MP508M/TG MP508TG

Tele manageable alarm control panel

IS0237-CA

Installation Manual
All information in this document have been collected and carefully verified, nevertheless Elkron S.p.A. can not be held responsible for any possibile errors and omission. Elkron S.p.A. reserves the right to modify or improve at any times and without notice the products described in this manual. Besides it is possibile that this manual refers to any information about products (hardware or software) or services not yet on the market. These references or information do not mean that Elkron S.p.A. intends to release these products or services.
Elkron is a registered trade mark of Elkron S.p.A. All trade marks mentioned in the document belong to their respective owners. Copyright Elkron S.p.A. 2008 All rights reserved. Reproduction of this document is allowed only for MP508 system installation.
Via G. Carducci, Beinasco (TO) ITALY Tel. +39 (0)11.3986711 Fax +39 (0)11.3499434 www.elkron.it - mailto: info@elkron.it

Installation MP508

TABLE OF CONTENTS
TABLE OF CONTENTS......3 PREFACE......5 TARGET AUDIENCE FOR THIS MANUAL....5 STRUCTURE OF THIS MANUAL.....5 STANDARDS USED IN THIS MANUAL....5 GLOSSARY......MP508TG SYSTEM.....7 1.1 MAIN CHARACTERISTICS.....7 1.2 GENERAL DESCRIPTION.....7 1.2.1 System architecture.....7 1.2.3 Partitions and Areas.....8 1.2.4 System maximum dimensions and its expansion capability...8 1.2.5 Power supply management rules (mains and battery)....8 1.2.6 Immediate lack of power.....8 1.2.7 Continuous lack of power.....8 1.2.8 Mains return......9 1.2.9 Battery check with present mains.....9 1.2.10 Battery check with lack of power.....9 1.3 SYSTEM COMPONENTS.....10 1.3.1 MP508TG control panel....10 1.3.2 MP508M/TG control panel.....11 1.3.3 KP500D display keypad....11 1.3.4 KP500DV vocal display keypad....11 1.3.5 DK500M-E electronic key reader.....11 1.3.6 DK500M-E/B electronic key reader....11 1.3.7 DK50 electronic key.....12 1.3.8 DK500M-P proximity reader.....12 1.3.9 DK500M-P/B proximity reader....12 1.3.10 DK30 proximity key......12 1.3.12 EP508 8-inputs expansion.....12 1.3.13 SV500GB speech synthesis card....12 1.3.14 GSM IMG500 module.....12 1.3.15 GSM 1 antenna.....13 1.3.16 GSM 2 antenna for metal housing.....13 1.3.17 USB interface for connection to PC and to USB IT-USB/KEY keys...13 1.3.18 IT-USB USB interface for connection to PC....13 1.3.19 PS515 power supply module....13 1.3.20 Cable for KP SERVICE service keypad.....13 1.3.21 Hi-Connect application software....14 1.3.22 Ethernet interface.....14 1.3.23 Video gateway.....SYSTEM DESIGN.....15 2.1 REQUESTED DEVICES AND CURRENT CONSUMPTION....15 2.2 POWER SUPPLY UNITS AND BATTERIES DESIGN....15 2.2.1 System power supply with MP508TG control panel only....15 2.2.2 System power supply with MP508M/TG control panel only....16 2.2.3 Power supply with additional power supply units....16 2.2.4 Battery design......16 2.3 DEVICES POSITIONING.....17 2.3.1 MP508TG or MP508M/TG control panel placement....17 2.3.2 Keypads placement.....17 2.3.3 Readers placement (electronic keys and transponders)....17 2.3.4 Expansions placement.....17 2.3.5 External optic-acoustic alarms placement....17 2.3.6 Internal sirens placement.....17 2.3.7 Additional power supply units placement.....17 2.4 WIRING: DESIGN AND DEFINITION.....17 2.4.1 Power supply cables design.....17 2.4.4 Inputs / Outputs.....MP508TG SYSTEM INSTALLATION.....19 3.1 INSTALLATION PROCEDURE....19 3.2 CABLES LAYING.....19 3.3 CONTROL PANEL INSTALLATION....19 3.3.2 Wall mounting......20 3.3.3 Description of main control panel parts....21 3.4 MOUNTING OF EXPANSIONS, OPTIONAL PARTS AND ACCESSORIES IN THE CONTROL PANEL..23 3.4.1 Fixing points for optional parts in the control panel...23 3.4.3 Connectors for optional parts in the motherboard....24 3.4.4 Speech synthesis card mounting.....25 3/52 Installation MP508
3.4.6 Mounting of IT-USB kit for connection to PC....27 3.4.7 IT-USB/KEY interface mounting for USB keys and connection to PC...27 3.5 EP508 EXPANSION INSTALLAtion.....28 3.6 KEYPAD INSTALLATION.....29 3.7 READER INSTALLATION.....30 3.8 CONNECTIONS.....30 3.8.V~ power supply line.....31 3.8.2 Data bus......31 3.8.3 Audio bus......32 3.8.4 Additional power supply units connection....32 3.8.5 Connection of PC21 analysis card to the EP508 expansion....33 3.8.6 Inputs connections.....34 3.8.7 Outputs connection.....36 3.8.8 Connection of the cable for KP SERVICE service keypad....37 3.8.9 Telephone line connection (optional)....38 3.9 EXAMPLE OF CONNECTION DIAGRAM WITH N.C. INPUTS....39 3.10 EXAMPLE OF CONNECTION DIAGRAM WITH DOUBLE BAL. INPUTS...SYSTEM START-UP.....43 4.1 SYSTEM POWER SUPPLY....43 4.2 BUS PERIPHERALS ACQUISITION.....43 4.3 SERVICE KEYPAD USE......SYSTEM MAINTENANCE.....45 5.1 MAINTENANCE PROCEDURE.....45 5.2 OPTIONAL PARTS OR ACCESSORIES ADDITION....45 5.3 DEVICE ACQUISITION.....45 5.4 DEVICE DELETING.....45 5.5 RESET......46 5.5.1 Partial reset.....46 5.5.2 Total reset.....46 5.5.3 User and Installer code reset.....46 5.5.4 Master code reset.....46 5.5.5 Installer code hardware reset.....47 5.5.6 Factory default hardware reset.....47 5.5.7 Devices reset.....47 5.6 BATTERY REPLACEMENT....47 5.7 SYSTEM TOTAL POWEROFF....TECHNICAL CHARACTERISTICS.....48 6.1 MP508TG CONTROL PANEL AND PS515 POWER SUPPLY...48 6.2 KP500D / KP500DV DISPLAY KEYPAD.....49 6.3 DK500M-E ELECTRONIC KEY READER.....49 6.4 DK500M-P ROXIMITY READER.....49 6.5 8-INPUTS EP508 EXPANSION.....50 6.6 SV500 SPEECH SYNTHESIS CARD....50 6.7 GSM IMG500 MODULE.....50 6.8 IT-USB USB INTERFACE FOR CONNECTION TO PC....50 NOTES.......51

