NC and roller shutter.

Sirens

ASP-200 ASP-215

– wireless outdoor siren. – wireless indoor siren.

Hardwired zone / output expanders

ACX-210 ACX-220

– miniature hardwired zone / output expander. – hardwired zone / output expander.

Controllers

ASW-200 ASW-210

– 230 VAC smart plug. – flush-mounted wireless two-channel 230 VAC controller.

Other devices

APB -200 APB-210 ARF-200 ARU-200 ART-200 ART-210

– wireless panic button. – wireless control button. – radio signal level tester. – radio signal repeater. – wireless radiator thermostat. – wireless radiator thermostat.

6.2 Keypads
INT-KWRL2 wireless keypad for the INTEGRA series control panels. PRF-LCD-A2 wireless keypad for the PERFECTA 64 M control panel. VERSA-KWRL2 wireless keypad for the VERSA series control panels.

6.3 Keyfobs
APT-200 bidirectional keyfob. APT-210 bidirectional keyfob.
Keyfobs are discussed in a separate section (p. 67).

7 Installation of ABAX 2 wireless devices
After the controller has been installed, you can begin installation of the ABAX 2 wireless devices. Before installing a device, check the level of radio signal received by the device from controller and by the controller from device at the planned installation place. The ARF-200 tester is a useful tool to check the signal level. The level of signal received by device / controller may not be lower than 40%. You can only install the device at the planned location after making sure that the level of the radio signal is correct. If the radio signal level at the planned installation place is too low, select another installation location. Sometimes it is sufficient to move the device ten or twenty centimeters to obtain a significant improvement of signal quality.
For detailed information about installation of individual devices, please refer to the manuals of the respective products.

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7.1 Registering devices to the controller

The ABAX 2 wireless devices must be registered to the controller (only the ARF-200 tester
can be supported when unregistered see: “Enabling / disabling the support of the unregistered ARF-200 tester” p. 8).

Before adding a device that was previously registered to the ABAX / ABAX 2 system, you must restart it (remove the battery / power the device off for 30 seconds).
When registering a device, you must enter its serial number. The serial number sticker is affixed to the device (location of the sticker is indicated in the manual of the device). The serial number of each ARF-200 tester is 0000500.
When registered, some devices will occupy two or more positions on the list. Therefore, the actual number of devices that can be registered depends on how many positions will be taken up by individual devices. For example, the expander ACX-220 can take up 4 positions. After registering it to the controller, the pool of positions for further devices will decrease by 4 (e.g. if there were 48 positions available before registering the expander, 44 positions will remain after registering the expander, i.e. you will still be able to register up to 44 devices).

In case of many devices that occupy two or more positions on the device list, you can select how many positions are to be occupied when registering them to the controller.

Data of the wireless devices are stored in the controller. If you connect a controller with registered wireless devices to the control panel, then after the devices are identified:
· keypads will be added to the system,
· wireless devices will be assigned to the system zones / outputs,
· keyfobs will be assigned to users.
This may cause problems (e.g. identification may be impossible due to conflicting addresses). For this reason, it is recommended not to connect a controller with registered devices to the control panel.

7.1.1 Expander for the INTEGRA series control panels
Most of the ABAX 2 wireless devices are identified in the alarm system by the names known from the ABAX system.
For information about registering the INT-KWRL2 keypad, consult the keypad manual.
To add or delete devices, you can use the DLOADX program (version required: 1.22.002 or newer) or LCD keypad. For description of DLOADX program and LCD keypads, refer to the control panel manuals.
The number of devices you can register to the controller depends on the control panel (INTEGRA 24 up to 16; INTEGRA 32 up to 24; other control panels up to 48). Each position on the device list represents one wireless zone or one wireless zone and one output.
When adding and removing the wireless devices, remember that the identification function registers zones and outputs by groups of 8. Already after adding one wireless device which takes up 1 zone, the control panel will reserve 8 zones in the system for wireless devices. The LCD keypad makes it possible to select the zone to which that device will be assigned. Observe continuity, i.e. avoid leaving any gaps in the list, which will later reduce the number of available zones in the system. Remember to preserve continuity also when removing wireless devices. For example, if the devices registered in the controller occupy 9 positions on the list, then 16 zones (2×8) are reserved in the system. After removal of the device which occupied position 7 on the list, there will still be 16 zones (2×8) reserved in the system for wireless devices, although 8 positions are actually taken up on the list of wireless devices

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(see: Table 4). In such a case, it is recommended that the last devices be removed from the list and then added to the system again, so as to fill up the gap in the list and reduce the number of zones reserved for wireless devices.
In case of devices which, in addition to zones, also take up outputs, it is recommended that you add them to the system first. This will allow you to maintain the continuity of use of not the zones alone, but the outputs as well.
In some cases, the gaps in the list of zones / outputs cannot be avoided. It applies to situation when the number of zones / outputs, which is used by the devices, is not a multiple of 8.
For each group of 8 zones / outputs, one address on the expander bus is reserved. The controller can occupy from 1 to 6 addresses. This must be taken into account at the system design stage and sufficient number of free addresses must be left for the controller. If, when new wireless devices have been added to the controller, it turns out that next addresses are needed, and these are taken up by other devices, successful completion of the expander identification procedure will be impossible. It will be necessary to change addresses of the devices connected to the bus.
Table 4 shows how the wireless devices should not be registered. The first siren output takes up position 8, and the second output occupies position 9. As a result, 16 outputs have been reserved for wireless devices in the system, although actually only 2 are used (the eighth output in the first group of 8 outputs and the first output in the second group of 8 outputs). For devices taking up 8 positions, the system must reserve 16 zones and 16 outputs as well as 2 addresses. Table 5 shows an example of how to correctly register the same devices (compare also Fig. 22). For 8 devices, the system has reserved 8 zones and 8 outputs as well as 1 address.

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list of devices

1 APD-200 detector

2 APD-200 detector

3 AMD-200 detector

4 AMD-200 detector

5 AMD-201 detector

6 ^

8 ASP-200 siren

9 ^

INTEGRA / INTEGRA Plus

zones

outputs

device

17 APD-200 detector

17 unused/unavailable

18 APD-200 detector

18 unused/unavailable

19 AMD-200 detector

19 unused/unavailable

20 AMD-200 detector 8
21 AMD-201 detector

20 unused/unavailable 21 unused/unavailable

22 AMD-201 detector

22 unused/unavailable

23 unused/unavailable

24 ASP-200 siren

25 ASP-200 siren

26 unused/unavailable

27 unused/unavailable

28 unused/unavailable 8 29 unused/unavailable

28 unused/unavailable 29 unused/unavailable

30 unused/unavailable

31 unused/unavailable

32 unused/unavailable

Table 4.

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list of devices

1 ASP-200 siren

2 ^

3 APD-200 detector

4 APD-200 detector

5 AMD-200 detector

6 AMD-200 detector

7 AMD-201 detector

8 ^

INTEGRA / INTEGRA Plus

zones

outputs

device

17 ASP-200 siren

18 ASP-200 siren

19 APD-200 detector

19 unused/unavailable

20 APD-200 detector 8
21 AMD-200 detector

20 unused/unavailable 21 unused/unavailable

22 AMD-200 detector

22 unused/unavailable

23 AMD-201 detector

23 unused/unavailable

24 AMD-201 detector

24 unused/unavailable

Table 5.

Fig. 22. DLOADX program: the list of wireless devices registered in the controller in the INTEGRA system.

7.1.1.1 Adding new wireless devices

DLOADX program
You can add a wireless device in the “Structure” window, “Hardware” tab, after clicking the name of the controller on the device list, and then the “Zones/Outputs” tab. The device being added is assigned to zones and outputs automatically (to the first unoccupied zones / outputs from the pool reserved for the controller).
1. Click the “Read” button. The data related to wireless devices will be read from the

controller (these data are not read after clicking the

button in the main menu).

2. Click the “New device” button. 3. The “New device” window will open. 4. Enter the serial number of the device being added in the “Serial number” field. 5. Power on the device (install the battery in the device, turn on the device power, etc.).

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6. A message will confirm that the device has been added (unless you have entered an invalid serial number, of which the message will inform you).
6.1. Device type will be displayed. For the AXD-200 multipurpose detector, you can select the device type.

If the device type you select is different from the type set before the AXD-200 detector was added to the system, the type will change during the periodical communication. It results in a delay whose duration depends on the frequency of periodical communication (with the “ECO” option enabled, delay can be up to 3 minutes).
6.2. A new name of the zone to which the device is to be assigned will be displayed. You can change the name. If the device occupies two or more positions on the device list, the same name will be given to the other zones. If the device is to be assigned to outputs, the outputs will be given the same name.
6.3. For some devices you can select if the device is to occupy one or two positions on the list of devices.
7. Click the “OK” button. 8. The “New device” window will close. 9. The new device will be displayed on the list of devices.
10. Click the “identification” button (see Fig. 23). The new wireless zones / outputs will not be available in the alarm system until the procedure of expander identification is finished.

