Conformity with EN50131-1 ........................6 IMQ ................................7 How the manual is organised ........................7 Conventions used ............................. 7 Glossary ..............................8 THE 1067/024, 1067/032A AND 1067/052A SYSTEMS ................. 9 Main characteristics ........................9 System Architecture ........................10 1.2.1 Architecture ............................10 1.2.2...
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Openings for cables ........................... 53 5.3.3 Fastening to the wall .......................... 54 5.3.4 Battery compartment and fastening points for the optional features in the 1067/024 - 1067/032A control panel 5.3.5 Assembling expansion modules in the 1067/024 - 1067/032A control panel ........56 Preparing the 1067/052A control panel ..................
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Example of diagram with double bal. inputs 1067/024 ..............91 5.15 Example of diagram with NC inputs 1067/032A-1067/052A ............. 93 5.16 Example of diagram with double bal. inputs 1067/032A-1067/052A ..........95 COMMISSIONING..........................97 System power supply ......................... 97 6.1.1 RUN LED Indications ......................... 97 Acquisitions of bus devices ......................
85% and 95% without being subject to condensation. The 1067/024, 1067/032A and 1067/052A burglar alarm system was certified at IMQ - SECURITY SYSTEMS laboratories in conformity with European standards EN 50131-1, EN 50131-3, and EN 50131-6 - Grade 2 or 3 - Environmental class II - general indoors.
This manual is divided into chapters and the topics included are organised sequentially to accompany each phase, from the system installation to its successive maintenance, step by step. Chapter 1 describes the 1067/024, 1067/032A and 1067/052A, systems, their architecture and devices that may be part of the systems.
GLOSSARY A logical function that requires that all the terms of the operation be true in order for the result to be true. Open An input is open when it receives a signal from a detector that is no longer in stand-by, for example, because of an attempted intrusion has been detected.
MAIN CHARACTERISTICS The 1067/024, 1067/032A and 1067/052A wired intrusion alarm systems are modular, suitable for small - mid-sized systems in residential, industrial, and service settings. The components and main functions of the system are certified Grade 3, according to EN50131 standards.
Control panel, keypads, readers, expansion modules and radio modules are interconnected by a 4-wire bus. The 4 wires transmit information among the various devices and supply 12 Vdc power from the 1067/032A or 1067/052A control panel to the keypad, readers, expansion modules, and radio modules.
WARNING! The maximum number of the mixed combination must take into account the number of radio expansions. Table 1 - Maximum system dimension 1067/024 - 1067/032A - 1067/052A Table 2 illustrates the maximum number of wired inputs and outputs that a system can reach at its maximum expansion.
SYSTEM CONNECTIVITY The 1067/024, 1067/032A and 1067/052A systems can be connected to the external environment in different ways, sending signals and receiving commands. Possible connection methods are: Public Switched Telephone Network (PSTN). Requires optional 1067/002A interface. Mobile network (GSM). Requires optional 1067/458 interface.
Under conditions of a weak or disturbed field, there may be a decline in the performances of the GSM communication vector. Below are the various connections that can be managed by the 1067/032A or 1067/052A systems and the functions that each one offers.
From the remote user towards the control panel The user, via calls to the control panel, can: Use remote management with vocal guide and commands in DTMF for: inquiring about the system status (armed/disarmed, alarms, and anomalies present); zones activation and deactivation; isolation and resetting of inputs;...
From the control panel towards the remote user From the control panel, via outgoing calls, alarms and signals can be sent directly to the PC. From the remote user towards the control panel The user or installer, via calls to the control panel, or incoming calls to the control panel with return call, can: ...
1.3.4 Connection with an alarm reception centre Numeric control panel Numeric control panel Telephone line 1067/024 Figure 5 - Diagram of connection with an alarm reception centre With the traditional telephone network 1067/002A (PSTN) communicator, remote surveillance by an alarm reception centre may be used.
SYSTEM COMPONENTS 1.4.1 1067/024 Control panel Control panel with a programmable bus to control the system, capable of managing signals relative to intrusion, sabotage, and technological events separately. The control panel is equipped with: 4 inputs; 1 balanced SAB input; ...
1067/003 USB interface and with FastPro 1067/001 software installed (revision 2.30 or later). The programming can be saved on a USB pen drive. The functional capacities of the 1067/032A control panel can be increased with optional devices. EN50131 Certification: Grade 2 or Grade 3 - Class II.