1.2.4 System maximum dimensions and its expansion capability
MP508TG system may be expanded to include: 7 EP508 expansions 8 KP500D or KP500DV keypads, in desired configuration 16 readers, for DK500M-E electronic key or DK500M-P proximity key, in desired configuration 32 user codes (one Master code and one Installer code included) 32 DK50 electronic keys or DK30 proximity keys, in desired configuration The maximum system expansion can include up to: 64 inputs for general use 8 tamper inputs (1 in the control panel + 1 for each EP508 expansion) 9 relay outputs (2 in the control panel + 1 for each EP508 expansion) 18 electric outputs (4 in the control panel + 2 for each EP508 expansion)
1.2.5 Power supply management rules (mains and battery)
The system can check the mains presence in the control panel. This is detected by the mains presence in the power supply unit. The mains absence and return is managed by generating specific events. The time between the effective mains fail and the mains fail event signalling can be programmed (mains fail timeout, parameters menu, 230V mains, values 1h, 2h, 4h), while the mains return time is fixed (5 minutes) The mains fail is signalled by two particular modes, that consider the mains fail effective time.
1.2.6 Immediate lack of power
It is valid for every lack of power for times shorter than the programmed mains fail timeout and mains return. This event follows in real time all lack of power and returns. After every mains return the timeout is reset. It does not generate the lack of power alarm.
1.2.7 Continuous lack of power
Continuous lack of power for a time longer or equal to the programmed time. This event, preceded by Immediate lack of power, generates a lack of power alarm. Note: in case of lack of power and before the lack of power timeout expiration, if the battery voltage decreases under 11.5V threshold, this timeout ends immediately, in order to generate the lack of power alarm immediately, followed by the low battery alarm.

