EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
FIRE ALARM CONTROL PANEL EOLO
INSTALLATION INSTRUCTIONS The company works in compliance with the certified quality system UNI EN ISO 9001 CE marking TELEDATA I-21132 MILAN – Via Giulietti 8 Tel +39 02 27201352 – Fax +39 02 2593704 Internet www.teledata-i.com E_mail
[email protected]
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
TABLE OF CONTENTS INTRODUCTION.................................................................................................... 4 GENERAL FEATURES ......................................................................................... 5 SPECIFICATIONS...................................................................................................................5 TECHNICAL DATA CONTROL PANEL.................................................................................6 CE MARK.................................................................................................................................7
KEYPAD FRONT PANEL AND ANNUNCIATORS ......................................... 8 WIRING CONNECTIONS................................................................................... 12 LAYOUT LOGIC BOARD (TD511/E) ...................................................................................12 CONNECTOR J6 ...................................................................................................................13 CONNECTOR JC1.................................................................................................................14 CONNECTOR J3 ...................................................................................................................14 CONNECTOR JD1A ..............................................................................................................14 CONNECTOR JD1B ..............................................................................................................14 CONNECTOR J5 ...................................................................................................................15 CONNECTOR JD3 ................................................................................................................15 CONNECTOR J8 ...................................................................................................................15 CONNECTOR P1...................................................................................................................16 CONNECTOR J10 (TD527/C Power supply board) .............................................................16 SOUNDERS AND LOADS CONNECTION TO SUPERVISED RELAYS OUTPUTS ...........17
COMMUNICATION LOOPS WITH DETECTORS/MODULES .................. 18 OPEN LOOP CONFIGURATION .........................................................................................18 CLOSED LOOP CONFIGURATION ....................................................................................20 LOOP CONNECTABLE DEVICES .......................................................................................21
POWER SUPPLY .................................................................................................. 22 NETWORK INPUT FEATURES ............................................................................................22 GROUNDING FEATURES....................................................................................................22 PANEL POWER SUPPLY FEATURES .................................................................................22
CENTRALISATION AND CONNECTIONS AT HOST COMPUTER ......... 24 POINT TO POINT CONNECTIONS WITH HOST COMPUTER .........................................24 LAN OR WAN CONNECTIONS ............................................................................................25 NET CONNECTIONS ON BUS 485 ......................................................................................27
CONNECTIONS TO PERIPHERAL DEVICES ON BUS RS 485.................. 29 ADDRESSING AND CONNECTIONS ON REMOTE KEYPAD TKBE ................................30 CONNECTIONS ON REMOTE PR40 PRINTER ..................................................................32
ADDRESSING AND PROGRAMMING DEVICES WITH FD P100............. 34 FW UPDATE CONTROL PANELS.................................................................... 37
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INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
INTRODUCTION In order to guarantee the correct and safe utilization of EOLO it is essential that the user as well as the installer observe the general safety procedures besides the safety measures indicated in this handbook. Specific indications are to be found in this handbook. Alarm and safeguard annunciators and/or symbols, as far as requested, are also applied on the equipment. The electronic boards are provided with semiconductors that are sensitive to electrostatic charges. For this reason the boards should be handled by their edges and their electronic components should not be touched. Carry out a good grounding in order to reduce the damageability and noise sensibillity. In the event of AC power failure the system continues serving only if a battery is connected to the system and for a limited period of time. During the phase of equipment planning the required autonomy should be taken into consideration in order to scale the batteries to be utilised. Disconnect the batteries, the AC power and any power supply before inserting or removing an electronic board and before carrying out any maintenance work on the control panel (except for the loading of a new FW version). Peripheral devices like detectors, modules, sounders etc. that are not compatible with the control panel can cause an improper operation of the control panel or even damage it. It is therefore necessary to utilise materials compatible with the Teledata control panels.
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
GENERAL FEATURES EOLO is a microprocessor-programmable control panel for fire detection with an analogue addressed system and an autonomous administration of the annunciator and warning procedures. The control panel is able to manage the fire detection through one or two analogue addressed lines. Every loop can control up to 240 IN/OUT detectors and modules. The system is provided with a 16-bit microprocessor with RAM, one flash memory and one eeprom memory for the non-volatile storage of the configuration data. The control panel can be programmed through its alphanumeric keypad or through a Windows-dedicated software, which is provided with the unit. As all TELEDATA products, EOLO can be centrally managed on the integrated monitoring and control system WINWATCH32 through lines RS232/485, TCP/IP and communication protocol CEI/ABI; the control panel complies with the standards EN-54/2 and EN-54/4 as well as with the harmonised European standards as far as the electromagnetic compatibility with the CE marking is concerned.