1.4.3 1067/052A Control panel Control panel with a programmable bus to control the system, capable of managing signals relative to intrusion, sabotage, and technological events separately. The control panel is equipped with: 8 inputs; 1 balanced SAB input; ...
1.4.4 1067/022 LCD Command Keypad Keypad with LCD display for interiors. Enables control and programming of the 1067/024, 1067/032A and 1067/052A systems. The keypad is equipped with: LCD backlit display with 2x 16 characters with contrast and luminosity regulation;...
1.4.6 1067/008A 8-inputs expansion module Expansion module equipped with: 8 inputs; 1 balanced SAB input; 3 outputs (1 relay output and 2 electric outputs). ATTENTION! The absence of a casing certified Grade 2 or 3 results in the loss of EN50131 certification. The module is connected to the control panel via bus.
Every key has a unique code, set by the manufacturer, with more than 1099 billions values. It is possible to program up to 16 keys for 1067/024, up to 32 keys for 1067/032A and up to 64 keys for 1067/052A control panels.
Every key has a unique code, set by the manufacturer, with more than 4 billions values. It is possible to program up to 16 keys for 1067/024, up to 32 keys for 1067/032A and up to 64 keys for 1067/052A control panels.
1067/092 supplemental power supply with repeater The 1067/092 supplementary power supply unit is an optional device for the 1067/032A and 1067/052A control panels. It comes equipped with an electronic board that integrates an 1067/008A type expansion connected directly to the control panel BUS, a repeater module to extend the control panel BUS, and a supplementary power supply unit capable of powering the devices connected to the system.
1.4.15 1067/458 GSM module This interface enables the connection of the 1067/024, 1067/032A and 1067/052A control panels with the cellular telephone network (GSM) to send alarm notifications and receive remote commands. The interface comes equipped with a GSM dual-band transmitter-receiver (900/1800 MHz) and an antenna to be installed inside the 1067/024 and 1067/032A control panel.
For connection see paragraph 5.12.7 Connecting the cable for KP SERVICE keypad. 1.4.19 1067/003 USB Interface Optional interface to connect a PC to the 1067/024, 1067/032A or 1067/052A control panels for programming and a USB Pen Drive for saving and restoring system programming and other data. DS1067-063D...
1.4.20 1067/001 FastPro application software (rev. 2.40 or higher) Software for local programming with a PC and remote management of the 1067/024, 1067/032A and 1067/052A control panels. Minimum PC configuration requirements: Intel Pentium IV 1. GHz processor or equivalent;...
If you have experience in designing installations, you can skip directly to Chapter 4, where the 1067/024, 1067/032A and 1067/052A, systems are discussed and their advanced and special functions are illustrated and explained with specific examples.
Wired technology is particularly indicated: in new constructions or in those to be remodelled, where it is possible to have a conduit system where wires can be passed; in those situations where radio shields or significant sources of electromagnetic disturbances are found. Radio technology is particularly indicated: ...
THE DEVICES USED TO CREATE AN ALARM SYSTEM Essentially, an intrusion alarm system consists of four types of components: the control panel; the detectors; the signalling devices; the complementary devices. These components are generally separate, but sometimes a single device may enclose more than one. Below are illustrations of these components: what they are called, how they are made, and how they work.
2.3.2.5 Vibration detector Also known as a seismic detector, this device picks up vibrations from the surfaces it is glued or screwed to and filters them to prevent false alarms. When applied to a door or window, unlike the magnetic contact, it can signal an attempted break-in before the door or window is actually opened.
2.3.3.3 Communicator The communicator is an interface, sometimes also called the auto-dialler, which enables the system to send alarm signals or other signals at a distance and, if configured to do so, receive commands from remote. There are two types of devices: the one to connect to the traditional telephone network (PSTN) and the one to connect to the mobile phone network (GSM and later).
OTHER DEVICES THAT CAN BE INTEGRATED INTO THE ALARM SYSTEM An alarm system can integrate other devices that offer functions other than those linked to intrusion. The control panel must deal with this integration as it must be able to interface and manage these devices. Not all control units are capable of doing so.
DESIGN: CONFIGURATION OF THE ALARM SYSTEM This chapter explains how to design and alarm system with the 1067/024, 1067/032A and 1067/052A. Even if you have experience in designing intrusion alarm system, we advise you to read this chapter because it contains important information on how to get the most out of functions provided by the devices used and to comply with relative laws.