1.2.8 Mains return

KP500DV KEYPAD VOCAL DISPLAY
2 auxiliary inputs DK500M-P PROXIMITY READER

2 auxiliary inputs

KP500D DISPLAY KEYPAD (8 keypads max.)
2 auxiliary inputs DK500M-E ELECTRONIC KEY READER (16 readers max.)
Figure 1 - MP508TG system maximum dimensions

1.3 SYSTEM COMPONENTS

1.3.1 MP508TG control panel
The MP508TG control panel manages all the system, receives and processes information coming from the peripherals connected via bus, and activates, if necessary, the devices and the alarm signalling. It can manage separately the signallings concerning the different events: intrusion attempts, tamper attempts, start of a fire, technological alarms (for example flood), rescue and panic calls. The control panel manages up to 8 different partitions, that can be grouped in areas (4 max), if desired. For system programming it is possible to use a keypad or, for greater convenience, a local PC connected to the control panel via the USB kit and provided with the Hi-Connect software. All the programming can be transferred on a USB key. The programming with keypad is easier because of a tree menu available in 10 languages. In the control panel there are: 8 programmable inputs; 1 tamper input; 6 programmable outputs (2 relay and 4 electric OC); 1 ILT500 interface for PSTN telephone line, with input and output; 1 connector for service keypad.
All the internal circuits and devices are powered by a switching power supply 230 V~ - 14,4 Vdc 1,5Ah; it is possible to house a 12V, 7Ah backup battery. Other control panel characteristics are the following: protection against opening and removal; capability to store the last 1000 occurred events, for example intrusion alarm, tamper, system or partition activation or deactivation; removable rising clamp terminal pins to make the wiring easier; time programmer management. MP508TG control panel performances can be increased with EP508 8-inputs expansions, SV500I speech synthesis card, GSM IMG500 module. Installation and programming are easy, thanks to removable rising clamp terminal pins, to interfaces for PC-Kit USB and to Ethernet interface.
1.3.2 MP508M/TG control panel
Similar to MP508TG control panel, with metal housing with 230 V~ 14,4 Vdc 4A switching power supply; it is designed to house a 12V, 17Ah or 26 Ah backup battery. Note: to ensure recharging times imposed by standards, the battery must be 17 Ah. For further details, see 2.2.3 and 2.2.4.
1.3.3 KP500D display keypad

KP500D display keypad, for internal use, allows to command and program the MP508TG system. The keypad is provided with: 2 x 16 character backlit LCD display with contrast and brightness adjustment; 9 LEDs for system status signalling (power supply, failure, maintenance, time programmer, open input, excluded inputs, alarm, tamper, partitions status); 12 alphanumeric buttons, protected by a cover; 7 navigation buttons; buzzer with adjustable acoustic level; 2 programmable inputs.
The keypad is protected against opening and removal and is powered by the bus that connects it to the control panel.
1.3.4 KP500DV vocal display keypad
Similar to the KP500D display keypad, but instead of the two programmable inputs is provided with a microphone, loudspeaker and audio connection for environmental listening, communication with the external world and/or the alarm reception centre, sending of callback vocal messages.
1.3.5 DK500M-E electronic key reader
The DK500M-E electronic key reader is the reader for DK50 keys. The device is provided with: 5 signalling LEDs: 4 for system status and 1 for alarm memory; 2 alarm inputs. With optional adapter frames, the reader can be plugged as an outlet into devices of the following home lines: BTicino Living International, BTicino Light, BTicino Living, Gewiss Playbus, Ave Habitat Sistema 45, Vimar Idea, Vimar 8000. The reader is powered by the bus, that connects it to the control panel, and configured by programming procedure.
1.3.6 DK500M-E/B electronic key reader
Device with the same characteristics as the DK500M-E electronic key reader, but white.
1.3.7 DK50 electronic key
DK50 is an electronic key for total or partial activation and disactivation of the system. Every key has a unique code, set by the manifacturer, with more than 1099 billions values. It is possible to program up to 32 keys and every single key can be enabled or disabled and provided with a descriptive name. In order to use the DK50 programmable key, the DK500M-E electronic key reader must be present in the system.
1.3.8 DK500M-P proximity reader
Similar to the DK500M-E reader, but suitable for DK30 transponder key use.
1.3.9 DK500M-P/B proximity reader