SPECIFICATIONS Compliance with EN54/2 1/2 analogue loops Possibility to control 240 IN/OUT detectors and modules Back-light display of 2 rows with 40 characters each Membrane keypad with function keys Status LED: Alarm Ground fault Fault Loop fault System fault Excluded inputs Battery charger faul Sounder fault Battery no present Monitored out fault Power supply presence
Test Exclusions Sounder exclusion Monitored out exclusion Battery status
2 serial interfaces: RS232 To centralization or monitoring HOST RS485 To remote TKBE keypad, synoptic table or 20-column printer Power supply 230 Vac 50 Hz Power supply output 27,6 Vdc 2,5 A Output for battery charger 27,6 Vdc 2 monitored relays outputs, programmable for external sounders, maximum load 1 A, maximum voltage 27,6Vdc. 1 alarm free-contact relay output with max. exchange potential 1 A 1 output free-contact relay for bypassed detectors/modules/areas messages with max. potential 1 A 1 output free-contact relay for fault messages with max. potential 1 A 1 output free-contact relay for technologic functions with max. potential 1 A Placeable battery: max. 2 x 17 Ah Page 5/37
EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
TECHNICAL DATA CONTROL PANEL
DATUM PLATE Primary voltage Primary absorption 230V~ fuse
230 Vac / 50 Hz 430 mA ~ F4Ah
ELECTRICAL FEATURES Secondary nominal voltage Minimum operating voltage Standby batteries External loads available current Standby absorption Monitored sounder line “Alarm 1” Relays Fault relays Relays
27,6 Vdc ( fuse 3,15 A FF) 10.8 V n° 2 (12Vdc/17Ah) 2.5 A 300 mA – 12V 1A – max 27,6Vdc Max 1A/30Vdc / 120Vac Max 1A/30Vdc / 120Vac Max 1A/30Vdc / 120Vac Max 1A/30Vdc / 120Vac
FUNCTIONAL FEATURES Operating keyboard Optical messages Acoustic messages Visualisation of the events Serial output for printer Serial output for PC Event log Working mode Programming/Management hardware key Number of analogue lines Exclusion of the analogue line I/O Modules / Detectors for each line Programming type Configuration of the analogue line Analogue lines connection Lenght of the detector line Type of cable
25 tasti – 25 push buttons Led Buzzer Display 2 X 40 charapter N° 1 – RS485 N° 1 – RS232 Max 384 Attended/Unattended Multilevel password 1÷2 loop Single – multiple 240 max Manual or by PC 32 software zones Open or closed loop 1500 mt max Shielded
MECHANIC FEATURES Protection level Cabinet Dimensions (WxLxD) Weight (without batteries) Painting Color Conduit holes
IP30 Aluminium (450 x 410 x 130) mm 6 Kg Epoxy resin RAL 7015 4 x 25 mm
ENVIRONMENTAL FEATURES Storage temperature Operating temperature Operating humidity (relative)
(-40 ÷ +70)°C (+5 ÷ +40)°C 90%
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
CE MARK All the Eolo control panels have to their inside the label, as in figure. You must not have removed for any motive.
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INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
KEYPAD FRONT PANEL AND ANNUNCIATORS
On the front side of the control panel, is placed the keypad and annunciators: Comand and alarm messages display; Power supply led indicators Alarm, fault and status led indicators; Alfanumeric keypad Programming, control and operation keys; Enter key with cursors for menu scrolling.
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INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
DISPLAY The control panel is furnisched with a 2 X 40 lcd display, which shows any kind of alarm or fault and give the possibility to users to program the panel.