Fig. 23. DLOADX program: information displayed after registration of a new device to the controller connected in the INTEGRA system.
LCD keypad You can add wireless devices in service mode, using the “New device” function (“Structure” “Hardware” “Expanders” “Settings” [controller name] “New device”). When adding a device you can select the alarm system zone to which you want to assign the device. It can be one of the unoccupied zones from the pool reserved for the controller. If the device takes up more than one position on the list of devices, additional zones will be assigned to the device automatically (these will be the zones following the selected one).

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To the outputs, the device is assigned automatically (to the first unoccupied outputs from the pool reserved for the controller).
1. Start the “New device” function. 2. When the “Device serial number:” is displayed, enter the serial number of the device
being added.
3. Press .
4. When the “Open device tamper” command is displayed, power on the device (insert the battery into the device, turn on the device power, etc.).
5. Type and serial number of the device will be displayed (if a message is displayed instead to inform you that the entered serial number is invalid or the device is already registered, press to quit the function).
6. Press the key 1.
7. If you can select whether the device will take up one or two positions (channels) on the list of devices, a special message will inform you about it. Press the key 1 (the device will occupy 1 position) or the key 2 (the device will occupy 2 positions).
8. Use the and keys to select the zone to which you want to assign the device.
9. Press .
10. A message will be displayed to inform you that expander identification procedure has been started.
11. When the procedure is finished, the new name of the zone / output to which the device has been assigned will be displayed. You can change that name.
12. Press .
13. If the device occupies two or more zones / outputs, the name giving procedure is repeated for them.

7.1.1.2 Removing wireless devices

DLOADX program
You can remove a wireless device in the “Structure” window, “Hardware” tab, after clicking the name of the controller on the device list, and then the “Zones/Outputs” tab. 1. Click the “Read” button. The data related to wireless devices will be read from the

controller (these data are not read after clicking the

button in the main menu).

2. Click the device you want to remove (if the device occupies two or more positions on the list, you can click any of them).
3. Click the “Remove device” button. 4. The “Confirm” window will open. 5. Click the “Yes” button. 6. The “Confirm” window will close. 7. Click the “identification” button. The wireless zones / outputs will not be removed from the
alarm system until the expander identification procedure is finished.

LCD keypad
You can remove a wireless device in the service mode, using the “Remove device” function (“Structure” “Hardware” “Expanders” “Settings” [controller name] “Remove device”). 1. Start the “Remove device” function. 2. List of wireless zones will be displayed.

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3. Use the and keys to select the zone to which the device you want to remove is assigned.
4. Press .
5. A prompt will be displayed asking you whether to remove the device (type and serial number of the device will be displayed).
6. Press the key 1.
7. A message will be displayed to inform you that the expander identification procedure has started.
8. When the procedure is finished, the list of wireless zones will be displayed again.

7.1.2 Expander for the PERFECTA 64 M control panel
To add or delete devices, you can use the PERFECTA Soft program (version required: 2.01.004 or newer). For description of the PERFECTA Soft program, refer to the control panel programming manual.
You can register in the controller:
· up to 4 PRF-LCD-A2 wireless keypads,
· up to do 48 detectors, sirens or other wireless devices.
Each position on the device list represents one wireless zone or one wireless zone and one output.
When adding and removing the wireless devices, remember that the identification function registers zones and outputs by groups of 8. Already after adding one wireless device which takes up 1 zone, the control panel will reserve 8 zones in the system for wireless devices. Observe continuity, i.e. avoid leaving any gaps in the list, which will later reduce the number of available zones in the system. Remember to preserve continuity also when removing wireless devices. For example, if the devices registered in the controller occupy 9 positions on the list, then 16 zones (2×8) are reserved in the system. After removal of the device which occupied position 7 on the list, there will still be 16 zones (2×8) reserved in the system for wireless devices, although 8 positions are actually taken up on the list of wireless devices (see: Table 6). In such a case, it is recommended that the last devices be removed from the list and then added to the system again, so as to fill up the gap in the list and reduce the number of zones reserved for wireless devices.
In case of devices which, in addition to zones, also take up outputs, it is recommended that you add them to the system first. This will allow you to maintain the continuity of use of not the zones alone, but the outputs as well.
In some cases, the gaps in the list of zones/outputs cannot be avoided. It applies to situation when the number of zones/outputs, which is used by the devices, is not a multiple of 8.
For each group of 8 zones/outputs, one address on the expander bus is reserved. The controller can occupy from 1 to 6 addresses (addresses from 8 (8h) to 13 (0Dh)). Remember about this at the system design stage. Leave a sufficient number of free addresses for the controller. Otherwise, it will be impossible to successfully identify devices. This will happen when the next addresses needed by the controller after new wireless devices have been added to the system are occupied by zone expanders. Then, it will be necessary to change addresses of the zone expanders.
Table 6 shows the example of wireless devices registered incorrectly. The first siren output occupies position 8, and the second output occupies position 9. As a result, 16 outputs have been reserved for wireless devices in the system, although actually only 2 are used (the eighth output in the first group of 8 outputs and the first output in the second group of 8 outputs). For devices taking up 8 positions, the system must reserve 16 zones and 16 outputs as well as 2 addresses. Table 7 shows the same devices registered correctly. For 8 devices, the system has reserved 8 zones and 8 outputs as well as 1 address.

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zones

PERFECTA 64 M

outputs

It.

list of devices

device

1 APD-200 detector

9 APD-200 detector

5 unused/unavailable

2 APD-200 detector

10 APD-200 detector

6 unused/unavailable

3 AMD-200 detector

11 AMD-200 detector

7 unused/unavailable

4 AMD-200 detector 5 AMD-201 detector

12 AMD-200 detector 8 13 AMD-201 detector

8 unused/unavailable 9 unused/unavailable

6 ^

14 AMD-201 detector

10 unused/unavailable

15 unused/unavailable

11 unused/unavailable

8 ASP-200 siren

16 ASP-200 siren

12 ASP-200 siren

9 ^

17 ASP-200 siren

18 unused/unavailable

19 unused/unavailable

20 unused/unavailable

8 21 unused/unavailable

21 unused/unavailable

22 unused/unavailable

23 unused/unavailable

24 unused/unavailable

Table 6. Example of ABAX 2 devices registered incorrectly.

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PERFECTA 64 M

outputs

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list of devices

device

1 ASP-200 siren

9 ASP-200 siren

5 ASP-200 siren

2 ^

10 ASP-200 siren

6 ASP-200 siren

3 APD-200 detector

11 APD-200 detector

7 unused/unavailable

4 APD-200 detector 5 AMD-200 detector

12 APD-200 detector 8
13 AMD-200 detector

8 unused/unavailable 9 unused/unavailable

6 AMD-200 detector

14 AMD-200 detector

10 unused/unavailable

7 AMD-201 detector

15 AMD-201 detector

11 unused/unavailable

8 ^

16 AMD-201 detector

12 unused/unavailable

Table 7. Example of ABAX 2 devices registered correctly.

7.1.2.1 Adding new wireless devices

Adding a wireless keypad
1. Click the “Hardware” tab. 2. Click one of the unused keypads. Address of this keypad will be assigned to the wireless
keypad after the adding procedure is finished.

3. Click . The wireless device adding panel will be displayed. 4. In the “Serial no.” field, enter the serial number of the keypad. 5. Press any key on the keypad being added. 6. When the “Device’s data read” message will be displayed, click “OK”. The wireless device
adding panel will close.
7. Click to save changes.

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Adding other wireless device
You can assign detectors, sirens and other wireless devices to zones 9-56. When adding a device, you will select the number of zone to which the device will be assigned. If the device occupies more than one position on the list of devices, i.e. more than one zone, additional zones will be assigned automatically (these will be zones following the selected one).
If the device is also to be assigned to an output, the output number will be assigned automatically. For zones 9-16, the output numbers are 5-12 (see: Table 8). For zones 17-56, the output number is the same as the number of the selected zone.

ABAX 2 wireless zone

ABAX 2 wireless output

Table 8. Output numbers given to ABAX 2 devices assigned to zones 9-16.

1. Click the “Hardware” tab. 2. Click the ABAX 2 controller name. 3. Click the “Read” button to read data of wireless devices from the controller (controller data
will not be read when you click on the menu bar).