Device with the same characteristics as the DK500M-P proximity reader, but white.
1.3.10 DK30 proximity key
DK30 is a transponder key for total or partial activation and disactivation of the system. Every key has a unique code, set by the manifacturer, with more than 1099 billions values. It is possible to program up to 32 keys and every single key can be enabled or disabled and provided with a descriptive name. In order to use the DK30 key, the DK500M-P proximity reader must be present in the system.
1.3.11 Customization kit for K30-50 keys
This kit allows to customize DK30 and/or DK50 keys with coloured inserts; 6 different colours are available, in order to combine up to 27 customizations.
1.3.12 EP508 8-inputs expansion
EP508 is an expansion module provided with: 8 programmable alarm inputs; 1 SAB balanced input; 1 relay output; 2 electric outputs, freely programmable. It allows the detectors connection in traditional parallel mode.
1.3.13 SV500GB speech synthesis card
SV500GB is the speech synthesizer module, with messages pre-recorded in English, that allows to record and listen to vocal messages. For message recording it is possible to use the KP500DV vocal display keypad or the microphone with the provided earphone. Are available speech synthesis cards with messages pre-recorded in other languages.

1.3.14 GSM IMG500 module

MG500 is the interface allowing to connect the MP508TG and MP508M/TG control panel to the GSM network, for sending of alarm signalling and reception of remote commands. The interface is provided with a dual-band GSM transmitter/receiver (900/1800 MHz) and with an antenna to be installed in the control panel. If the control panel position does not ensure for the GSM module a sufficient field strength, it is possible to use the GSM 1 antenna (not provided). If the GSM module is used with the MP508M/TG metal control panel, it is necessary to replace the provided antenna with the GSM 2 antenna used in case of metal housing or to use GSM 1 antenna (both are not provided).

1.3.15 GSM 1 antenna

GSM 1 remote antenna is provided with bracket, screw anchors for wall mounting and 5 m of cable assembly with SMA-M connector compatible with GSM IMG500 module. It is useful when the control panel position does not ensure for the GSM module a sufficient field strength.
1.3.16 GSM 2 antenna for metal housing
Antenna for metal housing with SMA-M connector compatible with the GSM IMG500 module. It must be used with the IMG500 module in the MP508M/TG control panel with metal housing.
1.3.17 USB interface for connection to PC and to USB IT-USB/KEY keys.
The IT-USB/KEY interface allows to connect a computer to the MP508TG or MP508M/TG control panel for control panel programming and a USB key (Pen Drive) for save and restore of the whole system programming.

2.2.4 Battery design

CEI 79-2 standards require for the system a battery endurance of 24 hours at least in case of mains fail. The control panel battery and batteries of additional power supply units, if present, must be designed in order to guarantee that range and must be calculated as follows:
CBATTERY = (ISYSTEM x endurance time x 1,25) + (IALARM x alarm length x 0,02)

CBATTERY ISYSTEM IALARM

endurance time alarm length
is the minimum battery capacity, in Ah is the total consumption with activated system, in Ampere is the total consumption during the alarm (not self-powered sirens and other alarm actuators included, for example GSM module), in Ampere is the desired endurance, in hours (24 hours minimum, in compliance with CEI standards) is the programmed alarm length, in minutes.

Example

A system with the following characteristics: armed system consumption: 0,225 A alarmed system consumption: 0,8 A alarm length: 10 minutes is compliant with CEI standards if the battery has a minimum capacity of: (0,225 x 24 x 1,25) + (0,8 x 10 x 0,02) = 6,75 Ah + 0,16 Ah = 6,91 Ah A battery with a nominal capacity equal or higher than 7 Ah will be suitable for this purpose.
This calculation must be done for every backup battery, by referring to all the devices to be powered by the battery (devices consumption is obtained by their technical sheets). Remember that the MP508TG control panel is planned to house a 12V 7Ah or 26Ah (*); battery and the MP508M/TG control panel is planned to house a 12V 7Ah battery; if to obtain the requested endurance hours, a bigger battery is necessary, it is needed to split the system power supply, by using the additional power supply units. (*)Note: with the MP508M/TG control panel, to ensure recharging times imposed by CEI 79-2 standards, the battery must be 17 Ah.

2.3 DEVICES POSITIONING

All the devices must be installed in the area protected by the instrusion system, except external sirens and devices provided with a cover protected against tampering.
2.3.1 MP508TG or MP508M/TG control panel placement
The control panel must be installed: on a dry, level wall; in an interior that is not passageway, sufficiently aired, not subject to excessive temperature changes and protected by the intrusion system; far from strong electromagnetic fields; at head height, to make installation and maintenance operations easier. In case of use, immediately or in future, of the GSM communicator, it is necessary to verify the GSM field strength in the position chosen for the control panel.