POWER SUPPLY LED INDICATORS Under the light display are presents some leds indicating how the control panel is fed and power supply/battery charger system faults. They are: - 230 V Power supply presence (green led) indicating with fixed led on, the 230 Volts power supply presence - power supply from battery (yellow led) indicating, with fixed led on, the unit supplied from battery because the 230 Volts power supply isn’t present. Moreover (with and without 230 Volts power supply presence) the led blink with battery voltage below 21,6 V. - battery no present (yellow led) indicating, with fixed led on, battery not installed into the panel or battery cables cut. - battery charger system fault (yellow led) indicating, with fixed led on, a fault or anomaly functionality regarding battery charger system present into the panel
ALARM / FAULT LED INDICATORS ALARM/FAULT ALARM
LED COLOUR RED
FAULT
YELLOW
MONITORED OUT FAULT
YELLOW
SOUNDER FAULT
YELLOW
LOOP FAULT
YELLOW
GROUND FAULT
YELLOW
SYSTEM FAULT
YELLOW
FUNCTION LED fixed on in the event of fire detection alarm and blinking in the gas module pre alarm event or in the garrisoned/not garrisoned pre alarm event. LED on to indicate that a fault is presents (normally turned on with fault specific led example loop fault led) LED on to indicate cut or short circuit on cables used to connect the load to the monitored out LED on to indicate cut or short circuit on cables used to connect the load to the sounder out LED on to indicate a fault on loop connection cables (cut or short circuit) or sensor/module fault. LED on in the event of a ground leakage of the device. It is therefore necessary to react in order to solve the problem. LED on to indicate a hw fault relating to fw flash memory or eeprom panel configuration data. Moreover the led is turned on after hw reset (example watch dog reset)
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INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
STATUS LED INDICATORS ALARM/FAULT
LED COLOUR OUT YELLOW
MONITORED ACIVATION SOUNDER ACTIVATION EXCLUSIONS
YELLOW YELLOW
MONITORED OUT YELLOW EXCLUSION YELLOW SOUNDER EXCLUSION YELLOW TEST
FUNCTION LED on to indicate monitored out relay activation LED on to indicate sounder relay activation LED on to indicate programmed panel exclusions (modules/detectors, areas, relays, ecc ecc exclusions) LED on to indicate monitored out relay exclusion LED on to indicate sounder relay exclusion LED on in case a test of the control panel and of the device has been carried out.
Alfanumeric keypad The alphanumeric keypad has 12 multifunction keys. The panel lamp test (optical led and display). NO. 1 2 3 4
CHARACTERS 1–A–B-C 2–D–E-F 3–G–H-I 4–J–K-L
NO. 5 6 7 8
CHARACTERS 5–M–N-O 6–P–Q-R 7–S–T-U 8–V–W-X
* key can be used to start the NO. 9 * 0 #
CHARACTERS 9 – Y – Z - ) - spazio * - LAMP TEST 0 - & (AND) -| (OR) - ( #
PROGRAMMING AND CONTROL KEYS On the right side of the alphanumeric keypad there are 8 programming and control keys. They can be used only after entering a password. KEY
PASSWORD (default)
PROGRAMMING
33333
OPTIONS
33333
STATUS EXCLUSIONS
22222
FUNCTION Enter the programming menus of the control panel Modify easily the device without entering the programming options. For instance, device autoprogramming, modify the detectors sensitivity, modify the centralization and the internal clock. No password is needed for this key; verify the status of detectors, modules or areas, logic functions, centralization and chronological order of the events. One detector, one module,a complete area, a peripheral (TKE terminal) or Page 10/37
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INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
SILENCE RESET
22222
#…
SOUNDER SILENCE/RESTART
22222
TEST
22222
September 2010 Rev. 2.3
relay exclusion. In case something is excluded in the system, the respective LED goes on. No password is needed for this key; silence the beep and switch off the silenciables programmed outputs zone. Reset completely the control panel after a alarm or fault status (turn off leds, relays ecc ecc) Pressing this key with panel into pre alarm sate (with garrisoned/not garrisoned functionality programmed) force immediately the panel into alarm state. During fire alarm status it is possibile to silence and after to restart sounder relay. Carry out tests on the device and on the plant.
ENTER KEY AND CURSOR KEY By means of the cursors and the enter key it is possible to surf within the different menus and to modify or control the device and plant status. These keys are: ENTER key (LEFT) key (RIGHT) key (UP) key (DOWN) key
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INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
WIRING CONNECTIONS LAYOUT LOGIC BOARD (TD511/E) P1
JF1
J3
SW1
JA1
JA
KK2
J6
JD1A
JD9
JC1
JD1B
J5
J8
JD3
SW2
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
Following elements have to be considered in order to install/service the control panel: Connector J6 for the wiring of the power supply sources of the board Connector JD1A 24 Vdc outputs Connector J5 for the wiring of detection detectors/modules loop Connector JC1 for the wiring of the peripherals bus RS 485 Connector JD1B outputs open collector general purpose (presently not managed, for future expansions) Connector JD3 for the wiring of various relay outputs Connector J8 voltage inputs for monitor outputs. Connector P1 for the wiring of communication cables with host computer Jumper JA for programming new board FW Jumper JA1 for panel program configuration enable/disable operation Connector J3 for the connection wiring to the optional board for control panel centralization Connector JF1 for the keypad connection Connector KK2 for the display connection Dip switch SW1 for HW board configurations Key SW2 for control panel HW reset Connector JD9 signal fro TD 527/C power supply / charger board. J3, JF1, JD9 are connectors with predefined wiring and should be connected to elements that are already installed in the control panel. The latter should be disconnected and reconnected only in case boards have to be replaced or added. The respective wiring of the connectors J6, JC1, J3, JD1A, JD1B, J5, JD3, P1 depends on the equipment configuration in which the control panel is connected. Therefore the respective lug functions of the mentioned connectors will be specified hereunder.