4. Click . The wireless device adding panel will be displayed. 5. In the “Serial no.” field, enter the serial number of the device. 6. Power on the device (install the battery in the device, turn on the device power, etc.). 7. A message will confirm that the device has been added (unless you have entered an
invalid serial number, of which the message will inform you). 7.1. Device type will be displayed. 7.2. A new name of the zone to which the device is to be assigned will be displayed. You
can change the name. If the device occupies two or more positions on the device list, the same name will be given to the other zones. 7.3. If you want to change the number of the zone to which the device is to be assigned, click in the “Zone No” field and select a number from the list. 7.4. For some devices you can select if the device is to occupy one or two positions on the list of devices. 8. Click the “OK” button. The wireless device adding panel will close. 9. Click the “Write” button to save changes to the controller (changes will not be saved to the controller when you click on the menu bar).
10. Click to save changes to the control panel (zone / output name). 11. Start the device identification function (see the control panel installer manual).

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7.1.2.2 Removing wireless devices

Removing a wireless keypad 1. Click the “Hardware” tab. 2. Click the wireless keypad you want to remove.

3. Click

. The “Device deleting” window will be displayed.

4. Click “Delete”. The ,,Device deleting” window will close.

5. Click to save changes to the control panel.

Removing other wireless device 1. Click the “Hardware” tab. 2. Click the ABAX 2 controller name. 3. Click the “Read” button to read data of wireless devices from the controller (controller data
will not be read when you click on the menu bar). 4. Click the device you want to remove.

5. Click

. The “Device deleting” window will be displayed.

6. Click “Delete”. The ,,Device deleting” window will close.

7. Click the “Write” button to save changes to the controller (changes will not be saved to the

controller when you click on the menu bar).

8. Start the device identification function (see the control panel installer manual).

7.1.3 Expander for VERSA series control panels

Most of the ABAX 2 wireless devices are identified in the alarm system by the names known from the ABAX system.

For information about registering the VERSA-KWRL2 keypad, consult the keypad manual.
To add or delete devices, you can use the DLOADX program (version required: 1.22.002 or newer) or LCD keypad. For description of DLOADX program and LCD keypads, refer to the control panel manuals. You can register up to 30 devices to the controller. Each position on the device list represents one wireless zone or one wireless zone and one output.
7.1.3.1 Adding new wireless devices When adding devices you can select the alarm system zone to which you want to assign a device. It can be any zone to which no wireless device is still assigned. If the device takes up more than one position on the list of devices, additional zones will be assigned to the device automatically (these will be zones immediately following the selected one). If the device is to be also assigned to an output, the output number will be the same as that of the selected zone.
The control panel does not support wireless outputs with numbers from 13 to 30. Therefore it is not recommended that you assign any devices that are at the same time assigned to outputs (e.g. sirens, controllers, etc.) to the zones from 13 to 30.

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DLOADX program
You can add a wireless device in the “VERSA Structure” window, “Hardware” tab, after clicking the name of the controller on the device list, and then the “Zones/Outputs” tab. 1. Click the “Read” button. The data related to wireless devices will be read from the

controller (these data are not read after clicking the

button in the main menu).

2. Click the zone to which a new wireless device is to be assigned (you can also select the zone later in the “New wireless dev.” window).
3. Click the “New device” button. 4. The “New wireless dev.” window will open. 5. Enter the serial number of the device being added in the “Serial number” field. 6. Power on the device (install the battery in the device, turn on the device power, etc.).
7. A message will confirm that the device has been added (unless you have entered an invalid serial number, of which the message will inform you).
7.1. Device type will be displayed. For the AXD-200 multipurpose detector, you can select the device type.

If the device type you select is different from the type set before the AXD-200 detector was added to the system, the type will change during the periodical communication. It results in a delay whose duration depends on the frequency of periodical communication (with the “ECO” option enabled, delay can be up to 3 minutes).
7.2. A new name of the zone to which the device is to be assigned will be displayed. You can change the name. If the device occupies two or more positions on the device list, the same name will be given to the other zones. If the device is to be assigned to outputs, the outputs will be given the same name.
7.3. In the “Zone” field, select the number of the zone to which you want to assign the device (if you have not done this before or if you want to change the previously selected number).
7.4. For some devices you can select if the device is to occupy one or two positions on the list of devices.
8. Click the “OK” button. 9. The “New wireless dev.” window will close. 10. The new device will be displayed on the list of devices.
11. Click the “Write” button to save changes to the controller (these data will not be saved

after clicking the

button in the main menu).

LCD keypad
You can add wireless devices in service mode, using the “New device” function (“2.Hardware” “1.Kpds. & exps” “3.Wireless dev.” “1.New device”). 1. Start the “New device” function. 2. When the “Serial number” is displayed, enter the serial number of the device being added. 3. Press .
4. When the “Open device tamper” command is displayed, power on the device (insert the battery into the device, turn on the device power, etc.).
5. Type and serial number of the device will be displayed (if nothing happens, you might have entered a wrong serial number press to quit the function).

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6. Depending on the device:
if the device takes up only 1 zone or you cannot select how many positions the device is to occupy on the device list press the key 1.
if you can select whether the device will take up one or two positions (channels) on the list of devices, a special message will inform you about it press the key 1 (the device will occupy 1 position) or the key 2 (the device will occupy 2 positions).
7. Use the and keys to select the zone to which you want to assign the device.
8. Press .
9. The new name of the zone / output to which the device has been assigned will be displayed. You can change that name.
10. Press .
11. If the device occupies two or more zones / outputs, the name giving procedure is repeated for them.
12. In the next steps, you can configure the device settings.

7.1.3.2 Removing wireless devices

DLOADX program
You can remove a wireless device in the “VERSA Structure” window, “Hardware” tab, after clicking the name of the controller on the device list, and then the “Zones/Outputs” tab. 1. Click the “Read” button. The data related to wireless devices will be read from the

controller (these data are not read after clicking the

button in the main menu).

2. Click the device you want to remove (if the device occupies two or more positions on the list, you can click any of them).
3. Click the “Delete” button. 4. The “Confirm” window will open. 5. Click the “Yes” button. 6. The “Confirm” window will close. 7. Click the “Write” button to save changes to the controller (these data will not be saved

after clicking the

button in the main menu).

LCD keypad You can remove a wireless device in the service mode, using the “Remove device” function (“2.Hardware” “1.Kpds. & exps.” “3.Wireless dev.” ” 3.Remove device”). 1. Start the “Remove device” function. 2. List of wireless zones will be displayed. 3. Use the and keys to select the zone to which the device you want to remove is
assigned. 4. Press . 5. A prompt will be displayed asking you whether to remove the device (type and serial
number of the device will be displayed). 6. Press the key 1.
7.1.4 Module of wireless devices with Modbus RTU interface To add and remove devices, you can use the ABAX 2 Soft program (see “ABAX 2 Soft program” p. 16). You can register up to 48 devices in the controller.

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7.1.4.1 Adding new wireless devices You can add a wireless device in the “Devices” tab. 1. Click . Data on wireless devices will be read from the controller.

2. Click .
3. The “Adding devices” window will be displayed. 4. In the “Serial number” field, enter the serial number of the device to be added. 5. Power on the device (install the battery in the device, turn on the device power, etc.).
6. A message will confirm that the device has been added (unless you have entered an invalid serial number, of which the message will inform you).
6.1. Device type will be displayed. For the AXD-200 multipurpose detector, you can select the device type.

6.2. The device name will be displayed. You can change that name. If the device occupies two or more positions on the device list, the name will be repeated in all positions.
6.3. For some devices you can select if the device is to occupy one or two positions on the list of devices.
6.4. You can select which position(s) the device is to occupy on the list of devices.

7. Click

8. The “Adding devices” window will close.

9. The new device will be displayed on the list of devices.

10. Click . The new device data will be written to the controller.

7.1.4.2 Removing wireless devices You can remove a wireless device in the “Devices” tab.
1. Click . Data on wireless devices will be read from the controller. 2. Click the device you want to remove (if the device occupies two or more positions on the
list, you can click any of them).

3. Click . 4. The “Device deleting” window will open. 5. Click the “DELETE” button. 6. The “Device deleting” window will close.
7. Click . The device data will be deleted from the controller.

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8 Programming the ABAX 2 system

8.1 Expander for the INTEGRA / VERSA series control panels
To configure the wireless system settings you can use the DLOADX program or LCD keypad. For description of the DLOADX program and LCD keypads, refer to the control panel manuals. For the INTEGRA series control panel: · DLOADX program: “Structure” window “Hardware” tab “Expansion modules” branch
[controller name] (Fig. 24).
· LCD keypad: system settings: service mode “Structure” “Hardware” “Expanders” “Settings” [controller name], controller name: service mode “Structure” “Hardware” “Expanders” “Names” [controller name].
For the VERSA series control panel: · DLOADX program: “VERSA Structure” window “Hardware” tab “Expansion
modules” branch [controller name]. · LCD keypad:
controller settings: service mode “2.Hardware” “1.Kpds & exps.” “2.Settings” [controller name],
wireless devices settings: service mode “2.Hardware” “1.Kpds & exps.” “3.Wireless dev.”.
Names of parameters and options from the DLOADX program are used in this manual. Shown in square brackets at the description of a parameter or option is the name presented on the display of the INTEGRA alarm system keypad.
8.1.1 Controller settings

Fig. 24. DLOADX program: controller settings in the INTEGRA system.