The calculation formula is: where VCONTROL PANEL length RCABLE IDEVICES VCONTROL PANEL = 2 x length x RCABLE x IDEVICES is the voltage dropout in Volt is the cable length (single wire), in metres is the cable resistance in ohm/m is the current required by the devices, in Ampere (value obtained by their technical sheets)
Copper cables resistance values are: Section in mm2 * Resistance in ohm/m 0,22 0,0795 0,50 0,0350 0,75 0,0233 1,00 0,0175 1,50 0,0117
2 * Rules provide that the cable cross section can not be lower than 0,1 mm.
In case of complex power supply scheme, with more than one branch, it is necessary to perform the calculation for every single segment. For wiring (except the audio bus, if present), use a shielded multi-core cable for intrusion systems. Shieldings can be connected together in the control panel to the negative pole of the PS515 or PS540 (S-60-15) power supply.
2.4.2 Power supply bus and data
The length of the 4-wires bus, that connects the devices and provides them with power supply and data transmission, must be as short as possible. The sum of all the bus segments must be less than 400 metres. In order to obtain this result and make wiring operations easier, for system implementation it is possible to use freely any of the following types:

DAISY CHAINED

Figure 2 Bus connection types Warning: do not create closed loops with the bus, in order to avoid malfunction. It is not needed to terminate the bus line or its single segments.

2.4.3 Audio bus

If vocal keypads are used, it is necessary to connect them to the SV500 speech synthesis card, that must be added in the MP508TG control panel. For audio bus connection it is only possible to use the daisy chained connection, starting from the control panel. The total length of the audio bus can not exceed 300 metres. To build the audio bus is used a normal telephone cable (twisted pair), regardless of polarity.

2.4.4 Inputs / Outputs

The length of every single connection segment between detector or actuator and system device must not exceed 500 m. In case of use of fast inputs (rolling shutter, inertial.) the cable length must not exceed 20 m.
3 MP508TG SYSTEM INSTALLATION
3.1 INSTALLATION PROCEDURE
For the MP508TG system mounting follow the steps below: 1. Cables laying. 2. Expansions, optional parts and accessories mounting in the control panel. 3. Control panel wall mounting. 4. Wiring inside the control panel. 5. Expansions, keypads and readers installation and wirings. 6. Detectors and alarm/signalling devices installation and wirings. 7. Devices acquisition. 8. System configuration and test (procedures are described in the Programming Manual) This sequence reduces to the minimum the time necessary to make a MP508TG system working correctly and guarantees at the same time the best result.

3.2 CABLES LAYING

Lay all the necessary connection cables: bus, detectors, alarm and signalling devices, electric power supply, telephone connection and audio bus, if present. Before laying the cables, verify their design. Warning: during cables laying phase keep the instrusion system cables separated from the electric installation cables of the apartment or office (separated paths). Further information about wiring are gathered in paragraph 2.4 Wiring: design and definition.
3.3 CONTROL PANEL INSTALLATION
Warning: during installation operations, take care not to damage accidentally the motherboard.
To gain access to the closing screw of the MP508TG control panel, open the lid on the screw by sliding it down, as shown in figure 3a. To remove the cover of the MP508M/TG control panel, remove the hinge pivots, as shown in figure 3b.
Figure 3a MP508TG control panel opening
Figure 3b Removal of MP508M/TG control panel cover

3.3.1 Cable apertures

In the following figure are shown all the apertures planned for the cable passage (power supply, bus, detectors and signalling devices, telephone line, if present) for both the MP508 control panels.

MP508TG

Figure 4 Apertures for cables

MP508M/TG

Are available the following types of apertures: for flush mounting corrugated loom tubing (A), for cable trunking (B), for cable trunking / rigid pipe (C) and for flush mounting corrugated loom tubing for mains power supply 230 V~ (D). For a correct control panel wall installation, it is suggested to use four screw anchors.

3.3.2 Wall mounting

In the following figure are shown the holes available for wall mounting, with screw anchors (not provided). If in the control panel must be installed expansions and/or optional devices, these must be mounted before fixing the control panel to the wall; see the next chapter.
Figure 5 Holes for control panel fixing To gain access to A and B holes, release the motherboard from the ledge and rotate it.
Figure 6 Motherboard release
To guarantee the anti-removal protection to the MP508TG control panel, it is also necessary to use the fixing hole F. For the MP508M/TG metal control panel it is necessary to mount the provided microswitch and the ledge screw anchor as shown. This microswitch must be connected to SAB terminal pin, in series to the anti-tamper line.