CONNECTOR J6 LUG no. 1 2 3 4
NAME +12V GND GND +24V EXT
FUNCTIONALITY Input board power supply Mass Mass Input 24 volts external devices (already wired by Teledata)
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INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
CONNECTOR JC1 LUG no. 1 2 3 4
NAME L+ LGNDP NC
FUNCTIONALITY Line + bus RS 485 for peripherals Line – bus RS 485 for peripherals Mass
CONNECTOR J3 LUG no. 1 2 3 4 5 6
NAME TX TTL RX TTL CTS TTL RTS TTL GND +5V
FUNCTIONALITY Output data transmission on TTL level Input data reception on TTL level Input Clear to Send on TTL level Output Request to Send on TTL level Mass Output 5 volts for network card
CONNECTOR JD1A LUG no. 1 2 3
NAME +24 OUT +24 OUT GNDP
FUNCTIONALITY Output 24 volts for external devices Output 24 volts for external devices Mass
CONNECTOR JD1B LUG no. NAME 1 OC1 2
OC2
3
OC3
4
OC4
FUNCTIONALITY Output open collector general purpose (DO NOT CONNECT as it is presently not managed) Output open collector for day/night period indication Active = night period Deactive = day period Output open collector general purpose (DO NOT CONNECT as it is presently not managed) Output open collector general purpose (DO NOT CONNECT as it is presently not managed)
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INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
CONNECTOR J5 LUG no. 1 2 3 4 5 6 7 8
NAME L1 - OUT L1 + OUT L1 - IN L1 + IN L2 - OUT L2 + OUT L2 - IN L2 + IN
FUNCTIONALITY Line loop - out (loop1) Line loop + out (loop1) Line loop - in (loop1) Line loop + in (loop1) Line loop - out (loop2) Line loop + out (loop2) Line loop - in (loop2) Line loop + in (loop2)
CONNECTOR JD3 LUG no. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
NAME SIR+ SIRUSCM+ USCMNC FAULT C FAULT NA FAULT NC TECN C TECN NA TECN GNDP NC ALARM C ALARM NA ALARM NC BYPASS C BYPASS NA BYPASS GNDP
FUNCTIONALITY Output monitored sounder relay negative output monitored sounder relay Output monitored general alarm relay negative output monitored general alarm relay Contact fault annunciator relay normally closed Contact fault annunciator relay common Contact fault annunciator relay normally open Contact technological function relay normally closed Contact technological function relay common Contact technological function relay normally open Electrical Mass Contact alarm relay normally closed Contact alarm relay common Contact alarm relay normally open Contact bypass relay normally closed Contact bypass relay common Contact bypass relay normally open Electrical Mass
CONNECTOR J8 LUG no. 1 2 3
NAME Vdc SIR GND Vdc USCM
FUNCTIONALITY power supply to sounder monitor output GND power supply to monitor output Page 15/37
EOLO Eolo_installation_23 4
GND
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
GND
CONNECTOR P1 LUG no. 1 2 3 4 5 6 7 8 9
NAME GND RX TX NC GND L+ RTS CTS L-
FUNCTIONALITY Electrical Mass Input data reception from host Output data transmission for host Not connected (do not use it) Electrical Mass Line + for connection RS 485 Output Request to Send for host Input Clear to Send for host Line – for connection RS 485
CONNECTOR J10 (TD527/C Power supply board) J10
LUG no. 1 2 3 4 5 6
NAME OUT+ OUT+ OUTOUT- 13Vcc + 13Vcc
FUNCTIONALITY Output 27,6 volts Output 27,6 volts Electrical Mass Electrical Mass Electrical Mass Output 13 volts
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INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
SOUNDERS AND LOADS CONNECTION TO SUPERVISED RELAYS OUTPUTS The outputs 1 and 3 of the connector JD3 are used for the loads connection. Output 1 has to connect at sounder loads only. Output 3 can be connect to remote fire alarms transmission devices or to fire extinction devices. It is possible to connect non-autofed or autofed loads to these outputs. The control panel will diagnose the presence of a cutting or of a short circuit on the connection line of the loads. In the event of one of these cases the control panel will indicate it by means of an optical1 (respective legend on the display, yellow LED for sounder fault or yellow LED for monitored out is on) and acoustic annunciator (beep is on). It is important to keep in mind the following instructions: Connect a circuit with a 6.8 Kohm ¼ Watt and DI diode. Normally these resistors and diodes are provided with the control panel
Dl Lug 1 or 3
End of line resistor
Lug 2 or 4
The supply voltage of these relay outputs should be connect to J8. If the supply voltage is not connected, the control panel will indicate it by means of an optical2 (respective legend on the display, yellow LED for sounder fault is on) or acoustic annunciator (beep is on). Do not connect loads from the control panel whose cables have a resistance value higher than 50 ohm Always connect the command pulse to the pins 1 or 3 and the electrical mass to the pins 2 or 4 The cut and short diagnostics of these outputs is activated only when the load is deactivated (that is when the control panel does not report any alarms). The supply voltage connection diagnostic (on J8) it always active. 1 2
Please refer to the programming and user instructions Please refer to the programming and user instructions Page 17/37
EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
COMMUNICATION LOOPS WITH DETECTORS/MODULES The Eolo control panel communicates with detection and control devices that are addressable through a double-wire line (loop). It is possible to use the control panel within equipment endowed with open loop configuration as well as equipment endowed with closed loop configuration3. According to the effective standards, in the event of equipment with more than 32 modules/detectors it is necessary to use the closed loop configuration.