Let's example the typical alarm system to understand how they are powered. Particular or complex systems can have different configurations. Wired systems The power supply and the batter are contained in the control panel, from which multipolar cables branch out to connect the various devices.
3.3.3 How to protect areas and people The purpose of an intrusion alarm system is to prevent some prowler from accessing the areas to be protected without him noticing the system. This means monitoring openings and passages, which lead to two different techniques: ...
3.3.4 The subdivision into zones There are cases in which it is not necessary to install the alarm system everywhere or, examining the problem from another point of view, there may be occasions in which it may be preferable to be able to move freely in certain areas while leaving other protected.
3.3.5 Choosing devices Choosing the devices to be used in the alarm system means having a clear idea of what they do and how they do it. If there should be any doubts, it could be useful to read paragraph The devices used to create an alarm system. 3.3.5.1 The detectors ...
3.3.6 Positioning the system devices Unless they are specifically designed and constructed for outdoor installation, like the outdoor sirens, all the devices must be installed indoors, protected from the elements and vandalism. 3.3.6.1 Positioning the control panel The control panel must be installed: ...
3.3.6.6 Positioning the supplementary power supplies Any supplementary power supplies must be positioned: As near as possible to the devices to be powered to minimise a loss of voltage caused by the length of the wires. Inside the distribution cabinet or a similar container, adequately protected by anti-tamper devices. The use of an unsuitable container may invalidate the certification of the grade of security of the system.
3.3.8 Tips about the mobile phone network (GSM) The information found in paragraph 3.3.7 Tips about installing the radio devices is also valid for the mobile phone network signal. The main difference consists in the fact that, in place of the internal antenna of the GSM interface, an external antenna positioned in the best signal reception point can be used.
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Intrusion – First entry 3.4.2.1 The activation of the detector triggers the longer "Delay times entry way" of the zones associated with the detector. During this interval, the activations of the "Way" specialised detectors that have at least one zone in common are ignored.
3.4.3 The complementary functions (gong, courtesy light, door opener, absence of move) Complementary functions that can be used when the system is disarmed can be associated with the inputs. Only one complementary function can be matched with each input. IMPORTANT! The complementary function chosen is executed only if all the zones associated with the input are deactivated.
The Figure 9 - AND and OR zone, demonstrates the use of AND and OR with the zones, where each zone has a room in common with another zone. The icon visualises when the alarm is set off in case of an intrusion in the armed zones. Notice how the alarm signals of the room in common (Room B) are strongly influenced by the logical combination between zones Z1 e Z2, while the ones not in common behave traditionally.
Control panel powered by the Total control panel Grade 2 ATS2 12 hours 75 mA 375 mA 450 mA 1067/032A control panel with 7.2 Ah battery Absorption allowed Communicator All the devices EN50131 Autonomy used Control panel powered by the Total...
If ever the electricity necessary to power the system should be more than what can be supplied by the control panel (see Table 5), it is necessary to split the system by using one or more 1067/092 supplementary power supply units. IMPORTANT! The 1067/092 supplementary power supply unit can be used only with the 1067/032A and 1067/052A systems.
(10.5 Vdc). Under these conditions, when fully charged, all the devices in the 1067/024, 1067/032A and 1067/052A systems must be guaranteed at least 9 Vdc. IMPORTANT! Check that there is in any case the minimum voltage of the functioning of the other devices used, like the IR detectors, actuators, and sirens, etc..
IMPORTANT! The supplementary power supply with repeater 1067/092 can only be used with the 1067/032A and 1067/052A systems. When using the repeater with the 1067/032A and 1067/052A control panels, always follow 3 simple rules: The maximum number of repeaters allowed is 15.
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4.2.4.1 System with 1 supplementary power supply repeater Figure 12 - Diagram with 1 supplementary power supply repeater Sum of stretches of each BUS (primary BUS = secondary BUS) = 400 m Distance BUS point/point = (primary BUS + secondary BUS) = 800 m Sum of the stretches of all the BUSSES = 800 m...
Whenever vocal keypads are used, it is necessary to connect them to the 1067/012A - 1067/012B vocal synthesis board, which must be added in the 1067/024, 1067/032A and 1067/052A control panels. To connect the audio bus, only a cascade connection can be used, beginning at the control panel.