PRE-CUT PROTECTION

MP508TG MP508M/TG

Figure 7 - Tamper

3.3.3 Description of main control panel parts
On the control panel motherboard are present different terminal pins for connection of power supply, backup battery, detectors, sirens, etc. To make connection operations easier, terminal pins can be removed and then inserted again on the motherboard.
Figure 8 Connections and control panel main parts

Inputs

+V1 -V1 NC1 NO1 C1 NC2 NO2 C2 U3 U4 U5 U6 +V2 -V2 IN1 IN2 IN3 IN4 IN5 IN6 IN7 IN8 SAB
Group E Battery F Tamper SERVICE Dip switch LED Outputs jumper
Particular +BT -BT TAMPER JP7 SERVICE DIP SWITCH RUN POWER JP3 JP4 JP5 JP6
Every electric output U3, U4, U5 and U6 can be configured as Positive reference or Negative reference with jumpers JP3, JP4, JP5 and JP6. The default outputs configuration is Positive reference. The figure 9 is an example of jumper JP3 position: NEGATIVE reference

POSITIVE reference

Figure 9 Electric outputs hardware configuration For connection details (power supply, inputs, outputs, bus, ), see chapter 3.8 Connections.
Functions associated to dip switches To activate the reset functions associated to dip switches it is necessary to unpower the control panel and power it again after setting in ON mode the selected dip switch.
POSITION OFF 1 ON * OFF 2 ON * *= if set to ON before POWER ON

DIP SWITCH

FUNCTION Normal operation Configuration reset Normal operation Installer code reset
3.4 MOUNTING OF EXPANSIONS, OPTIONAL PARTS AND ACCESSORIES IN THE CONTROL PANEL
Warning: Optional parts and accessories connection and disconnection must always be executed when the control panel is not powered (mains and battery disconnected).
3.4.1 Fixing points for optional parts in the control panel
Figure 10 Fixing points A B C D E F G Fixing points for EP508 expansion (position 1) Fixing points for EP508 expansion (position 2) Fixing points for EP508 expansion (position 3) Fixing points for EP508 expansion (position 4) Slot for EP508 expansion (position 4) Housing for GSM 2 antenna Housing for backup battery
3.4.2 Expansions mounting
In the MP508 control panels may be mounted 4 EP508 expansions (positions A, B, C and D); for the MP508M/TG control panel also use the provided spacers. The expansions must be fixed with the provided self-tapping screws. Positions A and B are reachable by unhooking and rotating the motherboard (Figure 6); if the GSM communicator is used, it is not possible to use the position B. For MP508TG position D, the card must be installed in raised position and rotated of 90; insert the card in the right slot and fix it with 2 self-tapping screws on the two left supports; the programming button (PROG) must be between the left supports.

NC connected to positive CONTROL PANEL
NO connected to positive CONTROL PANEL
SINGLE BALANCING CONTROL PANEL

DETECTOR

DOUBLE BALANCING

TAMPER INPUT (24H)

SINGLE CONTACT (1) Detector; (2) Sirens or other auxiliary contacts

DOUBLE CONTACT

Figure 31 Inputs connections Colour code for 15 kohm, 1% tolerance resistor
Brown Green Black Red Brown
All the resistors provided with the MP508 system are 15 kohm, 1% tolerance. Warning: it is not necessary to close the not used inputs, because they can be excluded by programming. The following table shows the voltage thresholds used in the different input types. Input status according to the type N.C. double BIL N.C. single BIL N.C. NORMAL INPUT ALARM N.O. INPUT ALARM TAMPER TAMPER (wires short circuit) (wires short circuit) NORMAL NORMAL INPUT INPUT ALARM ALARM TAMPER (wires cut) (*) with power supply voltage from 12 to 13,8 V. Voltage on the input terminal pin (*) 11,8 13,8 V 6,7 7,9 V 4,6 5,6 V 0 0,5 V Resistor between input and +Vohm 15 kohm 30 kohm

NORMAL

3.8.7 Outputs connection
To the system outputs can also be connected alarm devices (sirens and flashlights), signalling devices (LED or buzzer) or other devices that automatically start working after the activation of a detector. Do not exceed the current or voltage values supported by the outputs (see technical characteristics of each product) The outputs configuration (intrusion, tamper, burglary, panic, technological etc.) is specified afterwards with the programming procedure. At least one output must be programmed for alarm signalling (siren). Two types of output are available: relay and electric type.