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Name individual name of device (up to 16 characters).
Tamper signaled in partition [Tamper in part.] partition where alarm will be generated in the event of module tamper.
No auto-reset after three module tamper alarms [No autorst.3t.] if this option is enabled, each device tamper will generate alarm. If this option is disabled, any tamper following three uncleared alarms will no longer generate alarm (this is to prevent multiple logging of the same events).
Communication period [Response period] define the time intervals at which wireless devices are to communicate with the controller. Periodical communication can take place every 12, 24 or 36 seconds. During periodical communication, the devices inform the controller about their status, and the controller sends commands to the devices (switches the detectors into active / passive mode, starts / ends test mode, changes configuration of the devices, etc.). The communication period has effect on the level of energy consumption by wireless devices: the less frequent is the communication, the lower is the energy consumption. For the battery-operated devices it means longer battery life. Moreover, when the communication takes place less frequently, more wireless devices can work within each other’s operating range.
If you enable the “ECO” option for a wireless device, periodical communication between that device and the controller will take place every 3 minutes (the “Communication period” parameter will have no effect on the device operation).
Some information and commands need to be sent immediately. Therefore, additional communication takes place when the device reports tamper, when the detector reports alarm, etc.
No jamming detection [No jam detect.] if this option is enabled, the controller will not detect radio communication jamming. This option is available for the controller in the INTEGRA system.

Fig. 25. DLOADX program: controller settings in the VERSA system.

No automatic update of wireless devices firmware [No updates] if this option is enabled, the firmware of wireless devices registered in the controller is not updated automatically
(see “Updating the firmware of ABAX 2 wireless devices” p. 75).

User can replace VERSA-LCDM-WRL battery if this option is enabled, all users can replace battery in the VERSA-KWRL2 wireless keypads (for 3 minutes after the code is

entered and confirmed with the

key, the status of tamper switch will not be monitored

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on the keypad that was used to enter the code). If the option is disabled, the battery can
only be replaced by the users who have access to the “Replace bat.” function in the “0.Service” submenu.

8.1.2 Functions
Test mode to carry out diagnostics / service work, you can start the test mode in the ABAX 2 system. When the system is running in the test mode:
detector LEDs are enabled, tamper signaling in the sirens is blocked. The command to start / end the test mode is sent during periodical communication, i.e. with delay whose duration depends on the frequency of periodical communication. The test mode will be disabled automatically 30 minutes after:
starting the test mode from the DLOADX program (the countdown of 30 minutes runs from exiting the controller settings),
exiting the service mode in the INTEGRA / VERSA control panel, closing the ABAX 2 Soft program.

As required by EN 50131, the level of radio signal sent by wireless devices is lowered when the system is running in the test mode.
Synchronize the function does not apply to the ABAX 2 system.

8.1.3 Device settings
ARU [Use ARU-100] parameter available for a wireless device, if the ARU-200 repeater is registered in the controller (controller in the INTEGRA system). It allows you to define whether the device is to communicate to the controller directly, or via the selected ARU-200 repeater (several ARU-200 repeaters can be registered in the controller).
Always active [Active mode] the option is available for the most of wireless detectors. If enabled, the detector is permanently switched over to the active mode (see “Wireless detectors” p. 51).

The wireless detectors assigned to 24-h zones are always in the active mode, therefore the “Always active” option does not have to be enabled for them.

The battery life time in the detectors switched permanently into the active mode is shorter than in those which are periodically switched to the passive mode.
Configuration [Settings] for some devices you can configure additional settings. Shown in parentheses is the device name in the ABAX 2 system (if the device is identified in the alarm system by the name known from the ABAX system). Shown in square brackets is information about the number of zone for which additional parameters are to be programmed if the device takes up more than one zone.
ACD-220 wireless curtain detector. You can configure the sensitivity. ADD-200 wireless outdoor dusk and temperature detector. You can configure:
sensitivity of the dusk sensor (detection threshold) [first zone], temperature parameters [second zone]:
– threshold type: high (when the temperature rises above the defined value, alarm will be generated) or low (when the temperature drops below the defined value, alarm will be generated),
– temperature,
– tolerance.
AGD-100 (AGD-200) wireless glass-break detector. You can configure sensitivity.

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AMD-100 (AMD-200) / AMD-101 (AMD-201) wireless magnetic contact. Do not configure the detector settings (the AMD-200 / AMD-201 detector does not have two reed switches).
AMD-102 (AMD-202) wireless magnetic contact with input for roller shutter detector: do not configure the magnetic contact settings [first zone] (the AMD-202 detector does not have two reed switches). you can configure parameters of roller shutter input [second zone]:
– number of pulses after which the roller shutter input will generate alarm,
– time period during which the defined number pulses must occur for the roller shutter input to generate alarm.
AOCD-250 (AOCD-260) wireless outdoor dual technology curtain detector. You can configure: sensitivity of the PIR sensor, sensitivity of the microwave sensor.
AOD-200 (AOD-210) wireless outdoor dual technology motion detector. You can configure: sensitivity of the PIR sensor, sensitivity of the microwave sensor, sensitivity of the dusk sensor (detection threshold).
APD-100 (APD-200) wireless passive infrared detector. You can configure sensitivity. APD-100 (APD-200 Pet) wireless passive infrared detector with pet immunity up to
20 kg: you can configure sensitivity, do not configure the pet immunity option (the APD-200 Pet detector is always
immune to the movement of pets).
APMD-150 (APMD-250) wireless dual technology detector. You can configure: sensitivity of the PIR sensor, sensitivity of the microwave sensor, manner of operation in the test mode.
ARD-100 (ARD-200) wireless reorientation detector. You can configure sensitivity. ART-200 / ART-210 wireless radiator thermostat. You can:
select the sensor that will provide data on temperature, select the alarm system “120. Thermostat” type output, whose settings will be used
by the thermostat, select the alarm system output that will be used to disable the capability to switch
between the thermostat operating modes remotely. Turn on the output to enable the “Manual” operating mode. ASD-110 (ASD-200) wireless smoke and heat detector. You can select the operating mode.
ASD-150 (ASD-250) wireless smoke detector. You can configure: option to indicate alarm from other ASD-250 detectors, option to send alarm to other ASD-250 detectors.

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ATD-100 (ATD-200) wireless temperature detector. You can configure the temperature threshold parameters for both positions occupied by the detector (which enables two different temperature thresholds to be programmed): threshold type: high (when the temperature rises above the defined temperature, alarm will be generated) or low (when the temperature drops below the defined temperature, alarm will be generated), temperature, tolerance.
ATX-230 hardwired zone expander: NC and roller shutter. You can configure parameters of roller shutter input [second zone]: number of pulses after which the roller shutter input will generate alarm, time period during which the defined number of pulses must occur for the roller shutter input to generate alarm.
AVD-100 (AVD-200) wireless shock detector and magnetic contact: do not configure the magnetic contact settings [first zone] (the AVD-200 detector does not have two reed switches). for the shock detector [second zone]:
– you can configure sensitivity (registering a shock meeting the sensitivity criterion will generate alarm),
– do not configure the number of shocks (the AVD-200 detector does not count up the shocks).
ASP-100 (ASP-200) wireless outdoor siren. You can configure: type of acoustic signaling, maximum duration of signaling.
ASP-205 (ASP-215) wireless indoor siren. You can configure the signaling parameters for both positions occupied by the siren (which enables two different types of signaling to be programmed): maximum duration of signaling, type of acoustic signaling, optical signaling option.
ASW-100 (ASW-200) 230 VAC smart plug. You can select operating mode.
ASW-210 flush-mounted wireless two-channel 230 VAC controller. You can select the operating mode of the controller inputs.
Filter [Filter] the number of consecutive communication periods without connection between the device and the controller after which loss of communication with the device will be reported. You can enter values from 0 to 50. Entering 0 disables the check for device presence in the system.
Temp. corr. you can correct the temperature information sent by the device by up to ±3.5°C.
ECO if this option is enabled, periodical communication with the device takes place every 3 minutes. Thus the battery life can be extended up to four times.

If you enable the ECO option for a detector, the delay between arming / disarming and switching the detector operating mode (active / passive) can be up to three minutes:

8.1.3.1 Programming devices using the DLOADX program
Before making any changes, click the “Read” button, and after making the changes the “Write” button. The data on wireless devices are not read / written when you use buttons in the DLOADX main menu.