OPEN LOOP CONFIGURATION
L1+ OUT
Eolo control panel
L1 - OUT
Detector
Module
In this type of configuration the lines L+ and L- OUT (on the pins L1 – OUT, L1 + OUT or L2 – OUT, L2 + OUT, on the connector J5) are used. It is possible to connect up to 32 detectors and modules (in and out) on the line. It is important to keep in mind the following instructions: Use the TWISTED and SHIELDED 2-conductor type of cable The total line length should not exceed the distance in meters indicated in the following table LENGTH Up to 1250mt Up to 1850mt Up to 2500mt Up to 3500mt Up to 5000mt
TYPE OF CABLE 2x 0,5 mmq 2x 0,75 mmq 2x 1 mmq 2x 1,5 mmq 2x 2,5 mmq
The line resistance should not exceed 100 ohm The line cables have to be installed on a dedicated path The cables have to be placed at a proper distance from the power line
3
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
L1+ OUT Eolo control panel
L1 - OUT
Leg A
Leg B
With this configuration it is possible to shunt multiple legs from the line, as described in the picture above. It is important to keep in mind the following instructions: Use the TWISTED and SHIELDED 2-conductor type of cable The total length of all legs (all legs length sum) should not exceed the maximum measure according to the used cable cross section area, as described for the open loop configuration The total resistance from the control panel clamps to the end of every leg should not exceed 100 ohm
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
CLOSED LOOP CONFIGURATION
L1 + OUT L1 – OUT
Input module
Detector
Call point Output module
Eolo control panel
L1 + IN L1 – IN Input module
Detector
Call point
In this type of configuration the lines L- e L+ OUT (on the pins L1 – OUT, L1 + OUT or L2 – OUT, L2 + OUT of the connector J5) and L- and L+ IN (on the pins L1 – IN, L1 + IN, or L2 – IN, L2 + IN, again of the connector J5) are used. It is possible to connect up to 240 detectors and modules on the line (IN and OUT). It is not necessary to place an insulating module between every 32 elements because every device (detector/module/call point/sounder) is provided with an incorporated line insulator. It is important to keep in mind the following instructions: Use the TWISTED and SHIELDED 2-conductor type of cable The total line length (between OUT and IN) should not exceed the maximum measure according to the used cable cross section area, as described for the open loop configuration The line resistance should not exceed 100 ohm The line cables have to be installed on a dedicated path The cables have to be placed at a proper distance from the power lines
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
LOOP CONNECTABLE DEVICES It is possible to connect the following devices on the loop: SF1000 optical smoke detector SF3500 temperature detector, programmable as thermovelocimetric at 58 °C (A1R category) or as thermal at 78 °C SF2000 optical + thermovelocimetric detector at 58 °C (A1R category) FDVMI100 supervised IN module FDVMC100 supervised OUT module FDVMC120 not-supervised OUT module FDVMM100 supervised IN and supervised OUT module FDVMM120 supervised IN and not-supervised OUT module FDS1000 loop addressable sounder BS100 bases for detector installation SF1000, ST3500, ST2000 All above mentioned devices can be addressed by means of the appropriate programming tool FD P100. By means of the same tool it is also possible to programme the type of functionality of the temperature detectors SF3500 and to read some basic parameters of the different devices. In order to read more about how to use the above described tool, please refer to the chapter ADDRESSING AND PROGRAMMING DEVICES WITH FD P100 of this handbook. It is important to keep in mind the following instructions: All above mentioned devices are provided with an incorporated line insulator. This element, which is installed in the devices, is connected to the line. It is therefore necessary to strictly observe the line wiring instructions (line – input, line – output) when any kind of device is going to be connected to the loop, as described in the data sheet (connection instructions sheet) of the device It is necessary to strictly observe the instructions concerning the input/output loads connection described in the data sheet of all input/output devices (input/output modules)
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INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
POWER SUPPLY NETWORK INPUT FEATURES The control panel has to be installed according to the national installation standards. It is requested to carry out a connection to a separated AC line that has to be marked with the label FIRE DETECTION SYSTEM. The connection wires have to have a proper cross section area and a minumum insulation of 600 V. The network input has to have the following features: Supply voltage 230 Vca Frequency 50/60 Hz
GROUNDING FEATURES The grounding installation has to be carried out according to the CEI and ISPLES standards and with a resistance lower than 10 ohm.