Relay outputs

The relay outputs are provided with an SPCO contact between the terminal pin C (common) and NC terminal pins (normally closed contact) and NO (normally open contact). In the control panel are available 2 relay outputs: U1 and U2; in the expansion is available one relay output: U1.

Electric outputs

Electric outputs can be as follows: positive referred, that provides +12 V negative referred, that provides 0 V In both cases the electric output is in high impedance state ( ohm) when it is open (without electric potential). Electric outputs can be used to control power relays or signalling LEDs. It is possible to transform an electric output into a relay output with the Elkron MR02 module, provided with two relays with SPCO. In the control panel are available 4 electric outputs: U3, U4, U5 and U6; each one can be configured as positive referred or negative referred, as shown in Figure 9 Electric outputs hardware configuration (paragraph 3.3.3). In the expansion are available 2 electric outputs only positive referred: U2 and U3.

4 SYSTEM START-UP

4.1 SYSTEM POWER SUPPLY
Before powering the system, it is necessary to check that all connections are correct. Power the system by following the sequence described below. In case of presence of additional power supply units, it is suggested to activate them, before the control panel. Put the battery in the suitable housing and connect the faston connectors to the respective terminals: red +, black , and then power the system. Warning: for system total poweroff, follow the procedure described in paragraph 5.7 SYSTEM TOTAL POWEROFF.
Warning: the control panel is provided with a battery checking circuit. If the battery is not connected, at the terminals of the connection cables (red and black faston) there is no voltage. The battery voltage, at the end of the charging phase, reaches a nominal voltage of 13,8 V. The power supply unit does not need trimming. Verify in the different system parts that the voltage on devices is compliant with indications in chapter 2.4 WIRING: design and definition. In the control panel the POWER LED (mains presence) turns on steady. After some seconds, when the start-up routines are ended and the control panel is full operating, the RUN LED starts blinking slowly (one flashing about every 2 seconds). In the other devices, when they are powered, the yellow LED near the programming button blinks for 10 seconds (in the keypads also the buzzer rings). After 10 seconds, this LED starts blinking slowly (one flashing about every 2 seconds) until the device is acquired, and then turns off. If the device is already acquired and configured, the LED turns off after 10 seconds.
4.2 BUS PERIPHERALS ACQUISITION
For peripherals acquisition are used their programming buttons (PROG). The following figures show the position of these buttons.

KEYPAD

EXPANSION Figure 34 Programming buttons position

READER

Warning: the following instructions suppose that the devices have not been previously acquired.
To acquire the system bus devices follow the instructions below: 1. Select the keypad used to acquire the system devices, among system or service keypads. 2. Press the programming button of the selected keypad (after it has stopped ringing). The keypad sends to the control panel the registration request: if connections are correct, the control panel carries out the registration. 3. On the acquired keypad appears MAINTENANCE LINGUA-LANGUAGE menu. If you want to change the language, press OK button, otherwise press button until MAINTENANCE ACQUIRE appears and go to step 7. 4. LINGUA-LANGUAGE KP01:KP 01 appears on the display. KP01 is the first system keypad, that is the only just acquired one. Press OK button. 5. KP01:KP 01 ITALIANO appears on the display. Select with buttons the desired language and confirm the selection by pressing OK button. 6. Download in corso >>>>. appears on the display and at the end of the new language download appears Download OK. 7. If you have to acquire other devices, press OK button, otherwise go to step 10. 8. If in the previous step you have pressed OK button, in order to acquire new devices, ACQUIRE IN PROGRESS. appears on the display. 9. Acquire the other devices, by pressing the programming button for each of them. Every time a new device is acquired, on the display appears the device type (KP=keypad; EP=expansion; DK=reader) and the address assigned to it. 10. After acquiring all the devices, it is possible to configure the system, as described in the Programming Manual. Warning: addresses are assigned in progressive mode and according to the belonging family; it is not necessary to follow a fixed order. If you want the devices addresses follow a logical order, it is necessary to acquire them with that order. Example: a system with two keypads, one expansion and two readers, will have the following sequence: KP01 KP02 EP01 READ01 READ02 It is possible to write the address of each device on the special labels provided with the control panel.