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ARU
In the “ARU” column: · leave the field blank, if the device is to communicate directly to the controller,
· enter the ARU-200 repeater number in the list of wireless devices, if the device is to communicate to the controller via the repeater (the repeater takes up two positions on the list of devices enter the number of the first of them).

Configuration In the “Configuration” column you can configure additional settings for the ABAX 2 devices.

ACD-220 Enter a digit from the 1 to 3 range to set the sensitivity (1 low, 2 medium, 3 high).

ADD-200 Dusk sensor enter a number from the 1 to 16 range to determine sensitivity (1 minimum; 16 maximum). Temperature sensor enter in turn: · letter H (high temperature threshold) or L (low temperature threshold),
· number from a range of -30 to +70 (with 0.5 accuracy) to define temperature,
· number from a range of 0.5 to 10 (with 0.5 accuracy) to define tolerance.

AGD-100 (AGD-200) Enter a digit from the 1 to 3 range to set the sensitivity (1 low, 2 medium, 3 high).

AMD-100 (AMD-200) / AMD-101 (AMD-201) Do not configure.

AMD-102 (AMD-202)
Magnetic contact do not configure. Roller shutter input enter 2 digits: 1st digit number of pulses: from 1 to 8. 2nd digit counting time: 0 (30 seconds), 1 (120 seconds), 2 (240 seconds) or 3 (unlimited
time).

AOCD-250 (AOCD-260) Enter 2 digits: 1st digit sensitivity of PIR sensor: from 1 to 4 (1 minimum; 4 maximum). 2nd digit sensitivity of microwave sensor: from 1 to 8 (1 minimum; 8 maximum).

AOD-200 (AOD-210) Enter 3 digits: 1st digit sensitivity of PIR sensor: from 1 to 4 (1 minimum; 4 maximum). 2nd digit sensitivity of microwave sensor: from 1 to 8 (1 minimum; 8 maximum). 3rd digit sensitivity of dusk sensor: from 1 to 4 (1 minimum; 4 maximum).

APD-100 (APD-200) Enter a digit from the 1 to 3 range to set the sensitivity (1 low, 2 medium, 3 high).

APD-100 (APD-200 Pet) Enter 2 digits: 1st digit sensitivity: 1 (low), 2 (medium) or 3 (high),

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2nd digit pet immunity option 0 or 1 (the entered value is irrelevant).

APMD-150 (APMD-250)
Enter 3 digits:
1st digit sensitivity of PIR sensor: from 1 to 4 (1 minimum; 4 maximum). 2nd digit sensitivity of microwave sensor: from 1 to 8 (1 minimum; 8 maximum). 3rd digit the way of operation in the test mode: 0 (alarm after motion is detected by both
sensors), 1 (alarm after motion is detected by PIR sensor) or 2 (alarm after motion is detected by microwave sensor).

ARD-100 (ARD-200) Enter a number from the 1 to 16 range to determine sensitivity (1 minimum; 16 – maximum).

ART-200 / ART-210 Click to open the radiator thermostat settings window.

Fig. 26. DLOADX program: window with the ART-200 / ART-210 radiator thermostat settings.
Temperature meas. source select the sensor that will provide data on temperature: Internal thermostat sensor, [Device name] temperature sensor of an ABAX 2 system device.
Thermostat output select the alarm system “120. Thermostat” type output, whose settings will be used by the thermostat.
Temperature T1/T2 information on temperature thresholds defined for the selected “120. Thermostat” type output (T1 economic temperature / T2 comfortable temperature).
Switch-off output select the alarm system output that will be used to disable the capability to switch between the thermostat operating modes remotely. Turn on the output to enable the “Manual” operating mode.
ASD-110 (ASD-200) Enter 1 (smoke and temperature detection), 2 (smoke detection only) or 3 (temperature detection only).
ASD-150 (ASD-250) Enter 2 digits: 1st digit option to signal alarm from other ASD-250 detectors: 0 (disabled) or 1 (enabled). 2nd digit option to send out alarm to other ASD-250 detectors: 0 (disabled) or 1 (enabled).
ATD-100 (ATD-200) For each position taken by the detector, enter in turn: · letter H (high temperature threshold) or L (low temperature threshold), · number from a range of -30 to +70 (with 0.5 accuracy) to define temperature,

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· number from a range of 0.5 to 10 (with 0.5 accuracy) to define tolerance.

ATX-230
Roller shutter input enter 2 digits: 1st digit number of pulses: from 1 to 8. 2nd digit counting time: 0 (30 seconds), 1 (120 seconds), 2 (240 seconds) or 3 (unlimited
time).

AVD-100 (AVD-200) Magnetic contact do not configure. Shock detector enter 2 digits: 1st digit sensitivity: from 1 to 8 (1 minimum; 8 maximum). 2nd digit the number of shocks the entered value is irrelevant.

ASP-100 (ASP-200)
Enter 2 digits:
1st digit type of acoustic signaling: from 1 to 4 see table 9. 2nd digit maximum duration of signaling: 1 (1 minute), 2 (3 minutes), 3 (6 minutes) or 4
(9 minutes).

Two sound frequencies (1450 Hz/2000 Hz) alternating within 1 second.

Sound with rising frequency (from 1450 Hz to 2000 Hz) within 1 second.

Sound with smoothly rising and falling frequency (1450 Hz 2000 Hz 1450 Hz) within 1 second.

Sound with falling frequency (from 2000 Hz to 1450 Hz) within 1 second.

Table 9. Types of acoustic signaling available in the ASP-200 siren.

ASP-205 (ASP-215)
For each position taken on the list by the siren, enter 3 digits:
1st digit maximum duration of signaling: 1 (1 minute), 2 (3 minutes), 3 (6 minutes) or 4 (9 minutes).
2nd digit type of acoustic signaling: 0 (disabled), 1 (sound type 1), 2 (sound type 2) or 3 (sound type 3) see table 10.
3rd digit optical signaling: 0 (disabled) or 1 (enabled).

Two sound frequencies (1450 Hz/2000 Hz) alternating within 1 second.

Sound with rising frequency (from 1450 Hz to 2000 Hz) within 1 second.

Sound with falling frequency (from 2000 Hz to 1450 Hz) within 1 second.

Table 10. Types of acoustic signaling available in the ASP-215 siren.

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ASW-100 (ASW-200)
Enter 0 (only remote control), 1 (remote or manual control) or 2 (remote or manual control, but with option to manually block the remote control).

ASW-210
For each position occupied by the controller, enter 0 (relay can only be controlled via the control panel), 1 (the input enables relay to be controlled with monostable switch) or 2 (the input enables relay to be controlled with bistable switch).

8.1.3.2 Programming devices using the LCD keypad

INTEGRA
To configure devices, use the functions: “Use ARU-100”, “Active mode”, “Settings”, “Filter” and “ECO” (service mode “Structure” “Hardware” “Expanders” “Settings” [controller name]). Having started the function, use the and keys to select the zone to which the wireless device is assigned and press .

Use ARU-100 Using the and keys select whether the wireless device is to communicate to the controller directly, or via a selected repeater (the names of the zones to which the repeaters are assigned are displayed on the list).

Active mode Press any key to define whether the detector is to be always active ( no, yes).

Settings
To configure parameters and options, use the arrow keys and the number keys. For description of the settings, see the section on programming devices from the DLOADX program.

Filter
Using the number keys, enter a number from a range of 0 to 50 to define the rules of device presence control.

VERSA
You can configure the device settings:
· immediately after registering the device to the controller, · using the “Config.device” function (service mode “2.Hardware” “1.Kpds. & exps”
“3.Wireless dev.” “2.Config.device”). Having started the function, use the and keys to select the zone to which the device is assigned and press .
The programming is performed using the “step by step” method. Described below is how to configure the devices for which additional settings are available.

AGD-100 (AGD-200)
1. Enter a number from the 0 to 50 range to define the rules of device presence control. 2. Press . 3. Define whether the detector is to be always active by pressing any number key ( no,
yes). 4. Press . 5. Enter a digit from the 1 to 3 range to define sensitivity (1 low, 2 medium, 3 high). 6. Press .

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AMD-100 (AMD-200) / AMD-101 (AMD-201) 1. Enter a number from the 0 to 50 range to define the rules of device presence control. 2. Press . 3. Define whether the detector is to be always active by pressing any number key ( no,
yes). 4. Press . 5. When the reed switch settings are displayed, press (these settings are irrelevant).