PANEL POWER SUPPLY FEATURES The control panel is provided with a power supply / battery charger board ( TD527/C) that feeds the different electronic boards and the detectors loop lines. Moreover the power supply provides the standby battery with charging voltage (pin 1 and 2 of the connector J8) and the external loads of the control panel with operating voltage (pin 1, 2, 3, 4 of the connector J10). Following features are useful for the system installation: Output operating voltage 27,6 Volts +/- 10% 2,5 A max Voltage of battery charger 27,6 Volts 700mA Threshold value run-down battery 21,6 Volts Threshold value battery release 20,4 Volts The battery charger section works as follows: 1. In the event of power failure the control panel is fed by the standby battery, the green LED for Power on goes off and the adjacent yellow LED for Battery remains on. 2. In case the battery voltage falls under the discharge threshold value, the yellow LED for Battery blinks and an acoustic (beep is on) and optical annunciator (message on the display)4 is activated. 4
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INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
3. In case the battery voltage falls under the release threshold value, the battery will be completely released from the control panel. The latter will have no power. In order to restart the control panel it will be necessary to restore AC power and to replace or recharge the battery. 4. If a battery in the control panel is not connected until the next battery control carried out periodically by the control panel, an acoustic (beep is on) and optical (message on the display) annunciator signalling that the battery in the control panel is missing is activated. 5 As far as the operating +27,6 Vdc power supply section for external loads is concerned: 1. The voltage output is protected against short circuits. 2. In the event of a short circuit an acoustic (beep is on) and optical (message on the display) annunciator is activated.6 The charger is provide with temperature control of the battery charge in conformity to EN 54-4.
5 6
Please refer to the programming and user instructions Please refer to the programming and user instructions Page 23/37
EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
CENTRALISATION AND CONNECTIONS AT HOST COMPUTER The control panel can be connected to a host computer by means of a point-to-point connection or online by means of an appropriate LAN interface.
POINT TO POINT CONNECTIONS WITH HOST COMPUTER
Eolo control panel
These types of configuration can be carried out through serial cables that connect the host computer directly to the control panel through the connector P1. They are used for: Point-point connection with host provided with WinWatch32 supervision program Point-point connection with host provided with WinLocal teleprogramming program Point-point connection with host provided with program to download the new FW version In the event of a connection to the host computer equipped with the WinWatch32 or WinLocal program the connection cable has to be configurated as follows: Host computer 9 pin Pin 2 Pin 3 Pin 5
Connected to
Control panel conn. P1 Pin 3 Pin 2 Pin 5 Jumper between Pin 7 Pin 7 and Pin 8 of P1 Jumper between Pin 7 Pin 8 and Pin 8 of P1
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
In the event of a connection to the host computer equipped with the program to download the new FW version, the connection cable has to be configurated as follows: Host computer 9 lug Pin 2 Pin 3 Pin 5
Connected to
Control panel conn. P1 Pin 3 Pin 2 Pin 5
It is important to keep in mind the following instructions: Only the cables specified in the tables above have to be connected The length of the connections should not exceed 15 meters; if possible, use a shielded cable
LAN OR WAN CONNECTIONS
Eolo control panel
LAN OR WAN
Eolo control panel
By means of this configuration it is possible to connect one or more control panels in a LAN or WAN environment and monitor them from a host provided with centralized supervision functionality. It is necessary to install a PT-LAN network interface card in the control panel. The network interface card will be connected to the main board through the connector J3, as indicated hereunder:
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INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
Pin 6
conn, j3 Pin 1
September 2010 Rev. 2.3
Connector RJ-45
Pin 1 Pin 7
Flat cable
Network interface card PT-LAN
Main board
The PT-LAN network interface card is equipped with a flat cable. This flat cable has to be connected between the main connector of the network interface card and the connector J3 of the main board. One extremity of the flat cable is provided with a 7-pin polarized connector for the network interface card and the opposite extremity with 6-pin polarized connector for the main board. As the two above mentioned connectors are polarized, it is difficult and almost impossible to invert the insertion direction of the connectors and not to force their insertion. The control panel will be connected to the network through the connector RJ-45 (assemblied on the network interface card) by means of the network cable 10BASE-T. This cable has to be a crossed one if connected directly to the network interface card of a host PC or a direct one if connected to a HUB. The above mentioned types of cables are commercial products.