When the voltage at the battery terminals drops further and reaches 10.5 V, the control panel disconnects the battery to prevent potential damage due to a deep discharge (a function present only in the 1067/032A and 1067/052A systems). The restoration to the “Battery low” condition occurs only after a return of the mains power supply and after a Test battery gives positive results.
The next chapter explains how to buy the various devices and start up the system. INSTALLATION PROCEDURE The best operation sequence for installing an alarm system with 1067/024, 1067/032A and 1067/052A control panels, in the least time possible while guaranteeing optimal results, calls for the following steps to be taken: Wiring.
IMPORTANT! During installation of the control panel, be very careful to not accidentally damage the mother board. 5.3.1 Opening the cover To open the 1067/024 or 1067/032A control panel cover use the Allen wrench provided for the purpose to unscrew the ® two screws (Genia method) like shown in Figure 15.
Figure 18 - Releasing the mother board To guarantee the 1067/024 - 1067/032A control panels protection from tampering and removal, it is necessary to use hole F for fastening as well. Protection against removal is mandatory for guaranteeing EN50131 grade 3 certification.
5.3.4 Battery compartment and fastening points for the optional features in the 1067/024 - 1067/032A control panel Figure 20 - Fastening points for optional features in the 1067/024 - 1067/032A control panel Reference Expansion Fastening points for 1067/008A expansion or 1067/004 Web server interface...
Figure 22 – Positions available for expansion in the 1067/024 - 1067/032A control panel Inside the 1067/024 - 1067/032A control panel, 4 1067/008A expansions (positions A, B, C and D) or 3 1067/008A expansions and 1 radio expansion can be assembled.
PREPARING THE 1067/052A CONTROL PANEL IMPORTANT! During installation of the control panel, be very careful to not accidentally damage the mother board. 5.4.1 Opening the cover There are two ways to open the 1067/052A control panel: by removing the cover or by flipping it open. 1) Removing the cover.
5.4.2 Openings for cables The figure below illustrates the hole for the optional GSM antenna (A) and all the set-up (B) for running the power supply, bus, signalling detector and device, potential telephone line cables of the 1067/052A control panel. Figure 25 - Set-up for running cables and fastening the GSM antenna 1067/052A 5.4.3 Fastening to the wall...
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Figure 27 - Releasing the 1067/052A mother board To guarantee protection against opening, tampering and removal of the 1067/052A control panel, it is necessary to install the tamper (microswitch). Positioning the tamper in position , according to the type of application desired: ...
5.4.4 Battery compartment and fastening points for the optional features in the 1067/052A control panel Figure 29 - Fastening points for optional features in the 1067/052A control panel Expansion Fastening points for 1067/008A or 1067/004 Web server expansion Fastening points for 1067/008A expansion Fastening points for 1067/008A expansion Fastening points for 1067/008A expansion Compartment for 1067/015 antenna...
INSTALLING THE 1067/024 – 1067/032A – 1067/052A CONTROL PANELS 5.5.1 Description of the main parts of the 1067/024 control panel Figure 31 - Connections and main parts of the 1067/024 control panel Terminal / Detail Description Detail Input +14.4 V power supply (at the positive pole of the power supply)
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The electric output U2 can be configured as “Positive Reference” or “Negative Reference” via the JP2 jumper. The factory setting of the outputs is “Negative Reference”. The electric outputs can be transformed into relay outputs – See paragraph 5.12.6.2. The figure illustrates how to position, for example, the JP2 jumper. POSITIVE NEGATIVE reference...
Description of the main parts of the 1067/032A – 1067/052A control panels 5.5.2 Figure 33 – Connections and main parts of the 1067/32A – 1067/52A control panels To facilitate the connection operations, the terminals must be unscrewed and reinserted onto the mother board.
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Terminal / Detail Description Detail Input +14.4 V power supply (at the positive pole of the power supply) Input power supply (at the negative pole of the power supply) Connection positive pole of the back-up battery Connection negative pole of the back-up battery BUS - Power supply 13.8 Vdc ─...
The electric outputs U3, U4, U5 and U6 can be individually configured as “Positive Reference” or “Negative Reference” via the JP3, JP4, JP5 and JP6 jumpers. The factory setting of the outputs is “Negative Reference”. The electric outputs can be transformed into relay outputs – See Paragraph 5.12.6.2. The figure illustrates how to position, for example, the JP3 jumper.