AMD-102 (AMD-202) For the magnetic contact: 1. Enter a number from the 0 to 50 range to define the rules of device presence control. 2. Press . 3. Define whether the detector is to be always active by pressing any number key ( no,
yes). 4. Press . 5. When the reed switch settings are displayed, press (these settings are irrelevant). For the roller shutter input: 1. Enter a digit from the 1 to 8 range to define the number of pulses that will generate alarm. 2. Press . 3. Use the and keys to select the pulse validity (30, 120 or 240 seconds or unlimited
duration). 4. Press .

AOCD-250 (AOCD-260)
1. Enter a number from the 0 to 50 range to define the rules of device presence control.
2. Press .
3. Define whether the detector is to be always active by pressing any number key ( no, yes).
4. Press .
5. Enter a digit from the 1 to 4 range to define sensitivity of the PIR sensor (1 minimum; 4 maximum).
6. Press .
7. Enter a digit from the 1 to 8 range to define sensitivity of the microwave sensor (1 – minimum; 8 maximum).
8. Press .

AOD-200 (AOD-210)
1. Enter a number from the 0 to 50 range to define the rules of device presence control.
2. Press .
3. Define whether the detector is to be always active by pressing any number key ( no, yes).
4. Press .
5. Enter a digit from the 1 to 4 range to define sensitivity of the PIR sensor (1 minimum; 4 maximum).
6. Press .
7. Enter a digit from the 1 to 8 range to define sensitivity of the microwave sensor (1 – minimum; 8 maximum).

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8. Press .
9. Enter a digit from the 1 to 4 range to define sensitivity of the dusk sensor (1 minimum; 4 maximum).
10. Press .

APD-100 (APD-200) 1. Enter a number from the 0 to 50 range to define the rules of device presence control. 2. Press . 3. Define whether the detector is to be always active by pressing any number key ( no,
yes). 4. Press . 5. Enter a digit from the 1 to 3 range to define sensitivity (1 low, 2 medium, 3 high). 6. Press .

APD-100 (APD-200 Pet) 1. Enter a number from the 0 to 50 range to define the rules of device presence control. 2. Press . 3. Define whether the detector is to be always active by pressing any number key ( no,
yes). 4. Press . 5. Enter a digit from the 1 to 3 range to define sensitivity (1 low, 2 medium, 3 high). 6. Press . 7. When the pet immunity settings are displayed, press (these settings are irrelevant).

APMD-150 (APMD-250)
1. Enter a number from the 0 to 50 range to define the rules of device presence control.
2. Press .
3. Define whether the detector is to be always active by pressing any number key ( no, yes).
4. Press .
5. Enter a digit from the 1 to 4 range to define sensitivity of the PIR sensor (1 minimum; 4 maximum).
6. Press .
7. Enter a digit from the 1 to 8 range to define sensitivity of the microwave sensor (1 – minimum; 8 maximum).
8. Press . 9. Use the and keys to select how the detector will work in the test mode (PIR+MW,
PIR or MW).
10. Press .

ARD-100 (ARD-200) 1. Enter a number from the 0 to 50 range to define the rules of device presence control. 2. Press . 3. Define whether the detector is to be always active by pressing any number key ( no,
yes). 4. Press . 5. Enter a number from the 1 to 16 range to define sensitivity (1 minimum; 16 maximum). 6. Press .

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ASD-150 (ASD-250)
1. Enter a number from the 0 to 50 range to define the rules of device presence control.
2. Press .
3. Press any numeric key to define whether the detector is to signal alarm from other ASD-250 detectors ( no, yes).
4. Press .
5. Press any numeric key to define whether the detector is to send out alarm to other ASD-250 detectors ( no, yes).
6. Press .

AVD-100 (AVD-200)
For the magnetic contact:
1. Enter a number from the 0 to 50 range to define the rules of device presence control. 2. Press . 3. Define whether the detector is to be always active by pressing any number key ( no,
yes). 4. Press . 5. When the reed switch settings are displayed, press (these settings are irrelevant).
For the shock detector:
1. Enter a digit from the 1 to 8 range to define sensitivity (1 minimum; 8 maximum). 2. Press . 3. When the settings regarding the number of shocks are displayed, press (these settings
are irrelevant).

ASP-100 (ASP-200) 1. Enter a number from the 0 to 50 range to define the rules of device presence control. 2. Press . 3. Use the and keys to select the type of acoustic signaling (see table 9). 4. Press . 5. Use the and keys to define the maximum duration of signaling. 6. Press .

ASP-205 (ASP-215)

You can program two different ways of signaling:

· having selected the first of the zones signaling triggered by the first output controlling the siren,

· having selected the second of the zones signaling triggered by the second output controlling the siren.

Configuration is similar for both zones, however, the step in which the rules of device presence control are defined is skipped for the second zone.

1. Enter a number from the 0 to 50 range to define the rules of device presence control.

2. Press . 3. Use the and keys to define how the acoustic signaling will work (
or 3 type of acoustic signaling see table 10). 4. Press . 5. Use the and keys to define the maximum duration of signaling.
6. Press .

disabled; 1, 2

7. Define whether the optical signaling is to be enabled ( no, yes).

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8. Press .

ASW-100 (ASW-200)
1. Enter a number from the 0 to 50 range to define the rules of device presence control.
2. Press . 3. Use the and keys to define the way of control (“inactive” only remote control;
“interim control” remote or manual control; “combined control” remote or manual control, but with option to manually block the remote control).
4. Press .

8.1.4 Specific character of the operation of wireless devices
When programming the alarm system zones and outputs to which the wireless devices are assigned, you must take into account the specific character of operation of individual devices.

8.1.4.1 Wireless detectors
The zone to which a detector is assigned is activated when the detector reports alarm (select the appropriate zone type). If a detector tamper is to generate the tamper alarm, program the zone as 2EOL/NC or 2EOL/NO.
Operation of most detectors is affected by the state of partition to which the zone belongs:
partition disarmed the detector operates in passive mode. This operating mode prolongs the battery life. Detector informs the controller about its status during periodical communication (only the tamper information is sent immediately).
partition armed the detector operates in active mode. Detector informs the controller about alarm or tamper immediately.
Switching the detector from passive mode to active and vice versa takes place during periodical communication. It results in a delay whose duration depends on the frequency of periodical communication (with the “ECO” option enabled, delay can be up to 3 minutes). Some detectors (e.g. ACMD-200, AFD-200, AGD-200, ASD-200, ASD-250) are permanently in the active mode (the state of partition has no effect on their operation). It is recommended that these detectors be assigned to the zones that are always armed.
All detectors assigned to the zones that are always armed are permanently in the active mode.
For most detectors, you can enable the “Always active” option.

According to the EN 50131-3 standard all ABAX 2 system Hold-Up devices must be always in active mode.

The battery life time in the detectors switched permanently into the active mode is shorter than in those which are periodically switched to the passive mode. However, if the specific character of a detector or its installation place is such that the number of alarms is low, switching the detector permanently into the active mode will not have a significant effect on the battery life.
To clear the alarm in the ASD-200 / ASD-250 / ACMD-200 detector, you can press the test / reset button on the enclosure.
If the ASD-200 / ASD-250 / ACMD-200 detector is assigned to a zone programmed as fire type zone, clearing all fire alarms in the system will clear the alarm in the detector. In such case, there is no need to clear the alarm using the button on the enclosure.
If the zone to which the ASD-200 / ASD-250 / ACMD-200 detector is assigned is bypassed, the detection function is blocked in the detector.

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8.1.4.2 Wireless sirens
Turning on the output to which the wireless siren is assigned will trigger the signaling. Depending on the siren:
ASP-200 the first output controls the acoustic signaling, the second the optical signaling. ASP-215 both outputs can control the acoustic and optical signaling. This enables two
different, independently triggered types of signaling to be configured. The outputs can control separately the acoustic and optical signaling or trigger other signaling for different alarms (e.g. burglary and fire). Given its low-capacity battery, the periodical communication takes place every 3 minutes (the “Communication period” parameter has no effect on the operation of the siren).
The commands to start / stop signaling are sent to the sirens immediately.
The signaling will stop after the maximum signaling time expires, even if the output is still active.
The zones to which the wireless siren is assigned are activated if the signaling is triggered (select the appropriate zone type). If the siren tamper is to generate tamper alarm, program the zone as 2EOL/NC or 2EOL/NO.
The tamper information is sent immediately, and the signaling state information during periodical communication.

8.1.4.3 Wireless expanders of hardwired zones and outputs
You can configure the alarm system zone / output to which expander zone/output is assigned in much the same way as hardwired zones / outputs. You must, however, keep in mind that sensitivity of the expander zones may be different from that programmed in the control panel:
· from 20 ms to 140 ms corresponds to sensitivity programmed in the control panel;
· above 140 ms only some values are available: 400 ms, 500 ms, 700 ms, etc. every 200 ms (the programmed value is rounded up to that supported by the expander).