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
NET CONNECTIONS ON BUS 485
Eolo control panel
Interface 232/485
Eolo control panel
It is moreover possible to connect more control panels on a bus 485 network, as depicted above. For this purpose it is necessary to use an interface rs232/rs485 (Teledata C32/85 model) connected on the rs232 side to the supervision host PC and on the rs485 side to the other control panels. In order to connect a control panel to the bus 485, the pins 6-9 on the connector P1 and the pins 1-2-6-7 on the 10-pin connector on the rs232/rs485 converter have to be used. The connection cable has to be configurated as follows: Converter RS232/RS485 Lug 1 Pin 6 Lug 2 Pin 7
Connected to
Control panel conn. P1 Pin 6 Pin 9
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
In order to connect the host PC (9-pin serial connector) to the rs232/rs485 converter (25-pin connector) the connection cable has to be configurated as follows: Host computer 9 lug Pin 2 Pin 3 Pin 5 Jumper between Pin 7 and Pin 8 of the 9 pin connector of the host computer
Connected to
Converter rs232/rs485 (25 lug) Pin 2 Pin 3 Pin 7 Pin 8
It is moreover necessary to connect the pins 3 and 4 of the J3 connector by means of a jumper. It is important to keep in mind the following instructions: Only the cables specified in the tables above have to be connected The connection of the bus rs485 line cable should not exceed x meters. For this connections a shielded cable has to be used The length of the connections should not exceed 15 meters as far as the connection cable between host PC and rs232/rs485 converter is concerned; if possible, use a shielded cable
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
CONNECTIONS TO PERIPHERAL DEVICES ON BUS RS 485
Remote terminal
Eolo control panel
Remote terminal
Printer
The control panel can be connected to more remote peripherals on a dedicated rs485 bus. The remote peripherals are remote TKBE terminals (up to 4 max) and one printer, if any. Connectors used for this type of connection are: the connector JC1 for L+ and L- relating to rs485 bus. The connector JD1A for remote peripherals power supply As depicted in the picture above, the 4 pins of the mentioned connector have to be connected to all corresponding pins of the peripherals installed in the system. It is important to keep in mind the following instructions: The connection to the peripheral terminals (pin 1 and 2 on JC1) has to be carried out by means of a couple of shielded conductors. If a 4-conductor shielded cable (2 couples) is used, the two conductors that are not utilised have to remain open. The cable shield has to be connected to the ground nut clamp and to remain open on the other clamp only in the event of a connection to the printer. The supply line (pin 1 and 3 on JD1A) should have an appropriate absorption section in order to provide every peripheral with a voltage not lower than 20 V----(min. section 0.75 mmq) The power supply lines and the serial data lines (pin 1, 2 on JC1 and 1, 3 on JD1A) to the remote modules can be placed on a single duct. This duct has to be separated from all other ducts. Page 29/37
EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
The total length of the line (pin 1 and 2 on JC1) should not exceed the distance in meters as indicated in the table hereunder: Length Up to 1.200 m
TYPE OF CABLE Couples singularly twisted and shielded 19 -22 AWG (0.35- 0.65 mm2) for 1.200 m
The line resistance (pin 1 and 2 on JC1) should not exceed 40 ohm and the capacity should not exceed 55pF/m.
ADDRESSING AND CONNECTIONS ON REMOTE KEYPAD TKBE For the connection to the RS 485 bus the connector J4 has to be used, as depicted hereunder: J4
SW1
LUG n 1 2 3 4
NAME AL+ GND LL+
FUNCTIONALITY Input power supply + 24 volts Electrical mass power supply Line – bus RS 485 Line + bus RS 485
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
The dip switch SW1 has to be used for the keypad addressing as described hereunder: 1
8
On
Off
SWITCH no. 1 ON OFF ON OFF
SWITCH no. 2 ON ON OFF OFF
ADDRESS 1 2 3 4
SWITCH no. 3 ON OFF
BEEP Disabled Enabled
SWITCH no. 4 ON
LED TEST Led test follow panel led test
OFF
Led test blink with communication between panel and keypad
It is important to keep in mind the following instructions: All the remaining SWITCHES from no. 5 to no. 6 and no. 8 have to stay ON, whereas the SWITCH no. 7 has to stay OFF.