5.5.4 Montaggio Assembly of the 1067/012A - 1067/012B Vocal synthesis board Figure 36 - Vocal synthesis board 1067/012A – 1067/012B Jack for earphone (included) Terminal board for audio bus Jumper to select recording input – must remain on B position Holes for support spacer Jumper for preferred language selection To assemble the vocal synthesis board, follow the instructions below:...
5.5.5 Installation of the 1067/458 GSM module The GSM module enables the 1067/024, 1067/032A and 1067/052A control panels to communicate with the outside world via vocal messages and SMS. The GSM module is installed on the rear of the mother board of the control panel.
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Installation of the GSM antenna on the 1067/024 - 1067/032A control panel For the 1067/024 or 1067/032A control panel, insert the GSM antenna provided in the specific compartment (Figure 20 - Fastening points for optional features in the 1067/024 - 1067/032A)
5.5.5.4 Setting up the SIM Card IMPORTANT! Before inserting the SIM Card in the GSM module, it must be activated with a mobile phone. In the case of the prepaid SIM Card: Check that there is a sufficient margin of credit to ensure the functioning of the GSM module. ...
INSTALLATION OF THE 1067/008A EXPANSION In addition to inside the control panel, the 1067/008A expansion can also be installed inside a 1067/017 container (certified Grade 3). IMPORTANT! the absence of a casing certified Grade 2 or 3 results in the loss of certification. The tamper of the container must be connected to the SAB of the expansion.
INSTALLATION OF THE 1067/022 KEYPAD The 1067/022 keypad is equipped with one freely programmable auxiliary inputs referring to negative and a microphone for environmental listening functions. To use these functions, the 1067/012A-1067/012B, vocal synthesis board assembled in the control panel must be used and an audio bus with a standard twin telephone line.
Figure 48 - Keypad board Detail Terminal / Detail Description BUS for keypad power supply input through the bus Data transmission/reception BUS ─ BUS Keypad power supply via bus Audio bus Auxiliary input 1 - not used in this model Button Device acquisition button and LED Yellow LED...
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3. Open the keypad by putting a screwdriver into the slot on the lower side and lifting gently. Figure 50 - Opening the 1067/026 keypad Figure 51 - Holes for fastening and running the cables of the 1067/026 keypad Terminal Description of detail Holes for fastening onto the Ø...
5.10 INSTALLING THE READER The proximity and key readers are installed in boxes to be built-in or wall-mounted and positioned in a dry area. The reader is suitable to be installed on BTicino Magic frame and using BTicino code A5374/1 adapters, on BTicino TT Matix frames.
Position the tamper in position A or S, according to the type of application desired: in position A, only for protection against opening in position S, for protection against opening and removal, in this case using the expansion screws with for the support of contact.
5.11.3 The 1067/092 board The 1067/092 electronic board has two distinct sections: BUS IN and BUS OUT, galvanically isolated to guarantee better immunity to RF disturbances. In the BUS IN section there is an 1067/008A integrated expansion (E). In the BUS OUT section there is an integrated repeater function (R) and power supply (P). Figure 54 - 1067/092 Board 5.11.3.1 The Expansion...
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The BUS OUT terminal board is used to connect the various devices to the new length of the Bus. The signals coming from the Bus of the control panel are repeated to be transported a long distance, with the 1067/032A and 1067/052A control panels having complete control.
For the 230 Vac power supply, use a 2 x 1.5 mm cable. The 1067/024 and 1067/032A control panels have double isolation and do not need earths (PE). However, the earth connection is required only for the connection to the telephone line.
Secure the wires by fastening them in anchoring point (F) with the strip provided. IMPORTANT! After having connected the wires, remember to insert the plastic protection on the terminals. MAINS POWER 1067/024 -1067/032A - 1067/052A - 1067/092 SUPPLY SWITCH SWITCH...
5.12.3 Connecting the audio Bus Connect, if necessary the twisted pair of the audio bus to the A1 and A2 terminals of the 1067/012A -1067/012B vocal synthesis board. When connecting the audio bus, it is not necessary to take the polarity into account. Figure 57 - Connections the audio bus 5.12.4 Connecting the supplementary power supplies/repeater...
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5.12.4.1 Connection of the detectors to the expansion module of the 1067/092 For the connection of the inputs of the various typologies (NC – NO – to single/double balancing) see paragraph 5.12.5. IMPORTANT! Do not join the earths of the BUS IN section with those of the BUS OUT section in order to guarantee a better immunity to RF disturbances.