The EN 50131-3 standard requires that zones must react to signals lasting more than 400 ms. Therefore, select 400 ms when programming sensitivity of the alarm zones.
Information on the state of zones and commands to change the state of outputs are sent immediately. Zone settings are sent during periodical communication.

If communication with the controller is lost, all previously activated outputs will be deactivated after 20 communication periods.
If the ACX-220 expander is powered from a power supply connected to the APS connector, the low battery information provided by the control panel means: first zone power supply overload, second zone low battery, third zone AC mains loss.

8.1.4.4 Smart plug / Wireless 230 VAC controller Turning on the output which the plug / controller is assigned to turns on the relay controlling the 230 VAC circuit (turns on the device connected to the plug / controller). The zone which the plug / controller is assigned to is activated when: · operating modes 1 and 2: the relay controlling the 230 VAC circuit is turned on, · operating mode 0: plug button is pressed / controller input is activated. Select the appropriate zone type.

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If the ASW-210 controller occupies one position on the list of wireless devices, only the first controller input (SW1) is supported and the state of both relays changes simultaneously.

8.1.4.5 Wireless radiator thermostat
The thermostat operates as defined by the “120. Thermostat” type output settings. Select this output while programming the thermostat settings. When the thermostatic output’s first temperature threshold (temperature T1) is active, the thermostat operates in the “Economic temperature” mode. When the thermostatic output’s second temperature threshold (temperature T2) is active, the thermostat operates in the “Comfortable temperature” mode. You will find more information on the “120. Thermostat” type output settings in the control panel programming manual.
While programming the thermostat settings, you can select an output that will disable the capability to switch between operating modes as described above. If this output is turned on, the “Manual” mode will be enabled. In this operating mode the thermostat can only be controlled manually. If this output is turned off, the thermostat will operate as defined by the “120. Thermostat” type output settings.
If the “Edit without code” option is disabled in the “120. Thermostat” type output settings, you will not be able to control the thermostat manually (the thermostat keys will be disabled).
The zone to which the thermostat is assigned is active when the radiator valve is open (set in position other than fully closed). When the zone is in normal state, the valve is fully closed (it is 0% open). If tamper alarm is to be generated whenever the anti-freeze protection is activated (when temperature drops below 5°C), program the zone as 2EOL/NC or 2EOL/NO.
Information on the position of the valve and the anti-freeze protection being activated is sent during periodical communication.
Controlling the thermostat is impossible when the following errors occur, e.g. problem with changing the valve position, wrong calibration or low battery. The errors will be indicated as no communication with the thermostat.
8.1.4.6 Radio signal repeater
The first zone to which the radio signal repeater is assigned is activated in the event of 230 VAC mains loss (select the appropriate zone type).
The second zone to which the radio signal repeater is assigned is activated in the event of battery trouble (select the appropriate zone type).
If tamper of the radio signal repeater is to generate tamper alarm, program the zone as 2EOL/NC or 2EOL/NO.

8.2 Expander for the PERFECTA 64 M control panel
To configure the ABAX 2 wireless system settings you can only use the PERFECTA Soft program. For description of the PERFECTA Soft program, refer to the control panel programming manual. Before you make any changes, click the “Read” button, and after you make the changes, click the “Write” button. The controller and wireless devices settings are not read / written after clicking / on the menu bar.

54
8.2.1 Controller settings

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Fig. 27. PERFECTA Soft program: controller settings in the PERFECTA 64 M.
Name individual name of the module (up to 16 characters). Alarm in part. partition where alarm will be generated in the event of module tamper. Communication period time interval at which wireless devices are to communicate with
the controller. You can select 12, 24 or 36 seconds. During periodical communication, the devices inform the controller about their status, and the controller sends commands to the devices (switches the detectors into active/passive mode, starts/ends test mode, changes configuration of the devices, etc.). The communication period has effect on the level of energy consumption by wireless devices. The less frequent is the communication, the lower is the energy consumption. For the battery-operated devices it means longer battery life. Moreover, when the communication takes place less frequently, more wireless devices can work within each other’s operating range.
If you enable the “ECO” option for a wireless device, periodical communication between that device and the controller will take place every 3 minutes (the “Communication period” parameter will have no effect on the device operation).
Some information and commands need to be sent immediately. Therefore, additional communication takes place when the device reports tamper, when the detector reports alarm, etc.
No jamming detection if this option is enabled, the controller will not detect radio communication jamming.
No automatic update of wireless devices firmware if this option is enabled, the firmware of wireless devices registered in the controller is not updated automatically.

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8.2.1.1 Wireless devices

The wireless keypads form a separate category of devices. A separate pool of positions is provided for them in the controller. Therefore, the keypads are not presented on the list of ABAX 2 wireless devices.
No. position number on the list of devices in the controller. Z./Out number of the zone/output to which the wireless device is assigned. Name name of the zone to which the wireless device is assigned. S/N serial number of the wireless device. Type type of the wireless device. ARU parameter available for the wireless device, if the ARU-200 radio signal repeater is
registered to the controller. It defines whether the device is to communicate with the controller directly or via the selected ARU-200 radio signal repeater (several ARU-200 radio signal repeaters can be registered to the controller).
Alw.act. the option is available for most of the wireless detectors. If it is enabled, the detector is permanently switched over to the active mode.

The battery life time in the detectors switched permanently into the active mode is shorter than in those which are periodically switched to the passive mode.
Configuration for some devices you can configure additional settings (see: “Programming devices in the PERFECTA Soft program” p. 56).
Filter the number of consecutive communication periods without connection between the device and the controller after which loss of communication with the device will be reported. You can enter values from 0 to 50. If you enter 0, you will disable the check for device presence.
Temp.corr. you can correct the temperature information sent by the device by up to ±3.5°C.
ECO if this option is enabled, periodical communication with the device takes place every 3 minutes. This can extend the battery life up to four times.

If you enable the ECO option for a detector, the delay between arming / disarming and switching the detector operating mode (active / passive) can be up to three minutes.

Buttons
Read click to read data from the controller. Write click to save data to the controller.
click to display information. This button is available when it is necessary to identify devices after a wireless device has been added / deleted.

click to add the wireless device (see: “Adding new wireless devices” p. 33).

click to remove the wireless device (see: “Removing wireless devices” p. 35).

click to start the test mode. When the system is running in the test mode: detector LEDs are enabled, tamper signaling in the sirens is blocked.

click to end the test mode.

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As required by EN 50131, the level of radio signal sent by wireless devices is lowered when the system is running in the test mode.

The command to start/end the test mode is sent during periodical communication, i.e. with delay whose duration depends on the frequency of periodical communication.

The test mode will be disabled automatically 30 minutes after: – exiting the controller settings, – closing the PERFECTA SOFT program.

8.2.2 Programming devices in the PERFECTA Soft program
ACD-220 wireless curtain detector.
Sensitivity detection sensitivity. You can select: low, medium or high.
ADD-200 wireless outdoor dusk and temperature detector. For the dusk detector you can configure:
Sensitivity detection sensitivity. You can select a number from 1 to 16 (1 minimum; 16 maximum).
For the temperature detector you can configure the temperature threshold settings:
Temperature threshold threshold type. You can select:
H high (alarm when the temperature rises above the threshold temperature by a value equal to or higher than the tolerance),
L low (alarm when the temperature drops below the threshold temperature by a value equal to or higher than the tolerance).
Temperature threshold temperature. You can enter a value from -30°C to 70°C (with accuracy to 0.5°).
Tolerance difference between the threshold temperature and the temperature at which the detector reports alarm. You can enter a value from 0.5°C to 10°C (with accuracy to 0,5°).
AGD-200 wireless glass-break detector.
Sensitivity detection sensitivity. You can select: low, medium or high.
AMD-202 wireless magnetic contact with input for roller shutter detector. The following settings are available for the roller shutter input:
Pulses number number of pulses after which the roller shutter input will generate alarm. You can select a number from 1 to 8.
Counting time time in which pulses must be detected so that the roller shutter input generates alarm. You can select 30 seconds, 120 seconds, 240 seconds or “—” (unlimited time).
AOCD-260 wireless outdoor dual technology curtain detector.
PIR sensitivity PIR sensor sensitivity. You can select a number from 1 to 4 (1 – minimum; 4 maximum).
MW sensitivity microwave sensor sensitivity. You can select a number from 1 to 8 (1 – minimum; 8 maximum)).
AOD-210 wireless outdoor dual technology motion detector.
PIR sensitivity PIR sensor sensitivity. You can select a number from 1 to 4 (1 – minimum; 4 maximum).
MW sensitivity microwave sensor sensitivity. You can select a number from 1 to 8 (1 – minimum; 8 maximum).