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
CONNECTIONS ON REMOTE PR40 PRINTER For the connection to the RS 485 bus the connector J10 has to be used, as depicted hereunder:
SW1
front tamper
J10
LUG n 1 2 3 4
NAME L+ LGND AL+
FUNCTIONALITY Line + bus RS 485 Line – bus RS 485 Electrical mass power supply Input power supply + 12 Volts
On the printer board is present a dip switch SW1. On this component will be possible to use only switch 5. Pratically, moving the switch from off state to on state and than move back it to off state we obtain to start a print test functionality. Do not touch the remaining switch on the printer board.
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
Following messages can be self printed from PR40: ************* PR40E DISABLED ***********when front tamper is open (opened printer) or back tamper is open (printer moved from the wall). In this case no allarm/fault are printed. ************* OUT OF PAPER ************* at the end of the paper availability
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
ADDRESSING AND PROGRAMMING DEVICES WITH FD P100 The programming unit FD P100 is the necessary tool for programming all loop addressable devices used for the fire detection control panels of Teledata. The main task of this unit is the address programming, by the installer, of the devices (detectors or modules) that have to be connected on the detection loop. Moreover the unit offers the possibility for the user to read some basic parameters of the devices (dirt level of optical detectors, analogue value, FW version, etc.). The unit is fed by a normal 9-volt battery.
(5)
(1) (2)
(6)
(3) (4) (7) Pict. 1: Programming unit FD P100
LEGEND Item (1) (2)
(3)
Addressing functionality “Write address” key “Read address” key. If kept pressed for at least 1 second, the Advanced functionality is activated “Increase address” key
“Move to previous visualization” key
(4)
“Decrease address” key
“Move to next visualization" key
(5)
Connection terminals to module to be programmed (red L+ black L-) Connection basis to detector to be programmed
(6)
Advanced functionality Return key to Addressing functionality
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EOLO Eolo_installation_23 (7)
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
Battery
UTILIZATION As soon as the 9-volt battery is appropriately positioned and connected, the programming unit is switched on and shows the Addressing functionality. If the keypad is not used for approximately one minute, the unit will switch off automatically. In order to switch it on again, press any key. -
Addressing functionality On the display the following sentence appears in this functionality:
Address 001 By means of the keys (3) and (4) it is possible to modify the address that appears on the second line of the display. As soon as the key (1) is pressed and the address is thus modified, the device programming is carried out. If the procedure is correct, the green LED of the device remains on. By using the key (2) it is possible to read the address of the device that is connected to the unit. -
Advanced functionality In order to enter this functionality starting from the Addressing functionality, it is necessary to keep the key (2) pressed for at least one second. In order to exit this functionality, press the key (2) again. The data on the display vary within this functionality according to the type of device that is connected to the unit, as described in the table hereunder: Type of device SF1000 SF2000 SF3500
FDVCP100
FDVMI100 FDVMC100 FDVMC120 FDS1000
Visualization type of device
Analogue Dirt value level
X
X
X
X
X
Type of Change Firmware Production Test temperature temperature version date date
X
Battery status
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
As soon as the Advanced functionality is entered, independently from the connected device, the type of device will be visualized on the display as follows (in the example hereunder an optical detector):
Dev Type Photo The two vertical arrows at the end of the upper line of the display indicate that there are other menus that can be visualized using the keys (3) and (4). When the type of device remains visualized, as depicted above, it is possibile to replace the device on the programming unit (for instance, replacing the optical detector with a temperature one). By pushing the key (1) the programming unit loads the type and all the specific data of the new detector. The display shows than the following message:
Dev Type Thermal In case of temperature detectors (only SF3500 model) it is possibile to programme in the Advanced functionality the type of operating procedure from A1R category (thermovelocimetric at 58 °C) to B category (thermal at high temperature 78 °C) and viceversa. Using the keys (3) and (4) it is possible to scroll the menus and to visualize the following message:
ThrTyp Std By pushing the key (1) the following message is displayed:
SelTyp Std By using the keys (3) and (4) on the lower line of the display the functions Std (A1R category) or High °C (B category) appear sequentially. As soon as the functionality is selected, press the key (1) in order to programme the functionality within the detector.
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EOLO Eolo_installation_23
INSTALLATION INSTRUCTIONS (TD511/E-F logic boards)
September 2010 Rev. 2.3
FW UPDATE CONTROL PANELS The FW update of the control panels is carried out by connecting the host pc and the connector P1 of the control panel through a serial cable, as described in the section POINT TO POINT CONNECTIONS WITH HOST COMPUTER of this handbook. The mentioned cable is usually provided with the control panel. The control panel is equipped also with an appropriate CD with: Software to be installed on the host PC (file FlashSta.exe) Latest version of the handbook for the utilization of the mentioned software and the FW update procedure (file fw_upd_eolo_vxx.pdf; the number of the handbook version can be founf in xx)
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