5.12.5 Connecting inputs The type of inputs is determined by the way in which the detectors are connected. Instead, their specialization is defined with the programming. The type for each individual input is specified during programming. It is therefore possible to create a system that includes different types of inputs.
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Figure 60 - Diagrams of input connections IMPORTANT! In order to maintain conformity with Standard EN50131-3, the CUSTOMIZATION functions of the INPUTS present in the control panel must be modified. IMPORTANT! In order to maintain conformity with Standard EN50131, the inputs must not be programmed as NORMALLY CLOSED and NORMALLY OPEN in that they would not be protected against short circuits and cut wires.
The table below indicates the voltage intervals used in the various types of inputs. The input status according to type resistor voltage present on between the N.C. N.C. input and –V the input terminal (*) single N.C. N.O. dual balancing (GND) balancing TAMPER...
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It is possible to transform an electrical output into a relay output by using the 1063/411 module, equipped with two single- switch relays. 1063/411 RELAY OUTPUT BOARD 5.12.6.3 Output stand-by: N.H. and N.L. The stand-by status of each output is programmable as either N.H. or N.L. (for more details, see the Programming Manual).
The service keypad can be used only for this purpose. IMPORTANT! By using the Service keypad, the max number of keypads which can be used in the system is decreased by one unit: it becomes 3 in the 1067/024 control panel, 7 in the 1067/032A and 1067/052A control panels.
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5.12.8.1 Connecting the ATS4 dialler to the 1067/032A or 1067/052A control panels The diagram below illustrates how an ATS4 dialler must be connected to the 1067/032A or 1067/052A control panels with the 1067/002A interfaces. 5.12.8.2 Connecting the PSTN telephone line to the 1067/002A interface The diagram below illustrates how the PSTN telephone line must be connected to the 1067/002A interface.
COMMISSIONING This chapter contains explanations for all the operations to be carried out for the commissioning of the alarm system, after having fastened all the devices and made all the connections. Once the operations described in this chapter have been concluded, the system can then be programmed according to the instructions found in the Programming Manual.
ACQUISITIONS OF BUS DEVICES 6.2.1 Position of the programming buttons For the acquisition of the bus devices, use their programming buttons (PROG). The images below demonstrate where these buttons are positioned. 1067/092 EXPANSION READER RADIO EXPANSION KEYPAD EXPANSION Figure 63 - Position of the programming buttons To acquire a 1067/026 touch screen keypad, it is sufficient to press the T4 key when the following message appears on the display.
Example In a system with two keypads, one expansion, two readers, and a radio expansion, there will be the following combination: TS01 TS02 ER01 LT01 LT02 EW01 AS01 Suggestion: Take note of the address of each individual device on the labels provided with the control panel. USING THE SERVICE KEYPAD For the system acquisition and programming operations, it is possible to use a keypad connected directly to the SERVICE connector of the control panel via the specific cable (1067/016).
MAINTENANCE This paragraph describes the procedure to be followed to carry out system maintenance: add new devices, replace a malfunctioning device, eliminate a device, restore default settings to devices, and troubleshooting, etc. For the navigation in the menu and to know the functions offered by the Maintenance submenu, please see the Programming Manual.
IDENTIFYING A BUS DEVICE 7.4.1 Interrogating a bus device In order to find the address of a device already acquired on the bus, following the instructions below: Activate the maintenance mode (see paragraph 7.1 Maintenance procedure) to avoid generating tamper events. Press and release the programming button of the device whose address you want to know.
ACQUISITION / MAINTENANCE OF THE RADIO DEVICES As soon as the control panel acquires the first radio expansion (see paragraph 6.2 Acquisitions of bus devices), the specific menu to acquire and configure radio devices will appear on the system keypads. Below is a diagram of the navigation flow of the “Radio Devices”...
7.6.1 Radio connection test The radio expansion makes it possible to evaluate the quality of the radio connection between the peripheral devices subject to supervision through an integrated test that provides an indication correlated to the power of the signal measured by each individual device.
10. If the test result of any device is “INSUFFICIENT”, it is necessary to move these devices to a more favourable position in relation to the control panel, press OK and repeat the test from point 5. Note: When it is not possible to obtain an acceptable signal level by only moving the devices (the excessive fading of the signal, radio dead space, …) it is necessary to identify a different site for the radio expansion.