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Dusk det. sensitivity dusk sensor sensitivity (detection threshold). You can select a number from 1 to 4 (1 minimum; 4 maximum).
APD-200 wireless passive infrared detector. Sensitivity detection sensitivity. You can select: low, medium or high.
APD-200 Pet wireless passive infrared detector with pet immunity up to 20 kg. Sensitivity detection sensitivity. You can select: low, medium or high.
APMD-250 wireless dual technology motion detector. PIR sensitivity PIR sensor sensitivity. You can select a number from 1 to 4 (1 – minimum; 4 maximum). MW sensitivity microwave sensor sensitivity. You can select a number from 1 to 8 (1 – minimum; 8 maximum). Test mode operation in the test mode: PIR & MW alarm after motion is detected by both sensors,
PIR alarm after motion is detected by PIR sensor, MW alarm after motion is detected by microwave sensor. ARD-200 wireless reorientation detector. Sensitivity detection sensitivity. You can select a number from 1 to 16 (1 minimum; 16 maximum). ART-200 / ART-210 wireless radiator thermostat. Temp. measurement sensor that provides information on temperature. You can select “internal” (built-in thermostat sensor) or the zone to which an ABAX 2 device with temperature sensor is assigned.
Controlling thermostat control panel thermostat whose settings are used by the ART-200 / ART-210 radiator thermostat.
Temp. T1 (econ.) information on temperature T1 set for the controlling thermostat. Temp. T2 (comf.) information on temperature T2 set for the controlling thermostat. Shutdown output alarm system output that shuts down the remote switching of the
thermostat operating mode. When the output is activated, the “Manual” mode is enabled.
ASD-200 wireless smoke and heat detector. Operating mode you can select: Smoke and temperature detection, Smoke detection only or Temperature detection only.
ASD-250 wireless smoke detector. Alarm from other detectors if this option is enabled, the detector signals alarm from other ASD-250 detectors.
Transmit alarm if this option is enabled, the detector sends alarm to other ASD-250 detectors.
ASP-200 wireless outdoor siren. Signaling time maximum time of signaling. You can select: 1, 3, 6 or 9 minutes. Sound type of acoustic signaling. You can select one of four sounds described in Table 11.

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Two sound frequencies (1450 Hz/2000 Hz) alternating within 1 second.

Sound with rising frequency (from 1450 Hz to 2000 Hz) within 1 second.

Sound with smoothly rising and falling frequency (1450 Hz 2000 Hz 1450 Hz) within 1 second.

Sound with falling frequency (from 2000 Hz to 1450 Hz) within 1 second.

Table 11. Types of acoustic signaling available for the ASP-200 siren.

ASP-215 wireless indoor siren. You can configure the signaling parameters for both positions occupied by the siren (which enables two different types of signaling to be
programmed):

Signaling time maximum time of signaling. You can select: 1, 3, 6 or 9 minutes.
Sound type of acoustic signaling. You can select “NOT PRESENT” (signaling disabled) or one of three sounds described in Table 12.

Optical signaling if this option is enabled, the optical signaling is triggered.

Two sound frequencies (1450 Hz/2000 Hz) alternating within 1 second.

Sound with rising frequency (from 1450 Hz to 2000 Hz) within 1 second.

Sound with falling frequency (from 2000 Hz to 1450 Hz) within 1 second.

Table 12. Types of acoustic signaling available for the ASP-215 siren.

ASW-200 230 VAC smart plug.

Operating mode way to control the device connected to the plug. You can select:

0 only remote control.

1 remote or manual control.

2 remote or manual control but with option to manually block the remote control.

ASW-210 flush-mounted wireless two-channel 230 VAC controller. For each position occupied by the controller, you can configure:

Operating mode way to control the device connected to the relay output. You can select:

0 only remote control.

1 remote control or control with a monostable switch connected to the controller input.

2 remote control or control with a bistable switch connected to the controller input.

ATD-200 wireless temperature detector. For both positions occupied by the detector, you can configure the temperature threshold settings (which enables two different temperature
thresholds to be programmed):

Temperature threshold threshold type. You can select:

H high (alarm when the temperature rises above the threshold temperature by a value equal to or higher than the tolerance),

L low (alarm when the temperature drops below the threshold temperature by a value equal to or higher than the tolerance).

Temperature threshold temperature. You can enter a value from -30°C to 70°C (with accuracy to 0.5°).

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Tolerance difference between the threshold temperature and the temperature at which the detector reports alarm. You can enter a value from 0.5°C to 10°C (with accuracy to 0,5°).
ATX-230 hardwired zone expander: NC and roller shutter. For the roller shutter input, the following settings are available:
Pulses number number of pulses after which the roller shutter input will generate alarm. You can select a number from 1 to 8.
Counting time time in which pulses must be detected so that the roller shutter input generates alarm. You can select 30 seconds, 120 seconds, 240 seconds or “—” (unlimited time).
AVD-200 wireless shock detector and magnetic contact. For the shock detector, you can configure:
Sensitivity detection sensitivity. You can select a number from 1 to 8 (1 minimum; 8 – maximum).

8.2.3 Specific character of the wireless devices operation
When programming the alarm system zones and outputs to which the wireless devices are assigned, you must take into account the specific character of operation of individual devices.
8.2.3.1 Wireless detectors
The zone to which a detector is assigned is activated when the detector reports alarm (select the appropriate zone type). If a detector tamper is to generate the tamper alarm, program the zone as 2EOL/NC or 2EOL/NO.
Operation of most detectors is affected by the state of partition to which the zone belongs:
partition disarmed the detector operates in passive mode. This operating mode prolongs the battery life. Detector informs the controller about its status during periodical communication (only the tamper information is sent immediately).
partition armed the detector operates in active mode. Detector informs the controller about alarm or tamper immediately.
Switching the detector from passive mode to active and vice versa takes place during periodical communication. It results in a delay whose duration depends on the frequency of periodical communication (with the “ECO” option enabled, delay can be up to 3 minutes). Some detectors (e.g. ACMD-200, AFD-200, AGD-200, ASD-200, ASD-250) are permanently in the active mode (the state of partition has no effect on their operation). It is recommended that these detectors be assigned to the zones that are always armed.
All detectors assigned to the zones that are always armed are permanently in the active mode.
For most detectors, you can enable the “Always active” option.
According to the EN 50131-3 standard all ABAX 2 system Hold-Up devices must be always in active mode.

The battery life in the detectors switched permanently to the active mode is shorter than in those which are periodically switched to the passive mode. However, if the specific character of a detector or its installation place is such that the number of alarms is low, switching the detector permanently into the active mode will not have a significant effect on the battery life.
To clear the alarm in the ASD-200 / ASD-250 / ACMD-200 detector, you can press the test / reset button on the enclosure.

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If the ASD-200 / ASD-250 / ACMD-200 detector is assigned to a zone programmed as fire type zone, clearing all fire alarms in the system will clear the alarm in the detector. In such case, there is no need to clear the alarm using the button on the enclosure.
If the zone to which the ASD-200 / ASD-250 / ACMD-200 detector is assigned is bypassed, the detection function is blocked in the detector.

8.2.3.2 Wireless sirens
Turning on the output to which the wireless siren is assigned will trigger the signaling. Depending on the siren:
ASP-200 the first output controls the acoustic signaling, the second the optical signaling. ASP-215 both outputs can control the acoustic and optical signaling. This enables two
different, independently triggered types of signaling to be configured. The outputs can control separately the acoustic and optical signaling or trigger other signaling for different alarms (e.g. burglary and fire). Given its low-capacity battery, the periodical communication takes place every 3 minutes (the “Communication period” parameter has no effect on the operation of the siren).
The commands to start / stop signaling are sent to the sirens immediately.
The signaling will stop after the maximum signaling time expires, even if the output is still active.
The zones to which the wireless siren is assigned are activated in the following cases (select the appropriate zone type):
ASP-200 first zone: starting the acoustic signaling; second zone: starting the optical signaling.
ASP-215 both zones: starting the signaling. If the siren tamper is to generate tamper alarm, program the zone as 2EOL/NC or 2EOL/NO.
The tamper information is sent immediately. Other types of information are sent during periodical communication.
Signaling of tamper alarm (on opening the tamper switch in the siren) continues for:
ASP-200 the maximum duration of signaling programmed for the siren (programmed sound type and optical signaling),
ASP-215 3 minutes (type 1 sou

Documents / Resources

Satel ACU-280 ABAX 2 Wireless System Controller [pdf] Instruction Manual
ACU-280 ABAX 2 Wireless System Controller, ACU-280, ABAX 2 Wireless System Controller, Wireless System Controller, System Controller

References

User Manual

Satel ACU-280 ABAX 2 Wireless System Controller

Specifications

Installation

Software Updates

Documents / Resources

References

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