4.3 SERVICE KEYPAD USE

For system acquisition and programming operations, it is possible to use a keypad directly connected to the SERVICE connector of the central panel with the proper cable. For details see paragraph 3.8.8 Connection of the cable for KP SERVICE service keypad. The service keypad must be acquired with the procedure described in the previous chapter. The system automatically assigns to it the address no. 8. At the end of operations it is possible to disconnect this keypad without generating tampers, so it is not necessary to delete it. If the keypad is included afterwards, it must not be acquired again and will be immediately active. Warning: if the service keypad is used, it is not possible to have 8 keypads in the system (the address 8 has been already assigned, therefore it will be possible to connect 7 keypads max.).

5 SYSTEM MAINTENANCE

5.1 MAINTENANCE PROCEDURE
The maintenance procedure is useful each time you want operate on the system, open the tamper of the control panel or any devices, or disconnect peripherals, without generating tamper events. In this phase any outputs of any alarm type will be activate and the telephone communicator will not be enabled to send calls, except for service calls (Test calls, Low battery, Mains fail, SIM expiration.). The Maintenance event, if programmed, can be sent with the telephone communicator to numbers with Numeric and Modem sending type. To enter in the maintenance procedure follow the instructions below: 1. Totally disarm the system 2. With the Master code enables the Installer code and exit from the Master menu. OK Menu). 3. Enter in the Installer menu (Code Installer 4. Press button repeatedly until MAINTENANCE appears on the display and confirm the selection with OK button 5. To confirm the entering in the maintenance procedure the special LED on the keypads turns on. 6. Open the control panel tamper In this condition it is possible to exit from the menu by pressing repeatedly ESC button on the keypad used to enter in the procedure. In fact the system stay in maintenance phase until the control panel tamper is open and the Maintenance LED stays on. It is suggested to exit from the menu, so that the keypad allows to display in real time, with Tamper and Open inputs LEDs, the temporary conditions of the devices subject to the maintenance procedure. Details are shown on the display with MENU , and OK buttons. Before exiting from the maintenance state and go back to normal operating modes, it is necessary to verify that no tamper situations are present on devices (tamper and 24h SAB inputs closed, serial Bus correctly connected), and finally close the control panel. As soon as the control panel tamper is closed, the Maintenance LED on the keypads turns off and from this moment on, every tamper attempt will be signalled, according to configurations.

5.2 OPTIONAL PARTS OR ACCESSORIES ADDITION
Optional devices and accessories may also be installed afterwards. In this case, before performing any operations: 1. Activate the maintenance state (see paragraph 5.1 Maintenance procedure) and open the control panel. 2. Disconnect from the control panel board both the battery power supply and the mains power supply. Disconnect also the power supply wire of the self-powered devices connected to +SR terminal pin. Follow the instructions described in paragraph 3.4 Mounting of expansions, optional parts and accessories in the control panel. At the end connect again the power supply (mains and battery).

5.3 DEVICE ACQUISITION

To acquire a new device on bus, for example a keypad or a reader, follow the instructions below: 1. Unpower the system by disconnecting from the control panel board both the battery power supply and the mains power supply. Disconnect also the power supply wire of the self-powered devices connected to +SR terminal pin. If present, disconnect also the additional power supply units. 2. Connect the new device to the bus. 3. Power again the system by following the procedure described in chapter 4.1 System power supply. The yellow LED of the new device blinks slowly for 10 seconds, then changes the blinking frequency. 4. In Installer menu select MAINTENANCE ACQUIRE item and confirm with OK button. 5. When ACQUIRE IN PROGRESS. appears on the display,press and release the device programming button to acquire it. 6. Complete the installation of the new device and exit from the maintenance menu. 7. Configure the new device with programming procedure.

5.4 DEVICE DELETING

To remove a device from the bus, for example a keypad or a reader, it is sufficient to delete its address following the procedure below: 1. Activate the maintenance state (see paragraph 5.1 Maintenance procedure). 2. In Installer menu select MAINTENANCE DELETE. 3. In the menu select the device type to be deleted and from the list that appears select the desired device. The device is not considered as connected to the control panel any more and its memory is reset to factory values. 4. Unpower the system by disconnecting from the control panel board both the battery power supply and the mains power supply. Disconnect also the power supply wire of the self-powered devices connected to +SR terminal pin. If present, disconnect also the additional power supply units. 5. Physically disconnect the device from the bus, taking care that the remaining devices stay connected to the bus. 6. Power again the system by following the procedure described in chapter 4.1 System power supply. NOTE: the control panel automatically provides to keep at least one keypad, so it is not possible to delete all the system keypads, because when you try to delete the last one, the operation is not accepted.