Resetting factory settings The table below indicates the various possibilities for resetting the control panel and system devices to default values as needed. The default values can be found in the Programming Manual. Reset Reset Reset Partial Global Installer, installer hardware Reset reset...
7.9.2 Global reset Resets the control panel programming and all the devices connected to the system data BUS to default. It is therefore necessary, following this command, to reacquire all the devices (keypads, expansions, readers, radio expansions, etc.). In reference to the radio expansion it is also necessary to reacquire all the radio devices associated with it.
To delete the address of the 1067/026 keypad, follow the instructions below: 1. Open the tamper contact (release the keypad from the relative bracket - see Figure 49 - Removal of the 1067/026 keypad bracket) 2. Press the T4 key for at least 5 seconds. This will appear on the display: 3.
7.12 TROUBLESHOOTING Failures and malfunctions are identified by specific messages of the failure memory and the Diagnose Log. The table below contains the messages that are visualised, the possible causes of the failure or malfunction that occurred, actions to take to find the problem and resolve it. MESSAGE MESSAGE CAUSE...
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MESSAGE MESSAGE CAUSE FINDING AND RESOLVING THE PROBLEM FAILURE MEMORY DIAGNOSE LOG. Check if the PSTN line was mistakenly enabled when PSTN FAILURE FAILURE STARTS Failure on the PSTN CONTROL PANEL UC00.CTRL PANEL telephone line: the call not in use. ...
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MESSAGE MESSAGE CAUSE FINDING AND RESOLVING THE PROBLEM FAILURE MEMORY DIAGNOSE LOG. FAILURE STARTS BATT. Check the battery connection BATTERY LOW Voltage of the ASnn: ASxx ASnn: ASxx supplementary power Replace the battery. “ BATTERY LOW supply battery ASxx “...
TECHNICAL SPECIFICATIONS 1067/024 CONTROL PANEL Nominal power voltage ....................... 230 Vac +10% -15% 50/60 Hz Max absorption power at 230 V (1061/515) ......................600 mA 1061/515 power output nominal voltage - type A power supply ................14.4 Vdc Max current deliverable 1061/515power supply ......................1.5 A Ripple max 1061/515 ........................
1067/032A CONTROL PANEL Nominal power voltage ....................... 230 Vac +10% -15% 50/60 Hz Max absorption power at 230 V (1061/515) ......................600 mA 1061/515 power output nominal voltage - Type A power supply ................14.4 Vdc Max current deliverable 1061/515 power supply ......................1.5 A Ripple max 1061/515 ........................
1067/052A CONTROL PANEL Nominal power voltage ......................230 Vac +10% -15% 50/60 Hz Max absorption power at 230 V with power supply (MW RS-50-15) ................. 800 mA Power output nominal voltage (MW RS-50-15) - Type A power supply ..............14.4 Vdc Max current deliverable power supply (MW RS-50-15) ....................
1067/022 KEYPAD LDC DISPLAY Nominal power voltage ......................... 13.8 Vdc (taken from bus) Keypad operating voltage..........................9 Vdc to 15 Vdc Nominal current absorbed at 12 Vdc: in stand-by, only LED for presence mains supply ....................... 20 mA operative, with level 1 backlighting ..........................32 mA operative, with level 4 backlighting and all LEDs ON ....................
1067/434 – 1067/435 – 1067/436 PROXIMITY READER Nominal power voltage ......................... 13.8 Vdc (taken from bus) Reader operating voltage ..........................9 Vcc to 15 Vcc Nominal current absorbed at 12 Vdc ......................33 mA in stand-by 36 mA (with all LEDs ON) Max total length of control panel-peripheral serial Bus line ....................
8.12 1067/003 USB INTERFACE Nominal power voltage ................ 13.8 Vdc (taken from the control panel via flat cable) Operating voltage of the USB interface ......................9 Vdc to 15 Vdc Absorption at nominal voltage of 12 Vdc ........5 mA max in Standby (USB key and PC not connected) 65 mA max with USB key in read/write 15 mA max with PC connected and communicating Max current supplied to the USB Key ........................
8.14 1067/092 SUPPLEMENTARY POWER UNIT WITH REPEATER Section - BUS IN Nominal power voltage ..................13.8 Vdc (supplied by control panel BUS) Expansion operating voltage ........................9 Vdc to 15 Vdc Nominal current absorbed at 12 Vdc (with relays energised, default condition) ..............50 mA stand-by with balanced inputs (with relays de-energised) ......................